CN201372799Y - Hydraulic device for shield cutterhead - Google Patents

Abstract

The utility model relates to a hydraulic device for a shield cutterhead comprising a motor, a proportional variable pump, a check valve, a pilot overflow valve, a speed regulating valve, a power limiting valve, a proportional relief valve, a two-way cartridge valve, a two-position three-way reversing valve, a three-position four-way reversing valve, an oil distribution valve block and a two-point-controlled bidirectional variable motor. The system utilizes a combination of large-discharge capacity main-drive proportional variable pump sets and small-discharge capacity auxiliary-drive proportional variable pump sets to drive the shield cutterhead to move, and a control mode is an electric proportional variable control. The speed of the cutterhead can be continuously regulated in a wide range by the discharge capacity control of the proportional pump sets. The switching between high-gears and low-gears can be implemented by the discharge capacity control of the two-point-controlled bidirectional variable motor. The hydraulic device has the advantages that the installation power is proper; the hydraulic pumps can be combined flexibly; under the normal working condition, the load ratio of a single hydraulic pump is high; and the efficiency of the power source is improved, the reliability is increased and the energy conservation effect of the system is excellent.

Description

A kind of shield cutter hydraulic means

Technical field

The utility model belongs to field of mechanical technique, relates to fluid pressure actuator, relates in particular to a kind of shield cutter hydraulic means that adopts many pump combinations to drive.

Background technology

Along with the development of modern society, the mankind develop the underground space more and more, and the demand of various construction of tunnel is had higher requirement to construction technology, have promoted the development of tunnel construction technology.Modern shield machine not only can be realized tunneling, and safety, driving speed is fast, automaticity is high, can be applied in the tunnelling of all kinds of soil properties and soft rock strata.Along with development in science and technology and social progress, shield driving will progressively replace conventional method.

Cutterhead driving device is that shield excavation machine is finished the important component part of excavating function, drives the soil body that cutterhead rotates cutting shield structure the place ahead.At present, cutterhead driving device is a kind of typically high-power, multi executors system.Because geological conditions is complicated and changeable in tunneling process, cutterhead driving device must satisfy the needs of various stratum driving from the weak soil to the hard rock, and the rotation speed change scope is very big.Variable pump-variable displacement motor volume speed-modulating loop combines variable pump and variable displacement motor, continuous speed adjustment in wide range.At present, generally adopted this Hydraulic Adjustable Speed loop in the world, normally several big discharge capacity variable pumps are united several variable displacement motors of driving, by automatically controlled or hydraulic control proportional technique centralized Control, become the change discharge capacity control of discharge capacity, the control of permanent power and each motor when realizing each pump.The characteristics of this drive scheme are that the element of hydraulic system is few, control is simple, but power source efficient is lower.And adopt main driving pump and assistive drive pump assembly power source, and although it is complicated that control is gone up, can reduce the component purchase cost, improve power source efficient, increase reliability, be more suitable for China's national situation.

Summary of the invention

The purpose of this utility model is to provide a kind of shield cutter hydraulic means that adopts many pump combinations to drive, and can satisfy the shield cutter speed governing, improve power source efficient and energy-conservation requirement.

The utility model comprises fuel tank, first motor, second motor, the 3rd motor, the 4th motor, the 5th motor, first proportional variable pump, second proportional variable pump, the 3rd proportional variable pump, the 4th proportional variable pump, the 5th proportional variable pump, first two-way plug-in valve, second two-way plug-in valve, the 3rd two-way plug-in valve, the 4th two-way plug-in valve, the 5th two-way plug-in valve, first precursor overflow valve, second precursor overflow valve, first liang of point control type double-action variable displacement motor, second liang of point control type double-action variable displacement motor, the 3rd liang of point control type double-action variable displacement motor, the 4th liang of point control type double-action variable displacement motor, the 5th liang of point control type double-action variable displacement motor, the 6th liang of point control type double-action variable displacement motor, the 7th liang of point control type double-action variable displacement motor, the 8th liang of point control type double-action variable displacement motor, two position three way directional control valve, three position four-way directional control valve, the Power Limitation valve, proportional pressure control valve, flow speed control valve.

First motor is rigidly connected through the shaft coupling and first proportional variable pump, the oil-in of first proportional variable pump is communicated with fuel tank, the oil-out of first proportional variable pump is communicated with the oil-in of first one way valve, and the oil-out of first one way valve is communicated with first hydraulic fluid port of the 5th two-way plug-in valve, the oil-in of the 6th one way valve, first hydraulic fluid port of second two-way plug-in valve, first hydraulic fluid port of the 3rd two-way plug-in valve and first hydraulic fluid port of three position four-way directional control valve respectively;

Second motor is rigidly connected through the shaft coupling and second proportional variable pump, the oil-in of second proportional variable pump is communicated with fuel tank, the oil-out of second proportional variable pump is communicated with the oil-in of second one way valve, and the oil-out of second one way valve is communicated with first hydraulic fluid port of the 5th two-way plug-in valve, the oil-in of the 6th one way valve, first hydraulic fluid port of second two-way plug-in valve, first hydraulic fluid port of the 3rd two-way plug-in valve and first hydraulic fluid port of three position four-way directional control valve respectively;

The 3rd motor is rigidly connected through shaft coupling and the 3rd proportional variable pump, the oil-in of the 3rd proportional variable pump is communicated with fuel tank, the oil-out of the 3rd proportional variable pump is communicated with the oil-in of the 3rd one way valve, and the oil-out of the 3rd one way valve is communicated with first hydraulic fluid port of the 5th two-way plug-in valve, the oil-in of the 6th one way valve, first hydraulic fluid port of second two-way plug-in valve, first hydraulic fluid port of the 3rd two-way plug-in valve and first hydraulic fluid port of three position four-way directional control valve respectively;

The 4th motor is rigidly connected through shaft coupling and the 4th proportional variable pump, the oil-in of the 4th proportional variable pump is communicated with fuel tank, the oil-out of the 4th proportional variable pump is communicated with the oil-in of the 4th one way valve, and the oil-out of the 4th one way valve is communicated with first hydraulic fluid port of the 5th two-way plug-in valve, the oil-in of the 6th one way valve, first hydraulic fluid port of second two-way plug-in valve, first hydraulic fluid port of the 3rd two-way plug-in valve and first hydraulic fluid port of three position four-way directional control valve respectively;

Second hydraulic fluid port of the 5th two-way plug-in valve is communicated with fuel tank, and the 3rd hydraulic fluid port of the 5th two-way plug-in valve is communicated with first hydraulic fluid port of two position three way directional control valve; Second hydraulic fluid port of two position three way directional control valve is communicated with the oil-in of first precursor overflow valve, and the oil-out of first precursor overflow valve is communicated with fuel tank; The 3rd hydraulic fluid port of two position three way directional control valve is communicated with the oil-in of second precursor overflow valve, and the oil-out of second precursor overflow valve is communicated with fuel tank; The oil-out of the 6th one way valve is communicated with second hydraulic fluid port of Power Limitation valve; First hydraulic fluid port of first two-way plug-in valve is communicated with second hydraulic fluid port of second two-way plug-in valve; Second hydraulic fluid port of first two-way plug-in valve is communicated with fuel tank; The 3rd hydraulic fluid port of first two-way plug-in valve is communicated with the 3rd hydraulic fluid port of three position four-way directional control valve; Second hydraulic fluid port of second two-way plug-in valve is communicated with the first separating valve piece, one end hydraulic fluid port; The 3rd hydraulic fluid port of second two-way plug-in valve is communicated with second hydraulic fluid port of three position four-way directional control valve; Second hydraulic fluid port of the 3rd two-way plug-in valve is communicated with the second separating valve piece, one end hydraulic fluid port; The 3rd hydraulic fluid port of the 3rd two-way plug-in valve is communicated with the 3rd hydraulic fluid port of three position four-way directional control valve; First hydraulic fluid port of the 4th two-way plug-in valve is communicated with second hydraulic fluid port of the 3rd two-way plug-in valve; Second hydraulic fluid port of the 4th two-way plug-in valve is communicated with fuel tank; The 3rd hydraulic fluid port of the 4th two-way plug-in valve is communicated with second hydraulic fluid port of three position four-way directional control valve; The 4th hydraulic fluid port of three position four-way directional control valve is communicated with fuel tank; The other end hydraulic fluid port of the first separating valve piece respectively with first hydraulic fluid port of first liang of point control type double-action variable displacement motor, first hydraulic fluid port of second liang of point control type double-action variable displacement motor, first hydraulic fluid port of the 3rd liang of point control type double-action variable displacement motor, first hydraulic fluid port of the 4th liang of point control type double-action variable displacement motor, first hydraulic fluid port of the 5th liang of point control type double-action variable displacement motor, first hydraulic fluid port of the 6th liang of point control type double-action variable displacement motor, first hydraulic fluid port of the 7th liang of point control type double-action variable displacement motor, first hydraulic fluid port of the 8th liang of point control type double-action variable displacement motor is communicated with; The other end hydraulic fluid port of the second separating valve piece respectively with second hydraulic fluid port of first liang of point control type double-action variable displacement motor, second hydraulic fluid port of second liang of point control type double-action variable displacement motor, second hydraulic fluid port of the 3rd liang of point control type double-action variable displacement motor, second hydraulic fluid port of the 4th liang of point control type double-action variable displacement motor, second hydraulic fluid port of the 5th liang of point control type double-action variable displacement motor, second hydraulic fluid port of the 6th liang of point control type double-action variable displacement motor, second hydraulic fluid port of the 7th liang of point control type double-action variable displacement motor, second hydraulic fluid port of the 8th liang of point control type double-action variable displacement motor is communicated with;

The 5th motor is rigidly connected through shaft coupling and the 5th proportional variable pump, the oil-in of the 5th proportional variable pump is communicated with fuel tank, the oil-out of the 5th proportional variable pump is communicated with the oil-in of the 5th one way valve, the oil-out of the 5th one way valve is communicated with the oil-in of flow speed control valve, the oil-out of flow speed control valve is communicated with the control port of first proportional variable pump, the control port of second proportional variable pump, first hydraulic fluid port of Power Limitation valve, the oil-in of proportional pressure control valve respectively, the 3rd hydraulic fluid port of Power Limitation valve is communicated with fuel tank, and the oil-out of proportional pressure control valve is communicated with fuel tank.

The utility model adopts big discharge capacity master to drive proportional variable pump group and the motion of float amount assistive drive proportional variable pump group combination driving shield cutterhead.During cutterhead work, two proportional variable pumps that big discharge capacity master drives the proportional variable pump group are worked simultaneously, two proportional variable pumps of float amount assistive drive proportional variable pump group are incorporated device into when main driving power is not enough, improve the load factor and the power source efficient of single hydraulic pump.By electric-control system, regulate the rate variable pump delivery to realize adjusting to cutterhead speed.

The utility model adopts big discharge capacity proportional variable pump group and the combination of float amount proportional variable pump group to drive, control mode is automatically controlled rate variable, installed power is moderate, hydraulic pump can flexible combination, under the nominal situation, the load factor height of single hydraulic pump can improve the efficient of power source, has energy-conservation effect.Because proportional variable pump adopts the speed governing of automatically controlled change discharge capacity, and adopts two point control type double-action variable displacement motors, can make shield cutter speed governing in wide range, satisfies working condition requirement.

Description of drawings

Fig. 1 is a structural representation of the present utility model.

The specific embodiment

The operating principle of this shield cutter hydraulic means is as follows:

First motor 1.1 and second motor 1.2 get electric startup, drive first proportional variable pump 2.1 and 2.2 rotations of second proportional variable pump respectively, and first proportional variable pump 2.1 and second proportional variable pump 2.2 are the main proportional variable pump group that drives.15.1,15.2 oil suctions from fuel tank 14 by the road of main driving proportional variable pump group, the pressure oil that main driving proportional variable pump group is got is delivered to pipeline 18.1,19,20.1,20.2,20.3,20.4 through pipeline 16.1, first one way valve 3.1, pipeline 17.1 and pipeline 16.2, second one way valve 3.2, pipeline 17.2.

When three position four-way directional control valve 7 left electromagnet get when electric, the working chamber that hydraulic oil process three position four-way directional control valve 7 in the pipeline 19, pipeline 24.2 act on the 3rd hydraulic fluid port place of second two-way plug-in valve 6.2, the process of the hydraulic oil in the pipeline 19 three position four-way directional control valve 7, pipeline 24.4 act on the working chamber at the 3rd hydraulic fluid port place of the 4th two-way plug-in valve 6.4, and this moment, second two-way plug-in valve 6.2 and the 4th two-way plug-in valve 6.4 were in closed condition.The working chamber at the 3rd hydraulic fluid port place of first two-way plug-in valve 6.1 communicates through pipeline 24.1, three position four-way directional control valve 7 and fuel tank, the working chamber at the 3rd hydraulic fluid port place of the 3rd two-way plug-in valve 6.3 communicates through pipeline 24.3, three position four-way directional control valve 7 and fuel tank, and this moment, first two-way plug-in valve 6.1 and the 3rd two-way plug-in valve 6.3 were in opening.Hydraulic oil in the pipeline 19 is by the 3rd two-way plug-in valve 6.3, pipeline 23.2,25.2,27.1,27.2,27.3,27.4 deliver to separating valve piece 8.2, the pressure oil that separating valve piece 8.2 is sent by the road 29.1,29.2,29.3,29.4 deliver to ring-like flow distributing and collecting pipeline 31, the pressure oil that ring-like flow distributing and collecting pipeline 31 is sent 33.1 enters first liang of point control type double-action variable displacement motor 9.1 by the road, 33.2 enter second liang of point control type double-action variable displacement motor 9.2 by the road, 33.3 enter the 3rd liang of point control type double-action variable displacement motor 9.3 by the road, 33.4 enter the 4th liang of point control type double-action variable displacement motor 9.4 by the road, 33.5 enter the 5th liang of point control type double-action variable displacement motor 9.5 by the road, 33.6 enter the 6th liang of point control type double-action variable displacement motor 9.6 by the road, 33.7 enter the 7th liang of point control type double-action variable displacement motor 9.7 by the road, 33.8 enter the 8th liang of point control type double-action variable displacement motor 9.8 by the road.First liang of point control type double-action variable displacement motor 9.1 oil return opening oil return is delivered to ring-like flow distributing and collecting pipeline 30 through pipeline 32.1, second liang of point control type double-action variable displacement motor 9.2 oil return opening oil return is delivered to ring-like flow distributing and collecting pipeline 30 through pipeline 32.2, the 3rd liang of point control type double-action variable displacement motor 9.3 oil return opening oil returns are delivered to ring-like flow distributing and collecting pipeline 30 through pipeline 32.3, the 4th liang of point control type double-action variable displacement motor 9.4 oil return opening oil returns are delivered to ring-like flow distributing and collecting pipeline 30 through pipeline 32.4, the 5th liang of point control type double-action variable displacement motor 9.5 oil return opening oil returns are delivered to ring-like flow distributing and collecting pipeline 30 through pipeline 32.5, the 6th liang of point control type double-action variable displacement motor 9.6 oil return opening oil returns are delivered to ring-like flow distributing and collecting pipeline 30 through pipeline 32.6, the 7th liang of point control type double-action variable displacement motor 9.7 oil return opening oil returns are delivered to ring-like flow distributing and collecting pipeline 30 through pipeline 32.7, the 8th liang of point control type double-action variable displacement motor 9.8 oil return opening oil returns are delivered to ring-like flow distributing and collecting pipeline 30 through pipeline 32.8, pressure oil by the road 28.1 in the ring-like flow distributing and collecting pipeline 30,28.2,28.3,28.4 deliver to separating valve piece 8.1, by the road 26.1,26.2,26.3,26.4,25.1,23.1 deliver to first two-way plug-in valve 6.1,39.6 deliver to fuel tank 14 and finish oil return by the road, thereby two point control type double-action variable displacement motors 9.1,9.2,9.3,9.4,9.5,9.6,9.7,9.8 under the pressure reduction at two ends, rotate, drive cutterhead and rotate.

When three position four-way directional control valve 7 right electromagnet get when electric, situation is similar to the above, this moment, second two-way plug-in valve 6.2 and the 4th two-way plug-in valve 6.4 were in opening, first two-way plug-in valve 6.1 and the 3rd two-way plug-in valve 6.3 are in closed condition, the oil-feed oil return of two point control type double-action variable displacement motors realizes the reverse rotation of cutterhead with above-mentioned opposite.

The 5th motor 1.5, the 5th proportional variable pump 2.5, the 5th one way valve 3.5, flow speed control valve 11, proportional pressure control valve 12, Power Limitation valve 13, the 6th one way valve 3.6 are formed first proportional variable pump 2.1 and second proportional variable pump, 2.2 discharge capacities control oil return line.The 5th motor 1.5 gets electric startup, drives the 5th proportional variable pump 2.5.The 5th proportional variable pump 2.5 is 15.5 oil suctions from fuel tank 14 by the road, pressure oil that the 5th proportional variable pump 2.5 is got is delivered to flow speed control valve 11 through pipeline 16.5, the 5th one way valve 3.5, pipeline 35,36 and 37.1 delivers to the control port of second proportional variable pump 2.2 by the road after flow speed control valve 11 carries out Flow-rate adjustment, 36 and 37.2 deliver to the control port of first proportional variable pump 2.1 by the road, 36 and 37.3 delivers to first hydraulic fluid port of Power Limitation valve 13,36 and 37.4 oil-ins of delivering to proportional pressure control valve 12 by the road by the road.Pressure oil in the pipeline 19 is delivered to second hydraulic fluid port of Power Limitation valve 13 by the 6th one way valve 3.6, and the pressure in the pipeline 19 is system pressure.When system pressure did not reach the initial setting value of Power Limitation valve 13, the pressure of the control port of first proportional variable pump 2.1 and second proportional variable pump 2.2 was by proportional pressure control valve 12 decision, and proportional with its conditioning signal.Because the control port pressure of first proportional variable pump 2.1 and second proportional variable pump 2.2 and first proportional variable pump 2.1 and second proportional variable pump, 2.2 discharge capacities are proportional, so adjustable continuously, and then realize that the cutterhead rotating speed is adjustable continuously by regulating proportional pressure control valve 12 realization first proportional variable pumps 2.1 and second proportional variable pump, 2.2 discharge capacities; When system pressure surpasses Power Limitation valve 13 initial setting values, the Power Limitation valve 13 beginning overflow of working, cause the pressure in the pipeline 36 to reduce, the control port pressure of first proportional variable pump 2.1 and second proportional variable pump 2.2 is reduced, thereby first proportional variable pump 2.1 and second proportional variable pump, 2.2 discharge capacities are reduced, cutterhead speed reduces, keep first proportional variable pump 2.1 and second proportional variable pump, 2.2 power outputs constant, prevent first proportional variable pump 2.1 and second proportional variable pump, 2.2 power overloads.

Reach when setting rotating speed when the output flow of first proportional variable pump 2.1 and second proportional variable pump 2.2 is enough to drive cutterhead, only open first proportional variable pump 2.1 and second proportional variable pump 2.2; When the output flow of first proportional variable pump 2.1 and second proportional variable pump 2.2 is not enough to drive cutterhead and reaches the rotating speed of setting, motor 1.3 and motor 1.4 get electric startup, drive float flow control three proportional variable pumps 2.3 and 2.4 rotations of the 4th proportional variable pump respectively, the 3rd proportional variable pump 2.3 and the 4th proportional variable pump 2.4 are assistive drive proportional variable pump group, and the analysis of hydraulic circuit and above-mentioned situation are similar.Assistive drive proportional variable pump group carries persevering powered controls, by special electric control system controls.Big discharge capacity master drives the proportional variable pump group and the combination of float amount assistive drive proportional variable pump group drives to provide the cutterhead rotating speed needed flow.

Two point control type double-action variable displacement motors 9.1,9.2,9.3,9.4,9.5,9.6,9.7,9.8, can make motor displacement be set in minimum injection rate or maximum pump discharge place by special control device, thereby be implemented in two grades of switchings of cutterhead high, low speed under the given flow.

The 5th two-way plug-in valve 6.5, two position three way directional control valve 5 are formed the voltage-limiting protection loop with precursor overflow valve 4.1,4.2.System pressure oil in the pipeline 19 20.1 is communicated with the 5th two-way plug-in valve 6.5 first hydraulic fluid ports by the road, system pressure oil by after the damping port in the 5th two-way plug-in valve 6.5 by the road 21 and first hydraulic fluid port of two position three way directional control valve 5 be communicated with.When cutterhead is worked under the nominal situation pattern, the outage of two position three way directional control valve 5 electromagnet, precursor overflow valve 4.1 inserts the loop, if system pressure surpasses precursor overflow valve 4.1 pressure set points, precursor overflow valve 4.1 beginning overflows, make the 5th two-way plug-in valve 6.5 be in opening, system pressure oil begins overflow by second hydraulic fluid port of the 5th two-way plug-in valve 6.5, thereby plays the voltage-limiting protection of nominal situation; When working under cutterhead is being got rid of poverty pattern, two position three way directional control valve 5 electromagnet get electric, and precursor overflow valve 4.2 inserts the loop, and principle is similar to the above, plays the voltage-limiting protection of the operating mode of getting rid of poverty.

Claims (1)

1, a kind of shield cutter hydraulic means, comprise fuel tank, first motor, second motor, the 3rd motor, the 4th motor, the 5th motor, first proportional variable pump, second proportional variable pump, the 3rd proportional variable pump, the 4th proportional variable pump, the 5th proportional variable pump, first two-way plug-in valve, second two-way plug-in valve, the 3rd two-way plug-in valve, the 4th two-way plug-in valve, the 5th two-way plug-in valve, first precursor overflow valve, second precursor overflow valve, first liang of point control type double-action variable displacement motor, second liang of point control type double-action variable displacement motor, the 3rd liang of point control type double-action variable displacement motor, the 4th liang of point control type double-action variable displacement motor, the 5th liang of point control type double-action variable displacement motor, the 6th liang of point control type double-action variable displacement motor, the 7th liang of point control type double-action variable displacement motor, the 8th liang of point control type double-action variable displacement motor, two position three way directional control valve, three position four-way directional control valve, the Power Limitation valve, proportional pressure control valve, flow speed control valve is characterized in that:

First motor is rigidly connected through the shaft coupling and first proportional variable pump, the oil-in of first proportional variable pump is communicated with fuel tank, the oil-out of first proportional variable pump is communicated with the oil-in of first one way valve, and the oil-out of first one way valve is communicated with first hydraulic fluid port of the 5th two-way plug-in valve, the oil-in of the 6th one way valve, first hydraulic fluid port of second two-way plug-in valve, first hydraulic fluid port of the 3rd two-way plug-in valve and first hydraulic fluid port of three position four-way directional control valve respectively;

Second motor is rigidly connected through the shaft coupling and second proportional variable pump, the oil-in of second proportional variable pump is communicated with fuel tank, the oil-out of second proportional variable pump is communicated with the oil-in of second one way valve, and the oil-out of second one way valve is communicated with first hydraulic fluid port of the 5th two-way plug-in valve, the oil-in of the 6th one way valve, first hydraulic fluid port of second two-way plug-in valve, first hydraulic fluid port of the 3rd two-way plug-in valve and first hydraulic fluid port of three position four-way directional control valve respectively;

The 3rd motor is rigidly connected through shaft coupling and the 3rd proportional variable pump, the oil-in of the 3rd proportional variable pump is communicated with fuel tank, the oil-out of the 3rd proportional variable pump is communicated with the oil-in of the 3rd one way valve, and the oil-out of the 3rd one way valve is communicated with first hydraulic fluid port of the 5th two-way plug-in valve, the oil-in of the 6th one way valve, first hydraulic fluid port of second two-way plug-in valve, first hydraulic fluid port of the 3rd two-way plug-in valve and first hydraulic fluid port of three position four-way directional control valve respectively;

The 4th motor is rigidly connected through shaft coupling and the 4th proportional variable pump, the oil-in of the 4th proportional variable pump is communicated with fuel tank, the oil-out of the 4th proportional variable pump is communicated with the oil-in of the 4th one way valve, and the oil-out of the 4th one way valve is communicated with first hydraulic fluid port of the 5th two-way plug-in valve, the oil-in of the 6th one way valve, first hydraulic fluid port of second two-way plug-in valve, first hydraulic fluid port of the 3rd two-way plug-in valve and first hydraulic fluid port of three position four-way directional control valve respectively;

Second hydraulic fluid port of the 5th two-way plug-in valve is communicated with fuel tank, and the 3rd hydraulic fluid port of the 5th two-way plug-in valve is communicated with first hydraulic fluid port of two position three way directional control valve; Second hydraulic fluid port of two position three way directional control valve is communicated with the oil-in of first precursor overflow valve, and the oil-out of first precursor overflow valve is communicated with fuel tank; The 3rd hydraulic fluid port of two position three way directional control valve is communicated with the oil-in of second precursor overflow valve, and the oil-out of second precursor overflow valve is communicated with fuel tank; The oil-out of the 6th one way valve is communicated with second hydraulic fluid port of Power Limitation valve; First hydraulic fluid port of first two-way plug-in valve is communicated with second hydraulic fluid port of second two-way plug-in valve; Second hydraulic fluid port of first two-way plug-in valve is communicated with fuel tank; The 3rd hydraulic fluid port of first two-way plug-in valve is communicated with the 3rd hydraulic fluid port of three position four-way directional control valve; Second hydraulic fluid port of second two-way plug-in valve is communicated with the first separating valve piece, one end hydraulic fluid port; The 3rd hydraulic fluid port of second two-way plug-in valve is communicated with second hydraulic fluid port of three position four-way directional control valve; Second hydraulic fluid port of the 3rd two-way plug-in valve is communicated with the second separating valve piece, one end hydraulic fluid port; The 3rd hydraulic fluid port of the 3rd two-way plug-in valve is communicated with the 3rd hydraulic fluid port of three position four-way directional control valve; First hydraulic fluid port of the 4th two-way plug-in valve is communicated with second hydraulic fluid port of the 3rd two-way plug-in valve; Second hydraulic fluid port of the 4th two-way plug-in valve is communicated with fuel tank; The 3rd hydraulic fluid port of the 4th two-way plug-in valve is communicated with second hydraulic fluid port of three position four-way directional control valve; The 4th hydraulic fluid port of three position four-way directional control valve is communicated with fuel tank; The other end hydraulic fluid port of the first separating valve piece respectively with first hydraulic fluid port of first liang of point control type double-action variable displacement motor, first hydraulic fluid port of second liang of point control type double-action variable displacement motor, first hydraulic fluid port of the 3rd liang of point control type double-action variable displacement motor, first hydraulic fluid port of the 4th liang of point control type double-action variable displacement motor, first hydraulic fluid port of the 5th liang of point control type double-action variable displacement motor, first hydraulic fluid port of the 6th liang of point control type double-action variable displacement motor, first hydraulic fluid port of the 7th liang of point control type double-action variable displacement motor, first hydraulic fluid port of the 8th liang of point control type double-action variable displacement motor is communicated with; The other end hydraulic fluid port of the second separating valve piece respectively with second hydraulic fluid port of first liang of point control type double-action variable displacement motor, second hydraulic fluid port of second liang of point control type double-action variable displacement motor, second hydraulic fluid port of the 3rd liang of point control type double-action variable displacement motor, second hydraulic fluid port of the 4th liang of point control type double-action variable displacement motor, second hydraulic fluid port of the 5th liang of point control type double-action variable displacement motor, second hydraulic fluid port of the 6th liang of point control type double-action variable displacement motor, second hydraulic fluid port of the 7th liang of point control type double-action variable displacement motor, second hydraulic fluid port of the 8th liang of point control type double-action variable displacement motor is communicated with;

The 5th motor is rigidly connected through shaft coupling and the 5th proportional variable pump, the oil-in of the 5th proportional variable pump is communicated with fuel tank, the oil-out of the 5th proportional variable pump is communicated with the oil-in of the 5th one way valve, the oil-out of the 5th one way valve is communicated with the oil-in of flow speed control valve, the oil-out of flow speed control valve is communicated with the control port of first proportional variable pump, the control port of second proportional variable pump, first hydraulic fluid port of Power Limitation valve, the oil-in of proportional pressure control valve respectively, the 3rd hydraulic fluid port of Power Limitation valve is communicated with fuel tank, and the oil-out of proportional pressure control valve is communicated with fuel tank.

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