A hydraulic circuit for a construction machine is disclosed, which can prevent a loss of pressure during a combined work. The hydraulic circuit includes a variable displacement hydraulic pump, at least two hydraulic actuators driven by hydraulic fluid that is supplied from the hydraulic pump, contro
A hydraulic circuit for a construction machine is disclosed, which can prevent a loss of pressure during a combined work. The hydraulic circuit includes a variable displacement hydraulic pump, at least two hydraulic actuators driven by hydraulic fluid that is supplied from the hydraulic pump, control valves installed in a center bypass path of the hydraulic pump and shifted to control a start, a stop, and a direction change of the hydraulic actuators, parallel flow paths having inlets branched and connected to predetermined positions on an uppermost stream side of the center bypass path and outlets connected to inlet ports of the control valves, bleed-off paths formed on the control valves other than the lowermost downstream side control valve among the control valves to selectively communicate with the center bypass path, the bleed-off paths communicating with the center bypass path when the plurality of control valves are shifted for a combined work, and a switching valve installed on a lowermost downstream side of the center bypass path to intercept the center bypass path when pilot signal pressure is applied.
대표청구항▼
1. A hydraulic circuit for a construction machine comprising: a variable displacement hydraulic pump;at least two hydraulic actuators driven by hydraulic fluid that is supplied from the hydraulic pump;control valves installed in a center bypass path of the hydraulic pump and shifted to control a sta
1. A hydraulic circuit for a construction machine comprising: a variable displacement hydraulic pump;at least two hydraulic actuators driven by hydraulic fluid that is supplied from the hydraulic pump;control valves installed in a center bypass path of the hydraulic pump and shifted to control a start, stop, and direction change of the hydraulic actuators;a parallel flow path having inlets branched and connected to predetermined positions on an uppermost stream side of the center bypass path and outlets connected to inlet ports of the control valves;bleed-off paths formed on the control valves excluding the lowermost downstream side control valve among the control valves to selectively communicate with the center bypass path, the bleed-off paths communicating with the center bypass path when the control valves are shifted for a combined work;a switching valve installed on a lowermost downstream side of the center bypass path to intercept the center bypass path when a pilot signal pressure is applied; andfor applying the pilot signal pressure to shift the switching valve, a shuttle valve selecting the relatively higher pilot signal pressure of the pilot signal pressures applied to the upstream and downstream side control valves on which the bleed-off paths are formed and applying the selected pilot signal pressure to the switching valve. 2. The hydraulic circuit according to claim 1, further comprising, for applying the pilot signal pressure to shift the switching valve: pressure sensors measuring the pilot signal pressures applied to the upstream and downstream side control valves on which the bleed-off paths are formed;a controller calculating the pilot signal pressures measured by the pressure sensors and outputting an electric signal corresponding to the calculated values; andan electro proportional control valve generating a secondary pressure corresponding to the electric signal that is applied from the controller and applying the secondary pressure to the switching valve. 3. The hydraulic circuit according to claim 2, wherein the controller compares levels of the pilot signal pressures applied to the upstream and downstream side control valves on which the bleed-off paths are formed with each other, and if the pilot signal pressure that is applied to the upstream side control valve is relatively higher than the pilot signal pressure that is applied to the downstream side control valve, outputs the electric signal corresponding to the control characteristic of the upstream side control valve to the electro proportional control valve, and if the pilot signal pressure that is applied to the upstream side control valve is relatively lower than the pilot signal pressure that is applied to the downstream side control valve, the controller outputs the electric signal corresponding to the control characteristic of the downstream side control valve to the electro proportional control valve. 4. The hydraulic circuit according to claim 1, further comprising: a first orifice installed in a predetermined position of a first path having an inlet branched and connected to a predetermined position of the parallel flow path and an outlet connected to an inlet port of the downstream side control valve; anda second orifice installed in a predetermined position of a second path having an inlet branched and connected to the predetermined position of the parallel flow path and an outlet connected to an inlet port of the lowermost downstream side control valve. 5. The hydraulic circuit according to claim 1, wherein, of the upstream and downstream side control valves on which the bleed-off paths are formed, the hydraulic actuator connected to the upstream side control valve is a boom cylinder, and the hydraulic actuator connected to the downstream side control valve is an arm cylinder. 6. A hydraulic circuit for a construction machine comprising: a variable displacement hydraulic pump;at least two hydraulic actuators driven by hydraulic fluid that is supplied from the hydraulic pump;control valves installed in a center bypass path of the hydraulic pump and shifted to control a start, stop, and direction change of the hydraulic actuators;a parallel flow path having inlets branched and connected to predetermined positions on an uppermost stream side of the center bypass path and outlets connected to inlet ports of the control valves;bleed-off paths formed on the control valves excluding the lowermost downstream side control valve among the control valves to selectively communicate with the center bypass path, the bleed-off paths communicating with the center bypass path when the control valves are shifted for a combined work; anda switching valve installed on a lowermost downstream side of the center bypass path to intercept the center bypass path when a pilot signal pressure is applied,the hydraulic circuit further comprises the following for applying the pilot signal pressure to shift the switching valve: pressure sensors measuring the pilot signal pressures applied to the upstream and downstream side control valves on which the bleed-off paths are formed;a controller calculating the pilot signal pressures measured by the pressure sensors and outputting an electric signal corresponding to the calculated values; andan electro proportional control valve generating a secondary pressure corresponding to the electric signal that is applied from the controller and applying the secondary pressure to the switching valve. 7. The hydraulic circuit according to claim 6, wherein the controller compares levels of the pilot signal pressures applied to the upstream and downstream side control valves on which the bleed-off paths are formed with each other, and if the pilot signal pressure that is applied to the upstream side control valve is relatively higher than the pilot signal pressure that is applied to the downstream side control valve, outputs the electric signal corresponding to the control characteristic of the upstream side control valve to the electro proportional control valve, and if the pilot signal pressure that is applied to the upstream side control valve is relatively lower than the pilot signal pressure that is applied to the downstream side control valve, the controller outputs the electric signal corresponding to the control characteristic of the downstream side control valve to the electro proportional control valve. 8. The hydraulic circuit according to claim 6, further comprising: a first orifice installed in a predetermined position of a first path having an inlet branched and connected to a predetermined position of the parallel flow path and an outlet connected to an inlet port of the downstream side control valve; anda second orifice installed in a predetermined position of a second path having an inlet branched and connected to the predetermined position of the parallel flow path and an outlet connected to an inlet port of the lowermost downstream side control valve. 9. The hydraulic circuit according to claim 6, wherein, of the upstream and downstream side control valves on which the bleed-off paths are formed, the hydraulic actuator connected to the upstream side control valve is a boom cylinder, and the hydraulic actuator connected to the downstream side control valve is an arm cylinder.
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