Technologies The NASA Space Telerobotics Program

Grasping- Force Sensor for Robot Hand

A grasping-force sensor has been designed for use on a robot hand that includes intermeshing claws that are required to remain in alignment. Like other robotic grasping-force sensors, it relies on strain-gauge measurements of the deflection of part of the grasping mechanism. However, the design of the grasping-force sensor is integrated with that of the grasping mechanism in such a way that the deflection caused by the grasping force does not disturb the angular alignment of the claws.

The figure shows the claw assembly mounted within a supporting channel. A motor-and-gear assembly mounted on a resilient base (not shown) moves the claws toward or away from each other along two columns. The claws are mounted on elastic base frames (the deflecting elements), which, in turn, are mounted on sliding frames that move along the columns. Unlike in prior designs, the claws can be installed, removed, or interchanged with other end effectors without having to disassemble the actuating mechanism. The hollow rectangular cross sections of the base frames make the frames act similarly to parallelogram linkages when they are subjected to the grasping force directed along their vertical (as shown in the figure) sides. The horizontal (as shown in the figure) sides bend in the manner of cantilever beams, while the vertical sides remain parallel. The claws and the sliding frame, which are attached to the vertical sides, therefore remain aligned. The distortion of the base frame causes a very small horizontal translation of the claws toward the sliding frame, but both claws translate by the same amount and thereby remain horizontally, translationally, as well as angularly aligned. Even if one claw encounters an obstacle that the other does not encounter, there is only a small horizontal misalignment, but the claws remain angularly aligned. Two strain gauges are mounted on the outer surface of each base frame, and two matching gauges are mounted on the sliding frame structure on which each base frame is mounted. These gauges are connected in a full-bridge configuration that measures the deflection along the axis of motion of the claws toward or away from each other (the vertical axis in the figure). The outputs of the strain-gauge bridge circuits are transmined to the robot control computer, which converts them into indications of the grasping force. With the help of this sensing system, the operator can feel the initial contact between the claws and an object and modify the motions of the robot arm, hand, and claws accordingly.

Point of Contact:
Antal Bejczy
Mail Stop 198-219
Jet Propulsion Laboratory
4800 Oak Grove Drive
Pasadena, CA 91109
818-354-4568
bejczy@telerobotics.jpl.nasa.gov



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Last updated: May 10, 1996