CN207106471U - Fluid pressure type levelling control system based on mechanical-electrical-hydraulic integration design - Google Patents

Abstract

The utility model discloses a kind of fluid pressure type levelling control system based on mechanical-electrical-hydraulic integration design, horizon sensor, human and machine interface unit, the hydraulic system being connected with central processing unit output end, four leveling support legs and the four Auxiliary support legs being connected including central processing unit, with central processing unit input, hydraulic system mainly includes AC servo motor, hydraulic pump, hydraulic manifold block, the hydraulic motor being sequentially connected, and each leveling support leg is connected by a hydraulic motor with hydraulic manifold block.The utility model uses the mechanical-electrical-hydraulic integration technology based on PLC controls to realize the control of hydraulic leveling system and power-actuated requirement, pass through the intelligence detection in real time of the level inclination angle to level inclination sensor element, control fluid motor-driven, realize that four support legs link and are adjusted to horizontality, there is the advantages of hydraulic system integrated level is high, stable and reliable in work, fault rate is low, easy maintenance, volume compact, high hydraulic leveling precision.

Description

Fluid pressure type levelling control system based on mechanical-electrical-hydraulic integration design

Technical field

A kind of fluid pressure type automatic horizontal control system is the utility model is related to, is used for big-and-middle-sized radar truck car more particularly to one kind The fluid pressure type levelling control system based on mechanical-electrical-hydraulic integration design of carrying platform, communication van and various engineering trucks.

Background technology

Vehicular platform, communication van and various engineering trucks generally require to work in the state of fully horizontally.Typically pass through Four supporting legs are installed on vehicular platform, communication van and various engineering trucks, the strong point of four supporting legs connects to form square Shape, after platform or vehicle are fixed on into some position, by adjusting each supporting leg, realize the horizontal tune of platform or vehicle It is whole.The Chinese utility model patent of Application No. 201010588391.5 provide a kind of leveling method based on four-point supporting and Electromechanical automatic leveling system, it uses the leveling that motor drives four supporting legs to realize vehicle-mounted work platform, and its single leg is held Loading capability only has 10 tons, can only be by increasing the driving force of motor, the electricity now needed if increasing the bearing capacity of single leg Machine size and volume can correspondingly increase, and cost also greatly improves, and system maintenance and maintenance also accordingly become cumbersome.Meanwhile Diagonal leveling method used by the electromechanical automatic leveling system, level is exchanged for deformation, in regulation diagonally adjacent two During the balance of point, the deformation of car body can be produced, it has certain technological deficiency.

Therefore need badly and provide a kind of new automatic leveling controlling system to solve the above problems.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of fluid pressure type based on mechanical-electrical-hydraulic integration design and adjusted Flat control system, the less problem of bearing capacity of single supporting leg, and can enough avoid when can either solve to use electromechanical assembly Simple easy oil leakage when use hydraulic means, the problem of stability is not high, leveling precision is low, maintenance is cumbersome.

In order to solve the above technical problems, the technical scheme that the utility model uses is：One kind is provided and is based on mechanical electronic hydraulic The fluid pressure type levelling control system of integrated design, including central processing unit, the horizontal biography that is connected with central processing unit input Sensor, human and machine interface unit, landing detection switch, the hydraulic system being connected with central processing unit output end, four leveling supports Leg, hydraulic system mainly include AC servo motor, hydraulic pump, hydraulic manifold block, the hydraulic motor being sequentially connected, each leveling Supporting leg is connected by a hydraulic motor with hydraulic manifold block；

AC servo motor is used to drive hydraulic pump, the power source as hydraulic system；

Hydraulic manifold block is used for the switching for controlling hydraulic system oil circuit, realizes the forward and reverse of hydraulic motor；

Hydraulic motor is used to drive the flexible of leveling support leg, realizes the levelling function of leveling support leg；

Leveling support leg includes base, ball-screw, upper limit detection switch, lower limit detection switch, pulse detection switch, rolling Ballscrew is placed on base, and pulse detection switch, lower limit detection switch are arranged on the top of ball-screw, upper limit detection switch peace Mounted in the bottom of ball-screw；

The horizontal degrees of data that central processing unit is used for the instruction inputted according to human and machine interface unit and horizon sensor detects, Pass through each leveling support leg of HYDRAULIC CONTROL SYSTEM.

In one preferred embodiment of the utility model, the fluid pressure type levelling control system of the mechanical-electrical-hydraulic integration design Also include four Auxiliary support legs, each Auxiliary support leg is connected by a hydraulic motor with hydraulic manifold block, Auxiliary support The structure of leg is identical with the structure of leveling support leg.The point type vehicle-mounted hydraulic automatic horizontal control system of structure eight of eight supporters More steady, resistance to capsizing is strong, and replicates supporting leg and be consistent with leveling support leg structure design, has commutativity.

In one preferred embodiment of the utility model, the ball-screw of leveling support leg and Auxiliary support leg includes spiral shell Female, screw rod and ball, the upper end of screw rod are connected with the output shaft of hydraulic motor, the upper end both sides of nut be provided with boss, under End is provided with spherical end, and base is provided with spherical groove, and spherical end is placed in spherical groove；On the periphery of the nut of ball-screw Sleeve is arranged with, sleeve is connected with the upper end of screw rod by two-direction thrust bearing.

Further, ball-screw is located among sleeve, the spherical end of nut bottom stretch out sleeve lower port it Outside；Two-direction thrust bearing is sheathed on the outer peripheral face of screw rod upper end, and the outer peripheral face of two-direction thrust bearing covers with lower end and sleeve Inner peripheral surface is engaged；Pulse detection switch are arranged on the sleeve of nut outside the boss, and ball-screw obtains two for each revolution Individual pulse signal, the I/O port of central processing unit is delivered to, calculates the flexible actual range of leg that handles and then be supported.

In one preferred embodiment of the utility model, hydraulic manifold block includes bidirectional hydraulic lock, 2/2-way electromagnetism changes To valve, overflow valve, the precursor overflow valve being connected with hydraulic pump, two-bit triplet solenoid directional control valve, three-position four-way electromagnetic directional valve, two The input of two electric change valves of position is connected with precursor overflow valve, output end is connected with overflow valve, two-bit triplet electromagnetic switch The other end of valve is connected with hydraulic motor, and three-position four-way electromagnetic directional valve is connected by bidirectional hydraulic lock with hydraulic motor.Guide Overflow valve, overflow valve and 2/2-way solenoid directional control valve form system multi-stage pressure regulating and safety protection function, lead in the course of work The switching of operating pressure is realized in the switching for crossing two 2/2-way solenoid directional control valves；The maximum pressure of simultaneity factor is by guide's overflow Valve determines, to protect system not damaged because of hypertonia.Two-bit triplet solenoid directional control valve is used for locking and the solution for realizing motor Lock function, system work when, two-bit triplet solenoid directional control valve electromagnet obtain it is electric, hydraulic oil through two-bit triplet solenoid directional control valve flow to Hydraulic motor, realize the unblock of motor；After the completion of work, two-bit triplet solenoid directional control valve electromagnet dead electricity, hydraulic motor braking Fluid flows back to fuel tank, motor locking in device.Three-position four-way electromagnetic directional valve primarily serves the effect of switching oil circuit, realizes hydraulic pressure horse The forward and reverse reached.Bidirectional hydraulic lock is used for long-time fastening system after system cut-off, it is ensured that will not in the case of system at rest Glide, duplicate protection is formed with hydraulic motor.

In one preferred embodiment of the utility model, hydraulic motor carries brake, for preventing motor from making in weight Voluntarily glided under, it is necessary to when acting, brake, hydraulic motor ability must be opened by internal control oil circuit to oil circuit fuel feeding Action, it is longer for supporting time, the not high locked loop of movement velocity, support leg lock function can be realized.

In one preferred embodiment of the utility model, central processing unit is programmable computer controller, the leveling System detects the inclination signal of seat coach sensor using PLC in real time, and the operational order of operating personnel is received by man-machine interface, By driving four hydraulic leveling supporting legs and four auxiliary support legs, single leg elevating movement, eight supporting leg synchronization lifting fortune are realized The motion of dynamic and automatic leveling.

The beneficial effects of the utility model are：

(1) the utility model uses hydraulic-driven, and the driving force of system is big, and load capacity is strong, the carrying of single supporting leg Ability reaches 15 tons, compact-sized, is adapted to use on heavy mobile vehicle；

(2) the utility model can make hydraulic pressure using hydraulic motor (band brake, Hall sensor) and bidirectional hydraulic lock System obtains higher locking precision, solves the problems, such as that hydraulic means stability is not high, leveling precision is low；

(3) the utility model uses 8 supporting constructions, and resistance to capsizing is strong, and system operatio is simple, easy to use, leveling Speed is fast, can effectively improve the mobility of vehicular platform；

(4) the utility model using the PLC hydraulic systems technology of combination of electric and hydraulic come realize the control of hydraulic leveling system with Power-actuated requirement, by the intelligence detection in real time of the level inclination angle to level inclination sensor element, control hydraulic pressure Motor drives, and realizes that four support legs link and are adjusted to horizontality；

Hydraulic system integrated level is high, and stable and reliable in work, fault rate is low, easy maintenance；Part overload protection ability is strong；Liquid Press leveling precision high, when the good system of adjustment is operated under different external environment conditions and load state, levelling effect can be kept High consistency；System architecture is succinct, and integrated level is high, volume compact, and modularization interchangeability is good.

The utility model is mainly used in big load mobile unit and the liquid of field work large special engineering platform Press in automatic horizontal control system, there is high leveling precision, intelligence degree height, speed is fast, bearing capacity is strong, stability is good, transmission Efficiency high, suitable for adverse circumstances, easy for operation, mobility is good, easy to maintain the advantages that.

Brief description of the drawings

Fig. 1 is the preferred embodiment of fluid pressure type levelling control system one that the utility model is designed based on mechanical-electrical-hydraulic integration Structured flowchart；

Fig. 2 is the theory diagram of the hydraulic system；

Fig. 3 is the cross-sectional view of the leveling support leg；

Fig. 4 is the cross-sectional view of the ball-screw；

Fig. 5 is the flow chart of the leveling method；

Fig. 6 is the coordinate system schematic diagram of the fluid pressure type levelling control system；

Fig. 7 is the control principle drawing of the fluid pressure type levelling control system；

The mark of each part is as follows in accompanying drawing：1st, AC servo motor, 2, hydraulic pump, 3, three-position four-way electromagnetic directional valve, 4th, bidirectional hydraulic lock, 5, hydraulic motor, 6, two-bit triplet solenoid directional control valve, 71, precursor overflow valve, 72, overflow valve, 8, two two Electric change valve, 9, leveling support leg, 91, base, 911, pressing plate, 912, bottom plate, 92, ball-screw, 921, nut, 9211st, boss, 922, screw rod, 923, ball, 93, upper limit detection switch, 94, lower limit detection switch, 95, pulse detection switch, 96th, sleeve, 961, lower end set, 962, upper end set, 97, spherical end, 98, two-direction thrust bearing, 99, shaft coupling, 90, be oriented to Key.

Embodiment

Preferred embodiment of the present utility model is described in detail below in conjunction with the accompanying drawings, so that the advantages of the utility model It can be easier to be readily appreciated by one skilled in the art with feature, it is apparent clear and definite so as to be made to the scope of protection of the utility model Define.

Referring to Fig. 1, the utility model embodiment includes：

A kind of fluid pressure type levelling control system based on mechanical-electrical-hydraulic integration design, including central processing unit and centre Reason device input connected horizon sensor, human and machine interface unit, landing detection switch, it is connected with central processing unit output end Hydraulic system, four leveling support legs.Horizon sensor, human and machine interface unit are connected by data wire with central processing unit Connect, horizon sensor is used to detection level degree and inputted to central processing unit, human and machine interface unit that touch-screen can be used, both can be with , again can be by instruction input for showing the information such as levelness, the electric current of support leg motor, moment of torsion, rotating speed, temperature, failure code To central processing unit.Landing detection switch is used to detect the whether close landing of leveling support leg.Central processing unit is used for according to people The instruction of machine boundary element input and the horizontal degrees of data of horizon sensor detection, are supported by each leveling of HYDRAULIC CONTROL SYSTEM Leg.

Hydraulic system includes hydraulic oil container, the AC servo motor 1 being sequentially connected, hydraulic pump 2, hydraulic manifold block, hydraulic pressure Motor 5, each leveling support leg 9 are connected by a hydraulic motor 5 with hydraulic manifold block.AC servo motor 1 is used to drive The mechanical energy of output is converted into the pressure energy of hydraulic fluid by hydraulic pump 2, hydraulic pump 2, and both collectively constitute the dynamic of hydraulic system Power source；Hydraulic manifold block is used for the switching for controlling hydraulic system oil circuit, realizes the forward and reverse of hydraulic motor 5；Hydraulic motor 5 For driving the flexible of leveling support leg 9, the levelling function of leveling support leg 9 is realized.The hydraulic system uses small size Engineering hydraulic station, its small volume is taken into full account in design, the requirement compact-sized, function is complete, has possessed complete pressure Control function, flow control function, leveling support leg synchronization control function and the outdoor functions of waterproof and dustproof used.The system The power source that is made up of AC servo motor 1 and hydraulic pump 2 provides power, by controlling the working condition of related hydraulic valve, Fluid is sent to hydraulic motor 5 by fluid pressure line, the driving leveling support leg of hydraulic motor 5 realizes the levelling function of vehicle.

Preferably, the hydraulic pump 2 of the hydraulic system selects PARKER high-pressure gear pumps, by controlling AC servo motor 1 rotating speed carrys out the output flow of controlling pump, and then realizes the change of the speed of leveling support leg 9, and speed when freely declining is 350mm/min, speed during leveling is 100mm/min.Hydraulic motor 5 is using import large torque low speed hydraulic motor and band brake Device, long-time self-locking can be realized.Hydraulic motor 5 carries brake, for prevent motor weight effect under voluntarily glide, it is necessary to During action, brake must be opened by internal control oil circuit, hydraulic motor 5 could act, for supporting time to oil circuit fuel feeding It is longer, the not high locked loop of movement velocity, support leg lock function can be realized.Bidirectional hydraulic lock 4 is by two hydraulically-controlled one-way valves It is arranged in same valve body, valve element uses cone valve type structure, and good seal performance, leakage is minimum, and oil circuit locking effect is preferable, double It is used to prevent hydraulic cylinder or motor from voluntarily gliding under weight effect, it is necessary to when acting to hydraulic lock 4, must leads to oil circuit fuel feeding Crossing internal control oil circuit opening check valve connects oil circuit, and hydraulic motor could act, longer for supporting time, movement velocity Not high locked loop, support leg lock function can be realized.Bidirectional hydraulic lock 4 locks leveling control for a long time after being used for system cut-off System processed, it is ensured that will not be glided in the case of system at rest, duplicate protection is formed with the hydraulic motor with brake.

With reference to Fig. 2, the one end of hydraulic pump 2 connection hydraulic oil container, the other end connection hydraulic manifold block of the hydraulic system.Institute Stating hydraulic manifold block includes bidirectional hydraulic lock 4,2/2-way solenoid directional control valve 8, overflow valve 72, the guide being connected with hydraulic pump 2 Overflow valve 71, two-bit triplet solenoid directional control valve 6, three-position four-way electromagnetic directional valve 3, the input of 2/2-way solenoid directional control valve 8 It is connected with precursor overflow valve 71, output end is connected with overflow valve 72, the other end and hydraulic motor of two-bit triplet solenoid directional control valve 6 5 are connected, and three-position four-way electromagnetic directional valve 3 is connected by bidirectional hydraulic lock 4 with hydraulic motor 5, three-position four-way electromagnetic directional valve 3 Output end, the output end of overflow valve 7 are respectively connected with hydraulic oil container.Precursor overflow valve 71, overflow valve 72 and 2/2-way electromagnetism change System multi-stage pressure regulating and safety protection function are formed to valve 8, cutting by two 2/2-way solenoid directional control valves 8 in the course of work Change the switching for realizing operating pressure；The maximum pressure of simultaneity factor is determined by precursor overflow valve 71, to protect system will not be because of pressure The too high damage of power.Two-bit triplet solenoid directional control valve 6 is used for locking and the unlocking function for realizing motor, when system works, two three The electromagnet of electric change valve 6 obtains electric, and hydraulic oil flows to hydraulic motor 5 through two-bit triplet solenoid directional control valve 6, realizes the solution of motor Lock；After the completion of work, the electromagnet dead electricity of two-bit triplet solenoid directional control valve 6, fluid flows back to fuel tank, horse in the brake of hydraulic motor 5 Up to locking.Three-position four-way electromagnetic directional valve 3 primarily serves the effect of switching oil circuit, realizes the forward and reverse of hydraulic motor 5.

After central processing unit sends leveling instruction, motor 1 starts, and drives hydraulic pump 2 to move, while four 3-position 4-ways The left side electromagnet of solenoid directional control valve 3 obtains electric, and reversal valve is operated in left position, and fluid is through check valve (not shown), 3-position 4-way Solenoid directional control valve 3, bidirectional hydraulic lock 4 enter hydraulic motor 5, drive hydraulic motor 5 to rotate forward, system enters leveling state, now The rotating speed of AC servo motor 1 reaches the first rotating speed, and the first rotating speed corresponds to speed (350mm/ when leveling support leg 9 freely declines Min), hydraulic pump 2 exports larger flow, and hydraulic motor 5 is rotated with higher speed, and leveling support leg 9 quickly lands；When falling Ground detection switch sends control signal, the rotating speed of AC servo motor 1 is decreased to the second rotating speed, and the second rotating speed corresponds to leveling support Speed (100mm/min) during leg leveling, the flow of hydraulic pump 2 reduce, and four leveling support legs 9 are started building with relatively low speed band Make platform rising, into leveling strategy working procedure.When leveling support leg 9 is withdrawn, central processing unit sends signal, control three The position right side electromagnet of four-way electromagnetic reversing valve 3 obtains electric, is operated in right position, and now hydraulic motor 5 rotates backward, and drives supporting leg to receive Return.When leveling support leg 9 reaches lower limit detection switch 94, system, which sends signal, is operated in three-position four-way electromagnetic directional valve 3 Middle position, while motor 1 stalls, hydraulic pump 2 is stopped.When by workbench lifting in the air, brake failure, stop do not live work When making platform, hydraulic motor 5 can rotate in the presence of weight, due to devising bidirectional hydraulic lock 4 in system, therefore can keep The self-locking state of system, prevents workbench from falling.Preferably, three-position four-way electromagnetic directional valve 3 is from control work(manually The reversal valve of energy, it can so ensure to keep work in the case of electromagnet damage.When system dead electricity, pass through vehicle self-carrying Power takeoff takes out power and carrys out motor 1, and then drives hydraulic pump 5 to operate.

Refer to Fig. 3 and Fig. 4, leveling support leg 9 is the executing agency of the system, it include base 91, ball-screw 92, Upper limit detection switch 93, lower limit detection switch 94, pulse detection switch 95, ball-screw 92 are placed on base 91, and it includes spiral shell Mother 921, screw rod 922 and ball 923, ball-screw 92 are located among sleeve 96, and sleeve 96, nut 921 and screw rod 922 have phase Same axis.The upper end of screw rod 922 is connected with the output shaft of hydraulic motor 5, and the upper end both sides of nut 921 are provided with boss 9211st, bottom is provided with spherical end 97, and base 91 is provided with spherical groove, and the spherical end 97 of the bottom of nut 921 stretches out set Outside the lower port of cylinder 96, spherical end 97 is placed in spherical groove.Base 91 includes bottom plate 911 and pressing plate 912, the He of bottom plate 911 It is fixed together by screw between pressing plate 912, spherical end 97 is fixed in spherical groove by pressing plate 912.Ball Sleeve 96 is arranged with the periphery of the nut 921 of leading screw 92, the upper end of sleeve 96 and screw rod 922 passes through two-direction thrust bearing 98 It is connected；Two-direction thrust bearing 98 is sheathed on the outer peripheral face of the upper end of screw rod 922, the outer peripheral face of two-direction thrust bearing 98 and lower end The inner peripheral surface of set 961 and sleeve 96 is engaged, and the load force that screw rod 922 is subject to is delivered to rigid set by two-direction thrust bearing 98 On cylinder 96, thus improve the load-carrying properties of supporting leg.In the lower end of sleeve 96, sleeve 96 passes through feather key 90 and the phase of nut 921 Connection.Lower limit detection switch 94 is arranged on the top of sleeve 96, and upper limit detection switch 93 is arranged on the bottom of sleeve 96.Pulse is examined Slowdown monitoring switch 95 is arranged on the sleeve 96 in the outside of 921 boss of nut 9211, and ball-screw 92 obtains two pulses for each revolution Signal, the I/O port of central processing unit is delivered to, calculates the flexible actual range of leg that handles and then be supported.

In one preferred embodiment of the utility model, the fluid pressure type leveling control based on mechanical-electrical-hydraulic integration design System also includes four Auxiliary support legs, and each Auxiliary support leg is connected by a hydraulic motor 5 with hydraulic manifold block, auxiliary The structure of supporting leg is identical with the structure of leveling support leg 9, and Auxiliary support leg has landing detection function.Eight supporters The point type vehicle-mounted hydraulic automatic horizontal control system of structure eight is more steady, and resistance to capsizing is strong, and replicates supporting leg and leveling branch Support leg structure design is consistent, and has commutativity.Leveling support leg 9, Auxiliary support leg are fixed on the bionical branch of seat coach both sides On arm, using the structure type of outward flange bolt-connection, it is easy to quickly change and repair, meets maneuverability requirement.Wherein, land Detection switch is installed in the inside of outward flange.Leveling support leg 9, Auxiliary support leg and hydraulic motor 5 are combined into one, single Supporting leg maximum output ability is up to 15 tons.

Referring to Fig. 5, the leveling method of the fluid pressure type levelling control system based on mechanical-electrical-hydraulic integration design is being adjusted Using " chasing after height " leveling, the leveling strategy of " keeping rising " on flat algorithm.The algorithm is independent in X-axis and Y-axis both direction respectively Leveling, ensure that bi-axial tilt degree is restrained to horizontal level convergence within the most short time, the rapid overall target for reaching leveling, together When, the leveling strategy can overcome the common process defect of " exchanging level for deformation ", and can be effectively prevented from " empty leg " Traditional handicraft defect.

Assuming that vehicular platform is pure rigid model, the coordinate system of levelling control system is as shown in Figure 6.Plane X₀Y₀It is horizontal Face, plane XY are platform planes, and O, A, B, C are the strong points of 4 supporting legs of platform, and α represents platform with horizontal plane in X₀Direction of principal axis Angle, β represents platform and horizontal plane in Y₀The angle of direction of principal axis, L1, L2 are the length and width of mobile vehicle platform.X-axis first Direction leveling, α>2 points of risings of O, C, α when 0<2 points of risings of A, B when 0, when X-axis angle [alpha] carries out Y-axis tune again when within precision It is flat, β>2 points of risings of O, A, β when 0<2 points of risings of B, C when 0, when Y-axis angle beta recycles X-axis, Y under judgement when within precision Direction of principal axis angle accurate adjustment, when α, β meet required precision leveling terminate.

In real work, the system using programmable computer controller PLC as central processing unit, using hydraulic pressure and PLC builds to design, and with reference to Fig. 7, the operational order of operating personnel is received by human and machine interface unit, PLC is to level inclination biography The detection in real time of the intelligence of the level inclination angle of sensor, controls hydraulic manifold block, so as to control with the control mode of IO input and output Hydraulic motor rotating processed, drive screw mandrel to move up and down, realize the elevating movement and automatic leveling motion of eight supporting legs.

The utility model uses hydraulic-driven, and the driving force of system is big, and load capacity is strong, the bearing capacity of single supporting leg Reach 15 tons, it is compact-sized, it is adapted to use on heavy mobile vehicle；Using hydraulic pressure horse, 5 (band brake, Hall sensors) And bidirectional hydraulic lock 4 can make hydraulic system obtain higher locking precision, solve that hydraulic means stability is not high, leveling is smart Spend the problem of low；Using 8 supporting constructions, resistance to capsizing is strong, and system operatio is simple, easy to use, and leveling speed is fast, energy Effectively improve the mobility of vehicular platform；

The utility model use based on PLC control mechanical-electrical-hydraulic integration technology come realize the control of hydraulic leveling system with Power-actuated requirement, by the intelligence detection in real time of the level inclination angle to level inclination sensor element, control hydraulic pressure Motor drives, and realizes that four support legs link and are adjusted to horizontality；Hydraulic system integrated level is high, stable and reliable in work, fault rate It is low, easy maintenance；Part overload protection ability is strong；Hydraulic leveling precision is high, and the good system of adjustment is operated in different external rings When under border and load state, the high consistency of levelling effect can be kept；System architecture is succinct, and integrated level is high, volume compact, mould Block interchangeability is good.

The utility model is mainly used in big load mobile unit and the liquid of field work large special engineering platform Press in automatic horizontal control system, there is high leveling precision, intelligence degree height, speed is fast, bearing capacity is strong, stability is good, transmission Efficiency high, suitable for adverse circumstances, easy for operation, mobility is good, easy to maintain the advantages that.

Embodiment of the present utility model is the foregoing is only, not thereby limits the scope of the claims of the present utility model, it is every The equivalent structure or equivalent flow conversion made using the utility model specification and accompanying drawing content, or be directly or indirectly used in Other related technical areas, similarly it is included in scope of patent protection of the present utility model.

Claims (7)

1. it is a kind of based on mechanical-electrical-hydraulic integration design fluid pressure type levelling control system, it is characterised in that including central processing unit, Horizon sensor, human and machine interface unit, landing detection switch and the central processing unit being connected with central processing unit input export The connected hydraulic system in end, four leveling support legs, hydraulic system mainly include AC servo motor, the hydraulic pressure being sequentially connected Pump, hydraulic manifold block, hydraulic motor, each leveling support leg are connected by a hydraulic motor with hydraulic manifold block；

AC servo motor is used to drive hydraulic pump, and the power source of hydraulic system is collectively constituted with hydraulic pump；

Hydraulic manifold block is used for the switching for controlling hydraulic system oil circuit, realizes the forward and reverse of hydraulic motor；

Hydraulic motor is used to drive the flexible of leveling support leg, realizes the levelling function of leveling support leg；

Leveling support leg includes base, ball-screw, upper limit detection switch, lower limit detection switch, pulse detection switch, ball wire Thick stick is placed on base, and pulse detection switch, lower limit detection switch are arranged on the top of ball-screw, and upper limit detection switch is arranged on The bottom of ball-screw；

The horizontal degrees of data that central processing unit is used for the instruction inputted according to human and machine interface unit and horizon sensor detects, passes through The each leveling support leg of HYDRAULIC CONTROL SYSTEM.

2. the fluid pressure type levelling control system according to claim 1 based on mechanical-electrical-hydraulic integration design, it is characterised in that Also include four Auxiliary support legs, each Auxiliary support leg is connected by a hydraulic motor with hydraulic manifold block, Auxiliary support The structure of leg is identical with the structure of leveling support leg.

3. the fluid pressure type levelling control system according to claim 1 or 2 based on mechanical-electrical-hydraulic integration design, its feature exist Include nut, screw rod and ball in the ball-screw of, leveling support leg and Auxiliary support leg, the upper end of screw rod and hydraulic motor Output shaft is connected, and the upper end both sides of nut are provided with boss, bottom is provided with spherical end, and base is provided with spherical groove, ball Shape termination is placed in spherical groove；It is arranged with sleeve on the periphery of the nut of ball-screw, the upper end of sleeve Yu's screw rod passes through double Axial thrust bearing is connected.

4. the fluid pressure type levelling control system according to claim 3 based on mechanical-electrical-hydraulic integration design, it is characterised in that Ball-screw is located among sleeve, and the spherical end of nut bottom is stretched out outside the lower port of sleeve；Two-direction thrust bearing set On the outer peripheral face of screw rod upper end, the outer peripheral face of two-direction thrust bearing is covered with lower end and the inner peripheral surface of sleeve is engaged；Pulse Detection switch is arranged on the sleeve of nut outside the boss.

5. the fluid pressure type levelling control system according to claim 1 or 2 based on mechanical-electrical-hydraulic integration design, its feature exist In hydraulic manifold block includes bidirectional hydraulic lock, 2/2-way solenoid directional control valve, overflow valve, the guide's overflow being connected with hydraulic pump Valve, two-bit triplet solenoid directional control valve, three-position four-way electromagnetic directional valve, input and the guide's overflow of 2/2-way solenoid directional control valve Valve is connected, output end is connected with overflow valve, and the other end of two-bit triplet solenoid directional control valve is connected with hydraulic motor, 3-position 4-way electricity Magnetic reversal valve is connected by bidirectional hydraulic lock with hydraulic motor.

6. the fluid pressure type levelling control system according to claim 1 or 2 based on mechanical-electrical-hydraulic integration design, its feature exist In hydraulic motor carries brake.

7. the fluid pressure type levelling control system according to claim 1 or 2 based on mechanical-electrical-hydraulic integration design, its feature exist In central processing unit is programmable computer controller.