Basic modeling tutorial/fr

Ce tutoriel d'introduction à la modélisation vous montrera comment modéliser un fer angle. Une chose à savoir, FreeCAD est modulaire, et comme pour plusieurs autres logiciels de CAO, il y a souvent plus d'une façon de faire les choses. Ici, nous explorerons deux méthodes.

Avant de commencer
Gardez en tête que FreeCAD est toujours à un stade précoce de développement, il est donc possible que vous ne soyez pas aussi productif qu'avec une autre application de CAO, et il est fort probable que vous rencontriez des bogues, ou subissiez des plantages. FreeCAD offre maintenant la possiblité de créer des fichiers de sauvegarde. Le nombre de ces fichiers peut être réglé dans le menu Édition > Préférences, onglet Document. N'hésitez pas à allouer deux ou trois fichiers de sauvegarde jusqu'à ce que vous soyez à l'aise avec FreeCAD.

Sauvegardez régulièrement votre travail, et de temps en temps, sauvegardez-le sous un nom différent afin d'avoir une copie sûre sur laquelle vous rabattre ; enfin, attendez-vous à la possibilité que certaines commandes ne vous donnent pas les résultats escomptés.

Introduction aux techniques de modélisation
La première technique (et celle de base) de la modélisation solide est la géométrie de construction de solides (GCS). Vous construisez votre géométrie à l'aide de formes primitives telles que des cubes, cylindres, sphères et cônes en les combinant, en soustrayant une forme d'une autre, ou en les intersectant. Ces outils font partie de l'atelier Pièce. Vous pouvez également appliquer des transformations aux formes, par exemple des congés (arrondis) ou chanfreins à des arêtes. Ces outils sont également dans l'atelier Pièce.

Puis il y a des outils plus avancés. Vous commencez par dessiner une esquisse en 2D qu'ensuite vous extruderez ou ferez révolutionner.

So let's start by trying to do some iron feet for a table with these 2 methods.

1st Method - By Constructive Solid Geometry

 * Start with the Part Workbench (View > Workbench > Part menu)
 * Click on the [[Image:Part_Box.png|32px]] Box button to create a box
 * Change its dimensions by selecting it either in the 3D space, or by clicking it in the Project tab to the left, then
 * Click on the Data tab at the bottom, and change values for Height, Length and Width to 750mm, 50 and 50 (see Fig. 1.1)
 * Create a second box the same way, but with values 750, 40 and 40mm. By default this box will be superimposed on the first one. (see Fig. 1.2)
 * You'll now subtract the second box from the first. Select the first shape first (named Box), then the second one (named Box001), the selection order is important! (Make sure that both shapes are selected in the Project tree. One thing to remember: in Inventor navigation mode, Ctrl + click does not work for multiple selection. Switch to either CAD or Blender selection.)
 * On the Part Workbench toolbar, click on the [[Image:Part_Cut.png|32px]] Cut tool.







You now have your first iron angle (Fig. 1.3). You'll notice that, in the Project tab on the left, both boxes have been replaced by a "Cut" object. Actually, they're not disappeared, but rather grouped under the Cut object. Click on the + in front of it, and you'll see that both boxes are still there, but greyed out (Fig. 1.4). If you click on either of them and hit the space bar, it will show up. The space bar toggles visibility of selected objects. (Fig. 1.5)

Don't want the angle oriented that way? You just need to change the placement of the Box001 shape. Select it, unhide it, and in the Data tab, click on the + in front of Placement, then expand the Position parameter, and change its X and Y coordinates. Hit Enter, hide the Box001 shape again, and your angle orientation is now different. (Fig. 1.5) You can even change either of your shapes dimensions, and the Cut object will be updated.





By the way, we can add rounds to the angle so it is more realistic, using the Fillet tool. (Fig. 1.6)



2nd Method - By extruding a profile
This method requires that you start by drawing a 2D profile. You need to activate the 2d Drafting workbench (View > Workbench > 2d Draft menu).

Next we need to set the working plane. Depending on your FreeCAD version, you'll have right under the toolbar, on the right, a "None" button. Click it, and on the left will appear right after "active command": Select Plane Offset, then a text field and a series of buttons. Assuming you want to start your profile on the plan view, select XY. The "None" button will now show "Top" as active plane. See note. Select the Wire (multiple-point line) tool, then start drawing a shape, using the text fields for X and Y positions. The "Relative" box should be checked, as well as the "Filled" box.


 * 1st point: 0,0
 * 2nd point: 50,0
 * 3rd point: 0,10
 * 4th point: -40,0
 * 5th point: 0,40
 * 6th point: -10,0
 * No 7th point, rather click on the "Close" button to close the profile. You should now have this profile, titled "Wire" in the Project tab:



Hit the zero key on the numpad to set the view to axonometric.

Activate the Part Workbench.

Click on the Extrude tool.

On the Tasks tab on the left, select the Wire object. Then enter the desired length, say 750mm. Leave the direction at Z. Click Apply. You should now have an Extrude object in the Project tab (fig. 1.8)



This method has a minor caveat compared to the other one: to edit the shape, you need to edit the Wire, it's not as easy to do as the previous method.

And there are a few other ways to do it too! I hope these two examples get you started. You'll sure hit some snags along the way (I did when I first learned FreeCAD, and I do have 3D CAD experience), but don't hesitate to ask questions on the FreeCAD forum!

Note on Draft working plane button: The label on your button may be different, depending on your version and also on what you were doing beforehand. The button label could read: "top", "front", "side", "None" or a Vector representation such as d(0.0,0.0,1.0). It can also be blank. For example:







The above instructions will work, no matter what label your button has.