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Airbus - 3D Modelling Rules For Catia v5 (ang)


AIRBUS Procedure

AP2255

3D modelling rules for CATIA V5

SCOPE: The aim of this document is to list the general rules to be complied with for the 3D modelling of all types of parts.

Owner’s Approval:

Authorization: Date :

Name Function

: Bruno MAITRE EMK-T : Head of CATIA V5 Methods for French Team

Name Function

: Ulrich SCHUMANN-HINDENBERG : Head of CAD-CAM CM (EMK)

 Airbus 2002 . All rights reserved. This document contains Airbus proprietary information and trade secrets. It shall at all times remain the property of Airbus; no intellectual property right or licence is granted by Airbus in connection with any information contained in it. It is supplied on the express condition that said information is treated as confidential, shall not be used for any purpose other than that for which it is supplied, shall not be disclosed in whole or in part, to third parties other than the Airbus Members and Associated Partners, their subcontractors and suppliers (to the extent of their involvement in Airbus projects), without Airbus prior written consent.

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3D modelling rules for CATIA V5

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Table of contents
1 2
2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 2.10 2.11 2.12 2.13 2.14

Introduction ............................................................................... 4 General rules ............................................................................. 5
Designation and numbering of files......................................................... 5 Positioning baseline .................................................................................. 5 Elements to be distributed on layers....................................................... 5 Modelling of parts in context .................................................................... 5 Modelling of detail parts............................................................................ 5 Modelling of equipped parts with unique representation...................... 6 Modelling of equipped parts with multiple representations.................. 6 Symmetrical parts...................................................................................... 7 Variant parts ............................................................................................... 8 Parts with complex surfaces .................................................................... 8 Conditions of supply ................................................................................. 8 Drill-holes ................................................................................................... 9 Removability volume ................................................................................. 9 Kinematic volume ...................................................................................... 9

3
3.1 3.2 3.3 3.4 3.5

Specific rules........................................................................... 10
Machined parts......................................................................................... 10 Sheet metal parts ..................................................................................... 10 Panels ....................................................................................................... 10 Profiled parts............................................................................................ 10 Piping ........................................................................................................ 10

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3.6 3.7

Electricity.................................................................................................. 10 Composite ................................................................................................ 10

4
4.1 4.2 4.3

Structuring of data in a CATPart ........................................... 11
Design by modelling independent entities............................................ 11 Grouping elements in the various bodies of a CATPart. ..................... 15 Explicitly renaming elements ................................................................. 22

5 6
6.1 6.2 6.3

Optimised modelling for updates .......................................... 23 Modifying and correcting a model......................................... 29
Modifying a model ................................................................................... 29 Design with update cycle ........................................................................ 29 Correcting errors ..................................................................................... 30

7
7.1 7.2 7.3 7.4 7.5

Check of a model before officialisation ................................ 35
Destroy all unnecessary elements......................................................... 35 Do not use red for solids......................................................................... 35 All elements except solid in no-show.................................................... 35 Publish reference elements .................................................................... 35 Check that solid is updated .................................................................... 35

Reference documents ........................................................................................... 36 Group of redaction ................................................................................................ 36 Approval and authorization .................................................................................. 36 Record of revisions ............................................................................................... 37

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3D modelling rules for CATIA V5

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1

Introduction
This document includes all of the 3D modelling rules. It also directs the designer to specific manuals (subsidiaries) for consultation. In addition, it includes recommendations for the structuring of the part data and verifications before officialization. It mainly concerns use of the Part Design, Generative Shape Design and Sketcher workbenches. For the use of these CATIA V5 workbenches consult others specific documents, as AM2119 Part Design, AM2117 Wireframe & Surfaces, AM2118 Sketcher, AM2252 CATIA V5 Multi-models links …

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2
2.1

General rules
Designation and numbering of files
 Consult AP2610. CAUTION: In CATIA V5, when a new xxx.CATPart file is saved in a directory, the Part Number field of the part properties (visualised in the tree) is not systematically filled in with the xxx character string. Correspondence is absolutely necessary between the filename (l53s12345200.CATPart) and the part reference (Part Number = l53s12345200). On creation of a new part (File + New + Part or command New Part in Assembly Design workshop), immediately fill the Part Number field in the Part name window. Then save the file (Save As): the filename is then initialised with the part reference. Remarks: • The Part name window is systematically proposed when option ‘Tools + Options + Infrastructure + Product Structure + Part Number + Manual input’ is activated. This option should be locked by the CATIA administrator. • To modify the Part Number, modify the properties of the part (contextual menu). • If properties are modified after 'Save As', the part reference must be entered twice.

2.2

Positioning baseline
TBD

2.3

Elements to be distributed on layers
 Consult AP2622 CAD layers organisation.

2.4

Modelling of parts in context
TBD

2.5

Modelling of detail parts
• •

To allow use of detail part file in CAM, model one part per CATPart file. In a CATPart, there must only finally be one main part body (PartBody), except for conditions of supply which must be created in the bodies of the secondary parts if the manufactured parts are different once installed on aircraft.

 Consult Conditions of supply chapter.

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2.6

Modelling of equipped parts with unique representation
An equipped part must be an assembly of its various detail parts and standard elements.

2 instances of same part positioned in the assembly

• •

No data duplication. A single part body per CATPart and not one main part body and secondary part bodies for standard elements. CATProduct evolves simultaneously with the CATPart of the standard element.



2.7

Modelling of equipped parts with multiple representations
Example: equipped rod TBD

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2.8

Symmetrical parts
Procedure for producing the geometrical model of symmetrical part:
• •

Create a new file .CATPart: File + New Part. Modify the name of the part (Properties) and save the file with the reference of the part -201. • Open in same session the file of part -200. • Copy the solid into the document -200. • Paste the solid into document -201 (Paste Special AsResultWithLink).

Advantage: all changes to part -200 will automatically be taken into account for the symmetrical part



Produce symmetrical solid in relation to the symmetry plane. If this plane is specifically defined in part –200, previously import this plane into part –201 (Copy / Paste Special + AsResult). • Assemble the main part body "PartBody" and the copied solid (Insert + Boolean Operations + Add). • Position part 201 in the assembly. Caution: Do not copy / paste part –200 in a CATProduct.

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2.9

Variant parts
Creation of a variant:


Create a new reference -203 from part -200 (File + New from followed by Save As). • Make the modifications. • Save. • Replace, if applicable, part -200 by -203 in the assembly "Replace component". Remark: for a variant, "copy AsResultWithLink" is not used to access the specification tree for the modifications. Disadvantage: if a change to part -200 must be passed on to part -203, the modification must be done manually.

2.10

Parts with complex surfaces


Parts modelled with reference: during design, the surfaces (from Master Geometry, of shape label) used for the modelling of the part must be duplicated in specific open bodies. The designer decides whether the modelling and/or surface modification must pass via the Shape Reference Group.

 Consult Chapter 4 Structuring of data in a CATPart.


Part with unreferenced surface: the unreferenced surfaces created for the modelling of a part will be grouped in a working open body. The designers ensure full responsibility for the modelling of the surfaces that they produce.

 Consult Chapter 4.2.2 Ordering various bodies in specification tree.

2.11

Conditions of supply
The conditions of supply are integrated into the definition dossier:


Length / overthickness installed on aircraft: the length or overthickness is integrated into the part solid, that is the main part body. Example: for installation dispersion reasons and to ensure the minimum holeto-edge distance of 10 mm, the part contour is drawn at 12 mm.
Minimum hole-to-edge distance 10 mm Part contour defined at 12 mm

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Specific case of so-called "internal" restrictions: These restrictions are integrated into the solid defining the part, that is the main part body.



Length/overthickness adjusted on installation: the solid is isolated in a secondary part body. Example:

10 min after fitting

Solid in secondary part body


Handling and installation lug: the solid is isolated in the secondary part body. Parts which are different once installed on aircraft but identical at storable part stage must bear different references (part number) (File + New from then modification of properties + Save as). The drill-holes and bores are modelled at nominal diameter. Unless specified otherwise on the drawing, the solid is represented with mean dimensions. Except in special cases, the following are not taken into account in the CAD model: sealant or interfay thicknesses, protection thicknesses and part contact face tolerances which lead to the upward adjustment phenomenon. This upward adjustment is absorbed by the tolerance of the TDD on the external shapes. For this purpose, the CAD model does not represent perfect modelling at mean dimensions.

2.12

Drill-holes
TBD.

2.13

Removability volume
TBD.

2.14

Kinematic volume
TBD.

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3
3.1

Specific rules
Machined parts
 Consult AP2257 Machined part modelling for CATIA V5

3.2

Sheet metal parts
 Consult AP2259 Sheet Metal Part modelling for CATIA V5

3.3

Panels
TBD.

3.4

Profiled parts
 Consult AP2258 Profiled part modelling for CATIA V5

3.5

Piping
 Consult AM2253 Tubing installation modelling for definition phase CATIA V5

3.6

Electricity
 Consult AM2254 Electrical installation modelling for definition phase CATIA V5

3.7

Composite
TBD

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4

Structuring of data in a CATPart
The CATIA V5 modeller was defined in part with the aim of facilitating modifications and rapidly dealing with changes. In order to get the best out of the possibilities offered, it is important to take some time to think during the design phase of the structure the data of a CATPart. Also, a CATPart with an optimised data structure (specification tree) will be more understandable for a person who has never worked on the latter. The aim of the following recommendations is to improve the understanding of the design of a part.

4.1

Design by modelling independent entities
• Foreword

Generally speaking, the more the created objects are independent from each other the easier they will be to modify individually. This remark also applies with links of external references type. By modelling parts which abusively use links, designers may rapidly find themselves in a situation where modification management is inextricable. This is why it is strongly recommended to limit the use of such mechanisms:  consult AP2XXX Assembly rules, Work in context chapter. • Example 1: Creating fillets and chamfers

For the type of part below, it is possible, on creation of a fillet, to apply a radius value to several edges at same time.

All the radii are grouped in a single fillet

This method which may a priori seem attractive for creation is penalising when the value of the radius of a single edge is to be modified. 1st case: a single EdgeFillet entity with n selected edges. To modify the radius of an edge, you must:
• •

edit the EdgeFillet object, deselect the edge which no longer has the same radius value (Ctrl key + edge selection), • validate the old EdgeFillet, • create a new EdgeFillet with the edge which no longer has same radius.

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Also, if the new radius value gives an unresolved topology for a single edge, this will be difficult to identify and therefore all selections must be reconsidered. 2nd case: n EdgeFillet entities with one edge in each object. To modify the radius, simply edit the EdgeFillet object which bears on the edge in question and validate the new radius value. Conclusion: only group together edges which mandatory will have same radius value. Remark: same reasoning applies to chamfers • Example 2: Creating radii controlled by a formula in a sketch

With multi-selection of the elements of a sketch, it is possible to create all radii in one operation with command 'Corner'.
A radius controls all the others with a formula

During creation, this functionality may seem to be very practical. But, if the value of a single radius is to be modified, the fact that it is related to a master radius is immediately a handicap and a hindrance. To modify the master radius and not the others, all formulas must be destroyed. Conclusion: use formulas only for real master elements and not for creation comfort reasons.

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Example 3: Creating several contours in a sketch for a single pocket

4 contours in a single sketch and a single pocket

Let us suppose that the height of a single pocket is to be modified: the pocket must be removed to create two new pockets to be able to have two different heights for the pockets.

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Conclusion: to manage modifications correctly, initially create 4 pockets bearing on 4 contours. The 4 contours can be either in 4 different sketches or in the same sketch. For dimensioning contours, it can be suitable to group them in the same sketch. However it is possible to access a single contour inside the sketch when creating pockets.

When selecting the profile, use the contextual menu to choose “Go to profile definition” : this command allows a selection of one profile inside a sketch containing several profiles.

Each pocket height will be managed in each of the Pocket.x features

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4.2

Grouping elements in the various bodies of a CATPart.
The specification tree must be organised and the created elements must be grouped logically to make location easy.

4.2.1

Using various types of bodies present in a CATPart
• Main part body: PartBody. A single main part body at output in a CATPart. Without this recommendation, certain tools such as inertial calculation or automatic bill of material will not operate. Specific case of sketch: caution, a sketch used to create a Part Design or Sheet Metal Design element must be created in the main part body and not in an open body. Otherwise it will be duplicated and its management will be trickier. Example: Creation of Sketch.1 in Open_Body.1

Creation of Pad.1 by selecting Sketch.1: it is duplicated in PartBody and is therefore present twice in the tree.

In Open_body.1, Sketch.1 is linked with no elements and its destruction is possible.

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3D modelling rules for CATIA V5 With the ‘Delete all children’ option: a window indicates the error.

AP2255

Without this option, Pad.1 is destroyed.

In our example, the consequences are immediately visible as the part initially contains only one Pad.1 extrusion. However, we can easily imagine that the disappearance of an element bearing on a sketch will go unnoticed when the part is complex and the specification tree includes around one hundred elements. Conclusion: Duplication of Sketch.1 must be avoided. Remember to create the sketch directly in the part body which will contain the element bearing on the sketch or move the sketch before selecting it to create the element which bears on it. • Secondary part body: Body. Secondary part bodies are used for the design of complex parts requiring a Boolean operation between 2 solids (union, intersection, addition, etc.). There may be therefore two separate solids in a CATPart, but temporarily, before the Boolean operation. An exception is made for certain installation restrictions:  Consult Chapter 2.10). Example: a part body per pocket for machined parts.  Consult AP2257 Machined Part modelling for CATIA V5. • Open_body: The wireframe and surface elements are all placed by default in a single body. It is recommended to create new Open_bodies to group data. In particular, create a body including all the construction elements, from other parts, which are not in the 'External references' body. Thus, in case of change of one of the imported elements, location to replace it and do the update will be almost instantaneous.

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External references: During work in context, for direct selection in a graphic window of environment elements, these will be automatically duplicated in a specific open body called External References. Elements can be imported into this body by copy. However, any element created directly in this body cannot be displaced in another body.

4.2.2

Ordering various bodies in specification tree
When design becomes hybrid (mixing of part bodies and open bodies to create entities), the sequence of the various bodies in the specification tree must be ordered logically. By default, the wireframe and surface geometry is created in an Open_body in parallel with the PartBody. There will be no chronological trace of the design if the tree remains as such. Two possibilities to work on specification tree order: • • Before creation of elements: possibility of inserting new Open_bodies inside PartBody (Menu Insert + Open_body). After creation of elements: possibility of displacing an Open_body inside a PartBody (Drag&Drop) and possibility of displacing an element in the body (Reorder).

Remark: According to CATIA V5 versions, the elements created are not always placed chronologically in the specification tree. In this case, use command ‘Reorder’ to displace them or command ‘AutoSort Open body’ in the contextual menu. Example: • Creation of an extrusion in PartBody.



Creation of a sweep surface in an Open_body.

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Method 1: The extrusion is cut with the sweep surface and a solid is created by giving a thickness to this surface.

The 2 elements Split.1 and ThickSurface.1 which use Sweep.1 are created in the PartBody. The specification tree is no longer logical in relation to the design. The chronology of the various steps is not conserved. • Method 2: To obtain a more logical tree, insert the Open_body in the PartBody before creating Split.1 and ThickSurface.1.

Open_body.2 is now in PartBody. 2 solutions: • Menu: Insert + Body before creation • Drag&Drop after creation

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Even with this method, CATIA will create Part Design elements in the tree before the Open_body.

Split.1 and ThickSurface.1 which use Sweep.1 are created before Open_body.2



In order to reestablish chronology, the elements can be reordered.

Select Open_body.2 + contextual menu + AutoSort Open_body.

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Interest of second working method: on a modification of the sketch of the sweep surface, for example, only the operations done before creation of Open_body are visible.

Method 1 (Open_body in parallel): During edition of Sketch.3 of Sweep.1, all tree elements are visible in the graphic window.

Method 2 (Open_body in PartBody): On edition of Sketch.3 of Sweep.2, only the elements created before Open_body.2 are visible in the graphic window.

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4.2.3

Preparing Boolean operations
The PartBody cannot be used (CATIA limitation) as tool for the Boolean operations (Add, Remove, etc.). Therefore, the tool must always be created in a secondary body.

Contextual menu for PartBody

Contextual menu for a secondary body

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4.3

Explicitly renaming elements
Location in an element tree will be easy if grouping is organised. It will be easier still if the elements have a clear and explicit designation. Examples:

Designation not explicit

Remark: all entities created in the specification tree will appear by default in the form:

Icon type.number

When naming elements, it is useful to conserve the type and rename only the number part in order to conserve the method for obtaining the element (trim, extract, translate, join, split, etc.).

Examples:

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5

Optimised modelling for updates
CATIA V5 modeller can be particularly efficient for modification management. In the previous chapter, we have seen how to structure the data. Here we want the user to be aware of the internal mechanism for updates in order to integrate a strong recommendation when modelling:

As far as it is possible, try to create features based on selection of other features and not on selection of sub-elements geometrical representations. In other words, when you create an element, try to select a point rather than a vertex, a line rather than an edge, a plane rather than a face.
The reason is that CATIA V5 is not often able to update elements bearing on edges, vertex and faces when geometry is rebuilt during the modification. When the modification is only a modification of some parameters and does not generate creation of some new geometry, the update can run till the end. However, when you replace geometry by another one (for example a surface by another one), all the geometry based upon the surface is not modified but re-built. Then the specifications stored to create geometry must be stable. That is not the case of vertex, edges and faces.

Example 1: Update interrupted because of the definition of a plane

In this example the external surface is replaced by a new one. All the wireframe elements of the design principle have to be updated

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When the replace of Surface.1 by Surface.15 is performed, a window appears when some edges, vertices or faces cannot be replaced.

If you press OK at this step, update will stop for all elements created upon edges, vertices or faces with no selection.

In our example, update is interrupted on the Plane.1 definition. A window appears to indicate the diagnosis of the problem (a face, an edge, or a vertex is no longer recognised). Press the ‘Edit’ button to modify the Plane.1 definition.

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In the plane definition, plane through two lines, the Line 1 corresponds to a feature selection (Intersect.2) which is a stable specification stored. The Line 2 corresponds to a 3D geometrical representation selection (Edge.1), which is not a stable specification stored.

In our example the user has selected an edge of this curve to specify a line.

The solution in this example could be to create a plane with an other type. For instance, a plane through a planar curve and then to select the feature Intersect.1 which is a planar curve. The Intersect.1 would be, as Intersect.2, a stable specification to store.

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3D modelling rules for CATIA V5 Example 2 :Creation of an element based on a multiple intersection To be able to select a feature when the specification is the result of a multiple intersection, use the ‘Near’ command.

AP2255

In this example, the intersection of the line and the surface results in 2 points. Then, the Multi-Result Management window appears and proposes to keep only one element. Press Yes if you already know at this step which point you want to keep.

The Near Definition command is automatically launched

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Select the reference element (the nearest) to indicate which point you want to keep. Don’t forget to try to select a stable element, for example Point.1.

Press OK to create Near.1 linked to Intersect.1.

The result is the creation of a Near.1 feature, a stable specification if you have to select a point, rather than a vertex.

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3D modelling rules for CATIA V5 Remark :

AP2255

If you don’t create the Near feature during the intersection creation (Pressing No instead of YES in the Multi-Result Management window), you can use the Near command afterwards.

Pressing NO, you obtain:

Intersect.1 is a non connex element

Use Insert + Operations + Near to distinguish one point between the two points computed during intersection.

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6
6.1

Modifying and correcting a model
Modifying a model
• For an important modification requiring complete remodelling of the part, do not duplicate the CATPart. Mandatory ’Get’ the CATPart in VAULT, destroy the existing data in CATPart and restart definition (UUID conservation problem). To store a change in geometry: 1. Create a specific body called ‘Modifications’. 2. Extract the main modified faces from the solid in the ‘Modifications’ body. 3. Position these faces on the modification layer ( Consult AP2622 CAD layers organisation). 4. Place these faces in No Show mode. Remark: The DMU Space Analysis workshop offers the possibility of comparing the differences between 2 CATProducts or 2 CATParts. This comparison can be stored in image form.



6.2

Design with update cycle
An update cycle is generated when an element is created from specifications which depend upon it. An update cycle, rare during a creation phase, is however much more common during a modification phase, the replacement of an element (Replace) and the reorganisation of an element (Reorder). Also, the possibility of creating an update cycle is increased during hybrid design. Compliance with the methodological instructions in this manual limits the risk of update cycles. Example: Modification of a plane defined from 3 points Creation chronological order: • In PartBody, creation of an extrusion Pad.1 • In Open_body.1: creation of Plane.1 from Point.1, Point.2, Point.3 • In PartBody: creation of Split.1, cut of Pad.1 by Plane.1

Plane.1 Pad.1

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To modify Plane.1, edition of plane specifications (the 3 selected points) in Plane Definition window. Attempt to replace one of the 3 points by a point of Pad.1.

Selection of a Pad.1 point to modify Plane.1

Pad.1 depends on Plane.1 as it is cut by it. It is therefore impossible that definition of Plane.1 bears on a geometry of Pad.1: • Pad.1 becomes red. • A window appears to indicate that Split.1 is involved in an update cycle. • 'Warning' symbols appear in the specification tree. CAUTION: All update cycles are not necessarily detected by CATIA V5. Under these circumstances, the update of the model will not be completely executed and the result will be an endless loop during execution of the ‘Update’ command.

6.3

Correcting errors
The update of a model, required after a modification or a change of version may be interrupted due to errors. These errors must be processed one by one to reobtain an equivalent definition before starting update. To process an error, edit the element which cannot be reconstructed and modify the specification posing problems. Any uncorrected errors will lead to an inactivated element and therefore all constructions bearing on this inactivated element will be invalid.

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3D modelling rules for CATIA V5 for CATIA V5 Example: Update of a part subsequent to a change of version (from V5R4 to V5R6). •

AP2xxx

If problems are encountered during execution of command 'Update', CATIA will stop on the first error encountered (option selected for update). Here, for an unknown reason, reconstruction of Sketch.8 is not done correctly. Thus revolution solid Shaft.1 cannot be rerun.

The user is warned by the 'Warning' symbols in the specification tree.

Windows analysing the error are displayed to inform the user: • Shaft1: the profile intersects the axis, change profile or axis • Sketch.8: unable to find a consistent solution

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At this stage, the element causing problems can be deactivated, destroyed or edited. In deactivation and destruction cases, any constructions bearing on the element in question will be lost. It is therefore strongly recommended to edit the element to correct the specification in order to continue the update. Process in this way, one after each other, all errors detected.

Avoid deactivating or destroying. In our example, the choice ‘Deactivate’ leads to new errors for the points and edges and subsequently for the fillets constructed from Shaft.1

Remark: in certain cases, the user may possibly decide that it is quicker to destroy the element then reconstruct it rather than correct it.

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3D modelling rules for CATIA V5 for CATIA V5 • Rather than deactivating, select ‘Edit’ option:

AP2xxx

A window recalls the source of the error: click ‘OK’ to display Shaft.1 definition window



In our example, sketch of Shaft.1 no longer corresponds to the initial geometry. It must therefore be corrected to reestablish the definition.

Click command Sketch in ‘Shaft Definition’ window to modify the sketch.

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3D modelling rules for CATIA V5 for CATIA V5 • Work in 'Sketcher' workshop to correct the sketch.

AP2xxx

Once the sketch has been corrected, exit the ‘Sketcher’ workshop. Update can continue, Shaft.1 is reconstructed together with the fillets bearing on it.

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7
7.1

Check of a model before officialisation
Destroy all unnecessary elements
For coherence, size and therefore model performance and legibility reasons, all geometrical elements generated during design which are no longer useful must be deleted (especially if the geometry was imported and is no longer referenced).

7.2

Do not use red for solids
Avoid red for geometric elements especially solids. This colour can be confused with highlighting and especially is the colour used to indicate that an element must be updated.

7.3

All elements except solid in no-show
For mock-up reviews and data exchanges, all construction elements (surface, wireframe, etc.) must be in no-show mode.

7.4

Publish reference elements
To be able to use the elements in a context, publish the geometry which will be used as reference for the modelling of other parts.

7.5

Check that solid is updated
Check the positioning of the elements in the layers  Consult AP2622.

Issue: Draft A1

Date: February 2002

Page 35 of 37

AIRBUS
3D modelling rules for CATIA V5 for CATIA V5

AP2xxx

Reference documents
AM 2117 AM 2118 AM 2119 AM 2253 AM 2254 AM2252 AP 2257 AP 2258 AP 2259 AP 2610 AP 2622 CATIA V5 Wireframe & Surfaces CATIA V5 Sketcher CATIA V5 Part Design Tubing installation modelling for definition phase CATIA V5 Electrical installation modelling for definition phase CATIA V5 CATIA V5 Multi-models links Machined part modelling for CATIA V5 Profiled part modelling for CATIA V5 Sheet metal part modelling for CATIA V5 Naming and Numbering for New Projects CAD layers organisation

Group of redaction
Team members F. Kautz S. Lerat P. Cano M. Horwood Company/Department Airbus Deutschland EMK-T Airbus España Airbus UK telephone

Approval
This document has been approved on behalf of the following: (signatures or proof of agreement are archived together with the master document) Organization Approval
ACE/SPD/Cax Technology/Method EM Quality Assurance representative CANO-RODRIGUEZ Pedro-Jesus Airbus España Nicole Lamothe (EMZQ)

CoC Structure CoC Systems and Integration tests

H Schnell (ESDS) F. Capecchi (EYD)

Issue: Draft A1

Date: February 2002

Page 36 of 37

AIRBUS
3D modelling rules for CATIA V5 for CATIA V5

AP2xxx

Record of revisions
issue Draft A1 Date February 2002 Summary and reasons for changes Initial issue

If you have a query concerning the implementation or updating of this document, please contact the Owner on page 1

Or a team member of the group of redaction

For general queries or information contact: Airbus Documentation Office, Airbus 31707 Blagnac CEDEX, France Tel: 33 (0)5 61 93 49 93 Fax: 33 (0)5 61 93 27 44

Issue: Draft A1

Date: February 2002

Page 37 of 37

 
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