How to choose a suitable shock absorber
Model selection
Rotating motion・Vertically rotating fall, descend・Directly inputting driving torque
Calculating Moment of inertia
Choose the shape
- Round table (Rotating central point is in the center)
- Beam, Door (Rotating central point is in the edge)
- Beam, Door (Rotating central point is in the center)
- Corner table (Rotating central point is in the center)
- Tip load arm
- Concentrated load
Round table (Rotating central point is in the center)
Diameter | d | : | m | |
Mass | M | : | kg |
Beam, Door (Rotating central point is in the edge)
Length | L | : | m | |
Mass | M | : | kg |
Beam, Door (Rotating central point is in the center)
Length | L | : | m | |
Mass | M | : | kg |
Corner table (Rotating central point is in the center)
Length of side-a | a | : | m | |
Length of side-b | b | : | m | |
Mass | M | : | kg |
Tip load arm
Length of side-a | a | : | m | |
Length of side-b | b | : | m | |
Length of arm | L | : | m | |
Length till tip center | R | : | m | |
Mass of tip | M1 | : | kg | |
Mass of arm | M2 | : | kg |
Concentrated load
Length | L | : | m | |
Mass | M | : | kg |
Calculation result has been reflected.