Patent ID: 8602046
Filing Date: 2013-12-10
Classification: F15B,Y10T

Abstract:
1. A method of cleaning a piston based hydraulic accumulator, the accumulator comprising: a piston movable in a cylinder space, the piston having a hydraulic fluid side facing a hydraulic fluid volume of the cylinder space and a gas side facing a gas volume of the cylinder space; a bottom wall facing the hydraulic fluid side of the piston; a top wall facing the gas side face of the piston; an internal cylinder wall between the bottom wall and the top wall and defining therewith the cylinder space; at least one hydraulic fluid flushing duct extending through the bottom wall, the at least one hydraulic fluid flushing duct having in series an axially extending bore with a clean fluid input and a sloping bore with a clean fluid output opening into the hydraulic fluid volume of the cylinder space; a clean hydraulic fluid supply input valve being in communication with the clean fluid input of the at least one hydraulic fluid flushing duct; a main duct extending axially through the bottom wall and at an outside thereof being in communication with a hydraulic fluid return passage, wherein the method comprises the steps of: (a) creating a flushing hydraulic fluid vortex within the hydraulic fluid volume present between the hydraulic fluid side and the bottom wall by forcing a clean hydraulic fluid through the axial bore and thereafter through the sloping bore such that the clean hydraulic fluid enters the hydraulic fluid volume and meets the internal cylinder wall and the hydraulic fluid side of the piston in an upward, tangential-like direction, causing a flushing hydraulic fluid comprising the clean hydraulic fluid and a polluted hydraulic fluid to rotate in the flushing hydraulic fluid vortex, while allowing the flushing hydraulic fluid to return through the main duct and the hydraulic fluid return passage, thereby flushing away particles from a bottom region of the accumulator, and at least partially reducing a pressure in the gas volume in relation to a pressure in the hydraulic fluid volume, although maintaining a gas in the gas volume in a compressed state; (b) upon obtaining a required cleanness of returned flushing hydraulic fluid, causing closure of the hydraulic fluid return passage to increase pressure within the hydraulic fluid volume until a threshold volume is reached and thereby increase the hydraulic fluid volume so as to move the piston towards an upper position thereof while compressing the gas within the gas volume, thereby cleaning the internal cylinder wall which extends between the piston hydraulic fluid side and the bottom wall; (c) opening the hydraulic fluid return passage to allow the piston to return to a lower end position in the hydraulic fluid volume caused by pressure of the gas in the gas volume, while supplying the clean hydraulic fluid to the fluid volume and draining the flushing hydraulic fluid via the main duct and the hydraulic fluid return passage until the returned flushing hydraulic fluid has reached a required cleanness; and (d) repeating steps (a) through (c) until the returned flushing hydraulic fluid from the hydraulic fluid volume exhibits a predetermined final state of cleanness.