CN202370534U - Energy-saving shield hydraulic propelling system with energy storage device mounted at propelling oil inlet side - Google Patents

Abstract

The utility model discloses an energy-saving shield hydraulic propelling system with an energy storage device mounted at the propelling oil inlet side. The energy-saving shield hydraulic propelling system comprises a variable pump controlled by a motor, and a hydraulic pump source comprising a proportional overflow pump and a one-way valve, wherein a pressure pipeline is connected with the oil outlet of the one-way valve; an oil return pipeline is connected with an oil tank; an upper hydraulic propelling region, a lower hydraulic propelling region, a left hydraulic propelling region and a right hydraulic propelling region are connected in parallel between the pressure pipeline and the oil return pipeline in sequence; and each of the hydraulic propelling regions comprises an electromagnetic reversing valve, two electromagnetic switch valves, the energy storage device, a proportional throttle valve, the proportional overflow valve and a propelling hydraulic cylinder. A constant pressure variable pump is adopted to supply oil to only one propelling region at a moment and charge pressure for the energy storage device in the region at the same time; the pressure of the pump and the energy storage device is enabled to be only a bit greater than that of the load of other propelling regions by the time-split alternate pressure charging working principle that the oil is supplied to the other propelling regions by the energy storage devices of the other propelling regions; the oil supply pressures of all the propelling regions realize load sensing with the load of the propelling regions respectively; and the energy loss of the throttling depressurization of the existing system is greatly reduced.

Description

A kind of energy-conservation shield structure hydraulic propelling system that advances the oil-feed oral-lateral that accumulator is installed

Technical field

The utility model relates to a kind of hydraulic energy-saving shield structure hydraulic propelling system, especially relates to a kind of energy-conservation shield structure hydraulic propelling system that advances the oil-feed oral-lateral that accumulator is installed.

Background technology

The shield structure is widely used in the construction of city underground.The hydraulic propelling system of shield structure is one of its important component part, plays the effects such as tunneling thrust, control earth pressure balance, the realization turning of control driving track and correction that provides.Because shield driving speed is slow, hydraulic propelling system is also little for the traffic demand of hydraulic pump, and existing technology normally provides thrust power to satisfy the demand of all PF cylinder pressures with a hydraulic variable displacement pump.

According to the operational requirements of driving and the complexity of simplifying system, the PF cylinder pressure of shield structure can be divided into 4 usually and advance the district, is respectively Shang Qu, Zuo Qu, inferior segment, You Qu.And the setting of the propelling pressure in each district is not quite similar.Since the cumulative distribution of the pressure along with the degree of depth of soil pressure, but also the moment of torsion that has a down dip that needs balance shield gravity to produce, the propulsion cylinder of common shield structure inferior segment, and not only quantity is more than other districts, and propelling pressure is also high than other districts.When the shield structure was turned right driving, the propelling pressure in left side district will be set highlyer than right district pressure.Because 4 districts carry out fuel feeding by a hydraulic pump; So output pressure of hydraulic pump; Be to decide, and propelling pressure other propelling districts lower than hydraulic pump output pressure then need realize the control of pressure through the throttling step-down by required maximum pressure in 4 propelling districts.Existing product has two kinds of main stream approach to solve: the first, and use the proportional velocity regulating valve that is placed in the proportional pressure control valve upper reaches to realize the throttling step-down as pressure compensator, the second, realize the throttling step-down through threeway proportional pressure-reducing valve or guide proportion reducing valve.More than two kinds of methods, all be that the compensate function through hydraulic valve pressure inside expansion loop is realized the throttling step-down.

Said method, although realized the subregion control of propelling pressure, some energy changes into thermal dissipation because of the effect of throttling step-down and falls.In, large-power hydraulic system the inside, energy-conservation is a topic that merits attention very much.

Summary of the invention

In order to overcome the deficiency of existing shield structure hydraulic propelling system aspect energy-conservation, the purpose of the utility model is to provide a kind of energy-conservation shield structure hydraulic propelling system that advances the oil-feed oral-lateral that accumulator is installed.

In order to achieve the above object, the technical scheme of the utility model employing is:

The utility model comprises the hydraulic pump source that variable pump, proportional pressure control valve and the one way valve of Motor Control are formed; The oil-out of one way valve meets pressure pipeline P; Oil returning tube T connected tank; Between pressure pipeline P and oil returning tube T, be parallel with four the identical hydraulic pressure in upper and lower, left and right successively and advance the district to form energy-conservation shield structure hydraulic propelling systems, wherein go up hydraulic pressure and advance to distinguish and comprise: solenoid operated directional valve, two electromagnetic switch valves, accumulator, proportional throttle valve, proportional pressure control valve and PF cylinder pressures; The oil inlet P mouth of solenoid operated directional valve meets pressure pipeline P; The first actuator port A mouth of solenoid operated directional valve connects the oil inlet P mouth of first electromagnetic switch valve and the first actuator port A mouth of proportional throttle valve; The second actuator port B mouth of solenoid operated directional valve connects the rod chamber hydraulic fluid port of a plurality of hydraulic cylinders and the oil inlet P mouth of second electromagnetic switch valve; The oil-out A mouth of second electromagnetic switch valve takes back oil-piping T; The T mouth of solenoid operated directional valve takes back oil-piping T; The actuator port A mouth of first electromagnetic switch valve is connected with the hydraulic oil port of accumulator, and the second actuator port B mouth of proportional throttle valve is connected with the oil-in of proportional pressure control valve and the rodless cavity of said a plurality of hydraulic cylinders, and the oil-out of proportional pressure control valve takes back oil-piping T pipe; Said last, left and right, following four subregions advance the number ratio of oil cylinder to be 3:4:4:5, and the rod chamber and the rodless cavity of each hydraulic cylinder links together through conduit under fluid pressure respectively in each subregion.

The beneficial effect that the utlity model has is:

Adopting constant pressure variable displacement pump only to carve at a time advances the district to carry out fuel feeding to one; Accumulator to this district carries out pressurising simultaneously; Other advance the district to use self accumulator to carry out the pressurising operating principle in turn at times of fuel feeding; The pressure that makes constant pressure variable displacement pump and accumulator only exceeds a very little value than the required pressure of institute's bringing onto load separately, has realized that all charge oil pressures that advance the district all realize load-sensitive with separately load respectively, greatly reduces the energy loss of the throttling step-down of existing system.

Description of drawings

Fig. 1 is the structural principle sketch map of the utility model.

Among the figure: 1, motor, 2, constant pressure variable displacement pump, 3, proportional pressure control valve, 4, one way valve, 5.1, solenoid operated directional valve; 5.2, solenoid operated directional valve, 6.1, electromagnetic switch valve, 6.2, electromagnetic switch valve, 7.1, accumulator, 7.2, accumulator; 8.1, proportional throttle valve, 8.2, proportional throttle valve, 9.1, proportional pressure control valve, 9.2, proportional pressure control valve; 10.1, hydraulic cylinder, 10.2, hydraulic cylinder, 11.1, electromagnetic switch valve, 11.2, electromagnetic switch valve.

The specific embodiment

Below in conjunction with accompanying drawing and embodiment the utility model is described further.

Shown in accompanying drawing, the utility model comprises the hydraulic pump source that variable pump 2, proportional pressure control valve 3 and the one way valve 4 of motor 1 control are formed; Pressure pipeline P connects the oil-out of one way valve 4, and oil returning tube T connected tank is parallel with four the identical hydraulic pressure in upper and lower, left and right successively and advances the district to form energy-conservation shield structure hydraulic propelling systems between pressure pipeline P and oil returning tube T.

Wherein going up hydraulic pressure advances district (i.e. 1 district among the figure) to comprise: solenoid operated directional valve 5.1, two electromagnetic switch valves 6.1,11.1, accumulator 7.1, proportional throttle valve 8.1, proportional pressure control valve 9.1 and three PF cylinder pressures 10.1; The oil inlet P mouth of solenoid operated directional valve 5.1 meets pressure pipeline P; The first actuator port A mouth of solenoid operated directional valve 5.1 connects the oil inlet P mouth of first electromagnetic switch valve 6.1 and the first actuator port A mouth of proportional throttle valve 8.1; The second actuator port B mouth of solenoid operated directional valve 5.1 connects the rod chamber hydraulic fluid port of three hydraulic cylinders 10.1 and the oil inlet P mouth of second electromagnetic switch valve 11.1; The oil-out A mouth of second electromagnetic switch valve 11.1 takes back oil-piping T; The T mouth of solenoid operated directional valve 5.1 takes back oil-piping T; The actuator port A mouth of first electromagnetic switch valve 6.1 is connected with the hydraulic oil port of accumulator 7.1, and the second actuator port B mouth of proportional throttle valve 8.1 is connected with the oil-in of proportional pressure control valve 9.1 and the rodless cavity of said a plurality of hydraulic cylinder 10.1, and the oil-out of proportional pressure control valve 9.1 takes back oil-piping T pipe.

Wherein left hydraulic pressure advances district (i.e. 2 districts among the figure) to comprise: solenoid operated directional valve 5.2, two electromagnetic switch valves 6.2,11.2, accumulator 7.2, proportional throttle valve 8.2, proportional pressure control valve 9.2 and four PF cylinder pressures 10.2; The oil inlet P mouth of solenoid operated directional valve 5.2 meets pressure pipeline P; The first actuator port A mouth of solenoid operated directional valve 5.2 connects the oil inlet P mouth of first electromagnetic switch valve 6.2 and the first actuator port A mouth of proportional throttle valve 8.2; The second actuator port B mouth of solenoid operated directional valve 5.2 connects the rod chamber hydraulic fluid port of four hydraulic cylinders 10.2 and the oil inlet P mouth of second electromagnetic switch valve 11.2; The oil-out A mouth of second electromagnetic switch valve 11.2 takes back oil-piping T; The T mouth of solenoid operated directional valve 5.2 takes back oil-piping T; The actuator port A mouth of first electromagnetic switch valve 6.2 is connected with the hydraulic oil port of accumulator 7.2, and the second actuator port B mouth of proportional throttle valve 8.2 is connected with the oil-in of proportional pressure control valve 9.2 and the rodless cavity of said a plurality of hydraulic cylinder 10.2, and the oil-out of proportional pressure control valve 9.2 takes back oil-piping T pipe.

Be followed successively by in the accompanying drawing, left and right, following four subregions, the number that advances oil cylinder is than being 3:4:4:5, and the rod chamber and the rodless cavity of each hydraulic cylinder links together through conduit under fluid pressure respectively in each subregion.

The employing proportional pressure control valve carries out the constant pressure variable displacement pump of remote pressure control as power source; Each advances the big chamber hydraulic fluid port side in district to adopt hydraulic accumulator as auxiliary power source; Adopt proportional throttle valve that hydraulic accumulator is carried out the oil extraction flow-control, adopt proportional pressure control valve that propelling pressure is controlled.

Concrete implementation is:

The driving shaft of motor 1 is connected with the axle of constant pressure variable displacement pump 2.The inlet port connected tank of constant pressure variable displacement pump 2, its oil-out connect oil-in and the oil-in of one way valve 4 of the proportional pressure control valve 3 of Long-distance Control.The oil-out connected tank of proportional pressure control valve 3.The oil-out of one way valve 4 connects the pressure pipeline P pipe of hydraulic propelling system.Advance Qu Youshang, left and right, totally four down; Existing is that example describes with 1 district (go up hydraulic pressure and advance the district); The structural principle in all the other 3 districts is identical with the structural principle in 1 district; Just each subregion hydraulic cylinder quantity is different, and four subregions in upper and lower, left and right advance the number of oil cylinder than being 3:4:4:5.The oil inlet P mouth of solenoid operated directional valve 5.1 connects pressure pipeline P pipe; The first actuator port A mouth of solenoid operated directional valve 5.1 connects the oil inlet P mouth of first electromagnetic switch valve 6.1 and the first actuator port A mouth of proportional throttle valve 8.1, and the second actuator port B mouth of solenoid operated directional valve valve 5.1 connects the rod chamber hydraulic fluid port of three hydraulic cylinders 10.1 and the oil inlet P mouth of second electromagnetic switch valve 11.1.The oil-out A mouth of second electromagnetic switch valve 11.1 takes back oil-piping T pipe.The T mouth of solenoid operated directional valve valve 5.1 takes back oil-piping T pipe.The actuator port A mouth of first electromagnetic switch valve 6.1 is connected with the hydraulic oil port of accumulator 7.1.The second actuator port B mouth of proportional throttle valve 8.1 is connected with the oil-in of proportional pressure control valve 9.1 and the rodless cavity hydraulic fluid port of three hydraulic cylinders 10.1.The oil-out of proportional pressure control valve 9.1 takes back oil-piping T pipe.

Operating principle:

Prior art is to need hydraulic pump to advance the district to carry out fuel feeding to four simultaneously.Different with prior art, the utility model only needs with hydraulic pump some propellings district to be carried out fuel feeding, and other three districts carry out fuel feeding by accumulator separately.And for fear of using a large amount of accumulators, the utility model uses the method that advances the district to implement fuel feeding pressurising at times to four.

When the shield structure advances; Adopt the hydraulic pump fuel feeding with 1 district, it is example that other 3 districts adopt the accumulator fuel feeding, and concrete operating principle is; The solenoid operated directional valve 5 right side electromagnet c in 1 district get; Valve 5.1 is operated in right position, and this moment, the oil inlet P mouth of valve 5.1 was communicated with its first actuator port A mouth, and the second actuator port B mouth of valve 5.1 is communicated with its T mouth.The pressure of constant pressure variable displacement pump 2 only need be set to than slightly high any the force value of the propelling pressure in 1 district; This moment, the pressure oil of constant pressure variable displacement pump 2 carried out the hydraulic pressure pressurising through 6.1 pairs of accumulators of first electromagnetic switch valve 7.1 on the one hand, and fuel feeding is carried out in the big chamber in 8.1 pairs of hydraulic cylinder 10.1 left sides of passing ratio choke valve on the other hand.The propelling pressure of hydraulic cylinder 10.1 is set up by proportional pressure control valve 9.1.Through the openings of sizes of resize ratio choke valve 8.1, can adjust to the summation that maintains the minimum regime flow of hydraulic cylinder 10.1 required flows and proportional pressure control valve 9.1 through the flow of valve 8.1, reduce the spill losses that advances 1 district with this.This moment, the operating principle in 2,3,4 districts was identical, was example with 2 districts, and the electromagnet of solenoid operated directional valve 5.2 all must not be electric, had therefore cut off 2 pairs of oil supply galleries that advance 2 districts of constant pressure variable displacement pump.The electromagnet of second electromagnetic switch valve 11.2 gets electric, and this moment, the loculus hydraulic fluid port and the oil returning tube T on hydraulic cylinder 10.2 right sides connected through the unlatching of second electromagnetic switch valve 11.2.The pressurising setting pressure of the accumulator 7.2 in 2 districts than the setting value of 2 district's thrust pressure slightly height a bit, accumulator 7.2 is in the state of draining the oil, its hydraulic oil carries out fuel feeding through first electromagnetic switch valve 6.2, big chamber, 8.2 pairs of hydraulic cylinder 10.2 left sides of proportional throttle valve.The propelling pressure of hydraulic cylinder 10.2 is set up by proportional pressure control valve 9.2.Through the openings of sizes of resize ratio choke valve 8.2, can adjust to the summation that maintains the minimum regime flow of hydraulic cylinder 10.2 required flows and proportional pressure control valve 9.1 through the flow of valve 8.2, reduce the spill losses that advances 2 districts with this.

Pass through said method; 1 district carries out fuel feeding by constant pressure variable displacement pump 2; The fuel feeding setting pressure of constant pressure variable displacement pump 2 is only than advancing setting pressure to omit height a bit; Advance 2,3,4 districts respectively by separately accumulator 7.2,7.3,7.4 fuel feeding, the operating pressure of each accumulator also only than the propelling setting pressure summary height in each self-propelled district a bit.Realized that all charge oil pressures that advance the district all realize load-sensitive with separately load respectively, greatly reduced the energy loss of the throttling step-down of existing system.

Because along with the working time passes, the continuous oil extraction of accumulator causes its pressure to descend, when dropping to the required force value in this propelling district when following, just can't operate as normal.Therefore the utility model proposes the operating principle of pressurising in turn at times that hydraulic pressure advances the district.Specifically be embodied as definition accumulator pressurising time t.At first t in the time period, the pressurising of 1 district.The solenoid operated directional valve 5.1 in 1 district switches to right position; Second electromagnetic switch valve 11.1 is closed; Constant pressure variable displacement pump 2 pressure are adjusted to than 1 district and advance the slightly high force value of set pressure, to advancing 1 district to carry out fuel feeding, make 7.1 pressurisings of 1 district's accumulator; Pressurising pressure should lean under the accumulator fuel feeding more than 3 pressurising time of the operate as normal t to keeping 1 district, and the 1 district required hydraulic oil of propelling is provided by constant pressure variable displacement pump 2 during the pressurising.Advance the solenoid operated directional valve 5.2,5.3,5.4 in 2,3,4 districts all to be in meta this moment, and second electromagnetic switch valve 11.2,11.3,11.4 is opened, and each power source of distinguishing is to be provided by separately accumulator to advance.Finishing in first t time period, get into second t time period, then is the pressurising of 2 districts.Need adjust is that the solenoid operated directional valve 5.1 in 1 district is got back to meta, cuts off the fuel feeding road of constant pressure variable displacement pump 2, and second electromagnetic switch valve 11.1 is opened; Connect the drainback passage of hydraulic cylinder 10.1, the solenoid operated directional valve 5.2 in 2 districts switches to right position, connects constant pressure variable displacement pump 2 oil feeding lines; Second electromagnetic switch valve 11.2 is closed, and constant pressure variable displacement pump 2 pressure are adjusted to the force value that advances set pressure Gao Lvegao than 2 districts, to advancing 2 districts to carry out fuel feeding; Make 7.2 pressurisings of 2 district's accumulators; Equally, pressurising pressure should lean under the accumulator fuel feeding more than 3 pressurising time of the operate as normal t to keeping 2 districts, and the 2 districts required hydraulic oil of propelling is provided by constant pressure variable displacement pump 2 during the pressurising.3, any change is not made in 4 districts, so advance the solenoid operated directional valve 5.1,5.3,5.4 in 1,3,4 districts all to be in meta this moment, second electromagnetic switch valve 11.1,11.3,11.4 is opened, and each power source of distinguishing is to be provided by separately accumulator to advance.And the like, at the 3rd t in the time period, constant pressure variable displacement pump 2 is to advancing the fuel feeding pressurising of 3 districts, and advances 1,2,4 districts by accumulator fuel feeding separately.The 4th t be in the time period, and constant pressure variable displacement pump 2 is to advancing the fuel feeding pressurising of 4 districts, and advance 1,2,3 districts by accumulator fuel feeding separately.Above-mentioned then circulation is carried out again and again.The operating principle of pressurising in turn at times through such propelling district just can guarantee that each accumulator all has enough pressure to keep progradation.

Claims (1)

1. energy-conservation shield structure hydraulic propelling system that advances the oil-feed oral-lateral that accumulator is installed comprises the hydraulic pump source of variable pump (2), proportional pressure control valve (3) and one way valve (4) composition of motor (1) control; It is characterized in that: the oil-out of one way valve (4) meets pressure pipeline P; Oil returning tube T connected tank; Between pressure pipeline P and oil returning tube T, be parallel with four the identical hydraulic pressure in upper and lower, left and right successively and advance the district to form energy-conservation shield structure hydraulic propelling systems, wherein go up hydraulic pressure and advance to distinguish and comprise: solenoid operated directional valve, two electromagnetic switch valves, accumulator, proportional throttle valve, proportional pressure control valve and PF cylinder pressures; The oil inlet P mouth of solenoid operated directional valve meets pressure pipeline P; The first actuator port A mouth of solenoid operated directional valve connects the oil inlet P mouth of first electromagnetic switch valve and the first actuator port A mouth of proportional throttle valve; The second actuator port B mouth of solenoid operated directional valve connects the rod chamber hydraulic fluid port of a plurality of hydraulic cylinders and the oil inlet P mouth of second electromagnetic switch valve; The oil-out A mouth of second electromagnetic switch valve takes back oil-piping T; The T mouth of solenoid operated directional valve takes back oil-piping T; The actuator port A mouth of first electromagnetic switch valve is connected with the hydraulic oil port of accumulator, and the second actuator port B mouth of proportional throttle valve is connected with the oil-in of proportional pressure control valve and the rodless cavity of said a plurality of hydraulic cylinders, and the oil-out of proportional pressure control valve takes back oil-piping T pipe; Said last, left and right, following four subregions advance the number ratio of oil cylinder to be 3:4:4:5, and the rod chamber and the rodless cavity of each hydraulic cylinder links together through conduit under fluid pressure respectively in each subregion.

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