Assembly3 Workbench/fr

Introduction
Assembly3 est un Ateliers externes qui est utilisé pour effectuer l'assemblage de différents corps contenus dans un seul fichier ou dans plusieurs documents.

The main features of the Assembly3 Workbench are
 * dynmamic/interactive solver. This means you can move parts with the mouse while the solver constraints the motion. This allows for example to connect a wheel to an axis and turn the wheel interactively with the mouse.
 * links. This means you can use one single part, e.g. a scew multiple times in an assembly (at different places) without duplicating geometry.
 * external links. It is possible to have a freecad document that only contains an assembly and not parts. All parts could be in single files. The files even could be in a library or anyhwere else in the file system. The only requirement is that the file must be loaded when the link is made. After the link is made, the file must be open to make updates to the links involving the file. Assembly3 solves this by opening files in the background as required.
 * hierarchical assemblies. As is real life a mechanical assembly may consist of sub-assemblies. Those might consists of sub-assemblies again and so on.
 * assembly freeze. As the CPU can handle only so many concurrent constraints in real time, to freeze an assembly allows to use constraints even for large assemblies. By freezing finished assemblies or constraints that are not required to remain dynamic (e.g. welded, bolted or glued parts) those are excluded from update calculations and considered fixed geometry by the Assembly3 solver.
 * Note that other approaches offer different solution to this problem, e.g. the Assembly4 Workbench.

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Toolbars
As of 2020 the Assembly3 workbench features the following toolbars.


 * Assembly3_ToolbarMain.png
 * Main Toolbar


 * The main toolbar contains tools to
 * add an assembly folder
 * import STEP files
 * tools to move parts in 3D
 * Controls for the appearance and solver.
 * tools to sort the tree items


 * Assembly3_ToolbarConstraints_1.jpg
 * Main Constraints Toolbar. Some tools are acutally a menu for more tools.


 * Assembly3_ToolbarConstraints_2.jpg
 * Additional Constraints Toolbar. You can enable this by selecting the '...' icon on the Main Constraints toolbar.


 * The Constraints tool bars will be the main interface used when assembling parts. They are geyed out by default but are activated once at least one face, line or point of a part is selected. Generally you select the Elements that should be joined and then select the constraint type. The different colored frames mark different chanracteristics of the constraints: whether 2D/3D of if more than 2 Elements can be added. A detailed description can be found in the Gibhub wiki.


 * Lock The very first constraint. In each assembly one part should be locked to act as base part. Locking mean nothing more than constraining this part in 6DOF to its current position and orientation. It becomes the sarting point for the


 * Assembly3_ToolbarNavigation.jpg
 * Navigation Toolbar
 * Theses functions are useful when working with an assembly with a hierarchy of linked external files
 * Select the corresponding part object in the relation group
 * Select linked object
 * Select the deepest linkes object


 * Assembly3_ToolbarMeasurement.jpg
 * Measurement Toolbar
 * The Measurement toolbar adds functions to measure distances between two points, a point and a line or a point and a face. The 'Measure Angle' tool tracks the angle between tow faces or lines. There is not function to measure a radius or diameter.
 * The measurement tools survive part changes, e.g. the distance between edges of a cube when the cube is re-sized. As the constraints the calculations are done in real time and updated upon any change. Behind the scenes, the function is very similar to the constraints. The distance or angle is calculated between Elements in the same way as for constraints. The display in the tree works in the same way.

As usual you can modify the tool bars and add or remove single tools. Be sure to check the menu Assembly3 for functions that may not be present in the tool bars.

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Constraints
The designer uses constraints to achive the desired result for the relation of two parts. The art is the selection of the right constraints best suited to deal with each problem. Each eliminated DOF should in theory only be eliminated once between two objects, but in practice with many CAD tools selected constraints cause over-constraint combinations, often compensated by complex algorithms, sometimes not. Assembly3 does use algorithms to detect and compensate over-constraints, but clearly they are not very matured yet. So in practice for Assembly3 constraints avoid trouble by being aware of how many degrees of freedom (DOF) have been used and which ones are still to be locked down by constraints. No part should have a connection by constraints usind more than 6DOF.


 * Note: If the solver meets a combination that can not be solved, it will give an error. It is very difficult for the solver to find out what caused the problem, so typically from this error given it will not be clear where the problem is. In larger assemblies this can lead to complex problem searches. Unfortunately there is no easy way to avoid this. However, it helps to be fully aware how the system works (.e.g see Elements below), use clear names for all components involved and only ever add additional constraints when the solver solves the current assembly. Very helpful to track down a problem is the "ContexMenu/Deactivate" function of each Constraint.

Assembly3 Constraints define restrictions in the position or orientation between two Elements. Some constraints even work with more than two Elements. An Elements can be a face, a line or edge or a point of a part. Generally constraints are defined by selecting the desired Elements and then select the constraint fromt the Constraints toolbar.

Other
 * Fixes 6 DOF, leaves 0 DOF:
 * Lock: The lock constraint fixes all DOFs for a face. It should be used for one base part in each assembly. You may also want to enable the "MoveLock" function (in the tool bar) so that the part can not be moved accidentially. Normally it does not matter which face/line/point you use to fix a part. Also note that the lock is only valid for the direct assembly, i.e. in case of a sub-assembly the parent assembly would still require a locked part on its own.
 * Attachment: Makes both elements coordinate systems equal for all axes. This is computation wise the most inexpensive function and should be used where ever possible. Note that you could use the element properties to compensate for offsets and angles if the two elements are not perfectly aligned.
 * Fixes 5 DOF, leaves 1 DOF:
 * Plane Coincident: fixes Tx,Ty,Tz, Rx,Ry. Only Rz is free. There remains the rotation around the normal passing through the ‘‘center of the plane’’.
 * Fixes 4 DOF, leaves 2 DOF:
 * Axial Alignment: fixes Tx,Ty, Rx,Ry. Only Tz, Rz are free. There remains the rotation around the axis of the shape and the translation along this same axis. Two PointOnLine constraints (if the two points are different) give the same result. The '‘Colinear'’ constraint too.
 * PointOnLine: This eliminates the translation and rotation along the normals to the reference line. Only the translation and rotation along the line axis is allowed.
 * Fixes 3 DOF, leaves 3 DOF:
 * Same Orientation: fixes Rx,Rz,Rz. All T's remain free
 * Points Coincident: fixes Tx,Ty,Tz. All R's remain free
 * ‘PointOnPoint’ constraint eliminates the 3 translations.
 * Plane Alignment: fixes Tz, Rx,Ry. In plane motion and Rz. This eliminates the translation along the normal to the reference plane and the two rotations around the axes of this plane.
 * Fixes 2 DOF, leaves 4 DOF:
 * Multi Parallel: fixes Rx,Ry. all T's and Rz remain. This eliminates the two rotations around the axes of the reference plane
 * Fixes 1 DOF, leaves 5 DOF:
 * Points in Plane: Fixes Tz. This eliminates the translation along the normal to the reference plane.
 * Points Distance: fixes the distance between the Element origins.
 * This gives you more freedom than Points in Plane
 * Points on Circle: fixes Tz and partially Tx,Ty. Freezes the point translation (or several points) on a circle or disk area. You must pick the circle second. This leaves all rotations free and gives limited translation in the circle reference plane.

'': Note: In the following list Tx,Ty,Tz and Rx,Ry,Rz are used to describe translations and rotations about the reference coordinate systems of the involved Element's. This is not always exact or fully defined, e.g. when a line is involved it is not defined if it runs in X, Y or any angle in betweeen. The system is used for bevity and easy comparison in favour of a correct but more complex definition. So Z is generally the normal direction of any faces involved. Please feel free to modify this with a better approach with improved readability.''

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Elements
Elements is a specific term used in the Assembly3 workbench and it is important to understand Elements for understanding how Assembly3 should be used.

It is helpul to think of an Element as a general word for a 'selectable item' of a part, i.e. a face, an edge, a circle or a corner or other point. The items you select to constrain them, are those Elements. In the tree an Assembly folder has three sub-folders. Beside 'Parts' and 'Constraints' there is a folder named 'Elements', which is emtpy as long as there are no constraints added. When adding a constraint the constraint itself gets two (or more) leafs, these are the selected 'Elements'. Also these get added in the 'Elements' folder which is just a list of all Elements used in the assembly. Its a good idea to change their names (with F2 key), especially in bigger assemblies.

Lets look at an example
 * Create a new file and add from the part workbench a cube and a cylinder. We will stack the cylinder onto the tube. First we fix the base part, in out case the cube. Select the bottom face of the cube and select the "Lock" constraints (first icon in the Constraints toolbar). Select the top face of the cylinder and the top face of the cube. Then select the "Plain Conincident" constraint. Now the cylinder is moved into the cube and in the tree a new leaf with two childe nodes was added under 'Constraints'. Additionally the same two child nodes were added under 'Elements'. If you cylinder is inside the cube instread of on top of the cube, lets correct that first: select the child node under 'Constraints' that shows the cylinder face and with a right click in the context menu select 'Flip Part'. Now the cylinder is stacked onto the box.

The key think to understand is that the constraint operates on links to Elements in the list in the 'Elements' tree folder. This allows to keep the constraint structure intact while changing the parts. This is very difficult to see without an example.

Lets get back to the example above
 * Note: make sure you added the "Lock" constraint to the cube or this will look confusing
 * In the CAD window select another face of the cube. Now we only work in the tree view. Go with your mouse in the tree where the cube should be selected. Drag&Drop the cube to the 'Elements' folder. Drop it on the 'Elements' name, not anywhere else in the folder - why we see later. You should see that another Element is added to the 'ELements' list. Now select in the 'Constraints' folder the child node of the cube face in out "Plance Conincident" constraint and delete it. The Constraint will show an exclamation mark since its missing one Element. Note that by deleting the Element in the Constraint we did not delete it in the list. That is because in the constraint was only a link to the Element in the list. Now take the newly added Element in the 'Elements' list and drag&drop it onto the "Plance Conincident" constraint. Now the cylider moves to the other face we selected. We might need to select 'context menu/flip part' again if the cylinder is again inside the cube.

The example showed that without removing the constraint we can change the Elements that are used for the constraint. The same way we can move the cylinder to a totally different part. After playing around with this example a bit more, you will note some additional things as
 * If you rename an Element in the list, the name will be changed in all Constraints
 * you can use one Element in the list in several constraints
 * You can use the Property Window of an Element to add Offsets. In the example this could move the cylinder around on the cube face.
 * you can use the "Show Element Coordinate System" button in the main toolbar to see what 'ContextMenu/Flip Part' and 'ContextMenu/Flip Element' are doing. Be sure to look what happens in the Property Window
 * you can add a constraint in a totally different order: First add some Elements to the 'Elements List' (naming is useful, e.g. "Cube Top Face" or "Cube Front Face"), then add a constraint without selecting anything - it will be an empty constraint. Then drag Elements from the 'Elements' list. The result is the same than what we did in the first example. After doing that exercise the nature of how constraints work with Elements should be clear.
 * you can change an existing constraint between existing elements by just select a different item in the PropertyWindow/ConstraintType property.

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Compatibilité
Assembly3 a été inspiré par Assembly2 mais il n'est pas compatible avec lui. Si vous avez des modèles plus anciens fabriqués dans Assembly2, vous devriez rester avec FreeCAD 0.16 et utiliser Assembly2.

Les nouveaux modèles développés avec Assembly3 ne doivent être ouverts et modifiés qu'avec cet atelier.

Bien qu'ils puissent avoir des outils similaires, Assembly3 n'est pas compatible avec A2plus ni Assembly4. Les modèles créés avec ces ateliers ne doivent être ouverts qu'avec leur atelier respectif.

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Test
Atelier Assembly3 est en cours de développement et n'est pas encore disponible (avril 2020) via le Gestionnaire d'Addon. Il est prévu que cela se produise à un moment donné.

Vous pouvez le tester de deux manières:
 * Un fork spécial de FreeCAD faite par realthunder; voir FreeCAD_assembly3 releases. Ce fork est basé sur un commit particulier de la branche master de FreeCAD, mais il a également des fonctionnalités supplémentaires qui ne sont actuellement pas présentes dans la branche master. Étant donné que ce fork est basé sur un instantané de développement particulier, il n'a pas les dernières fonctionnalités fusionnées quotidiennement à la branche principale.
 * Le développement AppImage est basé sur la branche principale actuelle et inclut les dépendances nécessaires pour travailler avec Assembly3, comme le solveur SolveSpace.

Étant donné que l'AppImage ne fonctionne que pour Linux, pour les utilisateurs de Windows pour le moment, la seule option pour tester Assembly3 est la première option (le fork de realthunder).

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Get Started
There are many ways to create an assembly with Assembly3. Here is the most simple one you can do.


 * Assembly3_Example-GettingStarted.jpg
 * Final Result of the Getting Started Example. In the image the Assembly3 Worksbench is selected, so its multiple toolbars are visible. Note that the vertical "TabBar" left of the tree view is an AddOn Workbench that is not contained in standard FreeCAD (/but can be installed with the Addon-Manager).

We omitted one important step that should be done in larger assemblies: locking a base part. That means define one part that should not be moved by constraints. In your case we use the cube for that: Done. If you like you can move the "Locked" constraint upwards in the tree. Use the "MoveItemUp" button on the Main Toolbar for that.
 * Create a new FreeCAD file
 * Select assembly WB. Select CreateAssembly (first icon)
 * Select Part WB and add a cylinder and a cube
 * Save the file with any filename you like. Close and open and the file.
 * The tree view should look like this
 * Now Draw&Drop with the mouse both Cylinder and Cube onto the Parts folder. They are moved into that folder.
 * That is the quickest way. Please note that a better way is to open the Context menu on both and select ContetxMenu/LinkActions/MakeLink. This adds two link files. Then Drag/Drop the link files to the Parts folder. For simple cases like this it does not really matter.
 * Click both top surfaces of Cylinder and Cube (keep Ctrl pressed)
 * Select assembly WB. Select "PlaceCoincident" from the Constraint Toolbar.
 * Now the parts should be joined into each other and your tree should look like this
 * Right click "_Element" (any of the two) and select "Flip Part".
 * Now the Cylinder should be on top of the box. If the whole thing is upside down, go back and select "Flip Part" on the other Element.
 * Right click "_Element" (any of the two) and select "Flip Part".
 * Now the Cylinder should be on top of the box. If the whole thing is upside down, go back and select "Flip Part" on the other Element.
 * Select the lower face of the cube. Only the lower face, not the whole cube.
 * select the "Lock" constraint from the constraint tool bar
 * The finished assembly tree should look like in the image above

Note: all new external files must be saved, closed and re-opend at least once, so that Assembly3 can find it. Without doing that FreeCAD can not give a file handle to the Assembly3 Workbench and it can not find the new part. When all parts are in the same file, you should save and re-open the file.

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Add an Offset
Assembly3 does not offer Offset with the constaints in the way the A2plus Workbench workbench or other CAD tools do. Instead it offers a more general and flexible system to add offsets translations but also angles.


 * Add the offet in the properties of one Elements of a Constraint.
 * you can chose which one of the two you want to use.

Example:
 * Add 2 cubes to an assembly and select their side faces.
 * select "PlaneCoincident". The cubes will be attached inside each other.
 * select one Element and ContextMenu/Flip Part. The cubes will be attached side-by-side
 * select one Element property Offset/Position/Zz and set to 5mm. The cubes will be 5mm apart.
 * Test with other axes or the angle/axis fields. Also verify that you get the same result when using the other Element.

This is the same approach for all other constraints.

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Solve a Solver Failure
This often happens when parts are over-constraints, i.e. more than 6 DOF are locked.

The easiest way to find the problem is to click relevant constraints in the tree and select ContextMenu/Disable and re-calculate. It is helpful to know the last added constraints before the solver failed and just undo them.

Note: as Assembly3 tries to compensate for over-constraint parts behind the scenes, sometimes the problem was just triggered by a new constraint but the root cause is somewhere different. Before deleting all and starting again, remember that you can re-use Elements. If you named them you can identify the required elements and re-build the constraints without using the 3D view at all. See Elements seciton above.

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Tips & Tricks

 * Using hierarchical assemblies helps in avoiding solver issues and keeping you model fluid. You can freeze a subassembly with one click and save CPU resources easily. Also note that Assembly3 does not need to keep external files for frozes subassemblies open. For large assemblies with large MB files this can be a severe advantage.
 * Using external files makes it easier to re-use a parts or do part versioning with systems like git or subversion. The workflow in FreeCAD with Assembly feels quite the same as with files that have all parts in the same file. For exchanging files often with other parties, single files might be more convenient.
 * Multiply linked parts. If you added a link into the assembly, it will have a property value named "Element Count", default 0. If you set this to 3 you get 3 instances of that part. They will be added into a subfolder and can be used like fully separte parts. Use this feature to keep the data footprint of your file low, because the part is saved only once. Each instance only contain the differences.
 * Insert multiple Screws with one click. Check out the Assembly3 Wiki on the Github site. This is not only a stunning function (even a bit magic), but really really useful.


 * Using the TabBar Workbench speeds up working with assembly. This adds a Toolbar with one button for each workbench. You can sort the toolbar and can put it where every you want it. Many people put it vertically on the left side just beside the tree view. Of you have Assembly3, Part, PartDesign and other often used workbenches close to the top switching between them becomes extremely easy.

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Liens

 * L'objet App Link qui fait fonctionner Assembly3.
 * FreeCAD_assembly3 dépôt et documentation.
 * Assembly3 preview, grand fil de discussion.
 * Tutoriel de test pour Assembly 3 WB par jpg87.
 * État actuel de l'assemblage
 * Ateliers externes
 * Liste des ateliers externes
 * Old Assembly project plan de développement, pour se familiariser avec l'historique du problème.