Patent ID: 9132557
Filing Date: 2015-09-15
Classification: B25J,B66C,F15B,Y10T

Abstract:
1. A load compensation device characterized in that it comprises: a supporting body; a working arm whereof one end is pivotably supported on the supporting body by a first pivot-mounting part; an actuator cylinder which is pivotably supported by a second pivot-mounting part at a fixed position on the supporting body vertically above the first pivot-mounting part; a piston rod which has a piston inserted into the actuator cylinder and is pivotably linked by a third pivot-mounting part at a position part way along the working arm in the lengthwise direction thereof; a compensation cylinder which is provided separately from the working arm and is linked to the actuator cylinder by a conduit, and has a piston inserted therein which cooperates with the piston of the actuator cylinder, by way of a working fluid running through the conduit; and a spring member for generating compensation torque to balance the load torque applied to the working arm, by way of the piston rod of the actuator cylinder which cooperates therewith, by urging the piston inside a cylinder chamber of the compensation cylinder either directly or by way of a piston rod of said piston; and if a distance between a center position of the first pivot-mounting part and a center position of the second pivot-mounting part is h, a distance between the center position of the first pivot-mounting part and a center position of the third pivot-mounting part is p, a load equivalent to the combined total weight of an object held by the working arm and the working arm itself is W, a distance between a point of application of the load W on the working arm and the center position of the first pivot-mounting part is L, a pressure-receiving surface area of the piston inside the actuator cylinder is S 1 , and a pressure-receiving surface area of the piston inside the compensation cylinder is S 2 , then a spring constant of the spring member is (S 2 /S 1 ) 2 (WL/ph), and a distance between the center position of the second pivot-mounting part and the center position of the third pivot-mounting part is L s , then the spring member elastically deforms from its natural length by (S 1 /S 2 )L s .