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Bevel Gear Exercise. This is an introductory exercise to get the user familiar with the joint coupler option. Bevel Gear Exercise. Define Moving and Ground Parts. (There are no ground parts in this model). Bevel_Gears.sldasm. Select Ground as 2nd Part. Select Gear as 1st Part. 2. 1.
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Bevel Gear Exercise • This is an introductory exercise to get the user familiar with the joint coupler option
Bevel Gear Exercise • Define Moving and Ground Parts (There are no ground parts in this model) Bevel_Gears.sldasm
Select Ground as 2nd Part Select Gear as 1st Part 2 1 Bevel Gear Exercise • Add Revolute Joint Select Edge for Location 3
Bevel Gear Exercise • Add Revolute Joint Select Ground as 2nd Part Select Gear as 1st Part 1 2 Select Edge for Location 3
Select Gear as 1st Part 1 Select Edge for Location 3 Bevel Gear Exercise • Add Revolute Joint Select Ground as 2nd Part 2
Bevel Gear Exercise • Add Joint Motion on 20Bevel5
Bevel Gear Exercise • Add Joint Coupler • Define Joint Coupler between 20Bevel5 and 40 Bevel1 (Joint 1 and Joint 3) • Define Joint Coupler between 40 Bevel1 and 20Bevel4 (Joint 3 and Joint 2)
Bevel Gear Exercise • Run Simulation • Press calculator button to run simulation • Set frames to 250
Couplers Allows the proportional movement of one joint with respect to another. Can link: Rotational - Rotational Rotational - Translational Translational - Translational Available for combinations of Revolute, Cylindrical, and Translational joints One joint can be linked to multiple joints provided they do not conflict with motion generators or other couplers Couplers are primarily used for representing gears without taking into account losses