Patent ID: 9650232
Date: 2017-05-16
CPC Classifications: B66D,F15B

Claim:
1. A hydraulic drive apparatus for working machine for hydraulically moving a load in a lowering direction, which is the same direction as a self-weight falling direction by the own weight of the load, comprising: a hydraulic pump; a drive source for driving the hydraulic pump and making the hydraulic pump discharge hydraulic fluid; a hydraulic actuator which includes a first port and a second port and is operated to move the load in the lowering direction by receiving supply of the hydraulic fluid discharged from the hydraulic pump through the first port and discharges the hydraulic fluid through the second port; a hydraulic circuit which includes a meter-in flow passage for leading the hydraulic fluid from the hydraulic pump to the first port of the hydraulic actuator in moving the load in the lowering direction, a meter-out flow passage for leading the hydraulic fluid discharged from the second port of the hydraulic actuator to a tank in moving the load in the lowering direction and a regeneration flow passage for bringing the meter-out flow passage into communication with the meter-in flow passage; a control valve which is operated to change a state of the supply of the hydraulic fluid from the hydraulic pump to the hydraulic actuator; an operating device for operating the control valve; a meter-in-flow-rate controller for controlling a meter-in flow rate, which is a flow rate of the hydraulic fluid in the meter-in flow passage; a meter-out-flow-rate controller for controlling a meter-out flow rate, which is a flow rate of the hydraulic fluid in the meter-out flow passage upstream of a position where the regeneration flow passage is connected to the meter-out flow passage, so as to make the meter-out flow rate be not lower than the meter-in flow rate controlled by the meter-in-flow-rate controller; a back pressure generator provided at a position downstream of the position where the regeneration flow passage is connected to the meter-out flow passage in the meter-out flow passage to generate a set back pressure; a check valve provided in the regeneration flow passage to limit a direction of the flow of the hydraulic fluid in the regeneration flow passage to a direction from the meter-out flow passage to the meter-in flow passage; and a meter-out-flow-rate limiter for forcibly limiting the meter-out flow rate when a pressure of the hydraulic fluid in the meter-in flow passage falls to or below a preset permissible pressure; wherein: the meter-out-flow-rate controller includes a meter-out orifice valve provided in the meter-out flow passage and having a pilot port and variable flow passage area and a meter-out-flow-rate regulating valve for varying the meter-out flow rate so as to make a differential pressure across the meter-out orifice be a set pressure; the meter-out-flow-rate limiter minimizes the flow passage area of the meter-out orifice when the pressure of the hydraulic fluid in the meter-in flow passage falls to or below the permissible pressure, the control valve is configured by a pilot selector valve which is operated by the supply of a pilot pressure; the operating device includes a remote-control valve for outputting the pilot pressure to be supplied to the control valve and a meter-out pilot line for introducing a lowering-drive pilot pressure for operating the control valve to drive the actuator in a lowering direction out of the pilot pressure output by the remote-control valve to the pilot port of the meter-out orifice valve; the meter-out orifice valve has an opening characteristic in which the opening area of the orifice is increased with an increase in the lowering-drive pilot pressure introduced to the pilot port of the meter-out orifice valve through the meter-out pilot line, and the meter-out-flow-rate limiter is provided midway of the meter-out pilot line and includes: a pilot-line cutoff valve having an open position for opening the meter-out pilot line to allow the lowering-drive pilot pressure to be introduced to the pilot port of the meter-out orifice valve through the meter-out pilot line and a close position for blocking the meter-out pilot line to prevent the lowering-drive pilot pressure from being introduced to the pilot port of the meter-out orifice; and a cutoff operator for switching the pilot-line cutoff valve to the close position to forcibly minimize the flow passage area of the meter-out orifice valve only when the pressure in the meter-in flow passage falls to or below the permissible pressure.