CN104728193A - Load-sensitive electro-hydrostatic actuator - Google Patents

Abstract

The invention relates to a load-sensitive electro-hydrostatic actuator. The load-sensitive electro-hydrostatic actuator comprises a variable displacement hydraulic pump, a first series switch set, a dissymmetrical hydraulic cylinder, a pressure follow-up servo valve and an executing mechanism; the variable displacement hydraulic pump comprises an oil inlet and an oil outlet; the first series switch set comprises a first switch valve and a second switch valve which are connected in series; the dissymmetrical hydraulic cylinder comprises a shell and a first dissymmetrical piston, the shell is divided into a first rod cavity and a first non-rod cavity by the first dissymmetrical piston; the pressure follow-up servo valve is connected between the first rod cavity of the dissymmetrical hydraulic cylinder and the input end of the executing mechanism; the input end of the executing mechanism is connected with the output end of the pressure follow-up servo valve. By adopting the sensitive load electro-hydrostatic actuator, the output flow of the variable displacement hydraulic pump can be quantitatively adjusted by controlling the output hydraulic pressure of the pressure follow-up servo valve, and therefore the heat dissipation and power dissipation of the overall system can be reduced.

Description

The Electrical hydrostatic actuator of load-sensitive

Technical field

The present invention relates to a kind of Electrical hydrostatic actuator field, particularly a kind of Electrical hydrostatic actuator of load-sensitive.

Background technique

EHA (Electrical hydrostatic actuator, Electro-Hydrostatic Actuator) is the integrated local hydraulic actuator of a kind of height, is the actuator of power-by-wire actuating system in how electric aircraft.EHA has compared with traditional hydraulic actuation system that volume is little, lightweight, efficiency advantages of higher, is the focus of current research.By adopting the mode of load-sensitive, can energy loss be reduced, reducing the heating of motor.

At present, what the power-by-wire actuating system Application comparison of aircraft was many in the world is fixed displacement variable speed type Electrical hydrostatic actuator, and its advantage is that structure is simple, lighter in weight.But, due to the Integration Design of height, cause system radiating more difficult; Under heavy load, electric efficiency is lower, and electric current is comparatively large, and heating is serious, causes EHA to work long hours.

Current solution, one be system at the beginning of, consider the heat dissipation problem of system; Two is utilize variable-displacement pump, changes the velocity ratio of system, thus improve the power match situation of motor by changing pump delivery, reduces the heating value of system.And the stroking mechanism that the variable actuator of variable displacement pump adopts servo valve control oil hydraulic cylinder to carry out driven pump mostly realizes becoming discharge capacity, or the stroking mechanism of electromechanical actuator (EMA) driven pump is adopted to realize becoming discharge capacity; These two kinds of mode complicated structures, add system failure rate.

Because the power loss of load sensitive control system is lower, efficiency is far above conventional hydraulic system; High efficiency, power loss be little means the saving of fuel and the lower heating value of hydraulic system; Thus load-sensitive mode is introduced in EHA by Ye You research institution.But existing load-sensitive type EHA mostly adopts servovalve to carry out commutating and controls, and servovalve will produce amount of heat in the process of work, be unfavorable for the heating of reduction system.

Summary of the invention

Provide hereinafter about brief overview of the present invention, to provide about the basic comprehension in some of the present invention.Should be appreciated that this general introduction is not summarize about exhaustive of the present invention.It is not that intention determines key of the present invention or pith, and nor is it intended to limit the scope of the present invention.Its object is only provide some concept in simplified form, in this, as the preorder in greater detail discussed after a while.

A main purpose of the present invention is the Electrical hydrostatic actuator providing a kind of new load-sensitive, and it can reduce heating, the minimizing energy loss of whole system, and then improves the working efficiency of whole system.

According to an aspect of the present invention, a kind of Electrical hydrostatic actuator of load-sensitive, comprises and becomes displacement hydraulic pump, the first tandem tap group, asymmetrical cylinder, pressure follow-up type servovalve and actuator;

Described change displacement hydraulic pump comprises filler opening and oil outlet;

First tandem tap group comprises the first switch valve and the second switch valve of series connection, and the first end of described first switch valve is connected with described oil outlet, and the first end of described second switch valve is connected with described filler opening;

Described asymmetrical cylinder comprises housing and the first asymmetry piston, described housing is divided into the first rod chamber and the first rodless cavity by described first asymmetry piston, described first rod chamber is connected to the second end of described first switch valve and the second end of described second switch valve, and described first rodless cavity is connected to described filler opening;

Described pressure follow-up type servovalve is connected between the first rod chamber of described asymmetrical cylinder and the input end of described actuator, for regulating the instantaneous flow being input to described actuator input end;

The input end of described actuator is connected with the output terminal of described pressure servo valve, changes for generating based on the output hydraulic pressure of described pressure servo valve the signal that described change displacement hydraulic pump exports discharge capacity.

Adopt the Electrical hydrostatic actuator of load-sensitive of the present invention, the heating of system can be reduced, reduce energy loss.

Accompanying drawing explanation

Below with reference to the accompanying drawings illustrate embodiments of the invention, above and other objects, features and advantages of the present invention can be understood more easily.Parts in accompanying drawing are just in order to illustrate principle of the present invention.In the accompanying drawings, same or similar technical characteristics or parts will adopt same or similar reference character to represent.

Fig. 1 is the structural drawing of a kind of mode of execution of the Electrical hydrostatic actuator of load-sensitive of the present invention;

Fig. 2 is the structural drawing of a kind of mode of execution that the pressure follow-up type servovalve in Fig. 1 is sent out;

Fig. 3 is the pressure follow-up type servovalve spool of Fig. 2 schematic diagram when being positioned at left position;

Fig. 4 is the pressure follow-up type servovalve spool of Fig. 2 schematic diagram when being positioned at right position;

Fig. 5 is the Electrical hydrostatic actuator of the load-sensitive of Fig. 1 flow direction schematic diagram when being operated in first quartile and the second quadrant;

Fig. 6 is the Electrical hydrostatic actuator of the load-sensitive of Fig. 1 flow direction schematic diagram when being operated in third quadrant and fourth quadrant.

Embodiment

With reference to the accompanying drawings embodiments of the invention are described.The element described in an accompanying drawing of the present invention or a kind of mode of execution and feature can combine with the element shown in one or more other accompanying drawing or mode of execution and feature.It should be noted that for purposes of clarity, accompanying drawing and eliminate expression and the description of unrelated to the invention, parts known to persons of ordinary skill in the art and process in illustrating.

Shown in Figure 1, be the structural drawing of a kind of mode of execution of the Electrical hydrostatic actuator of load-sensitive of the present invention.

In the present embodiment, the Electrical hydrostatic actuator of load-sensitive comprises change displacement hydraulic pump 2, first tandem tap group, asymmetrical cylinder 9, pressure follow-up type servovalve 10 and actuator 4.

Wherein, become displacement hydraulic pump 2 and comprise filler opening and oil outlet.When specifically using, the filler opening and the oil outlet that become displacement hydraulic pump 2 all can carry out oil suction and oil extraction according to the actual requirements.

First tandem tap group comprises the first switch valve 7 and the second switch valve 8 of series connection.The first end of the first switch valve 7 is connected with oil outlet, and the first end of second switch valve 8 is connected with filler opening.

Asymmetrical cylinder 9 comprises housing and the first asymmetry piston.Housing is divided into the first rod chamber and the first rodless cavity by the first asymmetry piston, and the first rod chamber is connected to the second end of the first switch valve 7 and the second end of second switch valve 8, and the first rodless cavity is connected to filler opening.The post portion external load of the first asymmetry piston, for being with dynamic load to perform relevant action, or, move up and down under the drive of load.

Pressure follow-up type servovalve 10 is connected between the first rod chamber of asymmetrical cylinder 9 and the input end of actuator 4, for regulating the instantaneous flow being input to actuator 4 input end.

The input end of actuator is connected with the output terminal of pressure servo valve, becomes for generating to change based on the output hydraulic pressure of pressure servo valve the signal that displacement hydraulic pump 2 exports discharge capacity.

The Electrical hydrostatic actuator of the load-sensitive of present embodiment, also comprises the second tandem tap group and fuel tank 3.

Between the filler opening that second tandem tap group is connected to change displacement hydraulic pump 2 and oil outlet, and be connected with fuel tank 3, for the oil in fuel tank 3 being inputted asymmetrical cylinder 9 or the oil in asymmetrical cylinder 9 being expelled in fuel tank.

In one embodiment, the second tandem tap group can comprise the first Pilot operated check valve 5 and the second Pilot operated check valve 6 of series connection.

First Pilot operated check valve 5 comprises the first hydraulic control end, first input end and the first output terminal.First hydraulic control end is connected with filler opening, and first input end is connected with oil outlet, and the first output terminal is connected with fuel tank.Because the first hydraulic control end is connected with filler opening, when filler opening is high pressure, the first Pilot operated check valve 5 is opened.

Second Pilot operated check valve 6 comprises the second hydraulic control end, the second input end and the second output terminal.Second hydraulic control end is connected with oil outlet, and the second input end is connected with filler opening, and the second output terminal is connected with fuel tank.Because the second hydraulic control end is connected with oil outlet, when oil outlet is high pressure, the second Pilot operated check valve 6 is opened.

First asymmetry piston can comprise the first piston part and be connected in the first side, piston part and the first post portion vertical with the first piston part.

As a kind of preferred version, the cross-section area of the first piston part is two times that the first post cross section amasss.

In one embodiment, actuator 4 can be single-action hydraulic cylinder.

Single-action hydraulic cylinder 4 can comprise cylinder body, the second asymmetry piston and be positioned at the first spring of cylinder body.Second asymmetry piston comprises orthogonal second post portion and the second piston part.Second piston part coordinates formation one to comprise the second cavity of the entrance being connected to the first rod chamber with the inwall of cylinder body.

What the first spring was arranged at single-action hydraulic cylinder comprises in the 3rd cavity in the second post portion, the elastic force direction of the first spring and the dead in line in the second post portion, and the first spring works is in unstretched condition.

One end and second piston part in the second post portion are connected, the other end in the second post portion is connected to change displacement hydraulic pump, for according to entering liquid in the second cavity to the pressure of the second piston part and the first spring making a concerted effort to change and become displacement hydraulic pump and export discharge capacity the pressure of the second piston part.

In the present embodiment, become displacement hydraulic pump 2 and comprise swash plate, become the output flow of displacement hydraulic pump 2 and the angle of inclination positive correlation of swash plate.In other words, swash plate angle of inclination is larger, and the output flow becoming displacement hydraulic pump 2 is larger.

Second post portion of single-action hydraulic cylinder 4 is connected with the swash plate becoming displacement hydraulic pump, changes the output flow becoming displacement hydraulic pump 2 for the angle of inclination by changing swash plate.

Because single-action hydraulic cylinder 4 is connected with the first rod chamber of asymmetrical cylinder 9, it can the responsive hydraulic pressure when the first rod chamber, and promote the second asymmetry piston of single-action hydraulic cylinder 4 left, and then change the angle of inclination of the swash plate becoming displacement hydraulic pump 2.

In addition, the Electrical hydrostatic actuator of load-sensitive also comprises speed-adjustable motor 1.Speed-adjustable motor 1 is connected with change displacement hydraulic pump 2, becomes displacement hydraulic pump 2 for driving.

Such as, when single-action hydraulic cylinder 4 promotes the swash plate becoming displacement hydraulic pump 2, its angle of inclination is reduced, ensures that if think the power exporting the load be connected with asymmetrical cylinder 9 to remains unchanged simultaneously, the rotating speed of speed-adjustable motor 1 can be increased.Rotating speed by increasing motor 1 ensures that the power exporting load place to remains unchanged.So, the Driving Torque of motor reduces, and therefore its electric current reduces, and then reduces copper loss and the heating value of motor.

Shown in Figure 2, be the structural drawing of a kind of mode of execution of pressure follow-up type servovalve 3 in the Electrical hydrostatic actuator of load-sensitive of the present invention.

In the present embodiment, pressure follow-up type servovalve 3 comprises housing 150, is positioned at the spool 15 of housing 150 and the first decompression half-bridge 130.

Wherein, spool 15 is asymmetric plunger, comprises the 3rd post portion 151 of stretching out outside housing 150 and is connected with the 3rd post portion 151 and is positioned at the 3rd piston part of housing 150.

3rd piston part has peripheral groove, and the 3rd piston part is divided into the first cock body 152 and the second cock body 153 by peripheral groove.First cock body 152 and the second cock body 153 form Spielpassung with housing 150.

Housing 150 is divided into the 3rd rod chamber in the 3rd post portion 151 that comprises by spool 15, the intermediate cavity between the first cock body 152 and the second cock body 153, and the 3rd rodless cavity.

Housing 15 is provided with the first entrance 154, second entrance 155 and the 3rd entrance 156.

First entrance 154 is connected to the first rod chamber of asymmetrical cylinder 9, and for receiving the hydraulic pressure input of the first rod chamber, the second entrance 155 is connected with external fuel tank T.So, pressure follow-up type servovalve of the present invention by the second entrance 355 externally fuel tank T discharge unnecessary oil.

First entrance 154 is also connected with the first first end reducing pressure half-bridge 130, also reduce pressure with first second end of half-bridge 130 of second entrance 155 is connected, 3rd entrance 156 is connected with the first middle end reducing pressure half-bridge 130, for inputing to the 3rd rodless cavity by after external hydraulic input (namely from the hydraulic pressure of the first rod chamber) dividing potential drop.

Housing 150 is also provided with outlet 157 and feedback port 158, outlet 157 is connected with the input end of actuator 4, feedback port 158 for by outlet 157 hydraulic feedback to the 3rd rod chamber.

In one embodiment, the first decompression half-bridge 130 can comprise first segment discharge orifice 13 and the second section discharge orifice 14 of series connection.First entrance 154 can be connected to the first end of first segment discharge orifice 13, and the 3rd entrance 156 can be connected to the second end of first segment discharge orifice 13 and the first end of second section discharge orifice 14.Second entrance 155 is connected to the second end of second section discharge orifice 14.In other words, because the second entrance 155 is connected with external fuel tank T with second section discharge orifice 14 simultaneously, the oil pressure of the second end of the second entrance 155 and second section discharge orifice 14 is zero.

In another embodiment, pressure follow-up type servovalve 10 can also comprise the second decompression half-bridge 170.

Second decompression half-bridge 170 can comprise the 3rd throttle orifice 17 and the 4th throttle orifice 18 of series connection.The first end of the 3rd throttle orifice 17 can be connected with outlet 157.Second end of the 3rd throttle orifice 17 is connected with feedback port 158 with the first end of the 4th throttle orifice 18.Second end of the 4th throttle orifice 18 is connected with external fuel tank T, makes the oil pressure of the second end of the 4th throttle orifice 18 be zero.

Pressure follow-up type servovalve 10 also comprises power plant 11.Power plant 11 for apply to the 3rd post portion 151 along poppet shaft to axial force, based on axial force regulate outlet output hydraulic pressure.

In one embodiment, power plant 11 can be such as proportion electro-magnet or voice coil motor.

As a kind of preferred version, pressure follow-up type servovalve 10 can also comprise the second spring 12 be arranged in the 3rd rod chamber and the 3rd spring 16 be arranged in the 3rd rodless cavity.The elastic force direction of the second spring 12 and the 3rd spring 16 and the dead in line of spool, and the second spring 12 and the 3rd spring 16 work in unstretched condition.

If the thrust of power plant 11 is F _m, making a concerted effort for F of the second spring 12 and the 3rd spring 16 _k.When ignoring hydraulic power, have during homeostasis:

F _M-F _K＝P _s’S ₁-P _A’S ₂＝P _sS ₁/K ₁-P _AS ₂/K ₂，

Wherein, S ₁and S ₂be respectively P _s' and P _a' active area, namely S1 is the sectional area of the second cock body 153 in the 3rd rodless cavity, S ₂be the sectional area of the first cock body 152 in the 3rd rod chamber and the difference of the 3rd post portion 151 sectional area; K ₁be the decompression ratio of the first half-bridge 130, K ₂it is the decompression ratio of the second half-bridge 170.

Because spool travel is very little, therefore spring force also can be ignored, if there is S ₁/ K ₁=S ₂/ K ₂then have during homeostasis:

F _M＝P _sS ₁/K ₁-P _AS ₂/K ₂＝(P _s-P _A)S ₁/K ₁＝(P _s-P _A)S ₂/K ₂

As the thrust F of power plant 1 _mafter setting, just can approximation control inlet outlet pressure differential P _s-P _a, and then control valve outlet oil pressure P _a.

As a kind of preferred version, because the active area at spool 15 two ends is asymmetric, cause inlet outlet pressure differential P _s-P _awith the thrust F of power plant 11 _mdisproportionate, increase and control difficulty.For making up this asymmetric power, the difference of decompression ratio of can be reduced pressure by setting first half-bridge 130 and the second decompression half-bridge 170, makes P _sand P _atime equal, there is P _s' S ₁-P _a' S ₂=0.

Because the first decompression half-bridge 130 reduces the oil pressure inputed in housing, power plant 11 can be made by a less ouput force only can to control the oil pressure P of outlet 157 _ait is a predefined value.Therefore, the volume of whole pressure follow-up type servovalve 10 can be reduced

Fig. 3 is the pressure follow-up type servovalve spool of Fig. 2 schematic diagram when being positioned at left position, and Fig. 4 is the pressure follow-up type servovalve spool of Fig. 2 schematic diagram when being positioned at right position.

Below in conjunction with Fig. 2-4, the working state of the pressure follow-up type servovalve of present embodiment is described.

When pressure follow-up type servovalve is just started working, its spool is in meta, as the valve element position in Fig. 2.

As needs output oil pressure P _awhen being a predetermined value, reach predetermined P by regulating the thrust output of power plant 11 _avalue.

Suppose at thrust F _mwith the F that makes a concerted effort of the second spring 12 and the 3rd spring 16 _kunder effect, spool 15 moves to left position (as shown in Figure 3), now exports 157 and leads to external fuel tank T-phase, the oil pressure P of outlet 157 _ato reduce, meanwhile, the oil pressure P of feedback port 158 _a' also reduce, the power caused acting in the 3rd rod chamber on the first cock body 152 to the right reduces, and spool moves right.

When spool is pushed to right position as shown in Figure 4, outlet 157 communicates with the first entrance 154, exports 157 oil pressure P _ato increase, meanwhile, the oil pressure P of feedback port 158 _a' also increase, the power caused acting in the 3rd rod chamber on the first cock body 152 left increases, and spool 15 is moved to the left.

By above-mentioned adjustment process, final spool 15 will be stabilized in and make outlet oil pressure P _aequal the position of predefined value.

Being described as can be seen from above, by setting the thrust of power plant 11, just can control the oil pressure P of import and export 157 _a.If the oil pressure P of outlet 157 _ahigher than setting value, spool 15 moves right, the oil pressure P of outlet 157 _areduce, until keep balance.Similarly, if the oil pressure P of outlet 157 _alower than setting value, spool 15 is moved to the left, the oil pressure P of outlet 157 _aincrease, until keep balance.

So, just can the ouput force of quantitative adjustment actuating mechanism 11, and then quantitative adjusting becomes the swashplate angle of 2 of displacement hydraulic pump.

Fig. 5 is the Electrical hydrostatic actuator of the load-sensitive of Fig. 1 flow direction schematic diagram when being operated in first quartile and the second quadrant.The Electrical hydrostatic actuator that filled arrows in Fig. 5 represents load-sensitive is operated in liquid flow direction during first quartile; The Electrical hydrostatic actuator that hollow arrow in Fig. 5 represents load-sensitive is operated in liquid flow direction during the second quadrant.

Fig. 6 is the Electrical hydrostatic actuator of the load-sensitive of Fig. 1 flow direction schematic diagram when being operated in third quadrant and fourth quadrant.The Electrical hydrostatic actuator that filled arrows in Fig. 6 represents load-sensitive is operated in liquid flow direction during third quadrant; The Electrical hydrostatic actuator that hollow arrow in Fig. 6 represents load-sensitive is operated in liquid flow direction during fourth quadrant.

When the Electrical hydrostatic actuator of load-sensitive of the present invention is operated in first quartile, speed-adjustable motor 1 drives change displacement hydraulic pump 2 to rotate, high pressure oil is exported by the upper end (i.e. oil outlet) becoming displacement hydraulic pump 2, first switch valve 7 works in on-state, second switch valve 8 works in cut-off state, first asymmetry piston ouput force of asymmetrical cylinder 9 and movement velocity all downward, second Pilot operated check valve 6 is because the high pressure of upper end oil circuit is in open mode, a fluid part for first rodless cavity enters the filler opening becoming displacement hydraulic pump 2, and a part gets back to fuel tank 3.

When the Electrical hydrostatic actuator of load-sensitive of the present invention is operated in the second quadrant, asymmetrical cylinder 9 acts on by along carrying, and the ouput force of the first asymmetry piston is downward, and movement velocity upwards, becomes displacement hydraulic pump 2 and work in motor operating conditions.Speed-adjustable motor 1 works in generator operating mode, and the first switch valve 7 works in on-state, and second switch valve 8 works in cut-off state.Second Pilot operated check valve 6 is in open mode, and the fluid part entering the first rodless cavity flows into by becoming displacement hydraulic pump 2, and a part is by fuel tank 3 repairing.

When the Electrical hydrostatic actuator of load-sensitive of the present invention is operated in third quadrant, namely speed-adjustable motor 1 drives variable displacement pump to rotate backward, high pressure oil is exported by the lower end (i.e. filler opening) of pump, first switch valve 7 works in cut-off state, second switch valve 8 works in on-state, all upwards, the first Pilot operated check valve 5 is because the high pressure of lower end oil circuit is in open mode for the ouput force of the first asymmetry piston of asymmetrical cylinder 9 and movement velocity.The fluid of the first rod chamber enters the first rodless cavity by oil circuit, and remaining fluid is drawn by becoming displacement hydraulic pump 2 and is input to the first rodless cavity from fuel tank 3.

When the Electrical hydrostatic actuator of load-sensitive of the present invention is operated in fourth quadrant, asymmetrical cylinder 9 acts on by along carrying, first asymmetry piston ouput force upwards, and movement velocity is downward, become displacement hydraulic pump 2 and work in motor operating conditions, speed-adjustable motor 1 works in generator operating mode, first switch valve 7 works in cut-off state, and second switch valve 8 works in on-state, first Pilot operated check valve 5 is in open mode, a part of fluid of the first rodless cavity flows into the first rod chamber, and unnecessary fluid gets back to fuel tank 3 by becoming displacement hydraulic pump 2.

Because the first rod chamber of asymmetrical cylinder 9 and effective work area of the first rodless cavity are 1:2, and asymmetrical cylinder 9 actuator adopts Differential Driving when being operated in three four-quadrants, in other words, high pressure oil is communicated with the first rod chamber and first rodless cavity of asymmetrical cylinder 9 simultaneously, because the first rod chamber and the first rodless cavity exist difference in areas, at the same pressure, the active force of the first rodless cavity is greater than the first rod chamber, promote the piston rod movement of asymmetrical cylinder 9, in other words, high pressure oil is communicated with the first rod chamber and first rodless cavity of asymmetrical cylinder 9 simultaneously, therefore when the delivery pressure becoming displacement hydraulic pump 2 is constant, actuator is equal in one or three quadrant ouput forces, direction is contrary.The control asymmetry of such asymmetrical cylinder 9 is overcome, and obtains the control identical with symmetrical hydraulic cylinder and output characteristics.

In addition, choosing of speed-adjustable motor 1 power is no longer determined by the peak rate of flow of the first rodless cavity of asymmetrical cylinder.Namely power of motor reduces half than before, alleviates the weight of system, improves capacity usage ratio.Specifically, because the first rod chamber of asymmetrical cylinder 9 and the first rodless cavity exist difference in areas, when high pressure oil acts on the first rod chamber and the first rodless cavity respectively time, under same traffic, when high pressure oil acts on the first rod chamber time, ratio acted on the first rodless cavity, the movement velocity of the first asymmetry piston wants large.When being applied to the first rodless cavity to allow high pressure oil, the movement velocity of the first asymmetry piston arrives the maximum movement speed of this Electrical hydrostatic actuator, then need the peak rate of flow according to the maximum movement speed computing system of the first rodless cavity thus choose the power of speed-adjustable motor.According to the feature of this system, the area ratio of the first rod chamber and the first rodless cavity is 1:2, if do not adopt Differential Driving, then the power of speed-adjustable motor, rotating speed and rated current will be the twices adopting Differential Driving.In addition, after adopting Differential Driving, the weight of speed-adjustable motor and the volume of motor also have obvious minimizing.

In the four-quadrant operation of the Electrical hydrostatic actuator of load-sensitive of the present invention, according to the performance characteristic of oil circuit, first rod chamber is in high pressure operating mode always, again because effective work area of the first rod chamber and the first rodless cavity is 1:2, the pressure of the first rod chamber directly reacts the ouput force of actuator, therefore using the pressure of this first rod chamber directly as the input end of single-action hydraulic cylinder 4.When induced pressure raises, the pressure of the first rod chamber increases, then the second asymmetry piston of single-action hydraulic cylinder 4 is moved to the left, and the swashplate angle becoming displacement hydraulic pump 2 diminishes, and discharge capacity reduces.Meanwhile, in order to keep flow needed for load, can increase by improving speed-adjustable motor 1 rotating speed the output flow becoming displacement hydraulic pump 2, thus increasing the flow exporting load to.So, can thus reduce the heating of speed-adjustable motor 1, improve its working efficiency.

In addition, the outlet pressure Pa of pilot pressure follow-up type servovalve can be carried out by the ouput force of the power plant regulating pressure follow-up type servovalve 10, and then the swashplate angle of displacement hydraulic pump 2 and its output flow can be become by fixing quantity.

The Electrical hydrostatic actuator of load-sensitive of the present invention, can realize the control of the ouput force to actuator, displacement or speed.Specifically, the parameters such as the exportable power of Electrical hydrostatic actuator of the present invention, displacement and speed, this Electrical hydrostatic actuator can realize controlling respectively the power exported, displacement and speed respectively.In other words, when the output of Electrical hydrostatic actuator is power, it accurately can control size and the outbound course of ouput force; Also similar control can be realized for displacement and speed.

Adopt the Electrical hydrostatic actuator of load-sensitive of the present invention, the output hydraulic pressure by pilot pressure follow-up type servovalve quantitatively regulates the output flow becoming displacement hydraulic pump, and then reduces heat radiation and the power consumption of whole system.

Above some embodiments of the present invention are described in detail.As one of ordinary skill in the art can be understood, whole or any step of method and apparatus of the present invention or parts, can in the network of any calculating equipment (comprising processor, storage medium etc.) or calculating equipment, realized with hardware, firmware, software or their combination, this is that those of ordinary skill in the art use their basic programming skill just can realize when understanding content of the present invention, therefore need not illustrate at this.

In addition, it is evident that, when relating to possible peripheral operation in superincumbent explanation, any display device and any input device, corresponding interface and control program that are connected to any calculating equipment will be used undoubtedly.Generally speaking, related hardware in computer, computer system or computer network, software and realize the hardware of the various operations in preceding method of the present invention, firmware, software or their combination, namely form equipment of the present invention and each constituent elements thereof.

Therefore, based on above-mentioned understanding, object of the present invention can also be realized by an operation program or batch processing on any messaging device.Described messaging device can be known standard equipment.Therefore, object of the present invention also can realize only by the program product of providing package containing the program-code realizing described method or equipment.That is, such program product also forms the present invention, and stores or the medium that transmits such program product also forms the present invention.Obviously, described storage or transmission medium can be well known by persons skilled in the art, or the storage of any type developed in the future or transmission medium, therefore also there is no need to enumerate various storage or transmission medium at this.

In equipment of the present invention and method, obviously, each parts or each step reconfigure after can decomposing, combine and/or decomposing.These decompose and/or reconfigure and should be considered as equivalents of the present invention.Also it is pointed out that the step performing above-mentioned series of processes can order naturally following the instructions perform in chronological order, but do not need necessarily to perform according to time sequencing.Some step can walk abreast or perform independently of one another.Simultaneously, above in the description of the specific embodiment of the invention, the feature described for a kind of mode of execution and/or illustrate can use in one or more other mode of execution in same or similar mode, combined with the feature in other mode of execution, or substitute the feature in other mode of execution.

Should emphasize, term " comprises/comprises " existence referring to feature, key element, step or assembly when using herein, but does not get rid of the existence or additional of one or more further feature, key element, step or assembly.

Although described the present invention and advantage thereof in detail, be to be understood that and can have carried out various change when not exceeding the spirit and scope of the present invention limited by appended claim, substituting and conversion.And the scope of the application is not limited only to the specific embodiment of process, equipment, means, method and step described by specification.One of ordinary skilled in the art will readily appreciate that from disclosure of the present invention, can use perform the function substantially identical with corresponding embodiment described herein or obtain and its substantially identical result, existing and that will be developed in the future process, equipment, means, method or step according to the present invention.Therefore, appended claim is intended to comprise such process, equipment, means, method or step in their scope.

Claims (14)

1. an Electrical hydrostatic actuator for load-sensitive, is characterized in that, comprises and becomes displacement hydraulic pump, the first tandem tap group, asymmetrical cylinder, pressure follow-up type servovalve and actuator;

Described change displacement hydraulic pump comprises filler opening and oil outlet;

First tandem tap group comprises the first switch valve and the second switch valve of series connection, and the first end of described first switch valve is connected with described oil outlet, and the first end of described second switch valve is connected with described filler opening;

Described asymmetrical cylinder comprises housing and the first asymmetry piston, described housing is divided into the first rod chamber and the first rodless cavity by described first asymmetry piston, described first rod chamber is connected to the second end of described first switch valve and the second end of described second switch valve, and described first rodless cavity is connected to described filler opening;

Described pressure follow-up type servovalve is connected between the first rod chamber of described asymmetrical cylinder and the input end of described actuator, for regulating the instantaneous flow being input to described actuator input end;

The input end of described actuator is connected with the output terminal of described pressure servo valve, changes for generating based on the output hydraulic pressure of pressure servo valve the signal that described change displacement hydraulic pump exports discharge capacity.

2. the Electrical hydrostatic actuator of load-sensitive according to claim 1, is characterized in that, also comprises the second tandem tap group and fuel tank;

Between the filler opening that described second tandem tap group is connected to described change displacement hydraulic pump and oil outlet, and be connected with described fuel tank, for the oil in described fuel tank being inputted described asymmetrical cylinder or the oil in described asymmetrical cylinder being expelled in described fuel tank.

3. the Electrical hydrostatic actuator of load-sensitive according to claim 2, is characterized in that:

Described second tandem tap group comprises the first Pilot operated check valve and second Pilot operated check valve of series connection;

Described first Pilot operated check valve comprises the first hydraulic control end, first input end and the first output terminal, and described first hydraulic control end is connected with described filler opening, and described first input end is connected with described oil outlet, and described first output terminal is connected with described fuel tank;

Described second Pilot operated check valve comprises the second hydraulic control end, the second input end and the second output terminal, and described second hydraulic control end is connected with described oil outlet, and described second input end is connected with described filler opening, and described second output terminal is connected with described fuel tank.

4. the Electrical hydrostatic actuator of load-sensitive according to claim 3, is characterized in that:

Described first asymmetry piston comprises the first piston part and is connected in described first side, piston part and the first post portion vertical with described first piston part;

The cross-section area of described first piston part is two times that described first post cross section amasss.

5. the Electrical hydrostatic actuator of load-sensitive according to claim 4, is characterized in that:

Described actuator is single-action hydraulic cylinder.

6. the Electrical hydrostatic actuator of load-sensitive according to claim 5, is characterized in that:

Described single-action hydraulic cylinder comprises cylinder body, the second asymmetry piston and is positioned at the first spring of described cylinder body;

Described second asymmetry piston comprises orthogonal second post portion and the second piston part;

Described second piston part coordinates formation one to comprise with the inwall of described cylinder body to be connected to the second cavity of the entrance of described first rod chamber;

What described first spring was arranged at described single-action hydraulic cylinder comprises in the 3rd cavity in the second post portion, the elastic force direction of described first spring and the dead in line in described second post portion, and described first spring works is in unstretched condition

One end and described second piston part in described second post portion are connected, the other end in described second post portion is connected to described change displacement hydraulic pump, for according to enter liquid in described second cavity to the pressure of described second piston part and described first spring to the pressure of described second piston part make a concerted effort change described change displacement hydraulic pump and export discharge capacity.

7. the Electrical hydrostatic actuator of load-sensitive according to claim 6, is characterized in that:

Described change displacement hydraulic pump comprises swash plate, the angle of inclination of described swash plate and the output flow positive correlation of described change displacement hydraulic pump;

The post portion of described single-action hydraulic cylinder is connected with the swash plate of described change displacement hydraulic pump, changes the output flow of described change displacement hydraulic pump for the angle of inclination by changing described swash plate.

8. the Electrical hydrostatic actuator of load-sensitive according to claim 7, is characterized in that:

Also comprise speed-adjustable motor;

Described speed-adjustable motor is connected with described change displacement hydraulic pump, for driving described change displacement hydraulic pump.

9. the Electrical hydrostatic actuator of the load-sensitive according to claim 1-8 any one, is characterized in that, described pressure follow-up type servovalve comprises housing, is positioned at the spool of housing, also comprises the first decompression half-bridge;

Wherein,

Described spool is asymmetric plunger, comprise the 3rd post portion of stretching out outside described housing and be connected with described 3rd post portion and be positioned at the 3rd piston part of described housing, described 3rd piston part has peripheral groove, described 3rd piston part is divided into the first cock body and the second cock body by described peripheral groove, and described first cock body and described second cock body and described housing form Spielpassung;

Described housing is divided into the 3rd rod chamber including described post portion by described spool, the intermediate cavity between described first cock body and described second cock body, and the 3rd rodless cavity;

Described housing is provided with the first entrance, the second entrance and the 3rd entrance;

Described first entrance is connected with the first rod chamber of described asymmetrical cylinder, and described second entrance is connected with external fuel tank;

Described first entrance is also connected with the described first first end reducing pressure half-bridge, also reduce pressure with described first second end of half-bridge of described second entrance is connected, described 3rd entrance is connected with the described first middle end reducing pressure half-bridge, for by described have the hydraulic pressure dividing potential drop of the first rod chamber after input to described second rodless cavity;

Described housing is also provided with outlet and feedback port, described outlet is connected with the input end of described actuator, and described feedback port is used for described outlet hydraulic to feed back to described 3rd rod chamber.

10. the Electrical hydrostatic actuator of load-sensitive according to claim 9, is characterized in that:

Described first decompression half-bridge comprises first segment discharge orifice and the second section discharge orifice of series connection;

Described first entrance is connected to the first end of described first segment discharge orifice;

Described 3rd entrance is connected to the second end of described first segment discharge orifice and the first end of described second section discharge orifice;

Described second entrance is connected to the second end of described second section discharge orifice.

The Electrical hydrostatic actuator of 11. load-sensitives according to claim 10, is characterized in that:

Described pressure follow-up type servovalve also comprises the second decompression half-bridge;

Described second decompression half-bridge comprises the 3rd throttle orifice and the 4th throttle orifice of series connection;

The first end of described 3rd throttle orifice is connected with described outlet;

Second end of described 3rd throttle orifice is connected with described feedback port with the first end of described 4th throttle orifice;

Second end of described 4th throttle orifice is connected with described external fuel tank.

The Electrical hydrostatic actuator of 12. load-sensitives according to claim 11, is characterized in that, described pressure follow-up type servovalve also comprises power plant;

Described power plant be used for described 3rd post portion apply along described poppet shaft to axial force, regulate the output hydraulic pressure of described outlet based on described axial force.

The Electrical hydrostatic actuator of 13. load-sensitives according to claim 12, is characterized in that:

Described power plant are proportion electro-magnet or voice coil motor.

The Electrical hydrostatic actuator of 14. load-sensitives according to claim 13, is characterized in that, described pressure follow-up type servovalve also comprises:

The 3rd spring being arranged at the second spring in described 3rd rod chamber and being arranged in described 3rd rodless cavity;

Described second spring and the described elastic force direction of the 3rd spring and the dead in line of described spool, and described second spring and described 3rd spring works are in unstretched condition.