Patent ID: 8123015
Filing Date: 2012-02-28
Classification: B25J,Y10T

Abstract:
1. An overload safety apparatus for connection of a robot hand at a robot hand side to a robot arm at a robot arm side, comprising: a first magnetically attracting bearing face provided at the robot arm side at a portion for mounting of the robot hand; and a second magnetically attracting bearing face provided at the robot hand side; wherein the second magnetically attracting bearing face is attracted magnetically by the first magnetically attracting bearing face for mounting and supporting the robot hand relative to the robot arm; wherein a shaft projects from one of the first and second magnetically attracting bearing faces; wherein a vertically elongated hole or groove is formed to open through the other of the first and second magnetically attracting bearing faces; wherein the shaft is fitted in the vertically elongated hole or groove so that, absent one of a lateral overload force, a vertical overload force and a fore-and-aft overload force on the second magnetically attracting bearing face at the robot hand side, the second magnetically attracting bearing face is present at an operating position relative to the first magnetically attracting bearing face, and so that the second magnetically attracting bearing face is laterally rotatable relative to the first magnetically attracting bearing face about the shaft in order to allow for rotation of the robot hand relative to the robot arm upon exertion of the lateral overload force on the second magnetically attracting bearing face at the robot hand side, so that the second magnetically attracting bearing face is vertically movable in the vertical direction relative to the first magnetically attracting bearing face by vertical movement of the shaft in and along the vertically elongated hole or groove in order to allow for vertical movement of the robot hand relative to the robot arm upon exertion of the vertical overload force on the second magnetically attracting bearing face at the robot hand side, and so that the second magnetically attracting bearing face is inclinable in the fore-and-aft direction relative to the first magnetically attracting bearing face against the magnetically attracting force via the fitting between the shaft and the hole or groove upon exertion of the fore-and-aft overload force on the second magnetically attracting bearing face at the robot hand side; and wherein the configuration of the first magnetically attracting bearing face and the second magnetically attracting bearing face, as well as fitting of the shaft in the vertically elongated hole or groove, are such that, after any one of a lateral rotation, a vertical movement and a fore-and-aft movement of the second magnetically attracting bearing face relative to the first magnetically attracting bearing face upon exertion of a respective one of the lateral overload force, the vertical overload force, and the fore-and-aft overload force, the second magnetically attracting bearing face will return to the operating position relative to the first magnetically attracting bearing face.