proe mechanism les19
TRANSCRIPT
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Lesson Objective: In this lesson, we will learn how to create a damper in Mechanism.
A Damper is used to dampen the energy of a mechanism. For example, an air cylinder on door hinge is agreat example of a damper, as it forces the door to close at a controlled rate, rather than just slammingshut.
Lesson
http://sharptechdesign.com/Tutorials/Mechanism_WF2/MDX_WF2_Less
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In Mechanism, a damper is created similarly to the spring entity, and like springs, will not appear on yourBOM outside of Mechanism mode.
There are three methods you can use to define dampers. These are: Joint Axis The damper definition is associated with a created connection, such as a slider or
cylinder. Point-to-Point The damper is created between two specified points or vertices in the model. Slot The damper is created on a slot-follower connection. The body that contains the point is acted
upon by the damping force from the curve. The force remains tangent to the curve at all points, andopposite the direction the body with the point is moving.
When you define a damper, you use the following equation:
F = C * V Where F is the damping force, V is the velocity of the body in motion, and C is a damping coefficient. C cannot be a negative value, and generally comes from manufacturers specifications or from empirical data.
Open up the Spring_Example assembly that we worked on in the last lesson, and go to Mechanism mode.It looks like the following.
To create a damper, click on the following icon in the feature toolbar.
The familiar create entity window appears, and we will click on New . This will bring up the followingwindow.
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We will select the Point-to-Point option and then pick the same two datum points that the spring goesthrough (BASE_PNT and FOLLOW_PNT). For our C value, use 100 . Our window will look like thefollowing.
Click on OK to complete this damper definition, and you will see it on the model, as shown in the next figure.
It may be difficult to see the symbol embedded in the spring, so Ill show you what it looks like in the nextfigure.
Close out of the damper window. We will now run our analysis again to view the results. From an animation
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standpoint, we dont see anything different. The reason for this is because the servo motor spinning thecam is running at a constant velocity, and the amount of distance the piston is moving has not changed. Where we would see a difference is in any calculated forces for the assembly during the analysis. We willsee how to calculate forces in a later lesson. This exercise was mostly to demonstrate how to create thedamper.
Use dampers to simulate real dampening mechanisms in your assemblies. Create them on joint axes,between two points/vertices, or on slot followers.
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http://sharptechdesign.com/Tutorials/Mechanism_WF2/MDX_WF2_Less
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