Training Guide: Tm-1842 Aveva Catalogue Cable Catalogue & Specifications
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Training Guide
TM-1842 AVEVA Catalogue Cable Catalogue & Specifications
1
AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
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Updates Change highlighting will be employed for all revisions. Where new or changed information is presented section headings will be highlighted in Yellow. Suggestion / Problems If you have a suggestion about this manual or the system to which it refers please report it to AVEVA Training & Product Support at [email protected] This manual provides documentation relating to products to which you may not have access or which may not be licensed to you. For further information on which products are licensed to you please refer to your licence conditions. Visit our website at http://www.aveva.com
Disclaimer 1.1
AVEVA does not warrant that the use of the AVEVA software will be uninterrupted, error-free or free from viruses.
1.2
AVEVA shall not be liable for: loss of profits; loss of business; depletion of goodwill and/or similar losses; loss of anticipated savings; loss of goods; loss of contract; loss of use; loss or corruption of data or information; any special, indirect, consequential or pure economic loss, costs, damages, charges or expenses which may be suffered by the user, including any loss suffered by the user resulting from the inaccuracy or invalidity of any data created by the AVEVA software, irrespective of whether such losses are suffered directly or indirectly, or arise in contract, tort (including negligence) or otherwise.
1.3
AVEVA's total liability in contract, tort (including negligence), or otherwise, arising in connection with the performance of the AVEVA software shall be limited to 100% of the licence fees paid in the year in which the user's claim is brought.
1.4
Clauses 1.1 to 1.3 shall apply to the fullest extent permissible at law.
1.5
In the event of any conflict between the above clauses and the analogous clauses in the software licence under which the AVEVA software was purchased, the clauses in the software licence shall take precedence.
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Copyright Notice All intellectual property rights, including but not limited to, copyright in this Training Guide and the associated documentation belongs to or is licensed to AVEVA Solutions Limited or its affiliates. All rights are reserved to AVEVA Solutions Limited and its affiliates companies. The information contained in this Training Guide and associated documentation is commercially sensitive, and shall not be adapted, copied, reproduced, stored in a retrieval system, or transmitted in any form or medium by any means (including photocopying or electronic means) without the prior written permission of AVEVA Solutions Limited. Where such permission is granted, AVEVA Solutions Limited expressly requires that the Disclaimer included in this Training Guide and this Copyright notice is prominently displayed at the beginning of every copy that is made. Licenses issued by the Copyright Licensing Agency or any other reproduction rights organisation do not apply. If any unauthorised acts are carried out in relation to this copyright work, a civil claim for damages may be made and or criminal prosecution may result. AVEVA Solutions Limited and its affiliate companies shall not be liable for any breach or infringement of a third party's intellectual property rights arising from the use of this Training Guide and associated documentation. @AVEVA Solutions Limited 2015
Trademark Notice AVEVA™, AVEVA Everything3D™, AVEVA E3D™, [AVEVA Tags], Tribon and all AVEVA product and service names are trademarks of AVEVA Group plc or its subsidiaries Use of these trademarks, product and service names belonging to AVEVA Group plc or its subsidiaries is strictly forbidden, without the prior written permission of AVEVA Group plc or AVEVA Solutions Limited. Any unauthorised use may result in a legal claim being made against you. Fluent is a trade mark of Microsoft Corporation. The Fluent user interface is licensed from Microsoft Corporation by AVEVA and use of the Fluent trademark is strictly forbidden. All other trademarks belong to their respective owners and cannot be used without the permission of the owner.
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CONTENTS 1
Introduction ............................................................................................................................9 1.1 1.2 1.3 1.4 1.5 1.6
2
Aim ..................................................................................................................................................... 9 Objectives.......................................................................................................................................... 9 Prerequisites ..................................................................................................................................... 9 Course Structure............................................................................................................................... 9 Using this Guide ............................................................................................................................... 9 Setting up the Training Course ..................................................................................................... 10
Catalogue Overview .............................................................................................................13 2.1 Objectives........................................................................................................................................ 13 2.2 The Catalogue Database Structure ............................................................................................... 14 2.3 Part World (PRTWLD) ..................................................................................................................... 14 2.4 Catalogue (CATA) ........................................................................................................................... 15 2.5 Specification World (SPWL) – Selection Tables.......................................................................... 16 2.6 Units ................................................................................................................................................. 16 2.6.1 Current Session Units................................................................................................................ 17 2.7 Forward Planning............................................................................................................................ 18 2.8 Paragon - General Application Menu............................................................................................ 18 2.9 The Catalogue Explorer.................................................................................................................. 19
3
Coding Systems ...................................................................................................................21 3.1 3.2 3.3 3.4
4
Why Have a Coding System? ........................................................................................................ 21 Standard Coding Systems ............................................................................................................. 21 Are Element Names Significant? .................................................................................................. 22 What System? ................................................................................................................................. 22
Component Creation............................................................................................................23 4.1 4.2 4.3
Enter Catalogue in the Training Project ....................................................................................... 23 Creating the Catalogue Hierarchy................................................................................................. 24 Automatic Naming .......................................................................................................................... 24
Exercise 1 – Create the Catalogue and Section Hierarchy ......................................................25 4.4 Creating a Component Category (CATE) Element – A Worked Example ................................. 26 4.4.1 Parameter Definitions ................................................................................................................ 27 4.4.2 Modifying the Components (SCOM) Element ........................................................................... 28 4.4.3 Creating a Component Copy ..................................................................................................... 28 4.4.4 Entering the Parameter Values ................................................................................................. 29 4.4.5 Copying the PTSE Element....................................................................................................... 29 4.4.6 Modifying the Component (SCOM) References........................................................................ 30
5
Pointsets...............................................................................................................................31 5.1 Displaying P-Points ........................................................................................................................ 32 5.2 Types of P-Points............................................................................................................................ 33 5.2.1 Cartesian Ppoint (PTCA) ........................................................................................................... 33 5.2.2 Axial Ppoint (PTAX) ................................................................................................................... 33 5.2.3 Mixed Ppoint (PTMI) .................................................................................................................. 33 5.2.4 Position (PTPOS) ...................................................................................................................... 34 5.3 Creating the Elconn Pointset – A Worked Example.................................................................... 34
Exercise 2 – Point Set Creation .................................................................................................36 6
Creation of Geometry Sets ..................................................................................................37 6.1
Creating a Geometry Set (GMSE).................................................................................................. 37
Exercise 3 - Geometry Set Creation for 2 and 3 Electrical Terminal connections .................41 7
Creating Cable Components ...............................................................................................43 7.1 Creating a Cable Component with Core Connections ................................................................ 43 7.2 Creating a Component Category (CATE) Element ...................................................................... 43 7.3 Modifying the Cable Components................................................................................................. 44 7.3.1 Creating Cable Cores ................................................................................................................ 45
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Exercise 4 – Creating Cable and Cable Core Sets....................................................................46 8
Creating Text Elements .......................................................................................................47 8.1 8.2 8.3
Detail Text ........................................................................................................................................ 47 General Text .................................................................................................................................... 48 Text requirements on Specifications............................................................................................ 48
Exercise 5 – Creating Text Elements ........................................................................................49 9
Component Part Families ....................................................................................................51 9.1 9.2 9.3 9.4 9.5
Creating a Part World ..................................................................................................................... 51 Creating a Part Family .................................................................................................................... 52 Creating Parts from a Category..................................................................................................... 53 Setting the Isometric Description ................................................................................................. 53 Setting the Component Weight ..................................................................................................... 54
Exercise 6 – Part Creation (Cables / Elconns) ..........................................................................55 10
Selection Tables................................................................................................................57
10.1 Creating a Cable Selection Table (Specification) .................................................................... 57 10.2 Adding a Table Heading ............................................................................................................. 59 10.2.1 Editing Heading Questions ........................................................................................................ 59 10.3 Removing / Deleting Items form the Selection Table .............................................................. 61
Exercise 7 – Selection Tables Creation (Cables / Elconns) ....................................................62 11 11.1 11.2
12 12.1
Design Parameters ...........................................................................................................63 Extra Design Parameters............................................................................................................ 63 Design Database Parameters..................................................................................................... 63
Cable Tray Components ...................................................................................................65 Creating a Cable Tray Component (Straight) - A Worked Example ....................................... 65
Exercise 8 – Cable Tray Component Creation..........................................................................71 Exercise 8a - RIGHT HAND BEND (CATE BEND.RH) ...............................................................72 Exercise 8b - OUTSIDE RISER (CATE RISER.OR) ....................................................................73 Exercise 8c - EQUAL TEE (CATE TEE.FL) – Optional Exercise...............................................74 12.3
Create GPART for Cable Tray - A Worked Example ................................................................ 75
Exercise 9 – Creating GPART elements for Cable Tray ...........................................................77 12.4 Creating Selection Table for Cable Tray - A Worked Example............................................... 77 12.4.1 Adding a Table Heading ............................................................................................................ 78 12.4.2 Editing Heading Questions ........................................................................................................ 79
Exercise 10 –Selection Table Creation for Cable Tray.............................................................81 13 13.1
Cable / Cable Tray Properties ..........................................................................................83 Creating Cable Component Properties Data – A Worked Example ....................................... 83
Exercise 11 – Creating Cable Properties ..................................................................................85 APPENDIX A - Catalogue Primitives .........................................................................................87 Primitive Elements..................................................................................................................................... 87 Box (SBOX)................................................................................................................................................. 87 Cone (SCONE)............................................................................................................................................ 87 Disc (SDISK) ............................................................................................................................................... 88 Sphere (SSPHE) ......................................................................................................................................... 88 Cylinder (SCYL) ......................................................................................................................................... 88 Cylinder (LCYL).......................................................................................................................................... 89 Dish (SDSH)................................................................................................................................................ 89 Snout (LSNO) ............................................................................................................................................. 89 Circular Torus (SCTO)............................................................................................................................... 90 Rectangular Torus (SRTO)........................................................................................................................ 90 Line (LINE) .................................................................................................................................................. 90 Tube (TUBE) ............................................................................................................................................... 90 Copyright © 2014. AVEVA Solutions Limited and its subsidiaries. All rights reserved.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 Slope – Bottomed Cylinder (SSLC).......................................................................................................... 91 Pyramid (LPYR).......................................................................................................................................... 91 Boxing (BOXI) ............................................................................................................................................ 92 User Defined Extrusion (SEXT) ................................................................................................................ 92
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CHAPTER 1 1
Introduction
This course is aimed at Electrical Designers with AVEVA Everything3D™ (AVEVA E3D™) Cable Design experience and aims to cover the creation of Electrical Connections, Cables, Cable Core Elements and Cable Tray specifications for use by Engineering teams within AVEVA Plant products.
1.1
Aim
The aim of this training guide is to provide knowledge and skills that will enable designers to be able to build and maintain Cable/Cabletray components and specifications.
1.2
1.3
Objectives
Understand CATALOGUE and its benefits.
Use the Catalogue Explorer to access the Catalogue, Properties, Design and Draft Databases.
Create component Categories and Components.
Create component Point Sets and Geometry Sets.
Create Part Families and GPART’s.
Set GPART reference attributes to 3D Model, 3D Templates, Draw Symbol Sets, etc.
Create and maintain Cable Specifications.
Create Properties Data.
Test the created items within the Model module.
Prerequisites
It is necessary to have a good understanding of the rules and conventions in AVEVA Everything3D. the participants should have already completed the AVEVA Everything3D Foundations course and the AVEVA Everything3D Cable Design course.
1.4
Course Structure
Training will consist of oral and visual presentations, demonstrations and set exercises. Each workstation will have a training project, populated with model objects. This will be used by the trainees to practice their methods, and complete the set exercises.
1.5
Using this Guide
Certain text styles are used to indicate special situations throughout this document. Button press actions are indicated by bold dark turquoise text. Information the user has to Key-in will be bold red text. Additional information notes and references to other documentation will be indicated in the styles below.
Additional information
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Refer to other documentation
System prompts will be bold and italic in inverted commas i.e. 'Choose function'. Example files or inputs will be in the courier new font, colours and styles used as before.
1.6
Setting up the Training Course
Login to AVEVA Catalogue using the details provided by the Trainer. They will typically be as shown below:
Project: TRA (Training) Username: A.CABLEMAN Password: A MDB: A.CABLE Click the Paragon tile.
From the Training group of the TOOLS tab, click the Setup button to display the Training Setup form
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Check the Setup Training Course checkbox, click the Apply button and Close the form.
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CHAPTER 2 2
Catalogue Overview
This chapter gives an overview of Catalogue functionality, describes the hierarchy of the Catalogue DB and the main component members, and introduces the user interface. The chapter will also highlight and stress the importance of having clear conceptual component designs before the design process begins. AVEVA Catalogue enables the catalogue designer to build and maintain the AVEVA Catalogue databases by creating or modifying Cable Components, Piping Components and Steelwork Components, and updating the associated specifications using a standardised graphical user interface (GUI). This training guide will cover items pertaining to Cabling components only. As with other AVEVA Product modules and databases, only authorised users have write access to them. Catalogue databases can be accessed in either Multi-write or Update mode. The User Interface for Multi-write Claiming and Querying is identical to that of the AVEVA E3D Model module. Catalogue’s graphical user interface presents the user with a series of forms on which they can define each catalogue component by entering the following types of data:
Create Hierarchy.
Categories or component type.
Components including.
Point Set or Structural Point Set references
Geometry Set or Structural Geometry Set references.
Detailing and Material Text references.
Part and Part Families.
Parts are used in the catalogue to fully describe a component, bringing together the component details Text, material text and component properties
The Catalogue application also allows the user to build and modify Specifications by creating.
Selection Tables.
Properties Data.
Part.
Property data such as weight, resistance, voltage etc. can be added in Catalogue.
A major feature of Catalogue is the way in which it can display a ‘live’ 3D view of the catalogue component on which the user is currently working. This allows the user to see the effects their changes have immediately, as they modify the component’s attribute settings.
2.1
Objectives
At the end of this session, the User will be able to:
Describe the hierarchy of the Catalogue database.
Name the top-level members.
Understand the need for forward planning.
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2.2
The Catalogue Database Structure
When using Catalogue, assuming that the appropriate access rights exist, the User is automatically directed to the first catalogue database available within the particular MDB. It is highly likely that there will, in fact, be more than one catalogue database in an MDB. On entry to Catalogue, there are four visible Worlds: Catalogue, Design, Draft and Property which, can all be modified from within the appropriate application. The diagram below shows the top level of the hierarchy within the Catalogue World. Catalogue WORLD
PRTWLD
TABWLD
NBRWLD
SPWL
CCTA
CATA
BLTA
Part World
(PRTWLD)
Connection Tables
(CCTA)
Table World
(TABWLD)
Catalogue
(CATA)
Nominal Bore World
(NBRWLD)
Bolt Tables
(BLTA)
Spec-world
(SPWL)
insu
(UNITS)
UNITS
The significance of four levels, Part-World (PRTWLD), Spec-world (SPWL), Catalogue (CATA) and Units are explained in detail as appropriate and, together with their successive hierarchies introduced by the following sections.
2.3
The WORLD is a different one from that in the design database. Co-ordination between the various ‘worlds’ is automatically established and maintained through the system database, which is effectively invisible to the user.
Part World (PRTWLD)
The Part World (PRTWLD) can own any number of Part Families (PRTELE). Part Families consist of a number of Parts (GPART) which, have reference attributes pointing to the 3D Model, material, Isodraft description, etc. Parts are used in the catalogue to fully describe the components without the need for a cable specification.
PRTWLD
PRTELE
PRTELE
PRTWLD hierarchy. PRTELE
PRTELE
GPART
GPART
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Is an administrative level of the
PRTELE Each element represents a GPART family corresponding to a specific GTYPE, e.g. CABL, etc. PRTELE’s contain a number of GPART elements, each of which fully defines an individual component. GPART elements have attributes as follows:
GPART
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2.4
Catalogue (CATA)
The members of a Catalogue (CATA) are Sections (SECT). These sections are for the convenience of users and generally it is accepted that the different generic types are contained in separate sections, i.e. Cables, Elconns, etc. The sections own categories (CATE), which would in turn own specific types within the same generic field, i.e. Power Cable, Signal Cable to various standards.
Although variable, the category usually owns four distinct ‘types’ of elements:
SCOM contains the parameters of the specific component and reference the 3D geometry (GMSE), the axial configuration (PTSE), the Dataset (DTSE) and the Bolt set (BTSE).
PTSE (Point Set) defines the axis system and it’s associated Ppoints. Components can share a PTSE which leads to further economy in data storage.
GMSE (Geom Set) contains a number of primitives which together describe the physical appearance of a component, and are related to a PTSE. Many components use the same GMSE.
SDTE contains the component detail text string and its isometric symbol reference (SKEY).
DTSE (Dataset) contains a number of DATA elements describing the component parameters and can be used in AVEVA E3D Model, e.g. to modify component properties.
BTSE (Bolt set) defines the bolting requirements of a flanged component.
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2.5
Specification World (SPWL) – Selection Tables
The purpose of Selection Tables in AVEVA E3D is similar to that in a manual design situation, in that it limits and controls the designer’s choice of components for a given application. The selection tables are created interactively using the Catalogue GUI. The Selection Tables are populated by selecting the specific GPARTs for use in the AVEVA E3D Model module. The Selection Table hierarchy is as shown below.
A TABGRO item may contain a number of selection tables that are related in some way. Each selection table (CTABLE) contains a Table Header (TABHEA) and at least one Table Item (TABITE). The Table Header defines the selection questions (TABHQU) for that table. The table items (TABITE) have references to the corresponding GPART and also hold that selection answers (TABITEM) for that part.
2.6
Units
The Units primary element in the first catalogue database can be used to set the default unit for Bore and distance for the project. Catalogue WORLD
UNITS
There are two main attributes Bore units (Bunits) and Distance units (Dunits) Bunits and Dunits can be set to 'MIL/LIMETRES' 'MM', ‘IN/CH’ or 'FIN/CH'
The catalogue should always be built in metric units.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
2.6.1
Current Session Units
When the User enters dimensional data in any window, the units applied are taken from default settings. The default units are specified independently for each unit type. To change the default units, select PROJECT Tab > Options > System > Units to display the Current Session Units window.
A system default file is supplied for both metric and imperial units:
%AVEVA_DESIGN_DFLTS%/system-current-units-Met.pmldat
%AVEVA_DESIGN_DFLTS%/system-current-units-Imp.pmldat
To set the default units for a specific project the Administrator must select the required units using the Current Session Units window and click Save. A file, %AVEVA_DESIGN_USER%/xxx-save-current-unitsMet.pmldat or %AVEVA_DESIGN_USER%/xxx-save-current-units-Imp.pmldat is then created. The created file must be copied to the project defaults folder and renamed to %xxxdflts%/project-current-unitsMet.pmldat or %xxxdflts%/project-current-units-Imp.pmldat. The User is then permitted to use the Project Defaults or use a saved file previously created. On Global projects, it is necessary to propagate the units settings file to all project satellites. If the "Other Data Transfer" mechanism has been implemented, (refer to Transfer of Other Data in Running Global Projects guide), project unit settings files could be propagated. Otherwise, the most practical method of propagating a project units file is simply to e-mail the file to all satellites and have the file copied to the appropriate project folder. In practice, project units files will be configured at the beginning of a project, and are unlikely to be changed frequently during the life of a project. The User Settings, Save and Restore buttons can be disabled by the Administrator which forces the User to use the project default settings. To disable the buttons, the Administrator must open the file saved in the project defaults folder and change the following line: !!comFormats.allowUserSaveFile = true to !!comFormats.allowUserSaveFile = false
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The Save and Restore buttons are now disabled. Although the user cannot save their user settings, they are still able to change the unit formats for the current working session. When the user ends the current sessions the unit format reverts back to the project defaults.
2.7
Forward Planning
Although Catalogue makes it very easy for the user to define Catalogue database items in terms of their connectivity (point sets), physical shape (geometry sets), dimensions (typically defined in terms of design parameters), and other relevant attributes, you must have a clear idea of exactly what each component is to look like and how its dimensions are to be defined before you begin. Catalogue uses the latest technology to automate the component design process as far as possible, but there is no substitute for a pencilled sketch of any new type of component, with the required design parameters marked on it, to guide the user as they enter their data on the various forms.
2.8
Paragon - General Application Menu
This section introduces the GENERAL Application Main Menu Bar and uses the Catalogue Explorer to navigate around the Catalogue, Design, Properties and Draft Database Worlds A default screen layout will be displayed comprising the Microsoft® Office Fluent™– based user interface and the Catalogue Explorer.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 Paragon’s main applications are:
PIPING
EQUIPMENT create / modify equipment part families and nozzle specs
ELECTRICAL create / modify electrical components and cable specifications
STRUCTURES
SUPPORTS
create / modify catalogue piping components and piping specifications
create / modify steelwork Profiles, Fittings or Joints
create / modify discipline support standards
This course covers the ELECTRICAL and EQUIPMENT applications which display the relevant forms for component data entry, modification, etc.
2.9
The Catalogue Explorer The catalogue explorer allows the user to navigate through and manipulate elements of the Catalogue, Design, Draft and Property worlds. There are a number of different ways in which the user can navigate around the hierarchy in order to access a specific element. The database navigation is carried out in exactly the same way as with all other AVEVA modules.
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CHAPTER 3 3
Coding Systems
This chapter discusses the need for a coding system in the cable catalogue and the format of the AVEVA coding system.
3.1
Why Have a Coding System?
AVEVA Plant suite of products require an element, such as a catalogue component, to have a unique name. With so many elements being ‘structured’, Paragon adheres itself to a coding system in a number of areas. Some examples are:
Catalogue References
GPART Names and References
Specification Components
Point Set (PTSE) Names
Geometry Set (GMSE) Names
Connection Type
Detail Text Names
The advantages of using a coding system are:
Duplication of names is avoided.
Creation of ad-hoc names generated on the spur of the moment is avoided and so names can be meaningful.
Relocation of elements within Paragon is made easier.
3.2
Standard Coding Systems
Standard AVEVA Catalogue has a catalogue containing approximately 50,000 components and has a developed coding system which allows the definition of unique names for the supplied and future components. Indeed, the coding system could generate in excess of 60 billion different names. There are real advantages to having a standard coding system for catalogue component names and connection types. Adopting a standard naming structure allows the following:
Direct transfer of components from the context of one project to another.
Queries relating to a component or range of components can be referred to precisely by name and without encountering conventions unique to a company.
An ‘off-the-shelf’ service, reducing ‘downtime’ at the start of a project.
The retrieval of components, at any stage, beyond those being used from a given range and required for a particular application.
Complete documentation - providing size ranges, parameters and symbol representation.
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3.3
Are Element Names Significant?
To AVEVA Catalogue, element names are inconsequential but to the User, as already suggested, a standard code would ease identification/ relocation. Conventions will vary from company to company but some conventions that are possibly not company orientated are:
Specification component-names are usually meaningful. i.e. /ELCONN-T3 would be an Electrical Connection with three terminal points.
Detailing text names - the name usually includes the short-code required by the detailing interface. i.e. /CABLE-POWER-FR/4x25-SDTE.
Branch numbers are usually prefixed by the cableway name, also electrical connections (Elconn’s) etc., by equipment name. i.e. /32P01B/E1.
3.4
What System?
The type of coding system very much depends on what is being coded, but at the offset two very basic questions need answering:
Should the system be meaningful?
What does the system need to include?
The answer to the first one is usually yes for reasons already given. The answer to the second is a little more involved and is best explained by an example. As the content up to now has basically revolved around the catalogue coding system, this would be a suitable area to investigate. Cable components can be classified by the following:
Manufacturer / Standard
Specific Standard
Type
Specific Type
End Connection
Rating
Material.
The material need not be included in the basic coding system because there is sufficient scope with other fields but individual users may add a material code, which is company orientated by simply editing the catalogue macros.
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CHAPTER 4 4
Component Creation
Paragon uses the latest technology to automate the component design process as far as possible, but there is no substitute for a precursory sketch of any new type of component; complete with the required design parameters marked. It is beneficial to mark the required Ppoints along with their number on the sketch; this is useful when creating Point Sets.
4.1
Diagrams of Ppoint layouts, as used by Paragon, can be found in the Isodraft Reference Manual.
Enter Catalogue in the Training Project Enter Paragon using the login user name and password described previously.
The Electrical application is used to create catalogue components:
CATALOGUE Tab
Selecting the ELECTRICAL application will add the CATALOGUE and SPECIFICATION tab to the new Microsoft® Office Fluent™-based user interface
SPECIFICATION Tab
In the Catalogue world, navigate to CATA-CABLE-A
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The database name is dependent on the login name.
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4.2
Creating the Catalogue Hierarchy
To create a new Catalogue (CATA) element, select the: CATALOGUE Tab then click Catalogue button from the Create group
Enter ELECTRICAL.CATA in the Name textbox. Set the Purpose to EQUI and click the OK button.
The CATA element has been created in the CABLE/CATA-A database.
Underneath CATA in the hierarchy are Section (SECT) elements. The Section allows the user to hold different components i.e. Elconn’s, Cables, etc. into manageable storage areas. Since an Elconn connects to an equipment element the purpose will be set to EQUI for this section. Click the Section button from the Create group to display the Create Section form:
Enter ELCONNS in the Name textbox. Set the Purpose to EQUI and click the OK button.
4.3
Automatic Naming
In order that all subordinate members of the hierarchy are given a meaningful name, Automatic Naming should be turned on at this point. Select the Naming button from the Configure group of the MANAGE tab to display the Naming Settings form Turn Auto Naming On by Ticking the Auto Naming On/Off checkbox and then clicking the OK button.
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Exercise 1 – Create the Catalogue and Section Hierarchy 1.
Create the Catalogue and Section Hierarchy as described in the previous sections.
2.
Set the Auto Naming to ON.
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4.4
Creating a Component Category (CATE) Element – A Worked Example
Select the SECT ELCONNS Section created in the excercise, and then select the Route Node Category button. Enter ELCONNS-TERM in the Name textbox.
Set the Purpose to EQUI and click the OK button to display the Model View form the Create group of the CATALOGUE tab to display the Create Category form.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 At this stage, the hierarchy has been created for the category /ELCONNS-TERM: SDTE
Text element containing the Isodraft description and SKEY.
PTSE Point Set administrative element. GMSE Geometry Set administrative element. DTSE Dataset administrative element. BTSE Boltset administrative element. TEXT
Text element, one for each component parameter with the attribute STEXT set to the parameter description.
SCOM Individual component element, one for each elconn.
4.4.1
Parameter Definitions
Before continuing, it is necessary to consider the parameters required to define the electrical connection component, the P-Point layout of the component, and the 3D geometry. For the Elconn component four parameters are required and the following information can be allocated. Parameter 1
Height
Parameter 2
Displacement
Parameter 3
Outside Diameter
Parameter 4
Inside Diameter The existing Parameter 1 description can be changed by selecting the parameter in the Parameter Definitions section and modifying the text in the Desc: text box. Modify the Parameter 1 to Height and click the Apply button. To create a new Parameter, click the New button under the Parameter Definitions section of the form and type Displacement in the Desc: text box. Click Apply. Repeat the procedure for the remaining two parameters. Notice the addition of TEXT elements to the hierarchy. Query the STEXT attribute of the TEXT elements as they are created.
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4.4.2
Modifying the Components (SCOM) Element
The newly components can be modified by selecting Component in the Model References pane.
The Model View form will update to display References.
Change the Name to /ELCONNS-T1 and the Description to Electrical Connection 1 Terminal. Click the Apply button and then click the Back button.
4.4.3
Creating a Component Copy
The component can now be copied to create a further two components in the category for the ELCONNS i.e. ELCONNS-T2, ELCONNS-T3. NAME
Height
Displacement
Outside Diameter
Inside Diameter
ELCONNS-T1
30
0
20
10
ELCONNS-T2
30
10
20
10
ELCONNS-T3
30
20
20
10
From the Model View form under the Model References section, select the Category /ELCONNS-TERM. At the bottom of the form select the row /ELCONNS-T1 using the arrow
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Select Copy
Select the new component and repeat the Copy operation to create a third component. Name the new components as described earlier using Components on the Model References pane.
4.4.4
Entering the Parameter Values
Complete the parameter values as shown here:
4.4.5
Fields are entered using the mouse or Tab Button.
Copying the PTSE Element Additional Point set (PTSE) elements are required, one for each Elconn as each connection will have a different number of terminals. To copy the PTSE element, navigate using the Catalogue Explorer to the PTSE ELCONNSTERM/PTSE_001 and then select the Copy Element button from the Create group of the HOME tab to display Copy Element form.
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Enter /ELCONNSTERM/PTSE_002 in the Rename textbox and click the Apply button. Repeat this process to create a third PTSE element and name it /ELCONNS-TERM/PTSE_003. Click the Cancel button to close the form.
4.4.6
Modifying the Component (SCOM) References
The components /ELCONNS-T2, /ELCONNS-T3 need to be referenced against the correct PTSE element as they represent different number of terminals. Select /ELCONNS-T2 in the component grid and select Component in the Model References pane. In the Catalogue Explorer navigate to the PTSE ELCONNS-TERM/PTSE_002 element and select the CE button next to the P-Point Set field to change the Point Set reference, the Description will also require changing i.e. Electrical Connection 2 Terminal
Click the Apply button to retain the changes. Similarly, modify the point set reference and the Description for /ELCONNS-T3
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CHAPTER 5 5
Pointsets
A Point Set is a definition of the axis system and associated P-points for an electrical components, piping components, cabletray components etc. Consider the construction of equipment in AVEVA E3D Model; the User defines the axis system of the equipment and primitive elements. A similar task is required in catalogue creation but whereas P-points are defined in a fixed relationship to the equipment geometry, in the instance of electrical components the primitives are effectively draped about the Ppoints. Ppoints must be defined before the component geometry is created. The Point Set provides information to several modules. Each P-point contains details of bore, connection type, relative positions and direction for all the components that use it. The Point Sets underpin a number of fundamental operations used in AVEVA E3D Model and Draw modules, and their configuration is of great importance when producing isometrics from Isodraft. One Point Set can be used for many similar components with varying dimensions. Consequently, the point sets are parameterised so that the dimensions can vary for each component size.
Z P2 - Default Component Leave Point
-X
Y
PO - (Component Origin)
-Y
X
P1 - Default. Component Arrive Point
P3 - (Branch P- point)
-Z Example Pointset for a TEE
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5.1
Displaying P-Points
To display P-points and P-point numbers graphically: Select the Graphics Settings button from the View group on the HOME tab to display the Graphical Settings form. Tick both the Ppoints Display, and Numbers check boxes, then change the Background Colour to White. Click the Apply button and Cancel the form.
To display the component Axes system, tick the Axes check box at the top of the Model View form as shown below.
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5.2
Types of P-Points
There are four types of P-point elements:
PTAXI
Axial P-points
PTCAR
Cartesian P-points
PTMIX
Mixture of Axial and Cartesian P-points
PTPOS
P-point defined by specifying a position expression PTCPOS and using PTCD to specify a direction expression.
The type used depends on the position and orientation of the point relative to the component origin.
5.2.1
Cartesian Ppoint (PTCA)
A PTCA is defined in terms of an axial direction (in any plane) and an explicit position (X, Y, Z coordinates). The significant attributes are:
Number
– point number.
Ptcdirection
– point direction. May be expressed as Y 45 X or N 30 E, etc.
Px, Py and Pz
– positional offsets from origin.
5.2.2
Axial Ppoint (PTAX)
A PTAX is defined in terms of an axial direction (parallel to X, Y or Z, or in the XY, YZ or ZX plane) and a distance along that axis. The significant attributes are:
Number
– point number.
Paxis
– axial direction. May be expressed as Y 45 X or N 30 E, etc.
Pdistance
– distance from the origin along the axial direction.
5.2.3
Mixed Ppoint (PTMI)
A PTMI is defined in terms of an axial direction (parallel to X, Y or Z, or in the XY, YZ or ZX plane) and an explicit position (X,Y, Z coordinates), i.e. a mix of PTCA and PTAX. The significant attributes are:
Number
– point number.
Paxis
– axial direction. May be expressed as Y 45 X or N 30 E, etc.
Px, Py and Pz
– positional offsets from origin.
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5.2.4
Position (PTPOS)
A PTPOS is defined in terms of an axial direction (in any plane) and an explicit position (X, Y Z co-ordinates). The significant attributes are: Number
– point number.
Ptcdirection
– axial direction. May be expressed as Y 45 X or N 30 E, etc. or by referencing another Ppoint, e.g. PDIR 1.
Ptcposition
– position. May be expressed as X0, Y0, Z0, by referencing any position attribute or by referencing another Ppoint, e.g. PP1.
5.3
If the expression contains references to attributes Catalogue cannot resolve then the PTPOS element will not be displayed correctly and will need to be tested in AVEVA E3D Model module to ensure it works correctly.
Creating the Elconn Pointset – A Worked Example
Select /ELCONNS-T1 from the component list on the Model View form. Select Point Set on the Model References pane, the bottom part of the form will change to Point Set References. Select Cartesian P-Point (PTCA) from the New pull-down menu. Enter data for the first P-point as follows: 1 P-point Number TERM Purpose NULL Pskey 0 ConnectionType 0 Bore Visible in All Pvisibility Y Direction Z PZ Axis 0 X Co-ordinate PARAM 1 Y Co-ordinate 0 Z Co-ordinate
Click the Apply button. The image below illustrates the PTSE required for /ELCONNS-T1.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 A new PTCAR element has been created under the PTSE administrative level. Note the attributes for PTCAR 1.
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Exercise 2 – Point Set Creation Create the P-Points for the SCOMs /ELCONNS-T2 and /ELCONNS-T3 using parameters shown below.
/ELCONNS-T2
SCOM
PointSet
/ELCONNS-T2
PTSE_002
/ELCONNS-T3
PTSE_003
/ELCONNS-T3
P-point (NUMB)
Purpose (PURP)
PZ Axis (PZAXI)
X Co-ordinate (PX)
Y Co-ordinate (PY)
1
TERM
Z
-PARAM2
PARAM1
2
TERM
Z
PARAM2
PARAM1
1
TERM
Z
-PARAM2
PARAM1
2
TERM
Z
0
PARAM1
3
TERM
Z
PARAM2
PARAM1
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CHAPTER 6 6
Creation of Geometry Sets
A Geometry Set (GMSE) is a key part of the catalogue, being visible to everyone connected by a project. In practice, creating a GMSE in PARAGON is a similar operation to creating EQUIPMENT with primitives in MODEL. CATALOGUE uses the same primitives which, aside from having no P-points, represent the same generic shapes together with levels and obstruction.
See Appendix A for Catalogue Primitives.
There are also two additional ‘flags’ associated with Catalogue primitives; one for tube representation (TUFLA) and one for centre line representation (CLFLA). It is normal practice to model three representations of a catalogue component, a Centre Line, a Detail and an Obstruction representation. Centre Line
Visible to designer when selecting the Centre Line representation in Model and Draw. This representation is often used on Drawings for clarity and may include weld blobs.
Detail
Normal representation used by the designer.
Obstruction
Used by Clasher and should include both hard and operational soft volumes. In the majority of cases the Obstruction volume can be the same as the detail volume.
6.1
Creating a Geometry Set (GMSE)
When creating equipment it is necessary to have a mental image of the equipment origin and its axis system. For Catalogue components, this information is provided in the form of a PTSE. Geometry Sets use parameters in the same way as Point Sets. In order to begin creation of the GMSE, it is necessary to be armed with the details of the relevant PTSE. Methods of documenting such information are dealt with elsewhere, but at this stage a pictorial method, such as the diagram below, would be instructive. Height PA1 P1 -PA2 P0
Y
Displacement
PA2 P2
X
(PTSE for ELCONNS-T2)
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
To create the GMSE, select Geometry on the Model References pane.
The reference section at the bottom of the Model View form is updated for Geometry References as shown:
To represent the Elconn, select a Positive LCYL (Cylinder) primitive from the pull down menu and tick the Show Geometry Plot check box.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 The primitive LCYL is shown in the graphical display area of the Model View form. The Show Geometry Plot assists the user to set the required attributes for each particular primitive. In this case, they are PAXI, PBDI, PDTI and PDIA. The Axis will normally correspond with the P-points definition. Set the following: Axis
Y
Dist to Bottom
0
Distance to Top PARAM1 Diameter
PARAM3
This is the OD of the Elconn
Purpose
TERM
To complete the primitive definition, set the Repr to Piping Detail. This will automatically set:
Drawing Level 0 to 10
Obstruction to Hard
Tube Flag On to display the outline of the elconn.
Click the Apply button. Uncheck the Show Geometry Plot tick box and, select Piping Detail from the top Representation Pull Down. To represent the hole in the middle of the Elconn, a negative cylinder will be used. Select Negative NLCY (Cylinder) primitive from the pull down menu. Set the following: Axis
Y
Dist to Bottom
0
Distance to Top PARAM1 Diameter
PARAM4
This is the ID of the Elconn
Purpose
TERM
Set the Representation to Piping Detail and set the Obstruction to None. Click the Apply button.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
The ELCONN geometry is now complete and is as shown below.
Holes Drawn can be enabled by clicking the Graphics Setting button from the View group on the HOME tab to display the Graphical Settings form and ticking Holes Drawn.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Exercise 3 - Geometry Set Creation for 2 and 3 Electrical Terminal connections 1. Create the Geometry Sets for the remaining two components created earlier, ELCONNS-T2 and ELCONNS-T3, and assign them to the relevant SCOM. 2. Create the Geometry
ELCONNS-T2
ELCONNS-T3
Hint: Below are the parameters used to create one of the Terminals on ELCONNS-T2
LCYL
NLCY
PAXI
P1
PBDI
0
PDTI
- PARAM 1
PDIA
PARAM 3
PAXI
P1
PBDI
0
PDTI
PARAM 1
PDIA
PARAM 4
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CHAPTER 7 7
Creating Cable Components
This chapter describes the creation of Cable Components (SCOM’s), Cables Core Sets (CCORSE’s) and the Cable Cores Elements (CABCOR’s).
7.1
Creating a Cable Component with Core Connections The ELECTRICAL application is used to create cable catalogue components:
Selecting the ELECTRICAL application will add the CATALOGUE and SPECIFICATION tab to access the additional menu options that relate exclusively to this application
Navigate to CABLE/CATA-A in the catalogue explorer and click the Catalogue button from the Create group on the CATALOGUE tab to display the Create Catalogue form.
Enter /CABLES in the Name textbox. Set the Purpose to CORE and click the OK button
Click the Section button from the Create group on the CATALOGUE Tab to display the Create Section form. Enter CABLES.MGCG in the Name textbox. Set the Purpose to CORE and click the OK button.
7.2
Creating a Component Category (CATE) Element
To create a new Category element, click the Cores Category button from the Create group of the CATALOGUE tab, to display the Create Category form. Enter CABLES.MGCG.POWER in the Name textbox. Set the Purpose to CORE and click the OK button to display the Model View form.
The Model View form is displayed.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
The cable Category hierarchy is as shown below:
7.3
CCORSE or Cable Core Set elements are specific to the Cable element, and contains CABCOR elements (discussed later) which hold detailed information about cable cores such as Core Tag, Number etc.
Modifying the Cable Components The new components can be modified by selecting Component in the Model References pane. The Category Creation form will update to display References.
Change the Name to CABLES.MGCG.POWER/1x25 and the Description to MGCG Power Cable 1 x 25. Set the Generic Type to CABL. Copyright © 2014. AVEVA Solutions Limited and its subsidiaries. All rights reserved.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Click the Apply button and then click the Back button.
MGCG Power Cable 1 x 25 where MGCG is the Make / Manufacturer, 1 is the number of cores and 25 is the core cross sectional area in mm2.
7.3.1
Creating Cable Cores Now from the Model References pane, select Cable Core Set, the bottom of the form changes to show the Cable Cores section. Click the New button. Enter the following information: Number (NUMB) Purpose (PURP) Description (DESC) Core Tag
1 CORE Core Connection Beige
Click the Apply button.
The purpose for the core connection could also be set to LIVE (Live), NEUT (Neutral), EART (Earth) etc.
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Exercise 4 – Creating Cable and Cable Core Sets 1. Re-name CCORSE CORES.MGCG.POWER/1x to CORES.MGCG.POWER/1x25 and Auto-name all CABCOR elements. 2. Create the following Cables and Cable core connection sets. SCOM CABLES.MGCG.POWER/2x25 CCORSE CORES.MGCG.POWER/2x25 CABCOR CORES.MGCG.POWER/2x25/1 Core Tag Black CABCOR CORES.MGCG.POWER/2x25/2 Core Tag Blue SCOM CABLES.MGCG.POWER/3x25 CCORSE CORES.MGCG.POWER/3x25 CABCOR CORES.MGCG.POWER/3x25/1 Core Tag Black CABCOR CORES.MGCG.POWER/3x25/2 Core Tag Blue CABCOR CORES.MGCG.POWER/3x25/3 Core Tag Brown SCOM CABLES.MGCG.POWER/4x25 CCORSE CORES.MGCG.POWER/4x25 CABCOR CORES.MGCG.POWER/4x25/1 Core Tag Black CABCOR CORES.MGCG.POWER/4x25/2 Core Tag Blue CABCOR CORES.MGCG.POWER/4x25/3 Core Tag Brown CABCOR CORES.MGCG.POWER/4x25/4 Core Tag Black The complete hierarchy should look as shown below:
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CHAPTER 8 8
Creating Text Elements
This chapter describes the creation of Detail Text and General Text elements and their attribute settings.
8.1
Detail Text
Each GPART element has a reference indicator - DETREF. This is a reference to the name of a Detail Text element (SDTEX). The purpose of a SDTEX is to carry textual information defining the various E3D catalogue components. This information is used when selecting component types in AVEVA E3D Model, in material take-off reports and as an output on the ISODRAFT isometric material list. SDTEX elements are owned by a SECT or CATE in the catalogue. Use the Catalogue Explorer to navigate to the Category CABLES.MGCG.POWER and then click the Detail Text button from the Create Group of the CATALOGUE tab to display the Detail Text Definition form. Name: CABLES.MGCG.POWER/1X25-SDTE Detail (Isodraft): Fire Resisting Power Cable; Fire proof; #coresxNom. Xarea(mm2): 1X25 Interface B: 0.6/1KV, PVC:INSU, PVC:SH, Galvanized steel wire braided, PVC:OSH Click the Apply button.
Each SDTEX element has the common attributes TYPE, NAME, LOCK and OWNER and in addition, SKEY, RTEX, STEX, TTEX, MtoLength, and MtoQuantity.
RTEX, STEX and TTEX are the actual text strings carried by the DTEX element.
Detail (Isodraft) is the field for the RTEX. This identifies the default used by Isodraft.
Interface B is for STEX creation and Interface C for TTEX. Either can be used in place of RTEX.
By default, ISODRAFT uses RTEX to generate component descriptions, but it is also possible to use STEX or TTEX for the same purpose. This allows three different descriptions to be used for components. In some European companies, this has been used to provide different language output formats.
The fields Length and Quantity relate to the use of additional material take-off data in ISODRAFT. The value, to which these attributes (MtoLength & MtoQuantity) have been set, will be output on the ISOs only if the MTOR attribute has been set in AVEVA E3D Model for that component. The MTOR must be set to a relevant GPART reference or SPREF, which selects the DTEX and MTEX information plus any length (MtoLength) or (MtoQuantity) which is set. This does not apply to the cable elements.
If both are set then only the Length will be shown. If the Quantity is required then the Length must be unset to allow this as only one attribute may be displayed.
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8.2
General Text
The Text is a general element that can occupy many positions in the hierarchy. It can be used to store additional information about an owning or adjacent element. The TEXT element should not be confused with the SMTEX and SDTEX elements described above. The text itself exists as the STEX attribute of the TEXT. Use the Catalogue Explorer to navigate to the Category CABLES.MGCG.POWER and then click the Text button from the Create group on the CATALOGUE tab to display the Text Definition form. Set the Text: to High Voltage Cable
Click the Apply button, and Cancel the form.
8.3
Text requirements on Specifications
When creating a new specification, a TEXT element is created as the first item. This TEXT element is required by the AVEVA E3D Model moule. If the TEXT element is not present, and it is not the first item, or does not have its STEX set correctly, the specification will not be displayed on the Specification Selection Form. The STEX should be set to one of the following depending on what the specification is to be used for.
STEX
’PIPING’...
for pipework components
STEX
’TRAY’...
for cable tray components
STEX
’HVAC’...
for HVAC components
STEX
’STEELWORK’...
for steelwork components
STEX
’INSUL’...
for Insulation
STEX
’TRACE’...
for tracing.
On cable tray Specifications an additional TEXT element is required. The element should be the last member, after all the Selectors, and should have its STEX set:
STEX ’2400’...
Default cable Tray Fixed section Lengths
If these rules are not followed, the result will be that the use of the spec is by entry on the command line only and not by the Graphical User Interface.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Exercise 5 – Creating Text Elements 1.
Create a Detail Text for each of the components previously created in Exercise 3.
Detail (Isodraft) text string Fire Resisting Power Cable; Fire proof; #coresxNom. Xarea(mm2): #x25
Replacing # with the correct number of cores
(Interface B) text string 0.6/1KV, PVC:INSU, PVC:SH, Galvanized steel wire braided, PVC:OSH 2.
Modify the General Text element to set the Stext to High Voltage Power Cable and rename the TEXT element to be CABLES.MGCG.POWER/TEXT/1
The Catalogue hierarchy should now look as shown below:
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CHAPTER 9 9
Component Part Families
GPART Families and elements are used in the catalogue to fully define a component without the need for a specification. The structure of the hierarchy is as follows: PRTWLD
PRTELE
PRTELE
PRTELE
PRTELE
GPART
GPART
GPART
PRTWLD is an administrative level of the hierarchy. Each PRTELE element represents a GPART family corresponding to a specific GTYPE, e.g. ELBO, INST, REDU, etc... PRTELEs contain a number of GPART elements, each of which fully defines an individual component. GPART elements have attributes as follows: Reference Attributes
9.1
Type Attributes
Catref
Catalogue Reference
Pritype
Primary Type e.g. ELBO
Detref
Detail Reference
Sectype
Secondary Type e.g. BW
Matxt
Material Reference
Cmpref
Properties Reference
Bltref
Bolting Reference
Tmpref
Template Reference
Drssref
Drawing Symbol Reference
Srftref
Surface Treatment
Creating a Part World Navigate to CABLE/CATA-A in the catalogue explorer. Click the Part World button from the Create group of the CATALOGUE tab to display the Create Part World form. Enter CABLES.PRTWLD in the Name textbox. Set the Purpose to CABL Click the OK button.
If the purpose required is not an option in the pull-down menu, the user can type in the required purpose.
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9.2
Creating a Part Family
Click the Part Family button from the Create group of the CATALOGUE tab to display the Create Part Family form. Enter MGCG-PARTS in the Name textbox. Set the Purpose to CABL Click the OK button; this will display the Part Family form.
The Part Family form allows users to create and modify GPARTs using various options available in the Tasks pane. The View and Edit Properties section allows users to : General Attributes – this allows users to modify general attributes such as Name, Description, Type, Purpose etc. for any existing GPART elements. References – this allows users to modify various references on existing GPART elements to other E3D elements such as 3D components, Isometric Descriptions, Physical Properties etc. Navigate to 3D Model/Selected Part - this option navigates user to its respective position in the hierarchy.
Modify 3D Model – this displays the Model View form for the selected GPART. The Create and Delete Parts section allows users to :
Create a New Part – this allows users to create a new GPART without any references and attributes assigned to it.
Create Copies of Selected Part – this allows users to copy a selected part from the grid.
Create Parts from Category – this allows users to create new GPART(s) from an existing category of components. Users can either navigate directly to the CATE element before selecting this option or search for the specific category.
Create Parts From Template Area – this allows users to create new GPART(s) from an existing Template Area within a design database.
Delete Selected Parts – Deletes the selected parts in the grid from the hierarchy.
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9.3
Creating Parts from a Category
Using the Catalogue Explorer, navigate to the Category CABLES.MGCG.POWER. To create GPARTs from the category created previously, click the Create Parts from Category link label under the Create and Delete Parts section of the Part Family form. The grid on the Part Family form should automatically be populated with the newly created GPART elements.
Select /MGCG.PARTS/GPART_001 from the grid and click the General Attributes link label. Enter the following in their respective textbox: Name:
E/MGCG/POWER/1x25
Type:
CABLE
Subtype:
POWER
Description: Fire Resisting Power Cable; Fire proof; #coresxNom. Xarea(mm2): 1X25 Click the Apply Changes button and then click the Back to Tasks link label.
9.4
Setting the Isometric Description
From the Tasks panel select References under the View and Edit Properties section. From the Reference list select Iso Description Navigate to SDTE element CABLES.MGCG.POWER/1X25-SDTE in the Catalogue Explorer.
Click the CE button in the Tasks > References panel. The Detref textbox should now be populated with the name of the selected SDTE element. Click the Apply Change button. This will update the detail text reference (DETREF) attribute of the GPART with appropriate data. The Edit Iso Description… button is activated once the DETREF attribute is updated with a valid reference. Clicking this button displays the Detail Text Definition form, which allows users to modify the SDTEXT element and update any changes.
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9.5
Setting the Component Weight
From the Tasks > References list select Physical Properties The Tasks > References panel is updated to display the CMPREF (Component Reference) details. The Physical Properties of a cable include attributes such as Outside Diameter, Unit Weight, Dinterference, Current, Cross-Sectional Area etc.
The cable property (CABD) elements are stored in the Properties database and are discussed later in the training course.
The Physical Properties can be set in two ways; either by selecting the required property and clicking the CE button or by using the Search feature as discussed below. Click the Search Panel for Reference Data button in the Tasks > References pane to display the Search for Cmpref panel.
The Search for Cmpref allows users to search for the appropriate elements using various configurable filtering criterions. Click the Find button. The results are now listed in the grid, select the required properties element i.e. /CABD-DIN.MGCG-1X25 and click the Use button.
Th e components Uweight reference is added to the Weight text box, click the Apply Changes button. The results can be filtered to make finding and selecting an element easier, to do this, either type part of the name required into the heading cell of the Name column, as the shown: or by selecting options from the pull-down menu in the cell.
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Exercise 6 – Part Creation (Cables / Elconns) 1.
Rename the remaining GPART elements and then set the Type, SubType and Description attributes as shown below. Add the References for the Iso Description created in Exercise 4. Set the Weights from the Properties database as shown below. Weight Elements for Cables 2x25 - /CABD-DIN.MGCG-2X25 3x25 - /CABD-DIN.MGCG-3X25 4x25 - /CABD-DIN.MGCG-4X25
2.
Create a Part Family and Parts for the ELCONNS created previously. Name the new Part Family ELCONNS.PRTELE. Name the parts as shown below.
Remember to set the Part Family Purpose and Type to EQUI.
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CHAPTER 10 10
Selection Tables
The purpose of Selection Tables in AVEVA E3D is similar to that in a manual design situation, in that it limits and controls the designer’s choice of components for a given application. The selection tables are created interactively using the Catalogue GUI. As discussed previously, the Selection Tables are populated by selecting the specific GPARTs for use in the AVEVA E3D Model module. The Selection Table hierarchy is as shown below and is discussed in detail throughout this chapter.
10.1
Creating a Cable Selection Table (Specification)
Using the Catalogue Explorer, navigate to the CABLE/CATA-A element. Click the Specification World button from the Create group of the SPECIFICATIONS tab to display the Create Specification World form.
Enter CABLE.SPWL in the Name textbox. Set the Purpose to CABL and click the OK button.
Click the Selection Table button from the Create group of the SPECIFICATIONS tab to display the Create Table Group form. Enter CABLE.MGCG in the Name textbox. Set the Purpose to CABL and click the OK button to display the Selection Table form.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
From the Selection Table form, select the Table Attributes link label under the Table section. The Table Attributes pane is now displayed at the bottom of the form. Set the following in their respective fields: Name:
CABLE.MGCG
Description:
MGCG Power Cables Fire Resistant
Discipline:
Electrical
Sub-Discipline:
CABL
Click the Apply button and then click the Back button.
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10.2
Adding a Table Heading
On the Selection Table form, under the Headings section select the Add Heading… link label. The Add Heading panel is now displayed at the bottom of the form. Set the Description to DIN.MGCG Fire Resistant Power Cables
Click the Apply button. The Add Heading panel now changes to Edit Heading. Enter CABLE-DIN.MGCG-POWER in the Name textbox and set the Purpose to CABL.
Click the Apply button and then click the Back button. Using the Catalogue Explorer, navigate to the MGCG.PARTS (PRTELE) element created previously. Select the Add Items (form CE) link label under the Items section.
The cables from the Part Element (PRTELE) are now added to the Selection Table forms grid.
10.2.1
Editing Heading Questions
The heading questions are added to selections tables to aid filtering when working with large sets of data. For example, Number of Cores in a cable element. This will allow designers to filter cable catalogues based on number of cores. Select all the items in the Selection Table grid, then under the Headings click the Edit Heading Questions… link label. The bottom section of the form changes to display the Edit Questions pane.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 Click the Add Question button. Enter the following details in their respective fields: Purpose:
NCOR
Description:
Number of Cores
Question Type:
Text
Question:
Number of Cores
Answer Type:
Text
Click the Apply button.
Similarly, add the following questions: Purpose
AMPS
Purpose
INSU
Description
Current
Description
Insulation
Question Type
Text
Question Type
Text
Question
Current
Question
Insulation
Answer Type
Text
Answer Type
Text
Once all the questions have been added click the Back button. Now select each added element and click the Edit Selection… link label, from under the Items section on the form. The bottom section of the form changes to show the Edit Items pane. Select the first question from Questions list. The Format and Answer text boxes become active. Enter 1 in the Answer textbox and click the Apply button. Similarly, update the Answer for AMPS to 120 and INSU to HEMP.
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10.3
Removing / Deleting Items form the Selection Table
Modification of a recently created Selection Tables (Specifications), which has not been used, can be done with freedom. If, however, cables have already been used in AVEVA E3D Model using the selection tables, it is necessary to consider the consequences of any modification. When a cable component has been created and selected in AVEVA E3D Model, it has a specification reference (SPRE), which in turn contains references to the catalogue. If an item in the specification is deleted when there are elements in the Model referencing that item, the references to the catalogue are lost. This would mean that it would not be possible to produce drawings, isometrics or carry out clash checks since references provide the geometry and orientation of each component. To Delete SPCOMS, navigate to the selection table using the Catalogue Explorer, and then click the Selection Table button from the Modify group of the SPECIFICATION
Select the items required to be deleted and select the Delete Selection link label from the tasks panel.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Exercise 7 – Selection Tables Creation (Cables / Elconns) 1. Edit the remaining answers for the three cable components in the selection table with the information provided below.
2.
Create a Selection Table for the previously created Electrical Connections (ELCONNS) as shown below. Name the new SPWL element ELCO and leave the TABGRO name to the default setting. Set the Purpose for the SPWL and TABGRO to ELEC.
Set the selection Table Heading to Electrical Connections, the Discipline to Equipment and the SubDiscipline to ELEC. Add a Heading Question that, requests the number of connections, and set the Purpose of the question to NTRM
3.
Open AVEVA E3D Model and login using User: A.CABLEMAN, Password: A and MDB: A-CABLE. Test that the newly created Cable Selection Table works by accessing the Cable Design application.
4.
Test that the newly created ELCONN Selection Table works by adding an electrical connection to an Equipment element in AVEVA E3D Model.
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CHAPTER 11 11
Design Parameters
The design parameters (DESPARAM) are used to aid the Catalogue Administrator, in the creation of catalogue components the use of parameters reduces the number of geometry and point sets that are required, design parameters (DESPARAM) can also be used in a similar way to that of catalogue parameters.
11.1
Extra Design Parameters
There are occasions when certain parameters need to be variable. Users will be accustomed to stating HEIGHT of nozzles (which are catalogue components) and less obviously, to stating the angle on some pulled bends by defining a non-orthogonal direction. To achieve this, the users are allowed to state design data height (HEI or DDHEI), design data angle (ANG or DDANG) and design data radius (RAD or DDRAD). These are used in Pointsets and Geomsets, on those elements, which have attributes of height, angle or radius. For instance in AVEVA E3D Model, when creating a bend the user could state ANG 60 to specify the design data angle. In order to cater for the setting of angles in a Pointset, the catalogue administrator would need to describe the direction of the points for a PTAX element to allow for the variable angle. For ANG 60 the PAXI attribute would not be co-linear to an axis, i.e. PAXI Y ANG Z or PAXI Y DDANG Z where ANG or DDANG means use the angle attribute from the design database. The Model Parameters form is displayed from the CATALOGUE tab then click the Model Parameters button from the Settings. This form can be used to specify the Component Design Data attributes. The Default values are shown when the form is first selected and these are Design Angle 90, Design Height 100 and Design Radius 225.
11.2
Design Database Parameters
Design parameters allow components to take dimensions from the design parameter array in the design database. Each design element has a design parameter array which allows any component with a SPREF to use the values stored in AVEVA E3D Model to complete that components definition. i.e. DESPARAM 4 would refer to the fourth value of the design parameter array of the design element. Design parameters can be used anywhere that component parameters are used. i.e. the display of the Ppoint could be defined by entering PY (PARAM[1]), this means that the value assigned to the distance along the Y axis is the value of parameter 1 from the catalogue component. Alternatively using design database parameters, the distance could also be expressed as PY (DESPAR[4]), this statement uses value 4 from the Desparam array attribute in the Design Database.
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CHAPTER 12 12
Cable Tray Components
Typically a Cable Tray catalogue will consist of a number of component categories to represent components such as Fixed Length Straights, Variable Length Straights, Inside / Outside Risers, Crosses, Tees, etc.
12.1
Creating a Cable Tray Component (Straight) - A Worked Example
The graphical representation for a straight piece of variable length cable tray is shown below.
SBOX primitives will be required to represent the two sides and the bottom of the cable tray. The length of the tray will be variable based on the value of the design parameter DDHEIGHT (HEIG). Additional SBOX’s will be required for soft and hard obstruction volumes around the cable tray. Navigate to CABLE/CATA-A in the Catalogue Explorer and click the Catalogue button from the Create group of the CATALOGUE tab to display the Create Catalogue form.
Enter CABLETRAY in the Name textbox. Set the Purpose to TRAY. Click the OK button.
Click the Section button from the Create group of the CATALOGUE Tab button to display the Create Section form. Enter HEAVYDUTY.TRAY in the Name textbox. Set the Purpose to TRAY Click the OK button.
Click the Tray Category button from the Create group of the CATALOGUE tab to display the Create Category form.
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Enter STRAIGHTS.VL in the Name textbox. Set the Purpose to TRAY and click the OK button to display the Model View form.
Create five Parameter Definitions as mentioned below: Parameter 1
Tray Width
Parameter 2
Flange Height
Parameter 3
Connection Compatibility
Parameter 4
Cable Clearance
Parameter 5
Thickness
Set the following parameter values for the first component. Name
Gtype
PA1
PA2
PA3
PA4
PA5
STRAIGHTS.VL/100
FTUB
100
32
BOXI
100
2
Copy the first component twice and set the following parameter values. Name
Gtype
PA1
PA2
PA3
PA4
PA5
STRAIGHTS.VL/150
FTUB
150
32
BOXI
100
2
STRAIGHTS.VL/200
FTUB
200
32
BOXI
100
2
Once the SCOM’s have been created and the parameter data entered for each one, the Point Sets can now be created for them. Select Point Set on the Model References paneL. The bottom part of the form will change to display the Point Set References. Create the first P-point, by selecting Axial P-point (PTAX) from the pull-down menu, and enter the data for the P-point as follows: P-point number Purp Pskey Connection Type Bore Pvisibility Axis Direction PZ Axis Distance
1 NULL PARAM 3 PARAM 1 Visible in ALL -Y Z 0
Click the Apply button. This has defined P1 of the Straight, it has used two parameters, one for the connection type, and the second for the width (PARAM 1). P2 may be defined in the same way - the choice of axis, number and distance differs; all other parameters remain the same.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 Using the same method as previously shown, enter data for the second P-point as follows: P-point type P-point number Purp Pskey ConnectionType Bore Pvisibility Axis Direction PZ Axis Distance
PTAX 2 NULL PARAM 3 PARAM 1 Visible in ALL Y Z HEIGHT
Create the following P-points, using the method discussed above. P-point type P-point number Purp Pskey ConnectionType Bore Pvisibility Axis Direction PZ Axis Distance
PTAX 3
P-point type P-point number Purp Pskey ConnectionType Bore Pvisibility Direction PZ Axis X Co-ordinate Y Co-ordinate Z Co-ordinate
PTCA 4
P-point type P-point number Purp Pskey ConnectionType Bore Pvisibility Direction PZ Axis X Co-ordinate Y Co-ordinate Z Co-ordinate
NULL 0 0 Visible in ALL Z Z 0
NULL 0 0 Visible in ALL -Y Z 0.5 * PARAM 1 0 0.5 * PARAM 2 PTCA 5 NULL 0 0 Visible in ALL Y Z 0.5 * PARAM 1 HEIGHT 0.5 * PARAM 2
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 P-point type P-point number Purp Pskey ConnectionType Bore Pvisibility Direction PZ Axis X Co-ordinate Y Co-ordinate Z Co-ordinate
PTCA 6
P-point type P-point number Purp Pskey ConnectionType Bore Pvisibility Direction PZ Axis X Co-ordinate Y Co-ordinate Z Co-ordinate
PTCA 7
P-point type P-point number Purp Pskey ConnectionType Bore Pvisibility Axis Direction PZ Axis Distance
PTAX 30
P-point type P-point number Purp Pskey ConnectionType Bore Pvisibility Axis Direction PZ Axis Distance
PTAX 31
NULL 0 0 Visible in ALL -Y Z -0.5 * PARAM 1 0 0.5 * PARAM 2
NULL 0 0 Visible in ALL Y Z -0.5 * PARAM 1 HEIGHT 0.5 * PARAM 2
NULL 0 0 Visible in ALL Z Z 0
NULL 0 0 Visible in ALL Z Z 0
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 The complete Point set for the straight should look as shown below.
Pointset References 30 and 31 are required for the old Cable Tray application but are not required by the Cable Design application. They are used by the system to determine the open direction of the connecting component.
Once the P-points have been created and the parameter data entered for each, the Geometry Set can now be created for these. Select Geometry on the Model References panel. The bottom part of the form will change to Geometry References. Select SBOX from the Positive pull-down menu. Enter data for the required geometry as follows:
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
An Obstruction volume is required for the Tray component to cater for Cable Clearance. Select SBOX from the Positive pull-down menu. Enter data for the required geometry as follows:
The Geometry for a Variable Length Straight is now complete. Select Category on the Model References panel. Select different components in the Component Grid to the bottom of the form and observe the geometric changes within each component.
Width - 100mm
Width - 150mm
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Width - 200mm
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Exercise 8 – Cable Tray Component Creation Referring to the information contained within Exercises 8a to 8c:
Create the required catalogue hierarchy for the cable tray components.
Consider the geometric representation.
Consider the parameters required for Pointset and Geomset definition.
Consider the p-point layout required.
Consider naming convention.
Refer to Appendix A for details of the Catalogue primitives available to be used in this exercise.
Where possible, use the following conventions when building components: Parameter 1
Tray Width
Parameter 2
Flange Height
Parameter 3
Connection Compatibility
Parameter 4
Cable Clearance
Parameter 5
Thickness
Parameter 6
Face to CL
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Exercise 8a - RIGHT HAND BEND (CATE BEND.RH)
Tray Width (Value ‘A’)
Flange Height (Value ‘B’)
Connection Compatibility
Cable Clearance (Value ‘C’)
Thickness (Value ‘D’)
Face to CL (Value ‘E’)
PA 1
PA 2
PA 3
PA 4
PA 5
PA 6
100
32
BOXI
100
2
300
150
32
BOXI
100
2
300
200
32
BOXI
100
2
300
100
32
BOXI
100
2
450
150
32
BOXI
100
2
450
200
32
BOXI
100
2
450
All values in mm unless otherwise stated. P-Point Configuration
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Exercise 8b - OUTSIDE RISER (CATE RISER.OR)
Tray Width (Value ‘A’)
Flange Height (Value ‘B’)
Connection Compatibility
Cable Clearance (Value ‘C’)
Thickness (Value ‘D’)
Face to CL (Value ‘E’)
PA 1
PA 2
PA 3
PA 4
PA 5
PA 6
100
32
BOXI
100
2
300
150
32
BOXI
100
2
300
200
32
BOXI
100
2
300
100
32
BOXI
100
2
450
150
32
BOXI
100
2
450
200
32
BOXI
100
2
450
All values in mm unless otherwise stated. P-Point Configuration
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Exercise 8c - EQUAL TEE (CATE TEE.FL) – Optional Exercise
Tray Width (Value ‘A’)
Flange Height (Value ‘B’)
Connection Compatibility
Cable Clearance (Value ‘C’)
Thickness (Value ‘D’)
Face to CL (Value ‘E’)
PA 1
PA 2
PA 3
PA 4
PA 5
PA 6
100
32
BOXI
100
2
300
150
32
BOXI
100
2
300
200
32
BOXI
100
2
300
100
32
BOXI
100
2
450
150
32
BOXI
100
2
450
200
32
BOXI
100
2
450
All values in mm unless otherwise stated. P-Point Configuration
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12.3
Create GPART for Cable Tray - A Worked Example
Navigate to CABLE/CATA-A in the catalogue explorer and click the Part World button on the Create group of the CATALOGUE to display the Create Part World form.
Enter TRAY.PRTWRLD in the Name textbox. Set the Purpose to CABL and click the OK button.
If the purpose required is not an option in the pull-down menu, the user can type in the required purpose.
Click the Part Family button from the Create group of the CATALOGUE tab to display the Create Part Family form.
Enter TRAY.PRTWRLD.STRAIGHTS in the Name textbox. Set the Purpose to TRAY and click the OK button to display the Part Family form.
Using the Catalogue Explorer and Navigate to the Category STRAIGHTS.VL To create GPARTs from the category created previously, click the Create Parts from Category link label under the Tasks pane on the Part Family form. The grid on the Part Family form should automatically be populated with the newly created GPART elements.
Select all the newly created elements from the grid and click the General Attributes link label located in the View and Edit Properties Section under the Tasks pane.
Enter the following in their respective textboxs: Type:
FTUB
Subtype:
VL
Description:
Straight Heavy Duty Galv.
Click the Apply Changes button. Select the individual elements from the grid and edit the Names to HDCTG.TRAY.STRA/100, HDCTG.TRAY.STRA/150 and HDCTG.TRAY.STRA/200 respectively for each straight, as shown below.
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Now Save Work.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Exercise 9 – Creating GPART elements for Cable Tray Create three further Part Family (PRTELE) elements under the TRAY.PRTWRLD created in the previous worked example, for the other tray components. NAME PURP
PRTELE TRAY.PRTWRLD.BEND.RH BEND
PRTELE TRAY.PRTWRLD.RISER.OR ELBO
CATE Reference
CATE BEND.RH
CATE RISER.OR
TYPE of Elements Description
BEND Bend Heavy Duty Galv.
ELBO Riser Heavy Duty Galv.
NAME PURP CATE Reference TYPE of Elements Description
PRTELE TRAY.PRTWRLD.TEE.FL TEE CATE TEE.FL TEE Tee Heavy Duty Galv.
Rename the all the GPART elements as follows according to their respective widths/bend radius: HDCTG.TRAY.BEND/100-300, 150-300, 200-300, 100-450, 150-450, 200-450 HDCTG.TRAY.RISER/100-300, 150-300, 200-300, 100-450, 150-450, 200-450 HDCTG.TRAY.TEE/100-300, 150-300, 200-300, 100-450, 150-450, 200-450
12.4
Creating Selection Table for Cable Tray - A Worked Example
Using the Catalogue Explorer, navigate to the CABLE/CATA-A element. Click the Specification World button from the Create group on the SPECIFICATION tab to display the Create Specification World form. Enter CABLE.TRAY.SPWL in the Name textbox. Set the Purpose to TRAY Click the OK button.
Click the Selection Table button from the Create group of the SPECIFICATION tab to display the Create Table Group form. Enter CABLE.TRAY.TABGRO in the Name textbox. Set the Purpose to TRAY Click the OK button to display the Selection Table form.
From the Selection Table form, select the Table Attributes… link label under the Table section.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 The Table Attributes pane is now displayed at the bottom of the form. Set the following in their respective fields: Description:
Heavy Duty Cable Tray
Discipline:
Electrical
Sub-Discipline:
TRAY
Click the Apply button and then click the Back button.
12.4.1
Adding a Table Heading
From the Selection Table form, select the Add Heading… link label under the Headings section. The Add Heading panel is now displayed at the bottom of the form. Set the Description to HDCTG Variable Straights
Click the Apply button. The Add Heading pane now changes to Edit Heading. Enter CT-HDCTG-STRA in the Name textbox and set the Purpose to TRAY. Click the Apply button and then click the Back button. Using the Catalogue Explorer, navigate to the newly created selection table CT-HDCTG-STRA. Click the Attributes button from the Disply group on the HOME tab to display the Attributes form.
Using the Attributes form, set the attribute SPType to ELEC
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 Again, using the Catalogue Explorer, navigate to the TRAY.PRTWRLD.STRAIGHTS (PRTELE) element created previously. Select the Add Items (from CE) link label under the Items section, to populate the Selection Table grid, with the Part Element (PRTELE) members, as shown below.
12.4.2
Editing Heading Questions
Select all the items in the Selection Table grid. Click the Edit Heading Questions… link label. The bottom section of the form changes to display the Edit Questions pane. Click the Add Question button, and enter the following details in their respective fields: Purpose
TYPE
Description
TYPE
Question Type
Word
Question
TYPE
Answer Type
Text
Click the Apply button. Similarly, add the following questions: Purpose Description Question Type Question Answer Type Default Answer
STYP STYP Word STYP Text Unset
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LENG LENGTH Word LENG Text 6000
79
WIDT WIDTH Word WIDT Text Unset
HEIG HEIGHT Word HEIG Text Unset
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 The Questions should look like this:
Once all the Questions have been added click the Back button. Now re-select all elements in the Selection Table grid and click the Edit Selection… link label under the Items section of the form. The bottom section of the form changes to show the Edit Items panel. Select the first question from Questions list. The Format and Answer text boxes become active. Enter CTSTRA in the Answer textbox and click the Apply button. Similarly, update the Answer for STYP to VL, LENG to 6000 and HEIG to 10. Now select the first element in the grid and navigate to Question 4 WIDT in the Questions list. Set the answer for this to 100mm, 150mm and 200mm for the respective elements in the grid. Once all the Answers have been added click the Back button.
Save Work.
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Exercise 10 –Selection Table Creation for Cable Tray 1.
Add a new Heading to the CABLE.TRAY.TABGRO. Set the Description to HDCTG Right Hand Bends. Set the Name for the new Selection Table to CT-HDCTG-BEND-RH, Purpose to TRAY and SPType to ELEC.
Add the Bends created in previous exercise to the selection table. Add the following Heading Questions to the selection table. Purpose Description Question Type Question Answer Type Default Answer
TYPE TYPE Word TYPE Text Unset
STYP STYP Word STYP Text Unset
RADI RADIUS Word RADI Text Unset
ANGL ANGLE Word ANGL Text Unset
WIDT WIDTH Word WIDT Text Unset
Set the TYPE for all items in the selection table grid to CTBEND, STYP to RH and ANGL to 90. Set the answer for RADI to 300, 450 and WIDT to 100mm, 150mm and 200mm for the respective elements in the grid. 2.
Create a third heading under the table group CABLE.TRAY.TABGRO. Set the Description to HDCTG Outside Risers. Set the Name for the new Selection Table to HDCTG-RISERS-OR, Purpose to TRAY and SPType to ELEC.
Add the Risers created in previous exercise to the selection table. Add the following Heading Questions to the selection table. Purpose Description Question Type Question Answer Type Default Answer
TYPE TYPE Word TYPE Text Unset
STYP STYP Word STYP Text Unset
RADI RADIUS Word RADI Text Unset
ANGL ANGLE Word ANGL Text Unset
WIDT WIDTH Word WIDT Text Unset
Set the TYPE for all items in the selection table grid to CTRISE, STYP to OR and ANGL to 90. Set the answers for RADI and WIDT based on their respective sizes. 3.
Create a final heading under the table group CABLE.TRAY.TABGRO with the Description set to HDCTG TEES. Set the Name for the new Selection Table to HDCTG-TEES, Purpose to TRAY and SPType to ELEC.
Add the Tees created in previous exercise to the selection table. Add the following Heading Questions to the selection table. Purpose Description Question Type Question Answer Type Default Answer
TYPE TYPE Word TYPE Text Unset
RADI RADIUS Word RADI Text Unset
BRWI LEAVE WIDTH Word BRWI Text Unset
WIDT WIDTH Word WIDT Text Unset
Set the TYPE for all items in the selection table grid to CTTEE. Set the answers for RADI, BRWI and WIDT based on their respective sizes. 4.
Once complete test in the Cable Design module.
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CHAPTER 13 13
Cable / Cable Tray Properties
The Component Property data in the properties database is referenced from the specification component (SPCO) component reference (Cmpref). The Component Properties database contains the following element types. CMPW CMPT CMPD TUBD CABD
(component world) (component type) (component data) (tube data) (cable data)
The TUBD, CMPD and CABD elements store the physical data, and it is these elements which are referenced by the component reference (Cmpref). Attributes for Outside Diameter (OUTD) and Actual Bore (ACBO) is common to CMPD, TUBE, Outside Shield Diameter (OUTSD) is only for the CABD, whilst component weight (CWEI) is used on CABD and CMPD and unit weight (UWEI) on TUBD. The Cross Section Area (XArea) is only for the CABD. The figure below shows the component properties database hierarchy.
13.1
Creating Cable Component Properties Data – A Worked Example
Using the Catalogue Explorer, expand the Property WORL * node, and navigate to the CABLE/PROP-A element. Click the Material Properties button from the Modify group of the HOME tab to display the Material Properties form. From the New pull down list select CMPW. The new element and associated attributes are created, select the row with the Name attribute in the grid, and in the Name field that appears at the bottom of the form enter in CABLES_CMPW.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 From the New pull down list select CMPT, the new element and associated attributes are created, select the Name attribute and in the Name field at the bottom of the form key in CABLES_MGCG_POWER. Again, from the New pull down list select CABD, The new element and associated attributes are created, select the Name attribute and in the Name field at the bottom of the form key in CABLES_MGCG_POWER/1x10 Select the rows in the grid, and enter the following information for the newly created CABD element. Outdiameter:
10.5mm
Outsdiameter:
10.5mm
Uweight:
0.2kg/m
MinBend:
100mm
Dinterference:
POWER
VoltAC:
1000volt
VoltDC:
1000volt
Current:
5ampere
XArea:
10mm2
The Properties form should look like the one shown below:
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Exercise 11 – Creating Cable Properties 1.
Create the CABD elements along with their attributes as shown below.
Attribute
Component Name (CABD) CABLES_MGCG_POWER/2x10 CABLES_MGCG_POWER/3x10
Outdiameter
18.5mm
19.5mm
Outsdiameter
18.5mm
19.5mm
Uweight
0.6kg/m
0.7kg/m
Dinterference
POWER
POWER
VoltAC
1000volt
1000volt
VoltDC
1000volt
1000volt
XArea
20mm2
30mm2
Attribute
Component Name (CABD) CABLES_MGCG_POWER/4x10
Outdiameter
21mm
Outsdiameter
21mm
Uweight
0.9kg/m
Dinterference
POWER
VoltAC
1000volt
VoltDC
1000volt
XArea
40mm2
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APPENDIX A APPENDIX A - Catalogue Primitives Primitive Elements The following three-dimensional primitive elements are all used by geometry sets (GMSET). They all have common attributes LEVEL, CLFLA, TUFLA and OBSTR. The particular attributes of each element are described on the following pages.
Box (SBOX) The SBOX has the following particular attributes: PX
X co-ordinate position of box
PY
Y co-ordinate position of box
PZ
Z co-ordinate position of box
PXLEN
X dimensions of box
PYLEN
Y dimensions of box
PZLEN
Z dimensions of box
Box (SBOX) Catalogue Primitive
Cone (SCONE) The Cone (SCONE) has the following particular attributes: PAXIS
direction of axis of cone
PDIST
height of vertex above base
PDIAM
diameter of base
Cone (SCONE) Catalogue Primitive
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Disc (SDISK) The Disk (SDISK) has the following particular attributes: PAXIS
direction of axis of disc
PDIST
distance along axis to centre of disc
PDIAM
diameter of disc
Disc (SDISK) Catalogue Primitive
Sphere (SSPHE) The Sphere (SSPHE) has the following particular attributes: PAXIS
direction of axis on which centre of sphere lies
PDIST
distance along axis to centre of sphere
PDIAM
diameter of sphere
SCALE
logical flag indicating whether or not the sphere is to be drawn to scale. If SCALE is set to FALSE, the sphere is drawn at a fixed size by taking the resulting value of PDIAM to be in millimetres
Sphere (SSPHE) Catalogue Primitive
Cylinder (SCYL) With this type of cylinder, primitive, the size and location is defined by the distance to the bottom face from the origin and the height. SCYL has particular attributes as follows: PAXI direction of axis of cylinder PHEI height of cylinder PDIA diameter of cylinder PDIS distance along axis to centre of nearest surface
Cylinder (SCYL) Catalogue Primitive
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Cylinder (LCYL) The height of the LCYL is defined as the distances from the origin to the two end faces. LCYL has particular attributes as follows: PAXI direction of axis of cylinder PDIA diameter of cylinder PBDI distance along axis to centre of bottom surface PTDI distance along axis to centre of top surface
Cylinder (LCYL) Catalogue Primitive
Dish (SDSH) This is similar to the DISH available in the Design Data. It allows symbolic modelling of control valves and closer modelling of other Components. SDSH has the following particular attributes. PAXI
direction of axis of dish
PDIS
distance along axis to centre of top surface
PDIA
diameter of dish base
PHEI base
maximum height of dished surface above
PRAD corner radius (Any value greater than 0, makes it semi-elliptical instead of semi- spherical) Dish (SDSH) Catalogue Primitive
Snout (LSNO) The Snout primitive is a cylindrical element of varying diameter along its length. It may be eccentric or concentric. LSNO has particular attributes as follows: PAAX A
Direction of axis normal to top surface of snout (the axis)
PBAX
Offset direction
PTDI, PBDI
Distance along A axis to top, bottom surfaces of snout
PTDM, PBDM
Diameter of top, bottom surfaces of snout
POFF the
The offset/eccentricity of the snout as measured in PBAX direction
Snout (LSNO) Catalogue Primitive
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Circular Torus (SCTO) The circular torus is only part of a torus. It is not permitted to subtend more than 180 degrees. It is circular in cross–section. SCTO has particular attributes as follows: PAAX, PBAX
Direction of axes normal to the end faces of the torus
PDIA
Diameter of the cross–section of the torus.
Circular Torus (SCTOR) Catalogue Primitive
Rectangular Torus (SRTO) The rectangular torus is similar to the circular torus except that it is rectangular in cross–section. SRTO has particular attributes as follows:
PAAX, PBAX torus
Direction of axes normal to the end faces of the
PDIA
Width of the cross–section of the torus
PHEI
Height of the cross–section of the torus
Rectangular Torus (SRTO) Catalogue Primitive
Line (LINE) In addition to the three–dimensional primitive elements, 3D Geomsets may contain Line (LINE). A LINE has one particular attribute: PTS: a set of numbers (up to six) representing P–point numbers of the P–points of the associated Pointset, determine the course of the line. The values held in PTS are set by preceding the P–point number by ‘P’ or ‘T’, e.g. P1 P2 T3 P4. When prefixed with P it starts or finishes at the p-point. When prefixed with T it becomes a tangent point and thus a curve is drawn.
Tube (TUBE) Used only in the representation of implied tube. Has the single particular attribute: PDIA
the tube diameter
If PDIA is 0 then a line is produced. Depending on the scale to which a drawing is to be produced, a small positive value would effectively give a thicker line. 90
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Slope – Bottomed Cylinder (SSLC) The Slope – Bottomed Cylinder (SSLC) has the following particular attributes: PAXI direction of axis of cylinder PHEI height of cylinder PDIA diameter of cylinder PXTS
inclination of top face to X–axis
PYTS
inclination of top face to Y–axis
PXBS
inclination of bottom face to X–axis
PYBS
inclination of bottom face to Y–axis
PDIS distance from origin
Inclinations are angles stored to the nearest 0.01 degree.
Slope Bottomed Cylinder (SSLC) Catalogue Primitive
Pyramid (LPYR) The main use of this element is in the creation of rectangular reducers for ducting etc. LPYR has the particular attributes as follows: PAAX Direction of axis normal to top face of pyramid (the A axis). This is taken to be in the Z direction. PBAX, PCAX The directions of the two axes perpendicular to the A axis and mutually perpendicular to define the position of the B and C sides PBTP, PCTP Length of top faces in B axis and C axis directions PBBT, PCBT
Length of bottom faces in B axis and C axis
directions
PBOF, PCOF Top face offsets in B axis and C axis directions PTDI Distance from origin to centre of top face along A axis PBDI Distance from origin to centre of bottom face along A axis Pyramid Catalogue Primitive
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Boxing (BOXI) Components whose GTYPE attribute is TUBE can use BOXI elements to give, for example implied tube of rectangular cross-section. BOXI elements can be used for modelling ducting, trunking and cable tray. BOXI has the particular attributes as follows: PXLE Cross section X-direction length. PZLE Cross section Z-direction length. PAXI Position and orientation of normal to centre of end face.
BOXI Catalogue Primitive
User Defined Extrusion (SEXT) This primitive is generated by extruding a user-defined 2D shape, known as a Loop (SLOO), whose outline is defined by a set of member elements called Vertices (SVER). The lines joining adjacent SVERs form the edges of the SLOO. The extrusion distance is defined by the height of the SEXT to give the final 3D volume. In addition to the attributes defining its position, each SVER can have a radius, which applies a convex or concave fillet to the loop at that point. SEXT has the particular attributes as follows: PX,PY,PZ
Co-ordinates of origin of SLOO.
PAAX,PBAX
Direction of axes of SLOO. (These will define co-ordinate system for SVERs).
PHEI
Distance by which 2D SLOO is extruded to form 3D SEXT.
SLOO
has no special attributes.
SVER
has particular attributes as follows:
PX, PY
Co-ordinates of vertex.
PRAD
Fillet radius of loop at vertex position.
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TM-1842 AVEVA Catalogue Cable Catalogue & Specifications
1
AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
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Revision Log Date
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0.2
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SS
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14/01/2014
1.0
Approved for Training AVEVA Catalogue (1.1)
SS
KB
01/07/2015
1.1
Issued for Review
WR
01/08/2015
1.2
Reviewed
WR
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Approved for Training AVEVA Catalogue (2.1)
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Updates Change highlighting will be employed for all revisions. Where new or changed information is presented section headings will be highlighted in Yellow. Suggestion / Problems If you have a suggestion about this manual or the system to which it refers please report it to AVEVA Training & Product Support at [email protected] This manual provides documentation relating to products to which you may not have access or which may not be licensed to you. For further information on which products are licensed to you please refer to your licence conditions. Visit our website at http://www.aveva.com
Disclaimer 1.1
AVEVA does not warrant that the use of the AVEVA software will be uninterrupted, error-free or free from viruses.
1.2
AVEVA shall not be liable for: loss of profits; loss of business; depletion of goodwill and/or similar losses; loss of anticipated savings; loss of goods; loss of contract; loss of use; loss or corruption of data or information; any special, indirect, consequential or pure economic loss, costs, damages, charges or expenses which may be suffered by the user, including any loss suffered by the user resulting from the inaccuracy or invalidity of any data created by the AVEVA software, irrespective of whether such losses are suffered directly or indirectly, or arise in contract, tort (including negligence) or otherwise.
1.3
AVEVA's total liability in contract, tort (including negligence), or otherwise, arising in connection with the performance of the AVEVA software shall be limited to 100% of the licence fees paid in the year in which the user's claim is brought.
1.4
Clauses 1.1 to 1.3 shall apply to the fullest extent permissible at law.
1.5
In the event of any conflict between the above clauses and the analogous clauses in the software licence under which the AVEVA software was purchased, the clauses in the software licence shall take precedence.
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Copyright Notice All intellectual property rights, including but not limited to, copyright in this Training Guide and the associated documentation belongs to or is licensed to AVEVA Solutions Limited or its affiliates. All rights are reserved to AVEVA Solutions Limited and its affiliates companies. The information contained in this Training Guide and associated documentation is commercially sensitive, and shall not be adapted, copied, reproduced, stored in a retrieval system, or transmitted in any form or medium by any means (including photocopying or electronic means) without the prior written permission of AVEVA Solutions Limited. Where such permission is granted, AVEVA Solutions Limited expressly requires that the Disclaimer included in this Training Guide and this Copyright notice is prominently displayed at the beginning of every copy that is made. Licenses issued by the Copyright Licensing Agency or any other reproduction rights organisation do not apply. If any unauthorised acts are carried out in relation to this copyright work, a civil claim for damages may be made and or criminal prosecution may result. AVEVA Solutions Limited and its affiliate companies shall not be liable for any breach or infringement of a third party's intellectual property rights arising from the use of this Training Guide and associated documentation. @AVEVA Solutions Limited 2015
Trademark Notice AVEVA™, AVEVA Everything3D™, AVEVA E3D™, [AVEVA Tags], Tribon and all AVEVA product and service names are trademarks of AVEVA Group plc or its subsidiaries Use of these trademarks, product and service names belonging to AVEVA Group plc or its subsidiaries is strictly forbidden, without the prior written permission of AVEVA Group plc or AVEVA Solutions Limited. Any unauthorised use may result in a legal claim being made against you. Fluent is a trade mark of Microsoft Corporation. The Fluent user interface is licensed from Microsoft Corporation by AVEVA and use of the Fluent trademark is strictly forbidden. All other trademarks belong to their respective owners and cannot be used without the permission of the owner.
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CONTENTS 1
Introduction ............................................................................................................................9 1.1 1.2 1.3 1.4 1.5 1.6
2
Aim ..................................................................................................................................................... 9 Objectives.......................................................................................................................................... 9 Prerequisites ..................................................................................................................................... 9 Course Structure............................................................................................................................... 9 Using this Guide ............................................................................................................................... 9 Setting up the Training Course ..................................................................................................... 10
Catalogue Overview .............................................................................................................13 2.1 Objectives........................................................................................................................................ 13 2.2 The Catalogue Database Structure ............................................................................................... 14 2.3 Part World (PRTWLD) ..................................................................................................................... 14 2.4 Catalogue (CATA) ........................................................................................................................... 15 2.5 Specification World (SPWL) – Selection Tables.......................................................................... 16 2.6 Units ................................................................................................................................................. 16 2.6.1 Current Session Units................................................................................................................ 17 2.7 Forward Planning............................................................................................................................ 18 2.8 Paragon - General Application Menu............................................................................................ 18 2.9 The Catalogue Explorer.................................................................................................................. 19
3
Coding Systems ...................................................................................................................21 3.1 3.2 3.3 3.4
4
Why Have a Coding System? ........................................................................................................ 21 Standard Coding Systems ............................................................................................................. 21 Are Element Names Significant? .................................................................................................. 22 What System? ................................................................................................................................. 22
Component Creation............................................................................................................23 4.1 4.2 4.3
Enter Catalogue in the Training Project ....................................................................................... 23 Creating the Catalogue Hierarchy................................................................................................. 24 Automatic Naming .......................................................................................................................... 24
Exercise 1 – Create the Catalogue and Section Hierarchy ......................................................25 4.4 Creating a Component Category (CATE) Element – A Worked Example ................................. 26 4.4.1 Parameter Definitions ................................................................................................................ 27 4.4.2 Modifying the Components (SCOM) Element ........................................................................... 28 4.4.3 Creating a Component Copy ..................................................................................................... 28 4.4.4 Entering the Parameter Values ................................................................................................. 29 4.4.5 Copying the PTSE Element....................................................................................................... 29 4.4.6 Modifying the Component (SCOM) References........................................................................ 30
5
Pointsets...............................................................................................................................31 5.1 Displaying P-Points ........................................................................................................................ 32 5.2 Types of P-Points............................................................................................................................ 33 5.2.1 Cartesian Ppoint (PTCA) ........................................................................................................... 33 5.2.2 Axial Ppoint (PTAX) ................................................................................................................... 33 5.2.3 Mixed Ppoint (PTMI) .................................................................................................................. 33 5.2.4 Position (PTPOS) ...................................................................................................................... 34 5.3 Creating the Elconn Pointset – A Worked Example.................................................................... 34
Exercise 2 – Point Set Creation .................................................................................................36 6
Creation of Geometry Sets ..................................................................................................37 6.1
Creating a Geometry Set (GMSE).................................................................................................. 37
Exercise 3 - Geometry Set Creation for 2 and 3 Electrical Terminal connections .................41 7
Creating Cable Components ...............................................................................................43 7.1 Creating a Cable Component with Core Connections ................................................................ 43 7.2 Creating a Component Category (CATE) Element ...................................................................... 43 7.3 Modifying the Cable Components................................................................................................. 44 7.3.1 Creating Cable Cores ................................................................................................................ 45
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Exercise 4 – Creating Cable and Cable Core Sets....................................................................46 8
Creating Text Elements .......................................................................................................47 8.1 8.2 8.3
Detail Text ........................................................................................................................................ 47 General Text .................................................................................................................................... 48 Text requirements on Specifications............................................................................................ 48
Exercise 5 – Creating Text Elements ........................................................................................49 9
Component Part Families ....................................................................................................51 9.1 9.2 9.3 9.4 9.5
Creating a Part World ..................................................................................................................... 51 Creating a Part Family .................................................................................................................... 52 Creating Parts from a Category..................................................................................................... 53 Setting the Isometric Description ................................................................................................. 53 Setting the Component Weight ..................................................................................................... 54
Exercise 6 – Part Creation (Cables / Elconns) ..........................................................................55 10
Selection Tables................................................................................................................57
10.1 Creating a Cable Selection Table (Specification) .................................................................... 57 10.2 Adding a Table Heading ............................................................................................................. 59 10.2.1 Editing Heading Questions ........................................................................................................ 59 10.3 Removing / Deleting Items form the Selection Table .............................................................. 61
Exercise 7 – Selection Tables Creation (Cables / Elconns) ....................................................62 11 11.1 11.2
12 12.1
Design Parameters ...........................................................................................................63 Extra Design Parameters............................................................................................................ 63 Design Database Parameters..................................................................................................... 63
Cable Tray Components ...................................................................................................65 Creating a Cable Tray Component (Straight) - A Worked Example ....................................... 65
Exercise 8 – Cable Tray Component Creation..........................................................................71 Exercise 8a - RIGHT HAND BEND (CATE BEND.RH) ...............................................................72 Exercise 8b - OUTSIDE RISER (CATE RISER.OR) ....................................................................73 Exercise 8c - EQUAL TEE (CATE TEE.FL) – Optional Exercise...............................................74 12.3
Create GPART for Cable Tray - A Worked Example ................................................................ 75
Exercise 9 – Creating GPART elements for Cable Tray ...........................................................77 12.4 Creating Selection Table for Cable Tray - A Worked Example............................................... 77 12.4.1 Adding a Table Heading ............................................................................................................ 78 12.4.2 Editing Heading Questions ........................................................................................................ 79
Exercise 10 –Selection Table Creation for Cable Tray.............................................................81 13 13.1
Cable / Cable Tray Properties ..........................................................................................83 Creating Cable Component Properties Data – A Worked Example ....................................... 83
Exercise 11 – Creating Cable Properties ..................................................................................85 APPENDIX A - Catalogue Primitives .........................................................................................87 Primitive Elements..................................................................................................................................... 87 Box (SBOX)................................................................................................................................................. 87 Cone (SCONE)............................................................................................................................................ 87 Disc (SDISK) ............................................................................................................................................... 88 Sphere (SSPHE) ......................................................................................................................................... 88 Cylinder (SCYL) ......................................................................................................................................... 88 Cylinder (LCYL).......................................................................................................................................... 89 Dish (SDSH)................................................................................................................................................ 89 Snout (LSNO) ............................................................................................................................................. 89 Circular Torus (SCTO)............................................................................................................................... 90 Rectangular Torus (SRTO)........................................................................................................................ 90 Line (LINE) .................................................................................................................................................. 90 Tube (TUBE) ............................................................................................................................................... 90 Copyright © 2014. AVEVA Solutions Limited and its subsidiaries. All rights reserved.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 Slope – Bottomed Cylinder (SSLC).......................................................................................................... 91 Pyramid (LPYR).......................................................................................................................................... 91 Boxing (BOXI) ............................................................................................................................................ 92 User Defined Extrusion (SEXT) ................................................................................................................ 92
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CHAPTER 1 1
Introduction
This course is aimed at Electrical Designers with AVEVA Everything3D™ (AVEVA E3D™) Cable Design experience and aims to cover the creation of Electrical Connections, Cables, Cable Core Elements and Cable Tray specifications for use by Engineering teams within AVEVA Plant products.
1.1
Aim
The aim of this training guide is to provide knowledge and skills that will enable designers to be able to build and maintain Cable/Cabletray components and specifications.
1.2
1.3
Objectives
Understand CATALOGUE and its benefits.
Use the Catalogue Explorer to access the Catalogue, Properties, Design and Draft Databases.
Create component Categories and Components.
Create component Point Sets and Geometry Sets.
Create Part Families and GPART’s.
Set GPART reference attributes to 3D Model, 3D Templates, Draw Symbol Sets, etc.
Create and maintain Cable Specifications.
Create Properties Data.
Test the created items within the Model module.
Prerequisites
It is necessary to have a good understanding of the rules and conventions in AVEVA Everything3D. the participants should have already completed the AVEVA Everything3D Foundations course and the AVEVA Everything3D Cable Design course.
1.4
Course Structure
Training will consist of oral and visual presentations, demonstrations and set exercises. Each workstation will have a training project, populated with model objects. This will be used by the trainees to practice their methods, and complete the set exercises.
1.5
Using this Guide
Certain text styles are used to indicate special situations throughout this document. Button press actions are indicated by bold dark turquoise text. Information the user has to Key-in will be bold red text. Additional information notes and references to other documentation will be indicated in the styles below.
Additional information
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Refer to other documentation
System prompts will be bold and italic in inverted commas i.e. 'Choose function'. Example files or inputs will be in the courier new font, colours and styles used as before.
1.6
Setting up the Training Course
Login to AVEVA Catalogue using the details provided by the Trainer. They will typically be as shown below:
Project: TRA (Training) Username: A.CABLEMAN Password: A MDB: A.CABLE Click the Paragon tile.
From the Training group of the TOOLS tab, click the Setup button to display the Training Setup form
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Check the Setup Training Course checkbox, click the Apply button and Close the form.
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CHAPTER 2 2
Catalogue Overview
This chapter gives an overview of Catalogue functionality, describes the hierarchy of the Catalogue DB and the main component members, and introduces the user interface. The chapter will also highlight and stress the importance of having clear conceptual component designs before the design process begins. AVEVA Catalogue enables the catalogue designer to build and maintain the AVEVA Catalogue databases by creating or modifying Cable Components, Piping Components and Steelwork Components, and updating the associated specifications using a standardised graphical user interface (GUI). This training guide will cover items pertaining to Cabling components only. As with other AVEVA Product modules and databases, only authorised users have write access to them. Catalogue databases can be accessed in either Multi-write or Update mode. The User Interface for Multi-write Claiming and Querying is identical to that of the AVEVA E3D Model module. Catalogue’s graphical user interface presents the user with a series of forms on which they can define each catalogue component by entering the following types of data:
Create Hierarchy.
Categories or component type.
Components including.
Point Set or Structural Point Set references
Geometry Set or Structural Geometry Set references.
Detailing and Material Text references.
Part and Part Families.
Parts are used in the catalogue to fully describe a component, bringing together the component details Text, material text and component properties
The Catalogue application also allows the user to build and modify Specifications by creating.
Selection Tables.
Properties Data.
Part.
Property data such as weight, resistance, voltage etc. can be added in Catalogue.
A major feature of Catalogue is the way in which it can display a ‘live’ 3D view of the catalogue component on which the user is currently working. This allows the user to see the effects their changes have immediately, as they modify the component’s attribute settings.
2.1
Objectives
At the end of this session, the User will be able to:
Describe the hierarchy of the Catalogue database.
Name the top-level members.
Understand the need for forward planning.
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2.2
The Catalogue Database Structure
When using Catalogue, assuming that the appropriate access rights exist, the User is automatically directed to the first catalogue database available within the particular MDB. It is highly likely that there will, in fact, be more than one catalogue database in an MDB. On entry to Catalogue, there are four visible Worlds: Catalogue, Design, Draft and Property which, can all be modified from within the appropriate application. The diagram below shows the top level of the hierarchy within the Catalogue World. Catalogue WORLD
PRTWLD
TABWLD
NBRWLD
SPWL
CCTA
CATA
BLTA
Part World
(PRTWLD)
Connection Tables
(CCTA)
Table World
(TABWLD)
Catalogue
(CATA)
Nominal Bore World
(NBRWLD)
Bolt Tables
(BLTA)
Spec-world
(SPWL)
insu
(UNITS)
UNITS
The significance of four levels, Part-World (PRTWLD), Spec-world (SPWL), Catalogue (CATA) and Units are explained in detail as appropriate and, together with their successive hierarchies introduced by the following sections.
2.3
The WORLD is a different one from that in the design database. Co-ordination between the various ‘worlds’ is automatically established and maintained through the system database, which is effectively invisible to the user.
Part World (PRTWLD)
The Part World (PRTWLD) can own any number of Part Families (PRTELE). Part Families consist of a number of Parts (GPART) which, have reference attributes pointing to the 3D Model, material, Isodraft description, etc. Parts are used in the catalogue to fully describe the components without the need for a cable specification.
PRTWLD
PRTELE
PRTELE
PRTWLD hierarchy. PRTELE
PRTELE
GPART
GPART
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Is an administrative level of the
PRTELE Each element represents a GPART family corresponding to a specific GTYPE, e.g. CABL, etc. PRTELE’s contain a number of GPART elements, each of which fully defines an individual component. GPART elements have attributes as follows:
GPART
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2.4
Catalogue (CATA)
The members of a Catalogue (CATA) are Sections (SECT). These sections are for the convenience of users and generally it is accepted that the different generic types are contained in separate sections, i.e. Cables, Elconns, etc. The sections own categories (CATE), which would in turn own specific types within the same generic field, i.e. Power Cable, Signal Cable to various standards.
Although variable, the category usually owns four distinct ‘types’ of elements:
SCOM contains the parameters of the specific component and reference the 3D geometry (GMSE), the axial configuration (PTSE), the Dataset (DTSE) and the Bolt set (BTSE).
PTSE (Point Set) defines the axis system and it’s associated Ppoints. Components can share a PTSE which leads to further economy in data storage.
GMSE (Geom Set) contains a number of primitives which together describe the physical appearance of a component, and are related to a PTSE. Many components use the same GMSE.
SDTE contains the component detail text string and its isometric symbol reference (SKEY).
DTSE (Dataset) contains a number of DATA elements describing the component parameters and can be used in AVEVA E3D Model, e.g. to modify component properties.
BTSE (Bolt set) defines the bolting requirements of a flanged component.
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2.5
Specification World (SPWL) – Selection Tables
The purpose of Selection Tables in AVEVA E3D is similar to that in a manual design situation, in that it limits and controls the designer’s choice of components for a given application. The selection tables are created interactively using the Catalogue GUI. The Selection Tables are populated by selecting the specific GPARTs for use in the AVEVA E3D Model module. The Selection Table hierarchy is as shown below.
A TABGRO item may contain a number of selection tables that are related in some way. Each selection table (CTABLE) contains a Table Header (TABHEA) and at least one Table Item (TABITE). The Table Header defines the selection questions (TABHQU) for that table. The table items (TABITE) have references to the corresponding GPART and also hold that selection answers (TABITEM) for that part.
2.6
Units
The Units primary element in the first catalogue database can be used to set the default unit for Bore and distance for the project. Catalogue WORLD
UNITS
There are two main attributes Bore units (Bunits) and Distance units (Dunits) Bunits and Dunits can be set to 'MIL/LIMETRES' 'MM', ‘IN/CH’ or 'FIN/CH'
The catalogue should always be built in metric units.
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2.6.1
Current Session Units
When the User enters dimensional data in any window, the units applied are taken from default settings. The default units are specified independently for each unit type. To change the default units, select PROJECT Tab > Options > System > Units to display the Current Session Units window.
A system default file is supplied for both metric and imperial units:
%AVEVA_DESIGN_DFLTS%/system-current-units-Met.pmldat
%AVEVA_DESIGN_DFLTS%/system-current-units-Imp.pmldat
To set the default units for a specific project the Administrator must select the required units using the Current Session Units window and click Save. A file, %AVEVA_DESIGN_USER%/xxx-save-current-unitsMet.pmldat or %AVEVA_DESIGN_USER%/xxx-save-current-units-Imp.pmldat is then created. The created file must be copied to the project defaults folder and renamed to %xxxdflts%/project-current-unitsMet.pmldat or %xxxdflts%/project-current-units-Imp.pmldat. The User is then permitted to use the Project Defaults or use a saved file previously created. On Global projects, it is necessary to propagate the units settings file to all project satellites. If the "Other Data Transfer" mechanism has been implemented, (refer to Transfer of Other Data in Running Global Projects guide), project unit settings files could be propagated. Otherwise, the most practical method of propagating a project units file is simply to e-mail the file to all satellites and have the file copied to the appropriate project folder. In practice, project units files will be configured at the beginning of a project, and are unlikely to be changed frequently during the life of a project. The User Settings, Save and Restore buttons can be disabled by the Administrator which forces the User to use the project default settings. To disable the buttons, the Administrator must open the file saved in the project defaults folder and change the following line: !!comFormats.allowUserSaveFile = true to !!comFormats.allowUserSaveFile = false
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The Save and Restore buttons are now disabled. Although the user cannot save their user settings, they are still able to change the unit formats for the current working session. When the user ends the current sessions the unit format reverts back to the project defaults.
2.7
Forward Planning
Although Catalogue makes it very easy for the user to define Catalogue database items in terms of their connectivity (point sets), physical shape (geometry sets), dimensions (typically defined in terms of design parameters), and other relevant attributes, you must have a clear idea of exactly what each component is to look like and how its dimensions are to be defined before you begin. Catalogue uses the latest technology to automate the component design process as far as possible, but there is no substitute for a pencilled sketch of any new type of component, with the required design parameters marked on it, to guide the user as they enter their data on the various forms.
2.8
Paragon - General Application Menu
This section introduces the GENERAL Application Main Menu Bar and uses the Catalogue Explorer to navigate around the Catalogue, Design, Properties and Draft Database Worlds A default screen layout will be displayed comprising the Microsoft® Office Fluent™– based user interface and the Catalogue Explorer.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 Paragon’s main applications are:
PIPING
EQUIPMENT create / modify equipment part families and nozzle specs
ELECTRICAL create / modify electrical components and cable specifications
STRUCTURES
SUPPORTS
create / modify catalogue piping components and piping specifications
create / modify steelwork Profiles, Fittings or Joints
create / modify discipline support standards
This course covers the ELECTRICAL and EQUIPMENT applications which display the relevant forms for component data entry, modification, etc.
2.9
The Catalogue Explorer The catalogue explorer allows the user to navigate through and manipulate elements of the Catalogue, Design, Draft and Property worlds. There are a number of different ways in which the user can navigate around the hierarchy in order to access a specific element. The database navigation is carried out in exactly the same way as with all other AVEVA modules.
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CHAPTER 3 3
Coding Systems
This chapter discusses the need for a coding system in the cable catalogue and the format of the AVEVA coding system.
3.1
Why Have a Coding System?
AVEVA Plant suite of products require an element, such as a catalogue component, to have a unique name. With so many elements being ‘structured’, Paragon adheres itself to a coding system in a number of areas. Some examples are:
Catalogue References
GPART Names and References
Specification Components
Point Set (PTSE) Names
Geometry Set (GMSE) Names
Connection Type
Detail Text Names
The advantages of using a coding system are:
Duplication of names is avoided.
Creation of ad-hoc names generated on the spur of the moment is avoided and so names can be meaningful.
Relocation of elements within Paragon is made easier.
3.2
Standard Coding Systems
Standard AVEVA Catalogue has a catalogue containing approximately 50,000 components and has a developed coding system which allows the definition of unique names for the supplied and future components. Indeed, the coding system could generate in excess of 60 billion different names. There are real advantages to having a standard coding system for catalogue component names and connection types. Adopting a standard naming structure allows the following:
Direct transfer of components from the context of one project to another.
Queries relating to a component or range of components can be referred to precisely by name and without encountering conventions unique to a company.
An ‘off-the-shelf’ service, reducing ‘downtime’ at the start of a project.
The retrieval of components, at any stage, beyond those being used from a given range and required for a particular application.
Complete documentation - providing size ranges, parameters and symbol representation.
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3.3
Are Element Names Significant?
To AVEVA Catalogue, element names are inconsequential but to the User, as already suggested, a standard code would ease identification/ relocation. Conventions will vary from company to company but some conventions that are possibly not company orientated are:
Specification component-names are usually meaningful. i.e. /ELCONN-T3 would be an Electrical Connection with three terminal points.
Detailing text names - the name usually includes the short-code required by the detailing interface. i.e. /CABLE-POWER-FR/4x25-SDTE.
Branch numbers are usually prefixed by the cableway name, also electrical connections (Elconn’s) etc., by equipment name. i.e. /32P01B/E1.
3.4
What System?
The type of coding system very much depends on what is being coded, but at the offset two very basic questions need answering:
Should the system be meaningful?
What does the system need to include?
The answer to the first one is usually yes for reasons already given. The answer to the second is a little more involved and is best explained by an example. As the content up to now has basically revolved around the catalogue coding system, this would be a suitable area to investigate. Cable components can be classified by the following:
Manufacturer / Standard
Specific Standard
Type
Specific Type
End Connection
Rating
Material.
The material need not be included in the basic coding system because there is sufficient scope with other fields but individual users may add a material code, which is company orientated by simply editing the catalogue macros.
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CHAPTER 4 4
Component Creation
Paragon uses the latest technology to automate the component design process as far as possible, but there is no substitute for a precursory sketch of any new type of component; complete with the required design parameters marked. It is beneficial to mark the required Ppoints along with their number on the sketch; this is useful when creating Point Sets.
4.1
Diagrams of Ppoint layouts, as used by Paragon, can be found in the Isodraft Reference Manual.
Enter Catalogue in the Training Project Enter Paragon using the login user name and password described previously.
The Electrical application is used to create catalogue components:
CATALOGUE Tab
Selecting the ELECTRICAL application will add the CATALOGUE and SPECIFICATION tab to the new Microsoft® Office Fluent™-based user interface
SPECIFICATION Tab
In the Catalogue world, navigate to CATA-CABLE-A
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The database name is dependent on the login name.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
4.2
Creating the Catalogue Hierarchy
To create a new Catalogue (CATA) element, select the: CATALOGUE Tab then click Catalogue button from the Create group
Enter ELECTRICAL.CATA in the Name textbox. Set the Purpose to EQUI and click the OK button.
The CATA element has been created in the CABLE/CATA-A database.
Underneath CATA in the hierarchy are Section (SECT) elements. The Section allows the user to hold different components i.e. Elconn’s, Cables, etc. into manageable storage areas. Since an Elconn connects to an equipment element the purpose will be set to EQUI for this section. Click the Section button from the Create group to display the Create Section form:
Enter ELCONNS in the Name textbox. Set the Purpose to EQUI and click the OK button.
4.3
Automatic Naming
In order that all subordinate members of the hierarchy are given a meaningful name, Automatic Naming should be turned on at this point. Select the Naming button from the Configure group of the MANAGE tab to display the Naming Settings form Turn Auto Naming On by Ticking the Auto Naming On/Off checkbox and then clicking the OK button.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Exercise 1 – Create the Catalogue and Section Hierarchy 1.
Create the Catalogue and Section Hierarchy as described in the previous sections.
2.
Set the Auto Naming to ON.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
4.4
Creating a Component Category (CATE) Element – A Worked Example
Select the SECT ELCONNS Section created in the excercise, and then select the Route Node Category button. Enter ELCONNS-TERM in the Name textbox.
Set the Purpose to EQUI and click the OK button to display the Model View form the Create group of the CATALOGUE tab to display the Create Category form.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 At this stage, the hierarchy has been created for the category /ELCONNS-TERM: SDTE
Text element containing the Isodraft description and SKEY.
PTSE Point Set administrative element. GMSE Geometry Set administrative element. DTSE Dataset administrative element. BTSE Boltset administrative element. TEXT
Text element, one for each component parameter with the attribute STEXT set to the parameter description.
SCOM Individual component element, one for each elconn.
4.4.1
Parameter Definitions
Before continuing, it is necessary to consider the parameters required to define the electrical connection component, the P-Point layout of the component, and the 3D geometry. For the Elconn component four parameters are required and the following information can be allocated. Parameter 1
Height
Parameter 2
Displacement
Parameter 3
Outside Diameter
Parameter 4
Inside Diameter The existing Parameter 1 description can be changed by selecting the parameter in the Parameter Definitions section and modifying the text in the Desc: text box. Modify the Parameter 1 to Height and click the Apply button. To create a new Parameter, click the New button under the Parameter Definitions section of the form and type Displacement in the Desc: text box. Click Apply. Repeat the procedure for the remaining two parameters. Notice the addition of TEXT elements to the hierarchy. Query the STEXT attribute of the TEXT elements as they are created.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
4.4.2
Modifying the Components (SCOM) Element
The newly components can be modified by selecting Component in the Model References pane.
The Model View form will update to display References.
Change the Name to /ELCONNS-T1 and the Description to Electrical Connection 1 Terminal. Click the Apply button and then click the Back button.
4.4.3
Creating a Component Copy
The component can now be copied to create a further two components in the category for the ELCONNS i.e. ELCONNS-T2, ELCONNS-T3. NAME
Height
Displacement
Outside Diameter
Inside Diameter
ELCONNS-T1
30
0
20
10
ELCONNS-T2
30
10
20
10
ELCONNS-T3
30
20
20
10
From the Model View form under the Model References section, select the Category /ELCONNS-TERM. At the bottom of the form select the row /ELCONNS-T1 using the arrow
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Select Copy
Select the new component and repeat the Copy operation to create a third component. Name the new components as described earlier using Components on the Model References pane.
4.4.4
Entering the Parameter Values
Complete the parameter values as shown here:
4.4.5
Fields are entered using the mouse or Tab Button.
Copying the PTSE Element Additional Point set (PTSE) elements are required, one for each Elconn as each connection will have a different number of terminals. To copy the PTSE element, navigate using the Catalogue Explorer to the PTSE ELCONNSTERM/PTSE_001 and then select the Copy Element button from the Create group of the HOME tab to display Copy Element form.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Enter /ELCONNSTERM/PTSE_002 in the Rename textbox and click the Apply button. Repeat this process to create a third PTSE element and name it /ELCONNS-TERM/PTSE_003. Click the Cancel button to close the form.
4.4.6
Modifying the Component (SCOM) References
The components /ELCONNS-T2, /ELCONNS-T3 need to be referenced against the correct PTSE element as they represent different number of terminals. Select /ELCONNS-T2 in the component grid and select Component in the Model References pane. In the Catalogue Explorer navigate to the PTSE ELCONNS-TERM/PTSE_002 element and select the CE button next to the P-Point Set field to change the Point Set reference, the Description will also require changing i.e. Electrical Connection 2 Terminal
Click the Apply button to retain the changes. Similarly, modify the point set reference and the Description for /ELCONNS-T3
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CHAPTER 5 5
Pointsets
A Point Set is a definition of the axis system and associated P-points for an electrical components, piping components, cabletray components etc. Consider the construction of equipment in AVEVA E3D Model; the User defines the axis system of the equipment and primitive elements. A similar task is required in catalogue creation but whereas P-points are defined in a fixed relationship to the equipment geometry, in the instance of electrical components the primitives are effectively draped about the Ppoints. Ppoints must be defined before the component geometry is created. The Point Set provides information to several modules. Each P-point contains details of bore, connection type, relative positions and direction for all the components that use it. The Point Sets underpin a number of fundamental operations used in AVEVA E3D Model and Draw modules, and their configuration is of great importance when producing isometrics from Isodraft. One Point Set can be used for many similar components with varying dimensions. Consequently, the point sets are parameterised so that the dimensions can vary for each component size.
Z P2 - Default Component Leave Point
-X
Y
PO - (Component Origin)
-Y
X
P1 - Default. Component Arrive Point
P3 - (Branch P- point)
-Z Example Pointset for a TEE
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5.1
Displaying P-Points
To display P-points and P-point numbers graphically: Select the Graphics Settings button from the View group on the HOME tab to display the Graphical Settings form. Tick both the Ppoints Display, and Numbers check boxes, then change the Background Colour to White. Click the Apply button and Cancel the form.
To display the component Axes system, tick the Axes check box at the top of the Model View form as shown below.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
5.2
Types of P-Points
There are four types of P-point elements:
PTAXI
Axial P-points
PTCAR
Cartesian P-points
PTMIX
Mixture of Axial and Cartesian P-points
PTPOS
P-point defined by specifying a position expression PTCPOS and using PTCD to specify a direction expression.
The type used depends on the position and orientation of the point relative to the component origin.
5.2.1
Cartesian Ppoint (PTCA)
A PTCA is defined in terms of an axial direction (in any plane) and an explicit position (X, Y, Z coordinates). The significant attributes are:
Number
– point number.
Ptcdirection
– point direction. May be expressed as Y 45 X or N 30 E, etc.
Px, Py and Pz
– positional offsets from origin.
5.2.2
Axial Ppoint (PTAX)
A PTAX is defined in terms of an axial direction (parallel to X, Y or Z, or in the XY, YZ or ZX plane) and a distance along that axis. The significant attributes are:
Number
– point number.
Paxis
– axial direction. May be expressed as Y 45 X or N 30 E, etc.
Pdistance
– distance from the origin along the axial direction.
5.2.3
Mixed Ppoint (PTMI)
A PTMI is defined in terms of an axial direction (parallel to X, Y or Z, or in the XY, YZ or ZX plane) and an explicit position (X,Y, Z coordinates), i.e. a mix of PTCA and PTAX. The significant attributes are:
Number
– point number.
Paxis
– axial direction. May be expressed as Y 45 X or N 30 E, etc.
Px, Py and Pz
– positional offsets from origin.
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5.2.4
Position (PTPOS)
A PTPOS is defined in terms of an axial direction (in any plane) and an explicit position (X, Y Z co-ordinates). The significant attributes are: Number
– point number.
Ptcdirection
– axial direction. May be expressed as Y 45 X or N 30 E, etc. or by referencing another Ppoint, e.g. PDIR 1.
Ptcposition
– position. May be expressed as X0, Y0, Z0, by referencing any position attribute or by referencing another Ppoint, e.g. PP1.
5.3
If the expression contains references to attributes Catalogue cannot resolve then the PTPOS element will not be displayed correctly and will need to be tested in AVEVA E3D Model module to ensure it works correctly.
Creating the Elconn Pointset – A Worked Example
Select /ELCONNS-T1 from the component list on the Model View form. Select Point Set on the Model References pane, the bottom part of the form will change to Point Set References. Select Cartesian P-Point (PTCA) from the New pull-down menu. Enter data for the first P-point as follows: 1 P-point Number TERM Purpose NULL Pskey 0 ConnectionType 0 Bore Visible in All Pvisibility Y Direction Z PZ Axis 0 X Co-ordinate PARAM 1 Y Co-ordinate 0 Z Co-ordinate
Click the Apply button. The image below illustrates the PTSE required for /ELCONNS-T1.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 A new PTCAR element has been created under the PTSE administrative level. Note the attributes for PTCAR 1.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Exercise 2 – Point Set Creation Create the P-Points for the SCOMs /ELCONNS-T2 and /ELCONNS-T3 using parameters shown below.
/ELCONNS-T2
SCOM
PointSet
/ELCONNS-T2
PTSE_002
/ELCONNS-T3
PTSE_003
/ELCONNS-T3
P-point (NUMB)
Purpose (PURP)
PZ Axis (PZAXI)
X Co-ordinate (PX)
Y Co-ordinate (PY)
1
TERM
Z
-PARAM2
PARAM1
2
TERM
Z
PARAM2
PARAM1
1
TERM
Z
-PARAM2
PARAM1
2
TERM
Z
0
PARAM1
3
TERM
Z
PARAM2
PARAM1
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CHAPTER 6 6
Creation of Geometry Sets
A Geometry Set (GMSE) is a key part of the catalogue, being visible to everyone connected by a project. In practice, creating a GMSE in PARAGON is a similar operation to creating EQUIPMENT with primitives in MODEL. CATALOGUE uses the same primitives which, aside from having no P-points, represent the same generic shapes together with levels and obstruction.
See Appendix A for Catalogue Primitives.
There are also two additional ‘flags’ associated with Catalogue primitives; one for tube representation (TUFLA) and one for centre line representation (CLFLA). It is normal practice to model three representations of a catalogue component, a Centre Line, a Detail and an Obstruction representation. Centre Line
Visible to designer when selecting the Centre Line representation in Model and Draw. This representation is often used on Drawings for clarity and may include weld blobs.
Detail
Normal representation used by the designer.
Obstruction
Used by Clasher and should include both hard and operational soft volumes. In the majority of cases the Obstruction volume can be the same as the detail volume.
6.1
Creating a Geometry Set (GMSE)
When creating equipment it is necessary to have a mental image of the equipment origin and its axis system. For Catalogue components, this information is provided in the form of a PTSE. Geometry Sets use parameters in the same way as Point Sets. In order to begin creation of the GMSE, it is necessary to be armed with the details of the relevant PTSE. Methods of documenting such information are dealt with elsewhere, but at this stage a pictorial method, such as the diagram below, would be instructive. Height PA1 P1 -PA2 P0
Y
Displacement
PA2 P2
X
(PTSE for ELCONNS-T2)
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
To create the GMSE, select Geometry on the Model References pane.
The reference section at the bottom of the Model View form is updated for Geometry References as shown:
To represent the Elconn, select a Positive LCYL (Cylinder) primitive from the pull down menu and tick the Show Geometry Plot check box.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 The primitive LCYL is shown in the graphical display area of the Model View form. The Show Geometry Plot assists the user to set the required attributes for each particular primitive. In this case, they are PAXI, PBDI, PDTI and PDIA. The Axis will normally correspond with the P-points definition. Set the following: Axis
Y
Dist to Bottom
0
Distance to Top PARAM1 Diameter
PARAM3
This is the OD of the Elconn
Purpose
TERM
To complete the primitive definition, set the Repr to Piping Detail. This will automatically set:
Drawing Level 0 to 10
Obstruction to Hard
Tube Flag On to display the outline of the elconn.
Click the Apply button. Uncheck the Show Geometry Plot tick box and, select Piping Detail from the top Representation Pull Down. To represent the hole in the middle of the Elconn, a negative cylinder will be used. Select Negative NLCY (Cylinder) primitive from the pull down menu. Set the following: Axis
Y
Dist to Bottom
0
Distance to Top PARAM1 Diameter
PARAM4
This is the ID of the Elconn
Purpose
TERM
Set the Representation to Piping Detail and set the Obstruction to None. Click the Apply button.
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The ELCONN geometry is now complete and is as shown below.
Holes Drawn can be enabled by clicking the Graphics Setting button from the View group on the HOME tab to display the Graphical Settings form and ticking Holes Drawn.
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Exercise 3 - Geometry Set Creation for 2 and 3 Electrical Terminal connections 1. Create the Geometry Sets for the remaining two components created earlier, ELCONNS-T2 and ELCONNS-T3, and assign them to the relevant SCOM. 2. Create the Geometry
ELCONNS-T2
ELCONNS-T3
Hint: Below are the parameters used to create one of the Terminals on ELCONNS-T2
LCYL
NLCY
PAXI
P1
PBDI
0
PDTI
- PARAM 1
PDIA
PARAM 3
PAXI
P1
PBDI
0
PDTI
PARAM 1
PDIA
PARAM 4
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CHAPTER 7 7
Creating Cable Components
This chapter describes the creation of Cable Components (SCOM’s), Cables Core Sets (CCORSE’s) and the Cable Cores Elements (CABCOR’s).
7.1
Creating a Cable Component with Core Connections The ELECTRICAL application is used to create cable catalogue components:
Selecting the ELECTRICAL application will add the CATALOGUE and SPECIFICATION tab to access the additional menu options that relate exclusively to this application
Navigate to CABLE/CATA-A in the catalogue explorer and click the Catalogue button from the Create group on the CATALOGUE tab to display the Create Catalogue form.
Enter /CABLES in the Name textbox. Set the Purpose to CORE and click the OK button
Click the Section button from the Create group on the CATALOGUE Tab to display the Create Section form. Enter CABLES.MGCG in the Name textbox. Set the Purpose to CORE and click the OK button.
7.2
Creating a Component Category (CATE) Element
To create a new Category element, click the Cores Category button from the Create group of the CATALOGUE tab, to display the Create Category form. Enter CABLES.MGCG.POWER in the Name textbox. Set the Purpose to CORE and click the OK button to display the Model View form.
The Model View form is displayed.
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The cable Category hierarchy is as shown below:
7.3
CCORSE or Cable Core Set elements are specific to the Cable element, and contains CABCOR elements (discussed later) which hold detailed information about cable cores such as Core Tag, Number etc.
Modifying the Cable Components The new components can be modified by selecting Component in the Model References pane. The Category Creation form will update to display References.
Change the Name to CABLES.MGCG.POWER/1x25 and the Description to MGCG Power Cable 1 x 25. Set the Generic Type to CABL. Copyright © 2014. AVEVA Solutions Limited and its subsidiaries. All rights reserved.
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Click the Apply button and then click the Back button.
MGCG Power Cable 1 x 25 where MGCG is the Make / Manufacturer, 1 is the number of cores and 25 is the core cross sectional area in mm2.
7.3.1
Creating Cable Cores Now from the Model References pane, select Cable Core Set, the bottom of the form changes to show the Cable Cores section. Click the New button. Enter the following information: Number (NUMB) Purpose (PURP) Description (DESC) Core Tag
1 CORE Core Connection Beige
Click the Apply button.
The purpose for the core connection could also be set to LIVE (Live), NEUT (Neutral), EART (Earth) etc.
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Exercise 4 – Creating Cable and Cable Core Sets 1. Re-name CCORSE CORES.MGCG.POWER/1x to CORES.MGCG.POWER/1x25 and Auto-name all CABCOR elements. 2. Create the following Cables and Cable core connection sets. SCOM CABLES.MGCG.POWER/2x25 CCORSE CORES.MGCG.POWER/2x25 CABCOR CORES.MGCG.POWER/2x25/1 Core Tag Black CABCOR CORES.MGCG.POWER/2x25/2 Core Tag Blue SCOM CABLES.MGCG.POWER/3x25 CCORSE CORES.MGCG.POWER/3x25 CABCOR CORES.MGCG.POWER/3x25/1 Core Tag Black CABCOR CORES.MGCG.POWER/3x25/2 Core Tag Blue CABCOR CORES.MGCG.POWER/3x25/3 Core Tag Brown SCOM CABLES.MGCG.POWER/4x25 CCORSE CORES.MGCG.POWER/4x25 CABCOR CORES.MGCG.POWER/4x25/1 Core Tag Black CABCOR CORES.MGCG.POWER/4x25/2 Core Tag Blue CABCOR CORES.MGCG.POWER/4x25/3 Core Tag Brown CABCOR CORES.MGCG.POWER/4x25/4 Core Tag Black The complete hierarchy should look as shown below:
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CHAPTER 8 8
Creating Text Elements
This chapter describes the creation of Detail Text and General Text elements and their attribute settings.
8.1
Detail Text
Each GPART element has a reference indicator - DETREF. This is a reference to the name of a Detail Text element (SDTEX). The purpose of a SDTEX is to carry textual information defining the various E3D catalogue components. This information is used when selecting component types in AVEVA E3D Model, in material take-off reports and as an output on the ISODRAFT isometric material list. SDTEX elements are owned by a SECT or CATE in the catalogue. Use the Catalogue Explorer to navigate to the Category CABLES.MGCG.POWER and then click the Detail Text button from the Create Group of the CATALOGUE tab to display the Detail Text Definition form. Name: CABLES.MGCG.POWER/1X25-SDTE Detail (Isodraft): Fire Resisting Power Cable; Fire proof; #coresxNom. Xarea(mm2): 1X25 Interface B: 0.6/1KV, PVC:INSU, PVC:SH, Galvanized steel wire braided, PVC:OSH Click the Apply button.
Each SDTEX element has the common attributes TYPE, NAME, LOCK and OWNER and in addition, SKEY, RTEX, STEX, TTEX, MtoLength, and MtoQuantity.
RTEX, STEX and TTEX are the actual text strings carried by the DTEX element.
Detail (Isodraft) is the field for the RTEX. This identifies the default used by Isodraft.
Interface B is for STEX creation and Interface C for TTEX. Either can be used in place of RTEX.
By default, ISODRAFT uses RTEX to generate component descriptions, but it is also possible to use STEX or TTEX for the same purpose. This allows three different descriptions to be used for components. In some European companies, this has been used to provide different language output formats.
The fields Length and Quantity relate to the use of additional material take-off data in ISODRAFT. The value, to which these attributes (MtoLength & MtoQuantity) have been set, will be output on the ISOs only if the MTOR attribute has been set in AVEVA E3D Model for that component. The MTOR must be set to a relevant GPART reference or SPREF, which selects the DTEX and MTEX information plus any length (MtoLength) or (MtoQuantity) which is set. This does not apply to the cable elements.
If both are set then only the Length will be shown. If the Quantity is required then the Length must be unset to allow this as only one attribute may be displayed.
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8.2
General Text
The Text is a general element that can occupy many positions in the hierarchy. It can be used to store additional information about an owning or adjacent element. The TEXT element should not be confused with the SMTEX and SDTEX elements described above. The text itself exists as the STEX attribute of the TEXT. Use the Catalogue Explorer to navigate to the Category CABLES.MGCG.POWER and then click the Text button from the Create group on the CATALOGUE tab to display the Text Definition form. Set the Text: to High Voltage Cable
Click the Apply button, and Cancel the form.
8.3
Text requirements on Specifications
When creating a new specification, a TEXT element is created as the first item. This TEXT element is required by the AVEVA E3D Model moule. If the TEXT element is not present, and it is not the first item, or does not have its STEX set correctly, the specification will not be displayed on the Specification Selection Form. The STEX should be set to one of the following depending on what the specification is to be used for.
STEX
’PIPING’...
for pipework components
STEX
’TRAY’...
for cable tray components
STEX
’HVAC’...
for HVAC components
STEX
’STEELWORK’...
for steelwork components
STEX
’INSUL’...
for Insulation
STEX
’TRACE’...
for tracing.
On cable tray Specifications an additional TEXT element is required. The element should be the last member, after all the Selectors, and should have its STEX set:
STEX ’2400’...
Default cable Tray Fixed section Lengths
If these rules are not followed, the result will be that the use of the spec is by entry on the command line only and not by the Graphical User Interface.
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Exercise 5 – Creating Text Elements 1.
Create a Detail Text for each of the components previously created in Exercise 3.
Detail (Isodraft) text string Fire Resisting Power Cable; Fire proof; #coresxNom. Xarea(mm2): #x25
Replacing # with the correct number of cores
(Interface B) text string 0.6/1KV, PVC:INSU, PVC:SH, Galvanized steel wire braided, PVC:OSH 2.
Modify the General Text element to set the Stext to High Voltage Power Cable and rename the TEXT element to be CABLES.MGCG.POWER/TEXT/1
The Catalogue hierarchy should now look as shown below:
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CHAPTER 9 9
Component Part Families
GPART Families and elements are used in the catalogue to fully define a component without the need for a specification. The structure of the hierarchy is as follows: PRTWLD
PRTELE
PRTELE
PRTELE
PRTELE
GPART
GPART
GPART
PRTWLD is an administrative level of the hierarchy. Each PRTELE element represents a GPART family corresponding to a specific GTYPE, e.g. ELBO, INST, REDU, etc... PRTELEs contain a number of GPART elements, each of which fully defines an individual component. GPART elements have attributes as follows: Reference Attributes
9.1
Type Attributes
Catref
Catalogue Reference
Pritype
Primary Type e.g. ELBO
Detref
Detail Reference
Sectype
Secondary Type e.g. BW
Matxt
Material Reference
Cmpref
Properties Reference
Bltref
Bolting Reference
Tmpref
Template Reference
Drssref
Drawing Symbol Reference
Srftref
Surface Treatment
Creating a Part World Navigate to CABLE/CATA-A in the catalogue explorer. Click the Part World button from the Create group of the CATALOGUE tab to display the Create Part World form. Enter CABLES.PRTWLD in the Name textbox. Set the Purpose to CABL Click the OK button.
If the purpose required is not an option in the pull-down menu, the user can type in the required purpose.
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9.2
Creating a Part Family
Click the Part Family button from the Create group of the CATALOGUE tab to display the Create Part Family form. Enter MGCG-PARTS in the Name textbox. Set the Purpose to CABL Click the OK button; this will display the Part Family form.
The Part Family form allows users to create and modify GPARTs using various options available in the Tasks pane. The View and Edit Properties section allows users to : General Attributes – this allows users to modify general attributes such as Name, Description, Type, Purpose etc. for any existing GPART elements. References – this allows users to modify various references on existing GPART elements to other E3D elements such as 3D components, Isometric Descriptions, Physical Properties etc. Navigate to 3D Model/Selected Part - this option navigates user to its respective position in the hierarchy.
Modify 3D Model – this displays the Model View form for the selected GPART. The Create and Delete Parts section allows users to :
Create a New Part – this allows users to create a new GPART without any references and attributes assigned to it.
Create Copies of Selected Part – this allows users to copy a selected part from the grid.
Create Parts from Category – this allows users to create new GPART(s) from an existing category of components. Users can either navigate directly to the CATE element before selecting this option or search for the specific category.
Create Parts From Template Area – this allows users to create new GPART(s) from an existing Template Area within a design database.
Delete Selected Parts – Deletes the selected parts in the grid from the hierarchy.
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9.3
Creating Parts from a Category
Using the Catalogue Explorer, navigate to the Category CABLES.MGCG.POWER. To create GPARTs from the category created previously, click the Create Parts from Category link label under the Create and Delete Parts section of the Part Family form. The grid on the Part Family form should automatically be populated with the newly created GPART elements.
Select /MGCG.PARTS/GPART_001 from the grid and click the General Attributes link label. Enter the following in their respective textbox: Name:
E/MGCG/POWER/1x25
Type:
CABLE
Subtype:
POWER
Description: Fire Resisting Power Cable; Fire proof; #coresxNom. Xarea(mm2): 1X25 Click the Apply Changes button and then click the Back to Tasks link label.
9.4
Setting the Isometric Description
From the Tasks panel select References under the View and Edit Properties section. From the Reference list select Iso Description Navigate to SDTE element CABLES.MGCG.POWER/1X25-SDTE in the Catalogue Explorer.
Click the CE button in the Tasks > References panel. The Detref textbox should now be populated with the name of the selected SDTE element. Click the Apply Change button. This will update the detail text reference (DETREF) attribute of the GPART with appropriate data. The Edit Iso Description… button is activated once the DETREF attribute is updated with a valid reference. Clicking this button displays the Detail Text Definition form, which allows users to modify the SDTEXT element and update any changes.
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9.5
Setting the Component Weight
From the Tasks > References list select Physical Properties The Tasks > References panel is updated to display the CMPREF (Component Reference) details. The Physical Properties of a cable include attributes such as Outside Diameter, Unit Weight, Dinterference, Current, Cross-Sectional Area etc.
The cable property (CABD) elements are stored in the Properties database and are discussed later in the training course.
The Physical Properties can be set in two ways; either by selecting the required property and clicking the CE button or by using the Search feature as discussed below. Click the Search Panel for Reference Data button in the Tasks > References pane to display the Search for Cmpref panel.
The Search for Cmpref allows users to search for the appropriate elements using various configurable filtering criterions. Click the Find button. The results are now listed in the grid, select the required properties element i.e. /CABD-DIN.MGCG-1X25 and click the Use button.
Th e components Uweight reference is added to the Weight text box, click the Apply Changes button. The results can be filtered to make finding and selecting an element easier, to do this, either type part of the name required into the heading cell of the Name column, as the shown: or by selecting options from the pull-down menu in the cell.
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Exercise 6 – Part Creation (Cables / Elconns) 1.
Rename the remaining GPART elements and then set the Type, SubType and Description attributes as shown below. Add the References for the Iso Description created in Exercise 4. Set the Weights from the Properties database as shown below. Weight Elements for Cables 2x25 - /CABD-DIN.MGCG-2X25 3x25 - /CABD-DIN.MGCG-3X25 4x25 - /CABD-DIN.MGCG-4X25
2.
Create a Part Family and Parts for the ELCONNS created previously. Name the new Part Family ELCONNS.PRTELE. Name the parts as shown below.
Remember to set the Part Family Purpose and Type to EQUI.
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CHAPTER 10 10
Selection Tables
The purpose of Selection Tables in AVEVA E3D is similar to that in a manual design situation, in that it limits and controls the designer’s choice of components for a given application. The selection tables are created interactively using the Catalogue GUI. As discussed previously, the Selection Tables are populated by selecting the specific GPARTs for use in the AVEVA E3D Model module. The Selection Table hierarchy is as shown below and is discussed in detail throughout this chapter.
10.1
Creating a Cable Selection Table (Specification)
Using the Catalogue Explorer, navigate to the CABLE/CATA-A element. Click the Specification World button from the Create group of the SPECIFICATIONS tab to display the Create Specification World form.
Enter CABLE.SPWL in the Name textbox. Set the Purpose to CABL and click the OK button.
Click the Selection Table button from the Create group of the SPECIFICATIONS tab to display the Create Table Group form. Enter CABLE.MGCG in the Name textbox. Set the Purpose to CABL and click the OK button to display the Selection Table form.
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From the Selection Table form, select the Table Attributes link label under the Table section. The Table Attributes pane is now displayed at the bottom of the form. Set the following in their respective fields: Name:
CABLE.MGCG
Description:
MGCG Power Cables Fire Resistant
Discipline:
Electrical
Sub-Discipline:
CABL
Click the Apply button and then click the Back button.
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10.2
Adding a Table Heading
On the Selection Table form, under the Headings section select the Add Heading… link label. The Add Heading panel is now displayed at the bottom of the form. Set the Description to DIN.MGCG Fire Resistant Power Cables
Click the Apply button. The Add Heading panel now changes to Edit Heading. Enter CABLE-DIN.MGCG-POWER in the Name textbox and set the Purpose to CABL.
Click the Apply button and then click the Back button. Using the Catalogue Explorer, navigate to the MGCG.PARTS (PRTELE) element created previously. Select the Add Items (form CE) link label under the Items section.
The cables from the Part Element (PRTELE) are now added to the Selection Table forms grid.
10.2.1
Editing Heading Questions
The heading questions are added to selections tables to aid filtering when working with large sets of data. For example, Number of Cores in a cable element. This will allow designers to filter cable catalogues based on number of cores. Select all the items in the Selection Table grid, then under the Headings click the Edit Heading Questions… link label. The bottom section of the form changes to display the Edit Questions pane.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 Click the Add Question button. Enter the following details in their respective fields: Purpose:
NCOR
Description:
Number of Cores
Question Type:
Text
Question:
Number of Cores
Answer Type:
Text
Click the Apply button.
Similarly, add the following questions: Purpose
AMPS
Purpose
INSU
Description
Current
Description
Insulation
Question Type
Text
Question Type
Text
Question
Current
Question
Insulation
Answer Type
Text
Answer Type
Text
Once all the questions have been added click the Back button. Now select each added element and click the Edit Selection… link label, from under the Items section on the form. The bottom section of the form changes to show the Edit Items pane. Select the first question from Questions list. The Format and Answer text boxes become active. Enter 1 in the Answer textbox and click the Apply button. Similarly, update the Answer for AMPS to 120 and INSU to HEMP.
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10.3
Removing / Deleting Items form the Selection Table
Modification of a recently created Selection Tables (Specifications), which has not been used, can be done with freedom. If, however, cables have already been used in AVEVA E3D Model using the selection tables, it is necessary to consider the consequences of any modification. When a cable component has been created and selected in AVEVA E3D Model, it has a specification reference (SPRE), which in turn contains references to the catalogue. If an item in the specification is deleted when there are elements in the Model referencing that item, the references to the catalogue are lost. This would mean that it would not be possible to produce drawings, isometrics or carry out clash checks since references provide the geometry and orientation of each component. To Delete SPCOMS, navigate to the selection table using the Catalogue Explorer, and then click the Selection Table button from the Modify group of the SPECIFICATION
Select the items required to be deleted and select the Delete Selection link label from the tasks panel.
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Exercise 7 – Selection Tables Creation (Cables / Elconns) 1. Edit the remaining answers for the three cable components in the selection table with the information provided below.
2.
Create a Selection Table for the previously created Electrical Connections (ELCONNS) as shown below. Name the new SPWL element ELCO and leave the TABGRO name to the default setting. Set the Purpose for the SPWL and TABGRO to ELEC.
Set the selection Table Heading to Electrical Connections, the Discipline to Equipment and the SubDiscipline to ELEC. Add a Heading Question that, requests the number of connections, and set the Purpose of the question to NTRM
3.
Open AVEVA E3D Model and login using User: A.CABLEMAN, Password: A and MDB: A-CABLE. Test that the newly created Cable Selection Table works by accessing the Cable Design application.
4.
Test that the newly created ELCONN Selection Table works by adding an electrical connection to an Equipment element in AVEVA E3D Model.
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CHAPTER 11 11
Design Parameters
The design parameters (DESPARAM) are used to aid the Catalogue Administrator, in the creation of catalogue components the use of parameters reduces the number of geometry and point sets that are required, design parameters (DESPARAM) can also be used in a similar way to that of catalogue parameters.
11.1
Extra Design Parameters
There are occasions when certain parameters need to be variable. Users will be accustomed to stating HEIGHT of nozzles (which are catalogue components) and less obviously, to stating the angle on some pulled bends by defining a non-orthogonal direction. To achieve this, the users are allowed to state design data height (HEI or DDHEI), design data angle (ANG or DDANG) and design data radius (RAD or DDRAD). These are used in Pointsets and Geomsets, on those elements, which have attributes of height, angle or radius. For instance in AVEVA E3D Model, when creating a bend the user could state ANG 60 to specify the design data angle. In order to cater for the setting of angles in a Pointset, the catalogue administrator would need to describe the direction of the points for a PTAX element to allow for the variable angle. For ANG 60 the PAXI attribute would not be co-linear to an axis, i.e. PAXI Y ANG Z or PAXI Y DDANG Z where ANG or DDANG means use the angle attribute from the design database. The Model Parameters form is displayed from the CATALOGUE tab then click the Model Parameters button from the Settings. This form can be used to specify the Component Design Data attributes. The Default values are shown when the form is first selected and these are Design Angle 90, Design Height 100 and Design Radius 225.
11.2
Design Database Parameters
Design parameters allow components to take dimensions from the design parameter array in the design database. Each design element has a design parameter array which allows any component with a SPREF to use the values stored in AVEVA E3D Model to complete that components definition. i.e. DESPARAM 4 would refer to the fourth value of the design parameter array of the design element. Design parameters can be used anywhere that component parameters are used. i.e. the display of the Ppoint could be defined by entering PY (PARAM[1]), this means that the value assigned to the distance along the Y axis is the value of parameter 1 from the catalogue component. Alternatively using design database parameters, the distance could also be expressed as PY (DESPAR[4]), this statement uses value 4 from the Desparam array attribute in the Design Database.
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CHAPTER 12 12
Cable Tray Components
Typically a Cable Tray catalogue will consist of a number of component categories to represent components such as Fixed Length Straights, Variable Length Straights, Inside / Outside Risers, Crosses, Tees, etc.
12.1
Creating a Cable Tray Component (Straight) - A Worked Example
The graphical representation for a straight piece of variable length cable tray is shown below.
SBOX primitives will be required to represent the two sides and the bottom of the cable tray. The length of the tray will be variable based on the value of the design parameter DDHEIGHT (HEIG). Additional SBOX’s will be required for soft and hard obstruction volumes around the cable tray. Navigate to CABLE/CATA-A in the Catalogue Explorer and click the Catalogue button from the Create group of the CATALOGUE tab to display the Create Catalogue form.
Enter CABLETRAY in the Name textbox. Set the Purpose to TRAY. Click the OK button.
Click the Section button from the Create group of the CATALOGUE Tab button to display the Create Section form. Enter HEAVYDUTY.TRAY in the Name textbox. Set the Purpose to TRAY Click the OK button.
Click the Tray Category button from the Create group of the CATALOGUE tab to display the Create Category form.
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Enter STRAIGHTS.VL in the Name textbox. Set the Purpose to TRAY and click the OK button to display the Model View form.
Create five Parameter Definitions as mentioned below: Parameter 1
Tray Width
Parameter 2
Flange Height
Parameter 3
Connection Compatibility
Parameter 4
Cable Clearance
Parameter 5
Thickness
Set the following parameter values for the first component. Name
Gtype
PA1
PA2
PA3
PA4
PA5
STRAIGHTS.VL/100
FTUB
100
32
BOXI
100
2
Copy the first component twice and set the following parameter values. Name
Gtype
PA1
PA2
PA3
PA4
PA5
STRAIGHTS.VL/150
FTUB
150
32
BOXI
100
2
STRAIGHTS.VL/200
FTUB
200
32
BOXI
100
2
Once the SCOM’s have been created and the parameter data entered for each one, the Point Sets can now be created for them. Select Point Set on the Model References paneL. The bottom part of the form will change to display the Point Set References. Create the first P-point, by selecting Axial P-point (PTAX) from the pull-down menu, and enter the data for the P-point as follows: P-point number Purp Pskey Connection Type Bore Pvisibility Axis Direction PZ Axis Distance
1 NULL PARAM 3 PARAM 1 Visible in ALL -Y Z 0
Click the Apply button. This has defined P1 of the Straight, it has used two parameters, one for the connection type, and the second for the width (PARAM 1). P2 may be defined in the same way - the choice of axis, number and distance differs; all other parameters remain the same.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 Using the same method as previously shown, enter data for the second P-point as follows: P-point type P-point number Purp Pskey ConnectionType Bore Pvisibility Axis Direction PZ Axis Distance
PTAX 2 NULL PARAM 3 PARAM 1 Visible in ALL Y Z HEIGHT
Create the following P-points, using the method discussed above. P-point type P-point number Purp Pskey ConnectionType Bore Pvisibility Axis Direction PZ Axis Distance
PTAX 3
P-point type P-point number Purp Pskey ConnectionType Bore Pvisibility Direction PZ Axis X Co-ordinate Y Co-ordinate Z Co-ordinate
PTCA 4
P-point type P-point number Purp Pskey ConnectionType Bore Pvisibility Direction PZ Axis X Co-ordinate Y Co-ordinate Z Co-ordinate
NULL 0 0 Visible in ALL Z Z 0
NULL 0 0 Visible in ALL -Y Z 0.5 * PARAM 1 0 0.5 * PARAM 2 PTCA 5 NULL 0 0 Visible in ALL Y Z 0.5 * PARAM 1 HEIGHT 0.5 * PARAM 2
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 P-point type P-point number Purp Pskey ConnectionType Bore Pvisibility Direction PZ Axis X Co-ordinate Y Co-ordinate Z Co-ordinate
PTCA 6
P-point type P-point number Purp Pskey ConnectionType Bore Pvisibility Direction PZ Axis X Co-ordinate Y Co-ordinate Z Co-ordinate
PTCA 7
P-point type P-point number Purp Pskey ConnectionType Bore Pvisibility Axis Direction PZ Axis Distance
PTAX 30
P-point type P-point number Purp Pskey ConnectionType Bore Pvisibility Axis Direction PZ Axis Distance
PTAX 31
NULL 0 0 Visible in ALL -Y Z -0.5 * PARAM 1 0 0.5 * PARAM 2
NULL 0 0 Visible in ALL Y Z -0.5 * PARAM 1 HEIGHT 0.5 * PARAM 2
NULL 0 0 Visible in ALL Z Z 0
NULL 0 0 Visible in ALL Z Z 0
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 The complete Point set for the straight should look as shown below.
Pointset References 30 and 31 are required for the old Cable Tray application but are not required by the Cable Design application. They are used by the system to determine the open direction of the connecting component.
Once the P-points have been created and the parameter data entered for each, the Geometry Set can now be created for these. Select Geometry on the Model References panel. The bottom part of the form will change to Geometry References. Select SBOX from the Positive pull-down menu. Enter data for the required geometry as follows:
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
An Obstruction volume is required for the Tray component to cater for Cable Clearance. Select SBOX from the Positive pull-down menu. Enter data for the required geometry as follows:
The Geometry for a Variable Length Straight is now complete. Select Category on the Model References panel. Select different components in the Component Grid to the bottom of the form and observe the geometric changes within each component.
Width - 100mm
Width - 150mm
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Width - 200mm
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Exercise 8 – Cable Tray Component Creation Referring to the information contained within Exercises 8a to 8c:
Create the required catalogue hierarchy for the cable tray components.
Consider the geometric representation.
Consider the parameters required for Pointset and Geomset definition.
Consider the p-point layout required.
Consider naming convention.
Refer to Appendix A for details of the Catalogue primitives available to be used in this exercise.
Where possible, use the following conventions when building components: Parameter 1
Tray Width
Parameter 2
Flange Height
Parameter 3
Connection Compatibility
Parameter 4
Cable Clearance
Parameter 5
Thickness
Parameter 6
Face to CL
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Exercise 8a - RIGHT HAND BEND (CATE BEND.RH)
Tray Width (Value ‘A’)
Flange Height (Value ‘B’)
Connection Compatibility
Cable Clearance (Value ‘C’)
Thickness (Value ‘D’)
Face to CL (Value ‘E’)
PA 1
PA 2
PA 3
PA 4
PA 5
PA 6
100
32
BOXI
100
2
300
150
32
BOXI
100
2
300
200
32
BOXI
100
2
300
100
32
BOXI
100
2
450
150
32
BOXI
100
2
450
200
32
BOXI
100
2
450
All values in mm unless otherwise stated. P-Point Configuration
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Exercise 8b - OUTSIDE RISER (CATE RISER.OR)
Tray Width (Value ‘A’)
Flange Height (Value ‘B’)
Connection Compatibility
Cable Clearance (Value ‘C’)
Thickness (Value ‘D’)
Face to CL (Value ‘E’)
PA 1
PA 2
PA 3
PA 4
PA 5
PA 6
100
32
BOXI
100
2
300
150
32
BOXI
100
2
300
200
32
BOXI
100
2
300
100
32
BOXI
100
2
450
150
32
BOXI
100
2
450
200
32
BOXI
100
2
450
All values in mm unless otherwise stated. P-Point Configuration
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Exercise 8c - EQUAL TEE (CATE TEE.FL) – Optional Exercise
Tray Width (Value ‘A’)
Flange Height (Value ‘B’)
Connection Compatibility
Cable Clearance (Value ‘C’)
Thickness (Value ‘D’)
Face to CL (Value ‘E’)
PA 1
PA 2
PA 3
PA 4
PA 5
PA 6
100
32
BOXI
100
2
300
150
32
BOXI
100
2
300
200
32
BOXI
100
2
300
100
32
BOXI
100
2
450
150
32
BOXI
100
2
450
200
32
BOXI
100
2
450
All values in mm unless otherwise stated. P-Point Configuration
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
12.3
Create GPART for Cable Tray - A Worked Example
Navigate to CABLE/CATA-A in the catalogue explorer and click the Part World button on the Create group of the CATALOGUE to display the Create Part World form.
Enter TRAY.PRTWRLD in the Name textbox. Set the Purpose to CABL and click the OK button.
If the purpose required is not an option in the pull-down menu, the user can type in the required purpose.
Click the Part Family button from the Create group of the CATALOGUE tab to display the Create Part Family form.
Enter TRAY.PRTWRLD.STRAIGHTS in the Name textbox. Set the Purpose to TRAY and click the OK button to display the Part Family form.
Using the Catalogue Explorer and Navigate to the Category STRAIGHTS.VL To create GPARTs from the category created previously, click the Create Parts from Category link label under the Tasks pane on the Part Family form. The grid on the Part Family form should automatically be populated with the newly created GPART elements.
Select all the newly created elements from the grid and click the General Attributes link label located in the View and Edit Properties Section under the Tasks pane.
Enter the following in their respective textboxs: Type:
FTUB
Subtype:
VL
Description:
Straight Heavy Duty Galv.
Click the Apply Changes button. Select the individual elements from the grid and edit the Names to HDCTG.TRAY.STRA/100, HDCTG.TRAY.STRA/150 and HDCTG.TRAY.STRA/200 respectively for each straight, as shown below.
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Now Save Work.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Exercise 9 – Creating GPART elements for Cable Tray Create three further Part Family (PRTELE) elements under the TRAY.PRTWRLD created in the previous worked example, for the other tray components. NAME PURP
PRTELE TRAY.PRTWRLD.BEND.RH BEND
PRTELE TRAY.PRTWRLD.RISER.OR ELBO
CATE Reference
CATE BEND.RH
CATE RISER.OR
TYPE of Elements Description
BEND Bend Heavy Duty Galv.
ELBO Riser Heavy Duty Galv.
NAME PURP CATE Reference TYPE of Elements Description
PRTELE TRAY.PRTWRLD.TEE.FL TEE CATE TEE.FL TEE Tee Heavy Duty Galv.
Rename the all the GPART elements as follows according to their respective widths/bend radius: HDCTG.TRAY.BEND/100-300, 150-300, 200-300, 100-450, 150-450, 200-450 HDCTG.TRAY.RISER/100-300, 150-300, 200-300, 100-450, 150-450, 200-450 HDCTG.TRAY.TEE/100-300, 150-300, 200-300, 100-450, 150-450, 200-450
12.4
Creating Selection Table for Cable Tray - A Worked Example
Using the Catalogue Explorer, navigate to the CABLE/CATA-A element. Click the Specification World button from the Create group on the SPECIFICATION tab to display the Create Specification World form. Enter CABLE.TRAY.SPWL in the Name textbox. Set the Purpose to TRAY Click the OK button.
Click the Selection Table button from the Create group of the SPECIFICATION tab to display the Create Table Group form. Enter CABLE.TRAY.TABGRO in the Name textbox. Set the Purpose to TRAY Click the OK button to display the Selection Table form.
From the Selection Table form, select the Table Attributes… link label under the Table section.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 The Table Attributes pane is now displayed at the bottom of the form. Set the following in their respective fields: Description:
Heavy Duty Cable Tray
Discipline:
Electrical
Sub-Discipline:
TRAY
Click the Apply button and then click the Back button.
12.4.1
Adding a Table Heading
From the Selection Table form, select the Add Heading… link label under the Headings section. The Add Heading panel is now displayed at the bottom of the form. Set the Description to HDCTG Variable Straights
Click the Apply button. The Add Heading pane now changes to Edit Heading. Enter CT-HDCTG-STRA in the Name textbox and set the Purpose to TRAY. Click the Apply button and then click the Back button. Using the Catalogue Explorer, navigate to the newly created selection table CT-HDCTG-STRA. Click the Attributes button from the Disply group on the HOME tab to display the Attributes form.
Using the Attributes form, set the attribute SPType to ELEC
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 Again, using the Catalogue Explorer, navigate to the TRAY.PRTWRLD.STRAIGHTS (PRTELE) element created previously. Select the Add Items (from CE) link label under the Items section, to populate the Selection Table grid, with the Part Element (PRTELE) members, as shown below.
12.4.2
Editing Heading Questions
Select all the items in the Selection Table grid. Click the Edit Heading Questions… link label. The bottom section of the form changes to display the Edit Questions pane. Click the Add Question button, and enter the following details in their respective fields: Purpose
TYPE
Description
TYPE
Question Type
Word
Question
TYPE
Answer Type
Text
Click the Apply button. Similarly, add the following questions: Purpose Description Question Type Question Answer Type Default Answer
STYP STYP Word STYP Text Unset
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LENG LENGTH Word LENG Text 6000
79
WIDT WIDTH Word WIDT Text Unset
HEIG HEIGHT Word HEIG Text Unset
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 The Questions should look like this:
Once all the Questions have been added click the Back button. Now re-select all elements in the Selection Table grid and click the Edit Selection… link label under the Items section of the form. The bottom section of the form changes to show the Edit Items panel. Select the first question from Questions list. The Format and Answer text boxes become active. Enter CTSTRA in the Answer textbox and click the Apply button. Similarly, update the Answer for STYP to VL, LENG to 6000 and HEIG to 10. Now select the first element in the grid and navigate to Question 4 WIDT in the Questions list. Set the answer for this to 100mm, 150mm and 200mm for the respective elements in the grid. Once all the Answers have been added click the Back button.
Save Work.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Exercise 10 –Selection Table Creation for Cable Tray 1.
Add a new Heading to the CABLE.TRAY.TABGRO. Set the Description to HDCTG Right Hand Bends. Set the Name for the new Selection Table to CT-HDCTG-BEND-RH, Purpose to TRAY and SPType to ELEC.
Add the Bends created in previous exercise to the selection table. Add the following Heading Questions to the selection table. Purpose Description Question Type Question Answer Type Default Answer
TYPE TYPE Word TYPE Text Unset
STYP STYP Word STYP Text Unset
RADI RADIUS Word RADI Text Unset
ANGL ANGLE Word ANGL Text Unset
WIDT WIDTH Word WIDT Text Unset
Set the TYPE for all items in the selection table grid to CTBEND, STYP to RH and ANGL to 90. Set the answer for RADI to 300, 450 and WIDT to 100mm, 150mm and 200mm for the respective elements in the grid. 2.
Create a third heading under the table group CABLE.TRAY.TABGRO. Set the Description to HDCTG Outside Risers. Set the Name for the new Selection Table to HDCTG-RISERS-OR, Purpose to TRAY and SPType to ELEC.
Add the Risers created in previous exercise to the selection table. Add the following Heading Questions to the selection table. Purpose Description Question Type Question Answer Type Default Answer
TYPE TYPE Word TYPE Text Unset
STYP STYP Word STYP Text Unset
RADI RADIUS Word RADI Text Unset
ANGL ANGLE Word ANGL Text Unset
WIDT WIDTH Word WIDT Text Unset
Set the TYPE for all items in the selection table grid to CTRISE, STYP to OR and ANGL to 90. Set the answers for RADI and WIDT based on their respective sizes. 3.
Create a final heading under the table group CABLE.TRAY.TABGRO with the Description set to HDCTG TEES. Set the Name for the new Selection Table to HDCTG-TEES, Purpose to TRAY and SPType to ELEC.
Add the Tees created in previous exercise to the selection table. Add the following Heading Questions to the selection table. Purpose Description Question Type Question Answer Type Default Answer
TYPE TYPE Word TYPE Text Unset
RADI RADIUS Word RADI Text Unset
BRWI LEAVE WIDTH Word BRWI Text Unset
WIDT WIDTH Word WIDT Text Unset
Set the TYPE for all items in the selection table grid to CTTEE. Set the answers for RADI, BRWI and WIDT based on their respective sizes. 4.
Once complete test in the Cable Design module.
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CHAPTER 13 13
Cable / Cable Tray Properties
The Component Property data in the properties database is referenced from the specification component (SPCO) component reference (Cmpref). The Component Properties database contains the following element types. CMPW CMPT CMPD TUBD CABD
(component world) (component type) (component data) (tube data) (cable data)
The TUBD, CMPD and CABD elements store the physical data, and it is these elements which are referenced by the component reference (Cmpref). Attributes for Outside Diameter (OUTD) and Actual Bore (ACBO) is common to CMPD, TUBE, Outside Shield Diameter (OUTSD) is only for the CABD, whilst component weight (CWEI) is used on CABD and CMPD and unit weight (UWEI) on TUBD. The Cross Section Area (XArea) is only for the CABD. The figure below shows the component properties database hierarchy.
13.1
Creating Cable Component Properties Data – A Worked Example
Using the Catalogue Explorer, expand the Property WORL * node, and navigate to the CABLE/PROP-A element. Click the Material Properties button from the Modify group of the HOME tab to display the Material Properties form. From the New pull down list select CMPW. The new element and associated attributes are created, select the row with the Name attribute in the grid, and in the Name field that appears at the bottom of the form enter in CABLES_CMPW.
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842 From the New pull down list select CMPT, the new element and associated attributes are created, select the Name attribute and in the Name field at the bottom of the form key in CABLES_MGCG_POWER. Again, from the New pull down list select CABD, The new element and associated attributes are created, select the Name attribute and in the Name field at the bottom of the form key in CABLES_MGCG_POWER/1x10 Select the rows in the grid, and enter the following information for the newly created CABD element. Outdiameter:
10.5mm
Outsdiameter:
10.5mm
Uweight:
0.2kg/m
MinBend:
100mm
Dinterference:
POWER
VoltAC:
1000volt
VoltDC:
1000volt
Current:
5ampere
XArea:
10mm2
The Properties form should look like the one shown below:
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AVEVA Catalogue (2.1) Cable Catalogues & Specifications TM-1842
Exercise 11 – Creating Cable Properties 1.
Create the CABD elements along with their attributes as shown below.
Attribute
Component Name (CABD) CABLES_MGCG_POWER/2x10 CABLES_MGCG_POWER/3x10
Outdiameter
18.5mm
19.5mm
Outsdiameter
18.5mm
19.5mm
Uweight
0.6kg/m
0.7kg/m
Dinterference
POWER
POWER
VoltAC
1000volt
1000volt
VoltDC
1000volt
1000volt
XArea
20mm2
30mm2
Attribute
Component Name (CABD) CABLES_MGCG_POWER/4x10
Outdiameter
21mm
Outsdiameter
21mm
Uweight
0.9kg/m
Dinterference
POWER
VoltAC
1000volt
VoltDC
1000volt
XArea
40mm2
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APPENDIX A APPENDIX A - Catalogue Primitives Primitive Elements The following three-dimensional primitive elements are all used by geometry sets (GMSET). They all have common attributes LEVEL, CLFLA, TUFLA and OBSTR. The particular attributes of each element are described on the following pages.
Box (SBOX) The SBOX has the following particular attributes: PX
X co-ordinate position of box
PY
Y co-ordinate position of box
PZ
Z co-ordinate position of box
PXLEN
X dimensions of box
PYLEN
Y dimensions of box
PZLEN
Z dimensions of box
Box (SBOX) Catalogue Primitive
Cone (SCONE) The Cone (SCONE) has the following particular attributes: PAXIS
direction of axis of cone
PDIST
height of vertex above base
PDIAM
diameter of base
Cone (SCONE) Catalogue Primitive
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Disc (SDISK) The Disk (SDISK) has the following particular attributes: PAXIS
direction of axis of disc
PDIST
distance along axis to centre of disc
PDIAM
diameter of disc
Disc (SDISK) Catalogue Primitive
Sphere (SSPHE) The Sphere (SSPHE) has the following particular attributes: PAXIS
direction of axis on which centre of sphere lies
PDIST
distance along axis to centre of sphere
PDIAM
diameter of sphere
SCALE
logical flag indicating whether or not the sphere is to be drawn to scale. If SCALE is set to FALSE, the sphere is drawn at a fixed size by taking the resulting value of PDIAM to be in millimetres
Sphere (SSPHE) Catalogue Primitive
Cylinder (SCYL) With this type of cylinder, primitive, the size and location is defined by the distance to the bottom face from the origin and the height. SCYL has particular attributes as follows: PAXI direction of axis of cylinder PHEI height of cylinder PDIA diameter of cylinder PDIS distance along axis to centre of nearest surface
Cylinder (SCYL) Catalogue Primitive
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Cylinder (LCYL) The height of the LCYL is defined as the distances from the origin to the two end faces. LCYL has particular attributes as follows: PAXI direction of axis of cylinder PDIA diameter of cylinder PBDI distance along axis to centre of bottom surface PTDI distance along axis to centre of top surface
Cylinder (LCYL) Catalogue Primitive
Dish (SDSH) This is similar to the DISH available in the Design Data. It allows symbolic modelling of control valves and closer modelling of other Components. SDSH has the following particular attributes. PAXI
direction of axis of dish
PDIS
distance along axis to centre of top surface
PDIA
diameter of dish base
PHEI base
maximum height of dished surface above
PRAD corner radius (Any value greater than 0, makes it semi-elliptical instead of semi- spherical) Dish (SDSH) Catalogue Primitive
Snout (LSNO) The Snout primitive is a cylindrical element of varying diameter along its length. It may be eccentric or concentric. LSNO has particular attributes as follows: PAAX A
Direction of axis normal to top surface of snout (the axis)
PBAX
Offset direction
PTDI, PBDI
Distance along A axis to top, bottom surfaces of snout
PTDM, PBDM
Diameter of top, bottom surfaces of snout
POFF the
The offset/eccentricity of the snout as measured in PBAX direction
Snout (LSNO) Catalogue Primitive
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Circular Torus (SCTO) The circular torus is only part of a torus. It is not permitted to subtend more than 180 degrees. It is circular in cross–section. SCTO has particular attributes as follows: PAAX, PBAX
Direction of axes normal to the end faces of the torus
PDIA
Diameter of the cross–section of the torus.
Circular Torus (SCTOR) Catalogue Primitive
Rectangular Torus (SRTO) The rectangular torus is similar to the circular torus except that it is rectangular in cross–section. SRTO has particular attributes as follows:
PAAX, PBAX torus
Direction of axes normal to the end faces of the
PDIA
Width of the cross–section of the torus
PHEI
Height of the cross–section of the torus
Rectangular Torus (SRTO) Catalogue Primitive
Line (LINE) In addition to the three–dimensional primitive elements, 3D Geomsets may contain Line (LINE). A LINE has one particular attribute: PTS: a set of numbers (up to six) representing P–point numbers of the P–points of the associated Pointset, determine the course of the line. The values held in PTS are set by preceding the P–point number by ‘P’ or ‘T’, e.g. P1 P2 T3 P4. When prefixed with P it starts or finishes at the p-point. When prefixed with T it becomes a tangent point and thus a curve is drawn.
Tube (TUBE) Used only in the representation of implied tube. Has the single particular attribute: PDIA
the tube diameter
If PDIA is 0 then a line is produced. Depending on the scale to which a drawing is to be produced, a small positive value would effectively give a thicker line. 90
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Slope – Bottomed Cylinder (SSLC) The Slope – Bottomed Cylinder (SSLC) has the following particular attributes: PAXI direction of axis of cylinder PHEI height of cylinder PDIA diameter of cylinder PXTS
inclination of top face to X–axis
PYTS
inclination of top face to Y–axis
PXBS
inclination of bottom face to X–axis
PYBS
inclination of bottom face to Y–axis
PDIS distance from origin
Inclinations are angles stored to the nearest 0.01 degree.
Slope Bottomed Cylinder (SSLC) Catalogue Primitive
Pyramid (LPYR) The main use of this element is in the creation of rectangular reducers for ducting etc. LPYR has the particular attributes as follows: PAAX Direction of axis normal to top face of pyramid (the A axis). This is taken to be in the Z direction. PBAX, PCAX The directions of the two axes perpendicular to the A axis and mutually perpendicular to define the position of the B and C sides PBTP, PCTP Length of top faces in B axis and C axis directions PBBT, PCBT
Length of bottom faces in B axis and C axis
directions
PBOF, PCOF Top face offsets in B axis and C axis directions PTDI Distance from origin to centre of top face along A axis PBDI Distance from origin to centre of bottom face along A axis Pyramid Catalogue Primitive
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Boxing (BOXI) Components whose GTYPE attribute is TUBE can use BOXI elements to give, for example implied tube of rectangular cross-section. BOXI elements can be used for modelling ducting, trunking and cable tray. BOXI has the particular attributes as follows: PXLE Cross section X-direction length. PZLE Cross section Z-direction length. PAXI Position and orientation of normal to centre of end face.
BOXI Catalogue Primitive
User Defined Extrusion (SEXT) This primitive is generated by extruding a user-defined 2D shape, known as a Loop (SLOO), whose outline is defined by a set of member elements called Vertices (SVER). The lines joining adjacent SVERs form the edges of the SLOO. The extrusion distance is defined by the height of the SEXT to give the final 3D volume. In addition to the attributes defining its position, each SVER can have a radius, which applies a convex or concave fillet to the loop at that point. SEXT has the particular attributes as follows: PX,PY,PZ
Co-ordinates of origin of SLOO.
PAAX,PBAX
Direction of axes of SLOO. (These will define co-ordinate system for SVERs).
PHEI
Distance by which 2D SLOO is extruded to form 3D SEXT.
SLOO
has no special attributes.
SVER
has particular attributes as follows:
PX, PY
Co-ordinates of vertex.
PRAD
Fillet radius of loop at vertex position.
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