Slewing type working machine

摘要

A slewing-type working machine includes: a hydraulic motor for slewing an upper slewing body; a hydraulic pump; a slewing operation device including an operation member; a control valve controlling the hydraulic motor based on an operation signal of the slewing operation device; first and second pipe-lines connecting first and second ports of the hydraulic motor to the control valve; communication switching devices switching communication and cutoff between both pipe-lines and a tank; an electric motor; an electric storage device; and a controller, which communicates an outlet-side pipe-line to the tank during slewing, makes a brake based on a regenerative action by the electric motor and the electric storage device and causes the electric storage device to store regenerative power, upon deceleration operation. Upon failure occurrence, the controller brings the communication switching devices to a communication-cutoff state and stops the regenerative action to secure slewing.

主权项

1. A slewing-type working machine comprising:
a base carrier; an upper slewing body mounted on the base carrier so as to be capable of being slewed; a hydraulic motor including first and second ports to receive supply of hydraulic fluid through one of the ports and discharging the hydraulic fluid through the other one of the first and second ports, thereby being operated so as to drive the upper slewing body to slew the upper slewing body; a hydraulic pump which discharges the hydraulic fluid to be supplied to the hydraulic motor; an electric motor rotationally driven by the hydraulic motor to perform a regenerative action; an electric storage device which stores regenerative power of the electric motor; a slewing operation device which includes an operation member to which an operation is applied to input a command for driving to slew and outputs an operation signal corresponding to the operation applied to the operation member; a control valve which is operated so as to control supply of hydraulic fluid to the hydraulic motor and discharge of hydraulic fluid from the hydraulic motor, based on the operation signal of the slewing operation device; a first pipe-line connecting the first port of the hydraulic motor to the control valve; a second pipe-line connecting the second port of the hydraulic motor to the control valve; a brake valve connected to the first and second pipe-lines to perform a hydraulic braking action against the hydraulic motor when the operation in a direction for deceleration is applied to the operation member; a communication switching device capable of being switched between a communication state of bringing a pipe-line on an outlet side of the hydraulic motor of both of the pipe-lines into communication with a tank or a pipe-line on an inlet side of the hydraulic motor of both of the pipe-lines and a communication-cutoff state of cutting off the communication; an operation detector which detects the operation applied to the operation member of the slewing operation device; and a controller which controls switching of the communication switching device based on a detection signal from the operation detector, wherein: the controller is adapted to judge whether or not there has been occurrence of an abnormal situation where a regenerative action by the electric motor and the electric storage device are impossible or inappropriate, based on signals from an electric system including the electric motor, the electric storage device, and respective control systems of the electric motor and the electric storage device; at least in the case where the deceleration operation is being performed, when the controller judges that the abnormal situation has not occurred, the controller switches the communication switching device to the communication state and outputs a drive command for causing the electric motor to perform a regenerative action; and, in the case of judging that the electric system is in the abnormal situation, the controller switches the communication switching device to the communication-cutoff state and outputs a non-drive command for prohibiting the electric motor from performing a regenerative action.