Structure Preliminary Layout Page 1 Structure Preliminary...
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Structure Preliminary Layout
Preface
Using This Guide Where to Find More Information
What's New?
Getting Started
Setting Up Your Session Defining the Hull Form Setting Up Your Grid Creating Molded Forms Creating a Compartment Creating Boundaries Saving Documents
User Tasks
Browsing Project Data Wrapping Surfaces
About Wrapping Surfaces Preparing Imported Surfaces Creating Hull Forms Creating Deckhouses Creating Complex Hull Forms Modifying Wrapping Surfaces Replacing Wrapping Surfaces Calculating General Hull Characteristics and Form Coefficients
Molded Forms About Molded Forms Creating Simple Molded Forms Creating Multiple Molded Forms Creating External Molded Forms Modifying Molded Forms
Compartments About Compartments Creating Compartments Modifying Compartments Modifying Compartment User Type Creating Complex Compartments
Boundaries Creating Boundaries Modifying Boundary User Type
Openings
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Creating Openings Deleting Openings
Exporting Data in IDF Format Generating Offset Data Creating Reports Producing Lines Drawings Creating Plane Systems Managing Your Project
Working with a Cache System Managing Ship Project Data Understanding Project Resource Management About the Feature Dictionary About Object Naming Rules
Structure Preliminary Layout Package in Knowledge Expert
Interoperability
Working with ENOVIA LCA: Optimal CATIA PLM Usability Taking Advantage of ENOVIA LCA Capabilities Working with SmarTeam
Workbench Description
Structure Preliminary Layout Toolbar Structure Grid Set Toolbar Specification Tree
Customizing Structure Preliminary Layout
Design Drafting Offset Data
Glossary
Index
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PrefaceVersion 5 Structure Preliminary Layout allows you to model the early definition of hull forms, major ship zones and main structures. It offers an easy-to-use and easy-to-learn graphic interface.
The overall ship design project goes through a number of different phases from conceptual design through functional and detail design to extraction of deliverables. This product addresses initial design requirements for the shipbuilding industry. It focuses on internal arrangement and definition, including major bulkheads and decks, on subdivision into compartments of simple and complex shapes, and lets you compute data used in hydrostatic analyses. Other outputs include lines drawings, project data in IDF format and offset data in XML format. This early definition of the ship will then be further refined during the functional and detail design phases.
As a scalable product, Structure Preliminary Layout can be used with other Version 5 products such as Generative Drafting 2 (GRD) and Generative Shape Design 2 (GSD).
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Using This GuideWhere to Find More Information
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Using This GuideThis book is intended to help you become quickly familiar with Structure Preliminary Layout. You should already be accustomed with basic Version 5 concepts such as document windows, standard and view toolbars.
This guide is organized as follows:
● Getting Started: steps you through a scenario to get you acquainted with the product.
● Basic Tasks: provides a step-by-step guide for using Structure Preliminary Layout. Useful tips are given for getting the most out of the product.
● Advanced Tasks: provides information on the feature dictionary and useful tools.
● Workbench Description: describes the Structure Preliminary Layout dedicated workbench toolbar.
● Customizing: contains information allowing you to customize your personal environment.
● Glossary: defines terms that are specific to Structure Preliminary Layout.
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Where to Find More InformationPrior to reading this book, we recommend that you read the Version 5 Infrastructure User's Guide.
The Generative Drafting and Generative Shape Design User's Guides may also prove useful.
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What's New?
New Functionality
Working with SmarTeam
You can manage Structure Preliminary Layout documents in SmarTeam
Enhanced Functionality
Working with ENOVIA LCA: Optimal CATIA PLM UsabilityAll data created in Structure Preliminary Layout can be correctly saved in ENOVIA LCA
Creating CompartmentsA single compartment object is now managed. Two commands are available depending on whether you want to create compartments of simple geometry (old Bounded Zone command) or complex geometry (old Composite Volume command)
Replacing wrapping surfacesManages hull form replacement within Structure Preliminary Layout
Recommendations on how to save documents have been included.
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Getting StartedThis tutorial will guide you step-by-step through your first Structure Preliminary Layout session, allowing you to get acquainted with the product.You will need a Version 5 session and should be familiar with basic concepts such as document windows, standard and view toolbars.You should be able to complete this tutorial in about 30 minutes.
Setting Up Your SessionDefining the Hull FormSetting Up Your Grid
Creating Molded FormsCreating a Compartment
Creating BoundariesSaving Documents
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Setting Up Your Session
This task shows you how to enter the Structure Preliminary Layout workbench.
1.Select Equipment & Systems -> Structure Preliminary Layout from the Start menu.
The Structure Preliminary Layout workbench is loaded and an empty CATProduct document is opened.
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2.To ensure associativity between items you create and the entities selected to create them, set the following option:
● Select Tools -> Options from the menu bar
● Select Infrastructure -> Part Infrastructure in the left-hand box of the Options dialog box
● Click the General tab
● Select Keep link with selected objects.
3.To define default colors for molded forms, compartments and boundaries: ● Select the Equipment & Systems category
● Select Structure Preliminary Layout, then select the Design tab
● Set molded form color to purple.
● Set bounded zone color to yellow.
● Set boundary color to red.
4.Click OK in the Options dialog box when done.
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Defining the Hull Form
This task shows you how to define the hull form.
Defining the hull form is done in several different steps:
● Add a wrapping surface feature
● Import the surface into Structure Preliminary Layout
● Edit the wrapping surface feature to associate the imported surface to the feature and orient the surface properly.
1. Click the Wrapping Surface icon.
The Wrapping Surface Class Definition dialog box appears.
You will keep the default object class.
2. Click OK in the Wrapping Surface Class Definition dialog box to define the wrapping surface feature.
The feature is added to the specification tree. You are ready to import the hull form surface.
3. Open the HullForm.CATPart containing the surface to be used for the hull form.
The sample CATPart is located in the samples folder. It is opened in a separate document.
4. Tile both windows horizontally.
5. Copy the surface (last feature defining the surface).
6. Paste it in the Ship Project document at reference part level using the Paste Special... command, As Result option.
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The copied surface is pasted under Wrapping Surface Geometry.
7. If necessary, update your document.
You will now associate the imported surface to the wrapping surface feature.
8. Right-click the wrapping surface feature and select Edit wrapping surface from the contextual menu:
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The Wrapping Surface dialog box appears.
9. Select the surface just pasted.
The wrapping surface is identified in the dialog box.
Note: Set as default is set to Yes. This means that the wrapping surface is a default surface and will be automatically proposed when performing other operations, such as creating molded forms.
10. Click Switch orientation name to obtain the correct wrapping surface orientation.
11. Click OK when done.
The hull form has been defined and published.
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Setting Up Your GridThis task shows you how to create the cross and deck plane systems you need to define ship bulkheads and decks.
Note: It is recommended that one CATPart contain the set of reference planes in one ship direction only.1. Activate the project and select the Plane System command.
A new part is added to the specification tree and the Plane System dialog box appears.2. Create the cross plane
system:● Click the yz plane of the
new part just added to define the direction.The center of the plane is automatically taken as its origin.
● Enter a spacing of 14 000 mm to define the distance between planes
● Enter 4 in the Number of planes after origin field to create four planes before and four planes after the origin
● Click OK to create the cross plane system.
3. Repeat to create a deck plane system comprising four planes 5500 mm apart, two on either side of the origin (XY plane).
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Creating Molded Forms
This task shows you how to create bulkhead and deck molded forms.
1. Click the Molded Form icon.
The Molded Form Definition dialog box appears.
You will keep the default object class.
2. Define the reference element: select the YZ reference plane.
The reference element gives the basic shape to your molded form. You will now select the limiting elements to which the molded form will be trimmed.
3. Select the wrapping surface as the first limit:
The Basic Wrapping Surface Selection dialog box appears listing all wrapping surfaces with those set as default surfaces in the right-hand column. In our case, there is only one.
● Click OK.
Watch your molded form being trimmed to the limit you selected.
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The preview shows that the bulkhead will be created inside the ship. This is what we want.
4. Select the topmost deck plane to trim the bulkhead to this plane.
5. Click Other side to re-position the bulkhead correctly.
6. Check Molded form orientation in the dialog box:
The Molded Form Definition dialog box expands and the orientation is visualized in the geometry area.
Orientation is correct.
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7. Click OK when done.
Your transverse bulkhead has been created and published.
You will now define a set of bulkheads based on the one you have just created.
8. Click the Multiple Molded Form icon.
The Multiple Molded Form Definition dialog box appears.
9. Select the bulkhead you have just created as the reference molded form.
10. Drag (using the left mouse button) to select parallel cross planes in the geometry area using a bounding outline.
Selected planes are identified in the dialog box.
11. Click OK and watch other bulkheads being created with the same specifications as the first bulkhead you created.
You will now create two decks.
12. Click the Molded Form icon.
The Molded Form Definition dialog box displays.
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13. Select the reference plane for the deck.
14. Select the wrapping surface as limit.
15. Click OK when done.
Your first deck is created and published.
16. Repeat to create another deck.
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Creating a Compartment
This task shows you how to create a compartment for the engine room.
1. Click the Compartment icon.
The Compartment Definition dialog box appears.
Note: Limits listed in the dialog box are the naming conventions specified in the ship project. If you remember, you kept the default naming conventions.
2. Click Change... opposite Object class to change the class.
The Class Browser opens and accesses the feature dictionary defining object classes.
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3. Click the Expand tree icon in the Class Browser to view available classes.
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4. Select Engine Room then click OK.
The selected class is identified in the Compartment Definition dialog box.
You are now ready to define your compartment.
Select the molded forms and wrapping surface corresponding to your compartment limits in the order shown in the dialog box. As you select surfaces, they are identified in the dialog box and the system moves on to the next limit waiting for you to choose it.
4. Select the fore bulkhead.
You may like to display the geometry in wireframe mode to make selections easier.
A vector appears showing the orientation of the surface. The molded form and orientation are given in the dialog box.
5. If necessary, click the orientation vector to correct the orientation.
6. Select the hullform for the portside limit.
7. Select the aft bulkhead.
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8. Select the hullform again for the starboard limit.
The system realizes that the starboard and portside limits correspond to the same surface and indicates this in the Merge columns opposite these limits.
9. Select the top deck.
10. Select the bottom deck.
11. Click Preview to preview the compartment.
12. Click OK when done.
Your compartment has been created.
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Creating Boundaries
This task shows you how to automatically create the boundaries of the compartment just defined.
1. Edit the compartment you just created: right-click the compartment feature in the specification tree and select Edit Compartment from the contextual menu.
The Compartment Definition dialog box appears.
2. Click Extract Boundaries to automatically create boundaries.
3. Expand the compartment item in the specification tree to view created boundaries.
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4. Click OK when done.
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Saving Documents
This task contains recommendations on saving your documents.
Ways in which documents are saved are explained in the Infrastructure User's Guide - Creating, Opening and Saving Documents. You must read that documentation because the various methods are not explained here. This task simply suggests the methodology you should follow in specific circumstances.
1. If you are saving a document to a local machine or network drive it is recommended that you use the "Save Management" command initially. The Propagate Directory command (which is in the Save Management dialog box) should not be used routinely. It is meant to be used in specific circumstances, such as when you want to place all the contents of a document in one directory before sending it to another location.
2. If you are saving a document to another site or network you should use the "Send To" command. In this case, you should be careful about the links for documents such as resolved parts folder or line ID. These links could change to reflect the local network drive to which the documents have been sent. You should make sure they point to the original location - using the Reset button in the Save Management dialog box is one way of doing this.
3. You should check the active document before you execute the Save command . The root product must be the active document if you want to save everything under it.
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User Tasks
The tasks you will perform in the Structure Preliminary Layout workbench are related to the general definition of the ship, including hull shape, main decks and bulkheads as well as general layout.
Resources & Default Settings
Don't forget to set your options correctly before starting to work (Tools -> Options..., Equipment & Systems, Structure Preliminary Layout).
Associativity
To ensure associativity between the items you create and entities selected to create them, you must check the Keep link with selected object option. This option is set in the Options dialog box (Tools -> Options..., Infrastructure -> Part Infrastructure -> General).
Browsing Project DataWrapping Surfaces
Molded FormsCompartments
BoundariesOpenings
Exporting Data in IDF FormatGenerating Offset Data
Creating ReportsProducing Lines DrawingsCreating Plane SystemsManaging Your Project
Structure Preliminary Layout Package in Knowledge Expert
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Browsing Project Data
Defining the project is an administrator's task and is managed as a project resource.
Doing so:
● Gives the project a name
● Specifies conventions for main ship directions
● Specifies conventions for hull form orientations
● Specifies the overall dimensions of your project.
You can browse project data using the Edit Project command.
This task shows you how to browse project data.
1. Click the Edit Project icon.
The Project Edition dialog box appears.
The Project Id field specifies the name given to the project.
2. Click Naming Conventions... to access other project data.
The dialog box expands showing adopted conventions for main ship directions (Coordinate System tab) and hull form orientations (Hull Form tab).
Ship directions are defined with respect to the coordinate system of the document.
3. Click the Hull Form tab.
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4. Click the Bounding Box tab.
Bounding Box
The bounding box specifies the overall project dimensions as defined by the administrator. A set of default dimensions are supplied with the product. The center of the box is positioned at the center of the document.
You may need to click the Fit All In command to visualize the
bounding box.
When you create the wrapping surface, the bounding box is automatically re-dimensioned to include the hull form. If features are created outside the bounding box, consult to the administrator.
5. Click OK when done.
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Wrapping Surfaces
About wrapping surfaces
Prepare imported surfaces: open the surface, then use Generative Shape Design to orient, analyze and perform necessary operations
Create hull forms: add the wrapping surface feature, import the surface and associate the surface to the feature
Create deckhouses: create the deckhouse from scratch using Generative Shape Design, then associate it to the wrapping surface feature
Use basic wrapping surfaces for complex hull forms: split the imported surface using Generative Shape Design then associate split surfaces to the wrapping surface feature
Modify wrapping surfaces: edit the wrapping surface feature and change specifications in the dialog box that appears.
Replace wrapping surfaces: import the replacement surface, switch to Generative Shape Design and use the Replace contextual menu command.
Calculate general hull characteristics and form coefficients: edit the wrapping surface feature, select the Form Coefficients tab, specify the draft location and click Calculations.
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About Wrapping Surfaces
Wrapping surfaces are used to define the hull forms (internal and external) and deckhouse. In the case of hull forms, surfaces are usually imported, whereas for deckhouses they are created from scratch.
The wrapping surface can be a single surface or can be made of several surfaces to take into account special cases such as illustrated below.
The wrapping surface is an object class managed in the feature dictionary.
Note: Shell expansion tools in Structure Functional Design work on hull form halves (portside and starboard wrapping surfaces) or a section of the hull form and not the complete hull form. The transom must be considered a bulkhead and not an integral part of the hull.
Managing Wrapping Surface Type
You can manage wrapping surface type via the feature dictionary or directly in the Structure Preliminary Layout workbench via the Type attribute.
To do so via the Type attribute: ● Right-click the wrapping surface feature in the
specification tree and select the Properties command.The Properties dialog box appears.
● Click the Conceptual Structure tab.
● Enter the type, deckhouse for example.
● Click OK in the Properties dialog box.
Object naming rules based on type can also be defined to identify objects in your document.
Bounding Box
When you create the wrapping surface, the bounding box defining overall project dimensions is automatically re-dimensioned to include the hull form and deckhouse. The bounding box is managed by the administrator as a project resource.
To visualize the bounding box, browse the project data using the Edit Project command.
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Publishing
Wrapping surfaces you define are automatically published. This is identified by a Publication entry in the specification tree with one publication feature for each wrapping surface published. If several basic wrapping surfaces are defined, the complete wrapping surface is the result of merging all constituent wrapping surfaces.
Molded forms and compartments you create will reference the published surfaces (identified by their publication name) and not the underlying surfaces. This lets you replace the hull form or deckhouse at any time without affecting any downstream work.
Do not change publication names of surfaces referenced by molded forms and compartments: links between the two will be lost.
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Preparing Imported Surfaces
Imported surfaces are generally used to define wrapping surfaces for the hull (internal and external forms). Before doing so, these surfaces have to be properly positioned in the coordinate system of the document and optimized to obtain a coherent surface.
You can import IGES files, idf type and CATPart documents.
This task shows you how to open, then position and optimize surfaces.
Opening Existing Surfaces1. Click the Open icon or select the File->Open... command.
The File Selection dialog box appears.
2. In the File Selection box, select the file location.
3. In the Files of type drop-down list, select the document type you want to open: ● CATPart
● idf
● igs (IGES file)
4. Click Open.
You are now ready to position and optimize your surface. This is done in the Generative Shape Design workbench.
Positioning & Optimizing Surfaces5. Change to the Generative Shape Design workbench (Start -> Shape -> Generative Shape Design).
You will begin by positioning the surface in the coordinate system of the document. Doing so defines the main ship directions. When you copy your surface into the ship project, it will be positioned in the same way.
6. Click the Create Datum icon (Tools toolbar) to deactivate the history mode:
When you create elements, there are no links to the entities used to create them.
7. Orient the surface using Translate, Rotate, Symmetry and Scaling commands (Insert -> Operations).
You can now analyze your surface and perform necessary operations to obtain a coherent surface.
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8. Analyze your surface using Analysis commands (Insert -> Analysis) to determine whether healing, joining, etc. is necessary.
9. Perform necessary operations, for example, healing to fill gaps between surfaces (Heal command), joining to join surfaces (Join command).
These commands are found in the Insert menu (Insert -> Operations) or in the Operations toolbar.
For more information on these tasks, see the appropriate sections in the Generative Shape Design User's Guide.
You are now ready to import your surface into Structure Preliminary Layout to create a wrapping surface.
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Creating Hull Forms
This task shows you how to create a single wrapping surface for the hull form from an imported surface.
In this task, you will:
● add the wrapping surface feature
● import the surface into the Structure Preliminary Layout workbench
● edit the wrapping surface feature to associate the imported surface to the wrapping surface feature and orient the surface properly.
Deckhouses are generally not imported surfaces, but are created from scratch.
Adding the Wrapping Surface Feature
1. Click the Wrapping Surface
icon.
The Wrapping Surface Class Definition dialog box appears.
The wrapping surface is created under the active product or assembly.
2. Click Change... opposite Object class to change the wrapping surface class.
The Class Browser opens and accesses the feature dictionary defining object classes. A sample dictionary is supplied with the product.
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3. Click the Expand tree
icon in the Class Browser to view available classes.
4. Select the class, then click OK.
The selected class is identified in the Wrapping Surface Class Definition dialog box.
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5. Click OK in the Wrapping Surface Class Definition dialog box to define the wrapping surface feature:
The feature is added to the specification tree.
You are now ready to import the surface.
Importing the Surface
You can import IGES files, IDF type and CATPart documents. Surfaces must first be prepared, i.e. properly positioned and optimized.
6. Open the document containing the surface to be imported.
7. Copy the prepared surface (last feature in the specification tree).
8. Paste the surface into the Structure Preliminary Layout document using the Paste Special... command, As Result option.
Using the As Result option, means that the geometry only (not specifications) is copied. No feature history is kept.
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You can paste the surface at reference part level or directly under the Wrapping Surface Geometry.
If you paste it directly under the Wrapping Surface Geometry, you must activate the reference part first.
The copied surface is pasted under Wrapping Surface Geometry.
Note: The bounding box is automatically re-dimensioned to accommodate the hull form.
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If you need to create more than one wrapping surface, import the surface into Structure Preliminary Layout then split it into the number of required basic wrapping surfaces before associating basic surfaces to the wrapping surface feature.
In this way, you keep the associativity between the imported surface and the basic wrapping surfaces. This allows easy replacement of the imported surface: you simply need to replay the split features.
9. If necessary, update your document.
Associating the Surface to the Wrapping Surface Feature
10. Edit the wrapping surface feature:
The Wrapping Surface dialog box appears.
11. Select the surface just pasted.
Publication Name
Wrapping surfaces are identified by their publication names in the Molded Form and Compartment commands. You can change publication names when you create surfaces but must not do so after they are referenced by molded forms or compartments.
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12. Define the default setting for the selected surface: ● Yes: considers the surface as a default surface. This surface is automatically proposed
when performing other operations, such as creating molded forms.
● No: the selected surface is not considered a default surface.Double-click to set the surface to No.
13. Check wrapping surface orientation and if incorrect, click the orientation vector in the geometry area or select Switch Orientation Name in the dialog box.
Naming is that defined for the project.
14. Click OK when done:
The wrapping surface has been created and published.
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Creating Deckhouses
Wrapping surfaces for deckhouses are generally created from scratch. This is done using the Generative Shape Design workbench directly in the Structure Preliminary Layout document.
This task shows you how to create wrapping surfaces from scratch.
Adding the Wrapping Surface Feature
1. Click the Wrapping Surface icon.
The Wrapping Surface Class Definition dialog box appears.
The wrapping surface is created under the active product or assembly.
2. Click Change... opposite Object class to change the wrapping surface class.
The Class Browser opens and accesses the feature dictionary defining object classes. A sample dictionary is supplied with the product.
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3. Click the Expand tree icon in the Class Browser to view
available classes.
4. Select the class, then click OK.
The selected class is identified in the Wrapping Surface Class Definition dialog box.
5. Click OK in the Wrapping Surface Class Definition dialog box to define the wrapping surface feature:
The feature is added to the specification tree.
You are now ready to create your surface from scratch.
Creating the Surface from Scratch
6. Expand the specification tree and double click Wrapping Surface Geometry:
The workbench changes to Generative Shape Design.
7. Create a surface.
This is done by:
● Sketching necessary wireframe geometry using the Sketcher
● Creating the surface.
Use existing features in the document to position your surface correctly first time.
Two alternative sketches are proposed in this scenario.
A. From two closed profiles: Resulting surface using the Loft command:
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B. Extrude two profiles (Extrude command) Trim ( ) extruded surfaces to obtain resulting surface:
For more information on creating surfaces, see the appropriate section in the Generative Shape Design User's Guide.
Associating the Surface to the Feature
8. Edit the wrapping surface feature using the contextual menu:
The Wrapping Surface dialog box appears.
9. Select the surface just created.
If the entire surface is not highlighted in the geometry area, your selection is not correct. Select the surface in the specification tree.
Publication Name
Wrapping surfaces are identified by their publication names in the Molded Form and Compartment commands. You can change publication names when you create surfaces but must not do so after they are referenced by molded forms or compartments.
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10. Define the default setting for the selected surface: ● Yes: considers the surface as a default surface. This surface is automatically proposed when performing other operations, such
as creating molded forms.
● No: the selected surface is not considered a default surface.Double-click the surface in the dialog box to change Set as Default to No.
11. Check wrapping surface orientation and if incorrect, click the orientation vector in the geometry area or select Switch orientation name in the dialog box.
Naming is that defined for the project.
12. Click OK when done:
The wrapping surface has been created and published.
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Creating Complex Hull Forms
The wrapping surface defining the hull form can made of more than one basic surface. This is useful when molded forms are trimmed to complex hull forms.
To do so, split the imported surface in the Structure Preliminary Layout document. This keeps the associativity between the imported surface and the component surfaces you create, and allows easy replacement of the imported surface - you simply need to replay the split features.
When you have done this, associate all split surfaces to the wrapping surface feature.
This task shows you how to split hull forms and create basic wrapping surfaces.
Have imported a surface and created the wrapping surface feature.
Splitting the Imported Surface
1. Double-click Wrapping Surface Geometry in the specification tree to change to the Generative Shape Design workbench.
Note: You remain in the Structure Preliminary Layout document.
2. Using the Split icon and reference planes, create as many surfaces as needed.
Don't forget to check Keep both sides in the Split Definition dialog box.
How reference planes intersect the imported surface is important: only one intersection must be made.
The plane intersects the surface twice. This case cannot be resolved.
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Examples below show ways to split the complex imported surface using two reference planes. Two separate surfaces are created. A basic wrapping surface is then defined for each surface.
Defining Basic Wrapping Surfaces
3. Edit the wrapping surface feature:
The Wrapping Surface dialog box appears.
4. Select the surfaces just created.
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Complete Wrapping Surface Name
If several basic wrapping surfaces are created, the complete wrapping surface (the result of merging basic wrapping surfaces) is identified by the name given in Name field. You can change this name before you publish wrapping surfaces but not after. If the wrapping surface corresponds to only one surface, it is identified by its publication name.
Publication Name
Wrapping surfaces are identified by their publication names in the Molded Form and Compartment commands. You can change publication names when you create surfaces but must not do so after they are referenced by molded forms or compartments.
5. Define the default setting for component surfaces: ● Yes: considers the surface as a default surface. This surface is automatically proposed when performing other
operations, such as creating molded forms.
● No: the surface is not considered a default surface.Double-click the surface in the dialog box to change Set as Default to No.
6. Check the orientation of the complete wrapping surface and if incorrect, click the orientation vector in the geometry area or click Switch Orientation Name in the dialog box.
Naming is that defined for the project.
7. Click OK to create and publish wrapping surfaces.
When the wrapping surface is made of several basic surfaces, a complete surface (merging all basic wrapping surfaces) and all constituent surfaces are published.
Publishing individual surfaces is particularly useful if hull forms need to be replaced.
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Modifying Wrapping Surfaces
This task shows you how to edit wrapping surfaces.
1. Edit the wrapping surface feature of interest.
The Wrapping Surface Definition dialog box appears showing wrapping surface specifications.
You can: ● Change wrapping surface orientation
● Remove and/or add basic wrapping surfaces
● Change the Set as default setting for basic wrapping surfaces.
2. To change wrapping surface orientation, click Switch Orientation Name or click one of the orientation vectors in the geometry area.
Naming is that defined for the project.
3. To remove a basic wrapping surface, select the surface in the dialog box, then click Remove.
4. To add a basic wrapping surface, simply select the surface you want to add.
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5. To change the Set as default setting, double-click the surface whose setting you want to change.
● Yes: considers the surface as a default surface. This surface is automatically proposed when performing other operations, such as creating molded forms.
● No: the surface is not considered a default surface.
6. Click OK when done.
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Replacing Wrapping SurfacesThis task shows you how to replace wrapping surfaces.
1. Import the surface you want to use to replace an existing wrapping surface: ● Copy the surface
● Paste it at reference part level or directly under the Wrapping Surface Geometry using the Paste Special... command, As Result option.
2. Edit the wrapping surface feature.
The Wrapping Surface Definition dialog box appears.
3. Select the surface you want to replace (Surface.1) then click Replace.
Note: If you worked on the original surface using the Generative Shape Design workbench, using for example scaling or applying symmetry, then a dialog box appears asking which surface (the original surface or the worked surface) you want to replace.
4. Select the surface you imported (Surface.2) that will replace the existing surface.
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5. Click OK when done.
The surface has been replaced and the wrapping surface feature rebuilt.
If you created other preliminary layout entities that reference the wrapping surface, you will have to update your document to rebuild these features. Entities requiring an update are highlighted in the document and identified as such in the specification tree.
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Calculating General Hull Characteristics and Form Coefficients
This task shows you how to compute general characteristics of the hull as well as form coefficients.
This data is used in hydrostatic calculations.
1. Edit the wrapping surface feature.
The Wrapping Surface Definition dialog box appears.
2. Select the Form Coefficients tab.
3. Specify the location of the draft: enter a value in the Draft box.
4. Click Calculations to compute general hull characteristics and form coefficients.
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Main characteristics
Length (Lwl) Length between perpendiculars; length at waterline
Breadth (Bwl) Breadth at waterline
Displacement
Wetted surface
Water plane inertia
LCB Longitudinal position of center of buoyancy
VCB Vertical position of center of buoyancy
TCB Transverse position of center of buoyancy
Form coefficients
Cb Block coefficient
Cwp Water plane coefficient
Cp Prismatic coefficient
Cm Midship section coefficient
5. Click OK when done.
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Molded Forms
About molded forms
Create simple molded forms: Define the class, select the reference element then the limits and adjust to create on right side
Create multiple molded forms: Select the reference molded form then all reference planes at which to create molded forms
Create external molded forms: Define the class, create the geometry using Generative Shape Design then associate the geometry to the featureModify molded forms: Edit the molded form (contextual menu) and modify specifications as desired
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About Molded Forms
Molded forms are surfaces used to divide the ship into main volumetric regions or compartments. Typical molded forms are transverse and longitudinal bulkheads, and decks.
Structure Preliminary Layout provides tools letting you create simple molded forms based on a reference plane and bounded by the hull form, planes or other molded forms as well as multiple molded forms based on the selection of a set of reference planes.
Reference planes are created in a new part using the Generative Shape Design workbench.
For more complex molded forms, an external molded form command lets you can associate your own geometry created using Generative Shape Design to a molded form.
Molded forms have an orientation represented by a combination of two vectors. The default orientation for decks is top/bottom, for example.
The molded form is an object class managed in the feature dictionary.
PublishingMolded forms you define are automatically published. This is identified by a Publication entry in the specification tree. If your molded forms contain openings, two publication features are published, one for the surface without the opening and the other for the surface with the opening.
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Creating Simple Molded Forms
This task shows you how to create simple molded forms.
Have created your wrapping surfaces.
1. Click the Molded Form icon.
The Molded Form Definition dialog box appears.
2. Click Change... opposite Object class to change the molded form class.
The Class Browser opens and accesses the feature dictionary defining object classes. A sample dictionary is supplied with the product.
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3. Click the Expand tree icon to expand the object class tree
and view available classes.
4. Select the class, then click OK.
The selected class is identified in the Molded Form Definition dialog box.
5. Select the reference element.
The reference element is always a GSD plane. The two underlying sketches giving the basic shape of your molded form.
Reference planes must be created in a new part. Do not use existing part axis system planes.
You can edit the underlying sketches to modify your molded form.
6. If desired, specify an offset distance to offset the molded form from the reference plane.
A positive value offsets the molded form in the X+ direction.
7. Define the limits in the geometry area and watch your molded form being trimmed to the limits you select.
Limits can be the hull form, other molded forms or GSD planes.
If you select the hull form:
The Basic Wrapping Surface Selection dialog box appears listing basic wrapping surfaces with those set as default surfaces in the Wrapping Surface command in the Selected box.
● You can move surfaces from Not Selected to Selected boxes and vice-versa using arrows. Double arrows move all surfaces from one side to the other.
● To select a complete wrapping surface, select all component basic wrapping surfaces.
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Click OK in the dialog box when done to select all basic wrapping surfaces listed in the Selected box.
Define your list of default surfaces in the Selected box and check Keep as default and surfaces will be set as default surfaces in the Wrapping Surface command.
Selected limits are listed as limiting elements in the Molded Form Definition dialog box.
8. If necessary, click Other side in the dialog box to extend the molded form in the direction opposite that shown in the preview.
The molded form is extended in the same direction as the orientation vector of the surface to which it is trimmed. The Other side option lets you change direction.
In the case of the hull form, the system 'knows' that you want to create molded forms inside the hull form.
9. Define other limits if desired.
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Double-click the wrapping surface in the Molded Form Definition Definition dialog box to redisplay the Basic Wrapping Surface Selection dialog box and, for example, change component basic surfaces or take the entire hull form into consideration.
10. Once you are satisfied with your molded form, check Molded form orientation in the dialog box:
The Molded Form Definition dialog box expands and orientation is visualized in the geometry area.
11. If necessary, select the correct combination in the dialog box, and correct orientation in the geometry area.
12. Click OK when done.
The molded form is created and published.
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Creating Multiple Molded Forms
This task shows you how to create multiple molded forms based on the selection of a set of reference planes.
Have created a simple molded form which will serve as the reference as well as a set of reference planes.
1. Click the Multiple Molded
Form icon.
The Multiple Molded Form Definition dialog box appears.
2. Select the reference molded form.
● Any
openings in the reference molded form are also copied.
● Multiple molded forms will inherit the same feature dictionary attribute values as the reference
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molded form.
3. Select all the reference planes at which you want to create molded forms.
Selected planes are listed in alphabetical order in the dialog box. You can browse through the list to check you have all the right planes.
Planes must be parallel to the reference molded form plane.
Use the bounding outline (left mouse button and drag) to select more than one plane. Only parallel planes within the bounding outline are taken into account.
Reference planes must be created in a new part. Do not use existing part axis system planes.
4. Click Apply to preview the result.
A progress bar in the dialog box lets you monitor the calculation.
Molded forms are created and published at all selected planes. They are defined in the same way, except for the reference element and any offset, as the reference molded form.
To offset molded forms created in this way from their reference planes, individually edit the molded form.
5. Click OK when done.
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Creating External Molded Forms
This task shows you how to create complex molded forms that require special attention.
1. Click the External Molded Form icon.
The External Molded Form Definition dialog box appears.
2. Click Change... opposite Object class to change the molded form class.
The Class Browser opens and accesses the feature dictionary defining object classes. A sample dictionary is supplied with the product.
3. Click the Expand tree icon in the Class Browser to view
available classes.
4. Select the class, then click OK.
The class is identified in the External Molded Form Definition dialog box.
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5. Click OK.
The corresponding feature is created in the specification tree.
6. Define molded form geometry: ● Use Generative Shape Design to create a surface under the corresponding part feature.
Or,
● Import a surface.
7. Edit the molded form feature: right-click the feature in the specification tree and select Edit External Molded Form from the contextual menu.
The External Molded Form Definition dialog box appears.
8. Select the surface just created to associate it with the feature.
9. Check Molded form orientation in the dialog box:
The External Molded Form Definition dialog box expands and the orientation is visualized in the geometry area.
10. If necessary, select the correct combination in the dialog box, and correct orientation in the geometry area.
11. Click OK when done.
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Modifying Molded Forms
You can edit molded form specifications as follows:
● Edit the profile and guide curves defining the basic shape of the molded form
● Remove, replace and add limiting elements
● Change the reference element
● Add or change the offset value.
You can also remove any openings added to molded forms.
Editing Molded FormsThis task shows you how to modify the basic shape of molded forms and change reference and limiting elements.
1. Using the contextual menu, edit a molded form.
Activate the Products selection command to select the molded form in the geometry area.
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The Molded Form Definition dialog box appears showing the specifications of the selected molded form.
Editing Molded Form Profiles
Molded forms are defined by two underlying sketches that give them their basic shape.
If the reference element is a transverse bulkhead: ● the normal to this element is X
● the guide curve lies along the Y-axis
● the profile curve lies along the Z-axis.
If the reference element is a longitudinal bulkhead:
● the normal to this element is Y
● the guide curve lies along the Z-axis
● the profile curve lies along the X-axis.
If the reference element is a deck:
● the normal to this element is Z
● the guide curve lies along the X-axis
● the profile curve lies along the Y-axis.
You can also edit sketches when you first create the molded form.
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2. Click Molded form profiles.
The dialog box expands. The two sketches defining the basic shape are referenced.
3. Click the sketcher icon opposite the curve you want to modify, for example opposite Guide:
The sketcher workbench is opened.
4. Using sketcher commands, redefine the curve.
Important: ● The sketch must be a continuous line.
● Ends must coincide with the origin of the sketch and the projected point.
● You must delete the original sketch.
5. Exit the sketcher when satisfied:
The molded form is updated and previewed.
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Changing Reference and Limiting Elements
You can also change the reference element as well as remove, replace and add limiting elements. In our example, we have added a limiting element.
6. To change the reference element: ● Click in the Reference element field
● Select a new reference element.
7. To remove limiting elements: ● Select the element you want to remove in the dialog box
● Click Remove.
8. To replace limiting elements: ● Select the element you want to replace in the dialog box
● Click Replace
● Select the new limiting element.
9. To add limiting elements: ● Select the element you want to add.
Adding or Changing the Offset Value
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10. To add or change the offset distance from the reference plane, simply enter a value or edit the value in the Offset field.
11. Click OK when done.
Removing OpeningsThis task shows you how to remove molded form openings.
1. Right-click the molded form in the specification tree, select the item in the contextual menu, then select Remove Openings.
Activate the Products selection command to select the molded form in the geometry area.
An Opening dialog box appears listing all openings associated with the selected molded form.
2. Select the opening you want to delete and click Remove.
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3. Click OK to confirm.
If you delete openings directly in the specification tree, you must still use this command to update the associated molded form.
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Compartments
About compartments
Create compartments: Select limits defining the compartment
Modify compartments: Edit the compartment (contextual menu) and select the specification to change
Modify compartment user type: Select the compartment, then select the new type in the Change User Type dialog box
Create complex compartments: Select compartments making up your complex compartment
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About Compartments
Compartments are volumes in the ship bounded by horizontal and vertical molded forms and/or wrapping surfaces representing structural decks and bulkheads. They are used to organize the space within a ship into functional volumes. Typical examples are void, habitable, machinery/equipment.
Two commands are available depending on the type of geometry you want to manage:
● Simple geometry: this type of compartment is created using the Compartment
command.
● Complex geometry: You can merge and subtract existing compartments to create
compartments having more complex geometry using the Complex Compartment
command. A complex compartment can have more than six faces.
The system computes compartment volume, total area and center coordinates. To visualize values, simply edit the compartment and select the Result tab.
The compartment is an object class managed in the feature dictionary.
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Creating Compartments
This task shows you how to divide the ship into compartments.
Have defined the compartment settings.
1. Click the Compartment icon.
The Compartment Definition dialog box appears.
2. Click Change... opposite Object class to change the compartment class.
The Class Browser opens and accesses the feature dictionary defining object classes. A sample dictionary is supplied with the product.
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3. Click the Expand tree icon in the Class Browser to view
available classes.
4. Select the class, then click OK.
The selected class is identified in the Compartment Definition dialog box.
You are now ready to define a compartment.
Limits identified in the Compartment Definition dialog box are those defined for the project.
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5.
Select the molded form corresponding to the fore limit.
A vector appears showing the orientation of the surface.
The selected surface and orientation are identified in the dialog box.
6. Check surface orientation and, if necessary, invert.
7. Select the molded form or wrapping surface corresponding to the portside limit and check surface orientation.
8. Repeat to select surfaces corresponding to other limits in the order given in the dialog box.
If the same surface is selected as more than one limit, this is recognized by the system. The wording Merged is indicated in the Merge column opposite limits corresponding to this surface.
To create a compartment correctly, all vectors must point inwards.
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Creating Compartments with Less than Six Faces
To create compartments with less than six faces, limits having the same molded form or wrapping surface are merged. There are several ways you can do this:
A. You can simply select surfaces corresponding to the various limits in the order shown in the dialog box, selecting the surface that corresponds to more than one limit more than once.
B. You can inform the system which limits will correspond to only one surface first by double-clicking limits in the dialog box, then selecting the corresponding surface.
C. You can select the surface, click the limit again in the dialog box to indicate that this limit is to be merged, then select other limits that also have this surface as limit.
The wording Merged is indicated in the Merge column opposite limits corresponding to the same surface. The same surface is identified in the Molded Form column for each merged limit.
Typical examples are:
One face: round tank Four faces
9. Click Preview to preview the compartment.
The zone is previewed in the color defined in the settings for the type selected (Tools -> Options, Equipment & Systems -> Structure Preliminary Layout -> Design).
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10. Click OK when done.
The compartment is identified in the specification tree.
You are now ready to create individual compartment boundaries.
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Modifying Compartments
This task shows you how to replace selected limits of compartments.
1. Edit the compartment of interest using the contextual menu command.
The Compartment Definition dialog box appears.
2. Select the specification you want to change in the dialog box:
The orientation vector appears in the geometry area.
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3. Click Remove.
4. Select the new limit in the geometry area:
Information in the dialog box is updated and the surface orientation is visualized in the geometry area.
5. If necessary, invert surface orientation.
6. Click Apply to preview the change.
7. If necessary, repeat for other compartment specifications.
The Result tab gives the volume, total area, and center coordinates of the previewed compartment.
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8. Click OK when done.
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Modifying Compartment User Type
This task shows you how to modify the user type of a compartment.
When you first create a compartment it is given a broad user type "compartment". You can change this to more accurately represent the type of compartment, based on its intended use.
You can create your own types using the Feature Dictionary, as explained in a different section.
1. With your document open, select the compartment (in the specifications tree) whose user type you
want to change and then click the Change Compartment User Type button . The Change User Type dialog box displays, with the selected compartment listed.
2. Click the button next to the New Type field. The Class Browser displays. Expand "Compartment" to view all the types available to you.
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3. Select the type you want and click OK.
4. The type you selected displays in the Change User Type dialog box.
5. Click Apply or OK.
Note: the name of the compartment changes based on the object naming scheme.
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Creating Complex CompartmentsYou can create complex compartments from existing compartments by merging and subtracting them. Merge and subtract options can be combined to create more complex geometry. This task shows you how to create a complex compartment from two or more existing compartments.
Note: A complex compartment can have more than six faces.Have created two or more compartments.
1. Click the Complex Compartment icon:
The Complex Compartment Definition dialog box appears.
2. Click Change... opposite Object class to change the compartment class.
The Class Browser opens and accesses the feature dictionary defining object classes. A sample dictionary is supplied with the product.
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3. Click the Expand tree icon in the Class Browser to view available classes, then select
the class, and click OK.
The selected class is identified in the Complex Compartment Definition dialog box.4. Select the existing compartments you want to combine.
Compartments are highlighted in the geometry area and added to the list in the dialog box. By default, compartments are merged.
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When creating complex compartments, you can merge or subtract existing compartments, combining your operations in any order.
● To subtract a compartment, select the appropriate line in the dialog box and click Subtract.
● To insert a compartment, select the line below which you want to insert the zone, click Insert then select the compartment in the geometry area or specification tree.
● Remove and Replace options let you delete a compartment from or replace one in the definition of the complex compartment respectively.
5. Click Preview to preview the complex compartment.
The Result tab of the dialog box gives the volume, total area and center coordinates of the compartment previewed.
This information can also be accessed by editing an existing complex compartment.
6. Click OK when done to create the complex compartment.You are now ready to define the volume boundaries. This is done manually using the Boundary icon.
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You can edit the definition of complex compartments.
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Boundaries
Create boundaries: Edit the compartment and click Extract Boundaries
Modify boundary user type: Select boundaries, then select new user type in Change User Type dialog box
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Creating Boundaries
This task shows you how to create boundaries for compartments.
This can be done in two ways:
● Automatically
● Using the Boundary icon. This is useful in cases where the wall of a compartment needs to be split into more than one boundary to accommodate for example, two compartments on the other side.
Make sure options are set correctly. Tools - Options - Infrastructure - Part Infrastructure and check Keep Link With Selected Object and Create External References as Shown Elements.
Automatically Creating Boundaries 1. Edit the compartment of interest using the contextual menu command.
The Compartment Definition dialog box appears.
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2. Click Extract Boundaries in the dialog box.
Boundaries are created.
3. Expand the compartment item in the specification tree to view boundaries.
Using the Boundary Icon1. In the Generative Shape Design workbench, split the compartment surface as
desired.
2. Return to Structure Preliminary layout and click the Boundary icon.
The Boundary Definition dialog box appears.
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3. Select one of the split surfaces (reference surface).
4. Enter a name for the boundary.
5. Click OK.
6. Repeat as necessary.
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Modifying Boundary User Type
This task shows you how to modify the user type of a boundary.
When you first create a boundary it is given a broad user type "boundary". You can change this to more accurately represent the type of boundary, based on its intended use.
You can create your own types using the Feature Dictionary, as explained in a different section.
1. With your document open, select the boundaries (in the specifications tree) whose user type you want
to change and then click the Change Boundary User Type button . The Change User Type dialog box displays, with the selected boundaries listed.
2. Click the button next to the New Type field. The Class Browser displays. Expand "Boundary" to view all the types available to you.
3. Select the type you want and click OK.
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4. The type you selected displays in the User Type dialog box. Click Apply or OK. Also, the name of the boundary changes based on the object naming scheme.
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OpeningsThis section discusses ways of creating and managing openings.
Creating OpeningsDeleting Openings
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Openings
This task shows you how to define openings for molded forms.
This can be done in three ways:
● Using a sketch
● From a catalog.
● By selecting in the specifications tree.
1. Click the Opening icon.
The Opening dialog box appears.
2. Select the support surface.
This identifies the sketch support. The surface is positioned in a 2D view.
Using the Sketcher
● Click the Sketcher icon in the dialog box.
● Sketch your opening and exit the Sketcher.
● Click OK in the Opening dialog box.
The opening is created and added to the specification tree.
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From a Catalog
A sample catalog for different opening shapes is provided with the product. The default location is:
install_folder/OS/startup/components/PenetrationCatalog/Openings.catalog
where OS is the operating system, for example intel_a (Windows NT).
Don't forget to define this path in your settings (Tools -> Options..., Equipment & Systems -> Structure Preliminary Layout, Catalogs tab).
● Click the catalog icon in the dialog box.
The Catalog Browser opens letting you browse the openings catalog.
● Select the family, then the opening of interest.
● Click OK in the Catalog Browser.
The opening is positioned at the center of gravity of the support surface.
● If needed, use the 3D compass to reposition as desired.
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● Click OK in the Opening dialog box when satisfied.
Select in the Specifications Tree
● Select the opening in the specifications tree. It displays in the Sketch field of the Openings dialog box.
● Click OK in the Openings dialog box.
● The Remove Opening command in the contextual menu lets you delete openings.
● When creating multiple molded forms, any openings in the reference molded form are also copied.
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Deleting Openings
This task shows you how to delete openings.
There are two ways in which you can delete openings. The process described here shows you all the molded forms in which the opening exists, and lets you pick which one you want to delete. The second process shows you all the openings in a selected molded form, and is described in Removing Openings.
1. With your document open, right click on the opening in the specifications tree, select the opening in the drop down menu and then select Remove Opening.
The Opening dialog box displays, listing the molded forms in which the opening exists.
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2. Select the opening you want to delete and click Remove and OK. The opening is removed from the molded form.
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Exporting Data in IDF Format
This task shows you how save project data in IDF format in order to share data across different CAD systems or with clients and suppliers.
IDF format is an industry-standard datafile. The IDF file generated is based on sections, i.e. sets of curves and points.
Have created compartments.
1. Click the IDF Export icon.
The IDF Export dialog box is displayed. By default, the root product name appears in the Name field.
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2. If desired, change the name.
3. Select a compartment:
The compartment is identified in the Component Name field.
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Naming Conventions
You can change the component name to suit required naming conventions either in the specification tree before you select the compartment (using the Properties command) or in the dialog box.
Note: If you do so directly in the dialog box, naming in the document specification tree is not updated.
Joining Compartments
You can also join two compartments by renaming the first part of the string (before the slash "/") of both components in the same way. For example, part/subpartA and part/subpartB.
4. Define the set of reference planes corresponding to IDF sections for the current component:
Select planes perpendicular to the X-axis. Any planes selected not in this axis are ignored.
The length of your hull must be oriented along the X-axis.
● Click Reset Sections to remove all planes associated with the current component and define your sections again.
● Select a component in the dialog box then click Delete Component to remove it from the export definition.
5. Select other compartments and select appropriate reference planes.
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6. Specify the sag value.
The sag setting controls the tessellation of section curves.
You may want to set this value to that recommended by the CAD software application into which you will import the IDF file.
Discontinuity Gap
A discontinuity gap is used for complex compartments of irregular shape.
The system computes sections on both sides of the specified gap where discontinuity is perceived. Sections can be viewed in the IDF Resulting View.
You may want to set this value to that recommended by the CAD software application into which you will import the IDF file.
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7. Click Apply when done.
The IDF Resulting View opens previewing the results.
● Maximum points for each section are calculated and the IDF Export dialog box updated.
● Pan, rotate and zoom viewing tools are available in this dialog box.
Definition data in the dialog box is saved in your settings files so you can create other compartments and add then to your data for exporting, for example.
8. Close the Resulting View and make any adjustments to export data necessary in the IDF Export dialog box.
9. Click Apply again if necessary to preview results.
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10. Click and select the folder in which you want to save in the IDF file.
By default, the IDF file has the same name as the root product.
11. Click OK to export data to the IDF file.
Your IDF file will look something like this:
Discontinuity in Sections
A message informs the user of discontinuities in sections of the following type:
In such cases, it is recommended that two different compartments or complex compartments be created. Typical examples are given below. Bodies are then joined by renaming components in the dialog box.
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Generating Offset Data
This task shows you how to generate offset data in XML format.
You can also apply different stylesheets and generate offset data in other formats, for example HTML or CSV. To do so, you must first customize your settings (Tools -> Options -> Equipment & Systems -> Structure Preliminary Layout -> Offset Data).
Have a wrapping surface and appropriate sets of frame, waterline and buttock planes as well as any control curves needed.
1. Click the Offset Data icon.
The Offset Data dialog box is displayed.
2. Select any Knowledgeware parameters you want in the specification tree.
These parameters appear before the offset data when browsed.
3. Click the Surfaces field and select surfaces for which you want to generate the offset data.
Select geometry surfaces (under the Wrapping Surface Geometry entry in the specification tree).
4. Click the Frame planes field and select frame planes of interest.
5. Click the Waterline planes field and select waterline planes of interest.
6. Click the Buttock planes field and select buttock planes of interest.
7. Click the Control curves field and select any special control lines.
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Multi-selection capabilities are available when selecting frame, waterline and buttock planes.
8. Click to specify your output file:
The Save As dialog box appears.
● Identify the folder in which you want to save the file
● Specify a file name
● Select the file type:By default, only the *xml file type is available.If you checked the Apply XSL Transformation option in the Options dialog box, file types for which a stylesheet exists or has been added to the list are proposed. By default, two types are available: *.html and *.csv.
● Click Save.
9. Check Start browser to have your browser open automatically showing the offset results.
If you set your filetype to *.html, this option is automatically checked.
● Ensure your browser is already open on your desktop.
● Using Internet Explorer 6 to browse XML files is recommended. No suitable browsers are currently available on UNIX.
10. Click OK when done.
The XML file containing offset data is generated and, if you checked Start browser, your browser displays the corresponding page.
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Creating Reports
You can generate reports that get the values of properties of objects in your documents. To do so, you must first define the report format which identifies which properties you are interested in. This report format is then used to generate reports.
This task shows you how to create a report.
1. To be able to use this function, load the required knowledgeware package: ● Select Tools -> Options, General -> Parameters and Measure
● Click the Knowledge tab
● Check the load extended language libraries option
● Load the Structure Preliminary Layout package.
2. Define the report format identifying which properties you are interested in.
Use Edit -> Search to select the objects for which you want to obtain a report.
For more information on searching using the General, Favorites and Advanced modes, see the Infrastructure User's Guide.
The 'Or' option in the Advanced mode is particularly useful for combining search criteria to select objects.
3. Generate your report based on the report format you defined.Important: Select the Currently Selected Objects option in the Generate a report dialog box.
Typical Structure Preliminary Layout report:
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Producing Lines DrawingsThree different views showing the shape of a ship can be generated:
● Waterlines view looking down on the ship from above.
● Body plan showing the shapes of the frame lines.
● Profile view looking into the ship from the side.
This tasks shows you how to generate lines drawings.
Have your 3D document opened.
1.Specify your settings before you start:
● Select Tools ->Options ->Equipment & Systems -> Structure Preliminary Layout then the Drafting tab.
2.In addition, you will need to set the following drafting options: ● In the Options dialog box, select Mechanical Design ->Drafting ->View
● Check Project 3D wireframe, Project 3D points and Apply 3D specifications.
3.In the Structure Preliminary Layout document, select all 3D geometry and any planes to be used to generate drawings before entering the Drafting workbench.Body Plans
To completely close the body plan, you must create a boundary using the Boundary command in
the Generative Shape Design workbench:● Activate the wrapping surface
● Change to the Generative Shape Design workbench
● Click the Boundary icon
● Select the wrapping surface.
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4.Create a new drawing: ● Select Start -> Mechanical Design -> Drafting.
You switch to the Drafting workbench and the New Drawing Creation dialog box appears.
● Select the view you want to create.
● Click OK in the New Drawing Creation dialog box.
5.Click the Front View or Advanced Front View icon.
The Advanced Front View command lets you enter a name and scale. The recommended scale is 1:250.
6.Return to the 3D document and select a plane of a 3D part or a plane surface to define the projection plane and the drawing view.
A 3D view is previewed on your drawing.Use the drafting manipulator to adjust the view.
7.Click inside the view to generate the view.
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For more information on drafting capabilities, see the Drafting User's Guide.
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Creating Plane SystemsThe Plane System command provides tools letting you define a number of planes in a given direction. Planes can then be used as reference planes or supports when creating other items.
In structure applications, you can, for example, define reference planes in each ship direction to assist you place structural elements. You must define one plane system for each direction. This task shows you how to create a regular asymmetric, a irregular asymmetric and a semi-regular plane system.
1.Click the Plane System icon.
In the Generative Shape Design workbench, this icon is to be found in the Tools toolbar. You can also select Insert -> Advanced Replication Tools -> Plane System...
In the Structure Preliminary Layout workbench, this icon is to be found in the Structure Grid Set toolbar. Having selected this command, you also need to select an entry in the specification tree under which you want to create a new CATPart to locate your plane system before proceeding. If you want to use an existing CATPart, then select that CATPart in the tree.
For Structure Functional Design, switch to the Generative Shape Design workbench.
The Plane System dialog box appears.
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2.Select the type of plane system you want to create:
Five types are available:
● Regular symmetric
● Regular asymmetric
● Semi-regular
● Irregular symmetric
● Irregular asymmetric.
Symmetric Plane Systems
Symmetric plane systems are created in similar fashion to asymmetric plane systems. The difference being that they have the same number of planes on either side of the origin.
Creating a Regular Asymmetric Plane System
3 Select a plane or a line to define the direction of the plane system.If you select a plane, the center of the plane is automatically taken as the origin of the plane system and an arrow appears showing the direction.
You can, if desired, change the origin.
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4.If you selected a line, select a point to define the origin,
Or,
If you selected a plane and want to change the origin, click the Origin field and select a point.
● Use the Reverse button in the dialog box or select the arrow in the geometry area to invert the direction.
● The contextual menus in Direction and Origin fields let you create appropriate geometry directly without having to exit the current command.
5.Specify the primary subset: ● Specify the distance between two planes in the Spacing field.
● Enter a prefix identifying all planes in this set.Planes are identified by this prefix plus a positive or negative number that increments away from the origin. Plane numbers are positive in the direction of the plane system. The origin is identified by prefix.0.
● Specify the number of planes.The number you enter is the number of planes you want to create on either side of the origin. Note that the number of planes does not include the plane at the origin.
6.(Optional) Check Allow secondary subset to group a number of planes in the primary subset together and create a secondary subset:
● Specify the step. For example, enter 4. Every fourth primary subset plane will belong to the secondary subset.
● Enter a prefix identifying all planes in this set.
Notes: The plane at the origin always belongs to the primary subset.Select the subset in the specification tree to visualize all planes in this set in the geometry area.
7.Click OK when done to create a plane system along the specified direction.
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Creating an Irregular Asymmetric Plane SystemPlane systems can be created by importing a TSV (tab-separated) file containing the definition of the plane system.
This file must be formatted as follows:
positive_or_negative_absolute_distance_from_origin<TAB>subset_prefixwhere <TAB> denotes a TAB character
and should contain an entry 0<TAB>subset_prefix. Typically,
-4800 WEB-4200 FRM-3600 FRM-3000 FRM-2400 WEB...0 FRM... 2300 WEB 2700 WEB
Notes:
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● Do not type space characters using the space bar.
● It is not necessary to specify the positive sign '+' when entering positive distances.
It defines a plane system in one ship direction only but can contain as many subsets as desired.
3.Select a plane or a line to define the direction of the plane system.If you select a plane, the center of the plane is automatically taken as the origin of the plane system and an arrow appears showing the direction.
You can, if desired, change the origin.
4.If you selected a line, select a point to define the origin,
Or,
If you selected a plane and want to change the origin, click the Origin field and select a point.
● Use the Reverse button in the dialog box or select the arrow in the geometry area to invert the direction.
● The contextual menus in Direction and Origin fields let you create appropriate geometry directly without having to exit the current command.
5.Click Browse... and navigate to the file containing the plane system definition.6.Click OK when done to create a plane system along the specified direction.
Creating a Semi-Regular Plane System The semi-regular option lets you easily and rapidly define a plane system comprising groups
of planes with different spacings.
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3.Select a plane or a line to define the direction of the plane system.If you select a plane, the center of the plane is automatically taken as the origin of the plane system and an arrow appears showing the direction.
You can, if desired, change the origin.
4.If you selected a line, select a point to define the origin,
Or,
If you selected a plane and want to change the origin, click the Origin field and select a point.
● Use the Reverse button in the dialog box or select the arrow in the geometry area to invert the direction.
● The contextual menus in Direction and Origin fields let you create appropriate geometry directly without having to exit the current command.
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5.Specify the primary subset: ● Specify the distance between two planes in your first group in the Spacing field.
● Enter the number of the last plane having the specified spacing in the End field.
● Click Add to confirm your first group.
The first group is identified in the list view control and the Start field incremented to display the number of the first plane in your second group.
● Repeat to specify the spacing and the number of the last plane to be created with this
spacing, then click Add.
● Continue until satisfied.
Note: If the current spacing is the same as the spacing of the previous group, any new planes are added to the previous group.
● Enter a prefix identifying all planes in the primary set.
Planes are identified by this prefix plus a positive or negative number that increments away from the origin. Plane numbers are positive in the direction of the plane system. The origin is identified by prefix.0.
6.(Optional) Check Allow secondary subset to group a number of planes in the primary subset together and create a secondary subset:
● Specify the step. For example, enter 4. Every fourth primary subset plane will belong to the secondary subset.
● Enter a prefix identifying all planes in this set.
Notes: The plane at the origin always belongs to the primary subset.Select the subset in the specification tree to visualize all planes in this set in the geometry area.
Adding Groups to Your Plane System
● Click in the list view control to return to the Add mode.
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Modifying Groups in Your Plane System
● Select the group you want to modify.
● Enter a new spacing value or modify the End value to change the number of planes in the group.Note: You cannot modify the Start value.
● Click Modify.
The plane system is updated. Changing the number of planes in any one group does not affect the number of planes in other groups.
Note: Click in the list view control to cancel unwanted modifications that have not been confirmed using Modify.
Removing Groups
● Select the group you want to remove.
● Click Remove.
7.Click OK when done to create a plane system along the specified direction.
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Managing Your ProjectWorking with a Cache SystemManaging Ship Project Data
Understanding Project Resource ManagementAbout the Feature DictionaryAbout Object Naming Rules
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Working with a Cache SystemTo improve system performance when working with very large documents, it is recommended that you activate the cache. This recommendation is valid when working in file-based mode as well as with ENOVIA LCA.
This means that documents will be loaded in visualization mode, however, when editing structural items such as stiffeners or molded forms, the item is automatically switched to design mode. Any entities used to define the item you want to edit are also switched to design mode. Any new structures are created in design mode in the document.
The cache system is managed via the Cache Management tab in the Options dialog box (Tools -> Options -> Infrastructure -> Product Structure). For more information see Customizing Cache Settings in the Customizing section of the Infrastructure User's Guide.
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Managing Ship Project DataProper management of project data offers the following advantages:
● Clear and user-friendly organization of data
● Easy location of items in the specification tree
● Facilitates management of Hide / Show capabilities for CATParts and CATProducts.
This task recommends a way to manage project data that offers the above advantages.
The corresponding specification tree looks like this:
1. Enter the Structure Preliminary Layout workbench (Start -> Equipment & Systems -> Structure Preliminary Layout).
2. Add the Structure Preliminary Layout level to the specification tree: ● Right-click the root product and select Components -> New Component from the
contextual menu
● In the Part Number dialog box that appears, enter Structure Preliminary Layout, then click OK.
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3. Create a wrapping surface under Structure Preliminary Layout using the Wrapping
Surface command.
Note: Double-click Structure Preliminary Layout to activate this level.4. Right-click and select Components -> Existing Component... to insert CATParts
containing pre-defined reference planes, typically Deck_Reference_Planes, Long_Reference_Planes and Cross_Reference_Planes.
Note: It is recommended that one CATPart contain the set of reference planes in one ship direction only.
5. Right-click and select Components -> New Component from the contextual menu to create other levels as follows:
● Decks
● Transversal_Blk
● Longitudinal_Blk
● Unspecified_Blk
● Preliminary_Openings
● Basis_Bounded_Zones
● Composite_Bounded_Zones
6. You are now ready to start you preliminary design.You can also add the Structure Functional Design level to the specification tree and apply the same approach when managing functional design data.
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Understanding Project Resource ManagementProject resources are managed by system administrators. Typically this involves entering information such as folder paths for resources, like user dictionaries such as the feature dictionary, without which the application cannot function. What administrators enter will be visible in the Browse tab of the Project Resource Management dialog box (Tools -> Project Management), but it cannot be changed there.
A sample project resource management file is provided with this application and by default, the application will start with this file. The following Structure Preliminary Layout-related resources are managed in this file.
Project Resources
Feature dictionary managing object classes
Discrete values for attributes
ID schema managing object naming rules
ID sequence number directory: contains the last sequence number that was generated for an object.
Parts catalog.
Structure Discipline Resources
Orientation naming conventions: contains naming conventions for ship directions. Default conventions are USA conventions listed in sample CATStrOrientNamingUSAConv.
A sample file for European conventions is also supplied: CATStrOrientNamingEURConv.
The default location for these resources is downloaddirectory/OS/resources/msgcatalog, where OS is the operating system, for example intel_a (Windows NT).Structure Preliminary Layout Application Resources
Project name specifying the current project name. DS Default, by default.
Project bounding box: defines overall project dimensions. Default dimensions (mm) are:
X+X-Y+Y-
Z+Z-
122000-1000015200-1520021100-6500
The center of the box is positioned at the center of the document. Note that when the user creates the wrapping surface, the bounding box is automatically re-dimensioned to include the hull form.
If there is more than one project at your site, then a project resource management file is made for each project. You can open another resource management file using the Project Management command (Tools -> Project Management). For more information on how to do so, see Using the PRM command in the Infrastructure User's Guide.
For more information on resources and how the resource management file is organized, see Understanding Project Resource Management.
Managing project resources is typically performed by an administrator.
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About the Feature DictionaryThe feature dictionary manages object classes. In the sample dictionary provided with the application, three main object classes (wrapping surface, molded form, and bounded zone or compartment) and a number of sub-classes are managed.
Note: In the application, these object classes are managed via the class browser.
To view the sample dictionary:1.Open the CATStrPreliminaryLayoutSample.CATfct file.
By default, this file is located in the install_folder under /resources/graphic.
The Feature Dictionary Editor opens showing the sample dictionary.
The Classes View displays all the classes available in the document, i.e. the predefined classes included in the application.
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2.Double-click Bounded Zone (corresponds to compartment) to view associated class attributes.
Existing attributes or properties are displayed in the Inherited attributes and Local attributes boxes. Inherited attributes are those inherited from the super class to which this class belongs. Local attributes are properties added to the class itself.
The following table lists the object classes and corresponding attributes provided in the sample dictionary.Wrapping Surface
● Type
Molded Form● BulkheadIntegrity
● FrameLocation
● InsulationTreatments
● PaintSchedule
● SurfaceTreatments
● Tightness
Bounded Zone or Compartment● FunctionNumber
● HVACCategory
● Location
● PaintThickness
Attributes or properties assigned to object classes can be browsed via the Properties dialog box (right-click feature in specification tree and select Properties from the contextual menu).
You can add sub-classes and attributes to the sample dictionary, or if you want, you can create a new feature dictionary. You may, for example, want to create several sub-classes under wrapping surface in the sample dictionary for deckhouses, internal and external wrapping surfaces.
You can also define or modify object naming rules using the Define ID Schema icon in the Feature Dictionary Editor workbench.
For more information, see Using the Feature Dictionary Editor in the Infrastructure User's Guide.
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About Object Naming RulesStructure Preliminary Layout provides a set of default naming rules or unique identifiers for the objects you create. This identifier consists of a prefix that identifies the type of object it is, followed by a unique number.
You may want to modify these rules to suit your own requirements:
● For objects integrated into the feature dictionary, use the Define/Modify ID Schema command in the Feature Dictionary Editor application.
● For all other objects, you must edit XML files directly.By default, sample XML files are located in the install_folder under startup/EquipmentAndSystems/StructurePreliminaryLayout/DataDictionary.
Modifying or defining object naming rules is typically performed by an administrator.
For more information, see Modifying the Object Naming Rules in the Infrastructure User's Guide.
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Structure Preliminary Layout Package in Knowledge Expert
A Structure Preliminary Layout package is supported by Knowledge Expert. This package can be accessed via the object browser and objects, attributes and methods in the package used in expert relations. You can, for example, write a rule to change the color of all molded forms of a given type. The package contains the following main objects:
● CATSPLBooleanOperator
● CATSPLBoundedZone
● CATSPLWrappingSurf
● CATSPLMoldedForm.
All other objects listed in the browser derive from the above main objects, for example Deck derives from CATSPLMoldedForm. These objects or sub-classes are managed in the sample feature dictionary.
For information on object attributes and methods, see Structure Preliminary Layout in the Reference Information section of the Knowledge Expert User's Guide.
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Interoperability
Working with ENOVIA LCA: Optimal CATIA PLM UsabilityTaking Advantage of ENOVIA LCA Capabilities
Working with SmarTeam
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Working with ENOVIA LCA: Optimal CATIA PLM Usability
When working with ENOVIA LCA, Optimal CATIA PLM Usability ensures that you only create and edit data in CATIA that can be correctly saved in ENOVIA.
ENOVIA LCA offers two different storage modes: Workpackage (Document kept - Publications Exposed) and Explode (Document not kept).
In Structure Preliminary Layout, data is saved correctly in ENOVIA LCA in both modes, however, Explode mode is the recommended mode since this mode lets you manage Structure Preliminary Layout objects individually in ENOVIA. All Structure Preliminary commands are thus available at all times.
Recommended Methodology
The recommended methodology for working with ENOVIA LCA is:
● Create a product class root (PRC) and product in ENOVIA LCA.
● Send your ENOVIA document to CATIA.
● Work on your design in CATIA, whether from scratch or modifying an existing design.
● Save your CATIA data in ENOVIA.
To ensure seamless integration, you must have both a CATIA and ENOVIA session running.
1. In the Product Structure workbench of CATIA V5, click the Init Enovia V5
Connection... icon to establish the connection between CATIA V5 and ENOVIA
LCA.
2. In ENOVIA LCA, send your ENOVIA document to CATIA.
3. Work on your design in your CATIA V5 application.
4. In the Product Structure workbench of CATIA V5, click the Save Data in ENOVIA V5
Server... icon to save your CATIA data in ENOVIA.
The Save in ENOVIA V5 dialog box appears showing objects to be saved and set to
the correct save mode and save options.
All structural items created under the root and any new components are saved in
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Explode mode; new products are saved in Workpackage mode.
5. Simply click OK in the dialog box.
If the CATIA document root is not an ENOVIA document:
● Save your work temporarily
● Create a product class root (PRC) and product in ENOVIA
● Send the ENOVIA document to CATIA
● Insert the components (Insert -> Existing Component) containing the work you saved temporarily above
● Save your work in ENOVIA.
For more information, see the CATIA / ENOVIA Interoperability User's Guide.
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Taking Advantage of ENOVIA LCA Capabilities
To assist you in your structure preliminary layout, ENOVIA LCA provides capabilities letting you manage multiple design options and run compartment queries for application objects stored in the ENOVIA LCA database.
Multiple Design Options
Managing multiple design options corresponds to the ENOVIA LCA capability of managing part versions. The recommended methodology to do so is:
● Work on your new design option in CATIA.
● Create a new part version in ENOVIA:You should create as many part versions as different design options.
● Attach the CATIA document to the part version.
For more information, see Manage Part Versions in the ENOVIA LifeCycle Applications Engineering LifeCycle guide.
Querying for Compartments
The ENOVIA LCA Search Tree enables you to query the ENOVIA LCA database for compartments by type.For more information, see Manage Searches in the ENOVIA LifeCycle Applications Engineering LifeCycle guide.
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Working with SmarTeam
Structure Preliminary Layout documents can be stored in SmarTeam.
Documents are managed in projects in SmarTeam. You must therefore create a SmarTeam project.
To ensure seamless integration, you must have both a CATIA and SmarTeam session running.
1. In CATIA, specify your document environment:
❍ Select Tools -> Options -> General -> Documents tab
❍ Set SmarTeam to Allowed.
2. Still in CATIA, select Connect from the SmarTeam menu to establish your CATIA -
SmarTeam connection.
3. To save a CATIA document in SmarTeam:
❍ Select Save from the SmarTeam menu.The Projects Manager dialog box displays.
❍ Search for the SmarTeam project you want to save your document under.
❍ Select the project
❍ Select the Link to Projects checkbox, then click Save.
Your document is saved in SmarTeam.
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4. To open a SmarTeam document and send it to CATIA:
❍ Select Find Document from the SmarTeam menu in CATIA.The Search Editor dialog box displays.
❍ Select CATIA Products, then click Run.The CATIA Products dialog box displays.
❍ Right-click the project and select File Operation -> Open in the contextual menu.
The document associated with the SmarTeam project opens in CATIA.
For more information on SmarTeam capabilities, see the appropriate guide.
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Workbench DescriptionThe Structure Preliminary Layout Version 5 application window looks like this:
Click the hotspots to see related documentation.
Structure Preliminary Layout ToolbarStructure Grid Set Toolbar
Specification Tree
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Structure Preliminary Layout Toolbar
See Browsing project data
See Wrapping surfaces
See Creating simple molded forms
See Creating multiple molded forms
See Creating external molded forms
See Openings
See Creating compartments
See Creating complex compartments
See Creating boundaries
See Modifying boundary user type
See Exporting data in IDF format
See Generating offset data
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Structure Grid Set Toolbar
See Defining reference planes
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Specification Tree
Icons displayed in the specification tree and specific to Structure Preliminary Layout workbench identify:
Wrapping surface
Molded form
Opening
Bounded zone
Composite volume
For other symbols used in the specification tree, see Specification Tree Symbols.
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Customizing Structure Preliminary LayoutBefore you start your first session, you can customize the way you work to suit your habits. This type of customization is stored in permanent setting files: these settings will not be lost if you end your session.
1. Select the Tools -> Options command.
The Options dialog box displays.
2. Select the Equipment & Systems category in the left-hand box.
3. Click the Structure Preliminary Layout sub-category.
The Design, Drafting and Offset Data tabs display.
❍ The Design tab lets you set default colors for main items.
❍ The Drafting tab lets you customize lines drawings.
❍ The Offset Data tab lets you manage the output formats for your offset data.
One other setting, Keep link with seleted object, is also needed to ensure associativity between the items you create and entities selected to create them.
4. Select Infrastructure -> Part Infrastructure -> General, then select Keep link
with selected object.
5. Set options in these tabs according to your needs.
6. Click OK in the Options dialog box when done.
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Design SettingsThe Design tab contains one category of options: Default colors.
Default Colors
Use the color chooser to define the default color for molded forms, bounded zones (compartments) and boundaries.
By default, colors are as shown above.
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Drafting The Drafting tab contains five categories of options letting you customize your lines drawings:
● Geometry to display
● Waterlines view
● Waterline position
● Body plan
● Midship position
Geometry to Display
Select the option defining how the shape of the ship is shown on lines drawings: Wireframe only or Surface only, or Both.
By default, the option is Wireframe only.
For a body plan, ensure Wireframe only is checked.
Waterlines View
Select the option defining the view looking at the ship from above: Symmetrical or Asymmetrical depending on whether or not the ship is symmetrical about the centerline. This generates a half-breadth or full-breadth view respectively.
Typical half-breadth view:
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By default, the option is Asymmetrical.
Waterline Position
Select WaterLine reference plane
If this option is selected, the waterline is located at the selected reference plane in the 3D document.
Specify value (absolute z coordinates)
If this option is selected, the waterline is located along the Z direction at the absolute coordinate entered in the Absolute Z coordinate box.
By default, the option is Specify value.
Body Plan
Select the option defining the view showing the shapes of the frame lines: Symmetrical or Asymmetrical depending on whether or not the ship is symmetrical about the centerline.
The generated view is made of two parts. If the ship is symmetrical, only one side of the ship is shown (usually the portside) and the right-hand part looks aft at the forward portside of the ship, while the left-hand part looks forward at the after half of the portside. If the ship is asymmetrical, both sides of the ship are shown.
Typical body plan:
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To generate this drawing, you need to define the midship position (see below).
By default, the option is Asymmetrical.
Midship Position
Select middle station
If this option is selected, the midship is located at the selected reference plane in the 3D document.
Specify value (absolute xcoordinates)
If this option is selected, the midship is located along the X direction at the absolute coordinate entered in the Absolute X coordinate box.
By default, the option is Specify value.
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For the options in this tab page to be taken into account, you need to select Project 3D wireframe, Project 3D points and Apply 3D specifications located in Mechanical Design -> Drafting -> View -> Geometry generation/Dress-up frame.
By default, Project 3D wireframe and Project 3D points are cleared, and Apply 3D specifications is selected.
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Offset Data The Offset Data tab contains one category of options to manage output formats, for example HTML pages or CSV files, for your offset data: Global.
Global
New / Edit / DeleteUse New, Edit or Delete to add new stylesheets, and edit or delete existing ones.
Sample stylesheets (OffsetDataAsHTML.xls and OffsetDataAsCSV.xls) for two formats, HTML and CSV respectively, are provided. By default, they are located in the installation folder under OS/startup/EquipmentAndSystems/StructurePreliminaryLayout/StyleSheet.Apply XSL TransformationSelect this option to take all stylesheets into account and choose the format of your output data when interactively generating your offset data.
By default, this option is cleared and only XML files will be generated.
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Glossary
B
basic wrapping surface A component of a complete wrapping surface in cases where the hull form cannot be defined by a single surface.
boundary A surface fixing the limit of a compartment and representing walls, ceilings and floors. Formed by the intersection of a compartment and a molded form.
bounding box A bounding box defines the overall dimensions of a project. The center of the box is positioned at the center of the document. To visualize the bounding box, browse project data.
The bounding box is managed as a project resource.bulkhead A molded form. Bulkheads are vertical partition walls that subdivide the
interior of a ship into compartments. Typical examples: ● Transverse
● Longitudinal
C
compartment A volume in a ship bounded by horizontal and vertical molded forms and/or wrapping surfaces representing structural decks and bulkheads. Compartments are used to organize the space within a ship into functional volumes. Typical examples are void, habitable, machinery/equipment.
complex compartment A region in a ship grouping two or more compartments.coordinate system System identifying the main
directions of the ship that lets you properly locate and orient structural parts. Defines a right-handed system of orthogonal axes.
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D
deck A molded form. Decks are horizontal partitions that subdivide the interior of a ship into compartments. Part of a ship corresponding to the floor of a building.
deckhouse A wrapping surface. A decked-over structure above the upper deck. Generally created from scratch.
F
feature dictionary The document in which object classes are managed.
H
hull form A wrapping surface of no thickness. A watertight envelope representing the hull of the ship. The hull form serves as the limit for structural parts.
M
molded form Surface used to divide the ship into main volumetric regions or compartments. Typical molded forms are transverse and longitudinal bulkheads, and decks. The default type is molded form.
O
opening Holes in molded forms creating using the sketcher or taken from a catalog.orientation Ship coordinate system and hull form orientations are managed by the
administrator as a project resource. When you create wrapping surfaces and molded forms, you are asked to confirm surface orientation (represented by a combination of two named vectors). These orientations let you properly position items.
Default combinations are:
● hull: inboard/outboard
● deck: top/bottom
● transverse bulkhead: fore/aft
● longitudinal bulkhead: portside/starboard
Orientation also defines a sense for the thickness of the item and is used
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when creating compartments.
P
project A class of ships. It is managed as a project resource and is identified by a name.
R
reference plane A GSD plane used as a reference or limiting element when creating molded forms. Must be created in a new part using Generative Shape Design. A set of reference planes can be defined in all three ship directions.
W
wrapping surface Refers to styling surfaces and hullforms. Also used to define the deckhouse. Usually an imported surface. Has two orientations (inside, outside).
The wrapping surface can be a single surface or can be made of several surfaces. The wrapping surface is defined by a specification tree feature and the associated surface geometry.
X
XML XML (Extensible Markup Language) is a standard format that can be used as a simple way to exchange data.
Results and how results are presented are two separate entities, so you can customize your own style sheet to present the results the way you want without impacting the results themselves.
XML makes documents smarter and more portable. You can, for example, publish the results to a web browser or to your company database. XML processors letting you generate HTML pages corresponding to the XML file and style sheet are available on the market.
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Index
Aabout
compartment
molded form
wrapping surface
Bbasic wrapping surface
boundary
boundary type
bounding box
bulkhead
Ccommand
boundary
change boundary user type
change compartment user type
compartment
complex compartment
edit project
external molded form
IDF export
molded form
multiple molded form
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Offset data
opening
Plane System
wrapping surface
compartment
about
creating
feature dictionary
modifying
compartment type
complex compartment
coordinate system creating
basic wrapping surfaces
boundaries
compartment
complex compartment
complex hull form
deckhouse
external molded form
hull form
multiple molded forms
opening
reports
simple molded form
wrapping surface customizing
design settings
lines drawings
offset data
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Ddeck
deckhouse
deleting openings
design settings documents
saving drawings
customizing
lines
EENOVIA LCA integration
multiple design options
querying for compartments
exporting in IDF format
Ffeature dictionary
form coefficients
Ggeneral hull characteristics generating
offset data
reports
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Hhull form
complex
creating
hydrostatic data
naming conventions
hydrostatic data
IIDF format
imported surface interoperability
ENOVIA LCA
SmarTeam
Kknowledge expert
Llines drawings
Mmanaging
multiple design options
ship project data modifying
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compartment
molded form
wrapping surface
molded form
about
external
feature dictionary
modifying
multiple
opening
simple
Nnaming conventions
hull form
naming rules
Oobject naming rules
offset data
opening openings
deleting
orientation
PPlane System command
project
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bounding box
browsing
creating reports
exporting data
generating offset data
managing data
object naming rules
project resource management
Rreference plane
reports
Ssave documents
SmarTeam integration
Ttype, change
Wwrapping surface
about
complex hull form
creating
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deckhouse
feature dictionary
hull form
hydrostatic data
modifying
preparing imported surface
replacing
XXML
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