ID : 4750

Engineering-design Notes for Robot Hands (HS/HSS)

Design a hand (end-effector) so that it will satisfy conditions (1) and (2) described below.

Strictly observe these engineering-design notes. Otherwise, the clamped sections of the robot unit will become loose, rattle or be out of position. In the worst case, the mechanical parts of the robot unit and the robot controller may be damaged.

Mass of Hand

The total mass of a hand or tool (including work-piece) should be less than the maximum allowable payload of the robot.

Be sure to include the mass of wirings and piping used for a hand or tool.

Total mass of hand or tool ≤ Max. allowable payload (incl.work-piece). (Mass of payload that you have preset)

Hand Center of Gravity

For HS series, the center of gravity of a hand or tool (including work-piece) should be located within the range specified in Figure below.

Unit: mm

Moment of Inertia Around the T Axis

The moment of inertia of a hand or tool (including work-piece) around the T axis should be less than the maximum allowable moment of inertia around the T axis of the robot.

Hand's or Tool's moment of inertia around the T axis ≤ Max. allowable moment of inertia (incl.work-piece). (refer to the graph below).

Calculate the moment of inertia around the T axis according to the graph given below.

You may program the reduced ratio of the speed and acceleration individually within the range specified below. If you set the reduced ratio of the programmed speed only, the controller automatically calculates that of the acceleration according to the formula below.

Acceleration (%) = (Speed/100)²x100

To run the robot at 100% of the programmed speed and acceleration: The moment of inertia around the T axis should be 0.03 kgm² or less.
If the moment of inertia around the T axis is 0.04 kgm²: Run the robot at 90% or less of the programmed speed and at 81% or less of the programmed acceleration.

ID : 4750

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Related Information: Moment-of-inertia Formulas