Patent ID: 7814823
Filing Date: 2010-10-19
Classification: F04B

Abstract:
1. A swash plate type variable displacement hydraulic rotary machine, including a tubular casing, a rotational shaft rotatably supported within said casing, a cylinder block mounted on said rotational shaft within said casing and bored with a plural number of axially extending cylinders at radially spaced positions, a plural number of pistons reciprocally fitted in said cylinders of said cylinder block and each having a shoe at a projected end, a swash plate tiltably provided in said casing and provided with a sliding surface for sliding engagement with said shoe, a tilting actuator provided with a servo piston in said casing to drive said swash plate into a tilted position according to a supplied tilting control pressure, a regulator in the form of a servo valve provided in said casing and having a spool within a control sleeve to variably control a tilting control pressure to said tilting actuator, and a feedback link provided between said control sleeve of said regulator and said servo piston of said tilting actuator to transmit a displacement of said servo piston to said control sleeve, characterized in that: said feedback link is constituted by a link lever having one longitudinal end thereof connected to said control sleeve of said regulator, and an expansion spring being fixed to the other end of said link lever at a base end and having two fore distal ends spread apart from each other by spring action; an indented groove is provided on the outer peripheral side of said servo piston having side walls in abutting engagement with each of said fore distal ends of said expansion spring; each of said fore distal ends of said expansion spring are resiliently abutted against one of the respective side walls of said side walls of said indented groove of said servo piston in a resiliently deformed state to transmit a displacement of said servo piston from said expansion spring to said link lever; as said servo piston is displaced in a first direction, said expansion spring transmits displacement in said first direction to said link lever in such a manner that one fore distal end is pushed in said first direction by one side wall of said side walls of said indented groove and said other fore distal end abuts against said other side wall; and as said servo piston is displaced in a second direction, said expansion spring transmits displacement in said second direction to said link lever in such a manner that said other fore distal end is pushed in said second direction by said other side wall of said indented groove and said one fore distal end abuts against said one side wall.