![]() ![]() Go in the property editor to change its properties. Enter the values for the second point (140, 90, 0), and press Enter.Ī rectangle is created. You may press R in the keyboard to quickly toggle this option on and off. Make sure the Relative option is unchecked, as we will use absolute units. ![]() ![]() Enter the values of the first point (-100, -60, 0), and press Enter. (Switch back to the Draft Workbench.)ħ.1. With these objects selected, click on Part Compound. If you wish to maintain the parametric nature of the objects you can create a compound instead.Ħb.1. This will upgrade the four objects into a single Wire.Ħb. With these objects selected, click on Upgrade. Select all four objects in the tree view, or by holding Ctrl and picking them in the 3D view. Note that fusing the objects into a single object will create an object that is no longer parametric, so their properties cannot be modified further.Ħa.1. It is possible to continue working with the elements in this way, but it is also possible to fuse them into a single object.Ħa. However, this profile is still composed of disconnected objects each of them can be edited and moved independently of the others. We now have several objects in the tree view that form a closed profile. Repeat the process for the other side of the arc to close the profile.Ĭlosed profile created by two arcs and two lines. Move the pointer to the closest endpoint of the other arc to tie the two arcs together. Also, the target point is emphasized with a large white dot. As you move the pointer onto the arc and close to one of its endpoints, the Endpoint icon should appear. In the Snap toolbar make sure Toggle snap is active, and only Endpoint as well. We will now create a closed profile by tying the arcs with lines.ĥ.1. Repeat the same procedure for a second arc with a radius of 25 mm, the other properties are the same.ĥ. Set the Aperture angle to 60.0°, and press Enter. Set the Start angle to 60.0°, and press Enter. Set the Radius to 30 mm, and press Enter. Set the Center to (0, 0, 0), and press Enter. Press SelectPlane, or go to the menu Utilities → Select plane, to open the working plane task panel.īefore pressing the button, you can also change the value of the offset in millimeters, as well as the grid spacing, the main lines and snapping radius.Ĥ.1. A working plane can be one of the main XY, XZ, and YZ global coordinate planes, or it can be a plane that is parallel to them with a positive or negative offset, or it can be a plane defined by the face of a solid object.ģ. Most Draft objects are planar shapes so they are naturally based on a working plane. You can also change the visibility and properties of the Draft grid in this same window. Verify that the Show Draft Snap toolbar is active. To make sure it is always there, go to the Draft Preferences, Edit → Preferences → Draft → Grid and snapping tab. The Draft Snap toolbar is normally activated when you switch to the Draft Workbench.Ģ.1. ![]() Use SelectPlane to set both the working plane and the grid, and then show and hide the grid with Toggle grid. Although it is not used in this tutorial, the Draft grid is helpful to position geometrical elements. Since the Draft objects are planar shapes, they are better viewed from the top. When changing properties, you may have to do a Std Refresh action to see the result in the 3D view. Make sure you understand how to use the property editor, particularly the Data and View tabs to change the properties. Switch to the Draft Workbench from the workbench selector, or the menu View → Workbench → Draft. Open FreeCAD, create a new empty document with File → New.ġ.1. The default unit is millimeters mm.įinal drawing including various Draft objects. This tutorial uses the notation (x, y, z) to denote the coordinates required to define points in an object. the creation of dimensions, text, and shapestrings.This tutorial is meant to introduce the reader to the basic workflow of the Draft Workbench. If a tutorial is listed in the Category:Tutorials and not in this table please insert it.Īdding a new mouse navigation option to FreeCAD (unfinished)īasic Part Design for v0.This tutorial was originally written by Drei, and it was rewritten and illustrated by vocx. Here are listed all the tutorials that are not in the manual regardless of their quality. They are geared towards more experienced users, who are already somewhat familiar with the program. These are tutorials that are related to scripting or programming. Simulate the movement of an industrial robot: set up a trajectory, set up home position, change the robot position, insert various waypoints, and simulate the robot movement. ![]()
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