Difference between revisions of "Dynamic Models"
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|<math>g(m_{2}l_{2}+a_{2}(m_{3}+m_{4}+m_{5}+m_{6}))</math> | |<math>g(m_{2}l_{2}+a_{2}(m_{3}+m_{4}+m_{5}+m_{6}))</math> | ||
− | | | + | |kg*m^2/s^2 |
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|<math>g(m_{3}l_{3,y}+l_{3}(m_{4}+m_{5}+m_{6}))</math> | |<math>g(m_{3}l_{3,y}+l_{3}(m_{4}+m_{5}+m_{6}))</math> | ||
− | | | + | |kg*m^2/s^2 |
|- | |- | ||
|3 | |3 | ||
|<math>g(m_{3}l_{3,y}+l_{3}(m_{4}+m_{5}+m_{6}))</math> | |<math>g(m_{3}l_{3,y}+l_{3}(m_{4}+m_{5}+m_{6}))</math> | ||
− | | | + | |kg*m^2/s^2 |
|- | |- | ||
|4 | |4 | ||
|<math>gl_{56}(m_{5}+m_{6})</math> | |<math>gl_{56}(m_{5}+m_{6})</math> | ||
− | | | + | |kg*m^2/s^2 |
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Revision as of 05:41, 11 October 2017
This page gives an overview over all implemented dynamic models.
General considerations
- Friction is handled on axis basis. The parameters for friction are set for each axis separately.
- Torque (Force) is always expressed in [Nm] ([N])
Contents
Rotational Axes
Dynamic Model 1 - simple rotary axis
Number | Parameter | Comments |
---|---|---|
1 | Total moment of inertia around the rotation axis of the moved part |
- Model equation
Dynamic Model 2 - horizontal crank-arm axis
Number | Parameter | Comments |
---|---|---|
1 | Total moment of inertia around the rotation axis of the moved part | |
2 | Square of length of crank arm (axis to payload) |
- Model equation
Dynamic Model 3 - vertical crank-arm axis
Number | Parameter | Comments |
---|---|---|
1 | Total moment of inertia around the rotation axis of the moved part | |
2 | Square of length of crank arm (axis to payload) | |
3 | Mass (without payload) * Gravity * Distance to center of mass | |
4 | Gravity * Distance to Payload |
- Model equation
Linear Axes
Dynamic Model 1 - horizontal axis
Number | Parameter | Comments |
---|---|---|
1 | Total mass of the moved part. |
- Model equation
Dynamic Model 2 - vertical or tilted axis
Number | Parameter | Comments |
---|---|---|
1 | Total mass of the moved part. | |
2 | Constant force due to gravity. | |
3 | Gravity coefficient used to consider payload mass. (g = 9.80665) |
- Model equation
Traverse Arm Robots
Dynamic Model 1
Number | Parameter | Comments |
---|---|---|
1 | ||
2 | ||
3 | ||
4 | ||
5 | ||
6 | ||
7 |
Scara Robots
Dynamic Model 1
Number | Parameter | Comments |
---|---|---|
1 | ||
2 | ||
3 | ||
4 | ||
5 | ||
6 | ||
7 | ||
8 |
Delta Robots
Dynamic Model 1
Number | Parameter | Comments |
---|---|---|
1 | kg*m2 | |
2 | kg*m2/sec2 | |
3 | kg | |
4 | kg*m2 | |
5 | kg | |
6 | kg | |
7 | kg*m2 | |
8 | kg*m2 | |
9 | m | |
10 | m | |
11 | ||
12 | ||
13 | ||
14 |
Puma Robots
Dynamic Model 2
Description:
- - The gravity constant
- - The mass of the ith link
- - The length of the ith link
- - The distance from the ith joint to the center of mass of the ith link
Number | Parameter | Comments |
---|---|---|
1 | kg*m^2/s^2 | |
2 | kg*m^2/s^2 | |
3 | kg*m^2/s^2 | |
4 | kg*m^2/s^2 |
Galileo Spherical Robots (GSR)
Dynamic Model 1
Number | Parameter | Comments |
---|---|---|
1 | mP | Payload mass [kg] |
2 | mB | Balance mass [kg] |
3 | TP | Payload mass center distance from the flange [mm] |
4 | TB | Balance mass center distance from the (0,0) [mm] |
5 | IR | Inertia of the payload around roll [kg*m2 |