JPH08210307A - Hydraulic circuit for operating attachment - Google Patents

Abstract

PURPOSE: To provide simple construction and cost reduction, and operate easily and completely an attachment which requires relatively high pressure in operat ing. CONSTITUTION: This hydraulic circuit for operating an attachment is provided with a main pump 2 having a flow control mechanism, a pilot pump 20 and an attachment. The attachment is connected to the main oil passage 6 of the main pump 2 through the first flow direction switching valve 14, and the signal supply oil passage 10 of a flow control mechanism 2a is connected to the pilot oil passage 22 of the pilot pump 20 through the second flow direction switching valve 28.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an attachment operating hydraulic circuit applied to a construction machine such as a hydraulic excavator.

[0002]

2. Description of the Related Art For example, in a hydraulic excavator, a work machine such as a boom, an arm, a bucket, or a turning device,
A traveling device and the like are provided. In connection with these various devices, actuators and control valves are attached,
A hydraulic circuit is mounted to operate these control systems. This hydraulic circuit generally has a main pump,
And a pilot pump. The discharge pressure oil of the main pump is supplied from the main oil passage to each control valve, and further supplied to the actuator according to the operation of each control valve.
Discharge pressure oil from the pilot pump is supplied from the pilot oil passage to the remote control valve (operation valve) provided corresponding to each device, and the pilot secondary pressure is supplied to the pilot port of the control valve according to the operation of each remote control valve. Supplied as. As a result, the control valve spool moves, and the pressure oil discharged from the main pump is supplied to the actuator.

Generally, in addition to the above-mentioned device, a hydraulic excavator has, for example, a counterweight attaching / detaching device (for example, an actual fair 6).
Attachment (see Japanese Patent Application Laid-Open No. 12062). A hydraulic circuit for operating the attachment is attached to the hydraulic circuit. As a first conventional example of an attachment actuating hydraulic circuit, there is known one in which an attachment pump is mounted and pressure oil discharged from the attachment pump is supplied to a control valve of the attachment to actuate the attachment. Also, as a second conventional example, there is known one configured to supply the discharge pressure oil of the pilot pump as described above to the control valve of the attachment to operate the attachment.

[0004]

In the attachment actuating hydraulic circuit described as the first conventional example, an attachment pump is newly added in addition to the existing main pump and pilot pump. Including the increase, the configuration becomes complicated and the cost increases. Further, in the attachment actuating hydraulic circuit described as the second conventional example, since the existing pilot pump is used, the problem of the first conventional example is solved. However, the discharge pressure of the pilot pump is generally lower than that of the main pump, and it is difficult to handle an attachment that requires a relatively high pressure for its operation, such as the above-described counterweight attaching / detaching device.

An object of the present invention is to provide an improved attachment operating hydraulic circuit which has a simple structure and can be implemented at a low cost, and which can easily and reliably operate an attachment which requires a relatively high pressure for its operation. It is to be.

[0006]

According to the present invention, a main oil passage for supplying the control system with the discharge pressure oil of a main pump having a flow control mechanism, and a signal for supplying a flow control signal to the flow control mechanism. The main oil passage includes a supply oil passage, a pilot oil passage for supplying pressure oil discharged from the pilot pump to the pilot system, and an attachment, and a first flow direction switching valve is arranged in the main oil passage. Connected to the main oil passage via the flow direction switching valve, and the discharge pressure oil of the main pump is supplied to the attachment when the switching operation of the first flow direction switching valve is performed. A second flow direction switching valve is arranged, the signal supply oil passage is connected to the pilot oil passage via the second flow direction switching valve, and the pilot pump is operated when the second flow direction switching valve is switched. The discharge pressure oil of Is supplied to the flow rate control mechanism in the pump, the attachment operation hydraulic circuit, characterized in that, is provided.

[0007]

The pressure oil discharged from the main pump is supplied to the attachment during the switching operation of the first flow direction switching valve. Further, the discharge pressure oil of the pilot pump is supplied to the flow rate control mechanism of the main pump during the switching operation of the second flow rate direction switching valve. Therefore, by switching the first flow rate direction switching valve and the second flow rate direction switching valve respectively, a relatively low flow rate and high pressure oil are supplied to the attachment. As a result, the attachment, which requires relatively high pressure for its operation, can be operated easily and reliably. Since the flow rate control mechanism of the main pump can be controlled by the discharge pressure oil (pilot pressure) of the pilot pump during the operation of the attachment, it is possible to supply the attachment with a stable, relatively low flow rate and high pressure oil.
Compared with the conventional one in which an attachment pump is newly added, the configuration is simplified and the cost is significantly reduced. Note that some construction machines do not have a control valve for a preliminary attachment. Even in such a case, the present invention makes it possible to add an attachment hydraulic power source easily and at low cost.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of an attachment actuating hydraulic circuit improved according to the present invention will be described below with reference to FIG. An attachment operating hydraulic circuit provided in a hydraulic shovel (not shown) includes main pumps 2 and 4. The main pumps 2 and 4 are composed of variable displacement hydraulic pumps provided with flow rate control mechanisms (negative control characteristics) 2a and 4a, respectively. The main oil passage 6 of the main pump 2 is a part of a plurality of control valves (not shown) (for example, an arm control valve, a swing control valve, a left traveling control valve).
And a corresponding actuator (arm cylinder, swing hydraulic motor, left traveling hydraulic motor) (not shown) via a part of the control valve. A part of the plurality of control valves and the actuators corresponding to them constitute a control system. Similarly, the main oil passage 8 of the main pump 4 is connected to the oil tank via other control valves (not shown) (for example, a boom control valve, a bucket control valve, a right travel control valve), and at the same time, is connected to the control valve. Corresponding actuators (boom cylinder, bucket cylinder,
It is connected to the right traveling hydraulic motor). The other of the plurality of control valves and the actuators corresponding to them constitute a control system.

When each control valve in a part of the control system is in the neutral position, the pressure oil discharged from the main pump 2 is flown into the oil tank through each control valve. In this neutral state, a bypass oil passage (not shown) including the main oil passage 6 is formed between the main pump 2 and the oil tank. A signal orifice (not shown) is provided at the most downstream position of the bypass oil passage, and the signal port (not shown) on the upstream side of the signal orifice and the flow control mechanism 2a of the main pump 2 are connected to the signal supply oil passage (negative control signal) 10 Connected through. Similarly, when each control valve in the other part of the control system is in the neutral state, the discharge pressure oil of the main pump 4 is flown into the oil tank through each control valve. In this neutral state, a bypass oil passage (not shown) including the main oil passage 8 is formed between the main pump 4 and the oil tank. A signal orifice (not shown) is provided at the most downstream position of the bypass oil passage, and the signal port on the upstream side of the signal orifice and the flow control mechanism 4a of the main pump 4 are connected via the signal supply oil passage 12. .

A first flow direction switching valve 14 is arranged in the main oil passage 6. A counterweight attaching / detaching device 16 is attached to the hydraulic excavator as an attachment. Although not shown, the counterweight attaching / detaching device 16 includes a counterweight control valve and an actuator (a cylinder for moving the counterweight up and down) controlled by the operation of the control valve. The counterweight attaching / detaching device 16 is connected to the main oil passage 6 via the oil passage 18 and the first flow direction switching valve 14. First
The flow direction switching valve 14 is composed of a manually operated 3-port 2-position switching valve. At the non-switching operation position A shown, the main oil passage 6 is opened and the oil passage 18 is closed. The pressure oil discharged from the main pump 2 is supplied to the control system via the main oil passage 6. On the other hand, when the first flow direction switching valve 14 is switched to the switching operation position B, the main oil passage 6 is closed,
Open the oil passage 18. The discharge pressure oil of the main pump 2 passes through the main oil passage 6 and the oil passage 18 and then the counterweight attaching / detaching device 1
6.

The attachment actuation hydraulic circuit also includes a pilot pump 20. Pilot pump 2
The discharge pressure oil of 0 is supplied from the pilot oil passage 22 to a remote control valve (operation valve) (not shown) provided corresponding to each device (arm, turning device, left and right traveling device, boom, bucket, etc.), and further The pilot secondary pressure is supplied to the pilot port of the corresponding control valve according to the operation of the remote control valve. The pilot oil passage 22 is connected to the oil tank via an oil passage 24. In the oil passage 24, the pilot relief valve 2 that regulates the maximum discharge pressure of the pilot pump 20 is provided.
6 are arranged.

A second flow rate direction switching valve 28 is arranged in the signal supply oil passage 10. The pilot oil passage 22
Is connected to the second flow rate direction switching valve 28 via an oil passage 30. The second flow direction switching valve 28 is composed of a manually operated 3-port 2-position switching valve. At the non-switching operation position A shown, the signal supply oil passage 10 is opened and the oil passage 30 is opened.
Close. The pressure oil discharged from the pilot pump 20 is supplied to each remote control valve via the pilot oil passage 22. on the other hand,
When the second flow direction switching valve 28 is switched to the switching operation position B, the signal supply oil passage 10 is closed and the oil passage 30 and the flow control mechanism 2a of the main pump 2 are connected. The discharge pressure oil of the pilot pump 20 is the oil passage 30, the signal supply oil passage 1
It is supplied to the flow rate control mechanism 2a via 0 (upstream side of the second flow rate direction switching valve 28). The flow rate control mechanism 2a is controlled by the pilot pressure of the pilot pump 20.

When the counterweight attaching / detaching device 16 is operated, the first flow direction switching valve 14 and the second flow direction switching valve 28 are switched to the switching operation positions B, respectively. By switching the first flow direction switching valve 14 to the switching operation position B, the main oil passage 6 is closed and the oil passage 18 is closed.
Opens. The pressure oil discharged from the main pump 2 is supplied to the counterweight attaching / detaching device 16. By operating the counterweight control valve included in the counterweight attaching / detaching device 16 in this state, the actuator is actuated and the counterweight is moved up and down. On the other hand, when the second flow direction switching valve 28 is switched to the switching operation position B, the signal supply oil passage 10 is closed and the oil passage 30 and the flow control mechanism 2a of the main pump 2 are connected. As a result, the flow rate control mechanism 2a of the main pump 2 is controlled by the pilot pressure of the pilot pump 20, so that the counterweight attaching / detaching device 16 is supplied with a relatively low flow rate and high pressure oil.

In a normal state in which it is not necessary to operate the counterweight attaching / detaching device 16, the first flow direction switching valve 14 and the second flow direction switching valve 28 are positioned at the non-switching operation position A shown in the figure. Has been. The pressure oil discharged from the main pump 2 is not supplied to the counterweight attaching / detaching device 16 but is supplied to the control system via the main oil passage 6. Further, the flow rate control mechanism 2a of the main pump 2
Is controlled by the discharge pressure oil of the main pump 2 transmitted via the signal supply oil passage 10. This pilot pressure is
It is larger than the signal pressure of the main pump 2 transmitted to the flow rate control mechanism 2a via the signal supply oil passage 10 and stable when the respective control valves are neutral. Therefore, when the counterweight attaching / detaching device 16 is operating, the signal pressure to the flow rate control mechanism 2a is increased more than usual even in the neutral state, and the discharge pressure oil of the main pump 2 is P- which is well known to those skilled in the art. From the Q characteristic, stable control is possible at a low flow rate and a high pressure.

Although the present invention has been described with reference to one embodiment, the present invention is not limited to the above embodiment, and various changes and modifications can be made without departing from the scope of the present invention. For example, in the embodiment, the first flow direction switching valve 14 and the second flow direction switching valve 28 are manually operated by the operator when the attachment 16 is operated, but these are electromagnetic. The composition is also approved. In that case, the first flow direction switching valve 14
It is preferable that the second flow direction switching valve 28 and the second flow direction switching valve 28 are interlocked with each other, for example, an attachment operating switch is provided, and the switch can be switched to the switching operating position B at the same time by turning on the switch. Also in the embodiment shown in FIG. 1, it is preferable that the first flow rate direction switching valve 14 and the second flow rate direction switching valve 28 are interlocked.

[0016]

According to the attachment actuating hydraulic circuit constructed in accordance with the present invention, the structure is simple and can be implemented at low cost, and the attachment which requires relatively high pressure for its actuation can be actuated easily and reliably. .

[Brief description of drawings]

FIG. 1 is a diagram showing an embodiment of an attachment actuation hydraulic circuit improved according to the present invention.

[Explanation of symbols]

 2 main pump 2a flow control mechanism 6 main oil passage 10 signal supply oil passage 14 first flow direction switching valve 16 counterweight attaching / detaching device 20 pilot pump 22 pilot oil passage 28 second flow direction switching valve

Claims (1)

[Claims] 1. A main oil passage for supplying discharge pressure oil of a main pump having a flow rate control mechanism to a control system, a signal supply oil passage for supplying a flow rate control signal to the flow rate control mechanism, and a discharge pressure of a pilot pump. A pilot oil passage for supplying oil to a pilot system and an attachment are included, and a first flow direction switching valve is arranged in the main oil passage, and the attachment is connected to the main flow passage through the first flow direction switching valve. Connected to an oil passage, the discharge pressure oil of the main pump is supplied to the attachment at the time of switching operation of the first flow direction switching valve, and a second flow direction switching valve is arranged in the signal supply oil passage,
The signal supply oil passage is connected to the pilot oil passage through the second flow rate direction switching valve, and when the second flow rate direction switching valve is switched, the pressure oil discharged from the pilot pump is transferred to the main pump. An attachment operating hydraulic circuit characterized by being supplied to a flow rate control mechanism.