CN202451490U - Electro-hydraulic valve - Google Patents

Electro-hydraulic valve Download PDF

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Publication number
CN202451490U
CN202451490U CN201220097412.8U CN201220097412U CN202451490U CN 202451490 U CN202451490 U CN 202451490U CN 201220097412 U CN201220097412 U CN 201220097412U CN 202451490 U CN202451490 U CN 202451490U
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China
Prior art keywords
spool
nut
electro
hydraulic valve
link
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CN201220097412.8U
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Chinese (zh)
Inventor
易小刚
李东
白子龙
张作良
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Sany Heavy Industry Co Ltd
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Sany Heavy Industry Co Ltd
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Abstract

The utility model provides an electro-hydraulic valve. The electro-hydraulic valve comprises a servo motor and a hydraulic valve, wherein the servo motor is connected with the hydraulic valve, and the servo motor can drive a valve core of the hydraulic valve to move. The electro-hydraulic valve provided by the utility model has the advantages of fast response speed, high control precision, high linearity and fast response speed, and can eliminate the problem of vibration noise caused by hydraulic shock and overcome the defects caused by taking an electromagnet as an electrical-mechanical converter in the prior art.

Description

A kind of electro-hydraulic valve
Technical field
The utility model relates to the hydrovalve technical field, is specifically related to a kind of electro-hydraulic valve by driven by servomotor.
Background technique
At present; The electromechanical converter of hydrovalve is generally general electromagnet, proportion electro-magnet etc.; Hydrovalve at first becomes force signal to electrical signal conversion through above-mentioned electromagnet; Then through with the mechanical displacement signal that converts force signal to the hydrovalve spool that cooperates of spring, thereby the displacement of control hydrovalve spool, thereby make hydrovalve operate under the outlet pressure/rate of discharge of setting.
The above-mentioned hydrovalve of existing technology, because the restriction of electromagnet inherent characteristic, cause existing at least following problem: the electromagnet ouput force is little, and delivery stroke is restricted, causes the speed of response of hydrovalve slow, the oil rub resistance ability, the single-stage control ability is limited; Because single-stage hydrovalve control ability is limited, the hydrovalve of big flow just need be superimposed as secondary, three grades or more multi-level and come the driving of one-level one-level, cause bulky, and poor reliability; Because hydraulic system exists pulsation or other destabilizing factors, the inner problems such as vibration, noise that produce of render electrical magnet valve; Low, the poor linearity of the control accuracy of conventional hydraulic valve.
The model utility content
The hydrovalve ouput force is little in the above-mentioned existing technology, spool stroke is limited, speed of response is slow, stain resistance is poor in order to solve, the single-stage control ability is limited; Bulky, poor reliability during big flow; Inner generation vibration, the noise of being prone to; Problems such as control accuracy is low, linearity is poor or one of at least, the utility model provides a kind of electro-hydraulic valve, can overcome the technical problem that exists in the above-mentioned existing technology effectively.
The utility model provides a kind of electro-hydraulic valve, comprises actuating motor and hydrovalve; Said actuating motor is connected with said hydrovalve, and said actuating motor can drive the valve core movement of said hydrovalve.
In technique scheme; Preferably; Said spool is the sliding type spool, and the output shaft of said actuating motor is connected with said spool through movement conversion mechanism, and said movement conversion mechanism can convert rotatablely moving of said output shaft into the straight reciprocating motion of said spool.
In technique scheme, preferably, said movement conversion mechanism is a screw-nut body, comprises the leading screw and the nut that cooperate transmission, and wherein, the output shaft of said actuating motor is connected with leading screw, and said nut is connected with said spool through link press span.
In technique scheme, preferably, said electro-hydraulic valve also comprises rotatablely moving of said link press span is carried out spacing position-limit mechanism.
In technique scheme, preferably, said position-limit mechanism comprises and the parallel axes of said spool and the guide rail that fixedly installs that it axially is provided with guide groove in said link press span upper edge, and said guide groove cooperates with guide rail, and said guide groove can slide along said guide rail.
In technique scheme, preferably, said position-limit mechanism comprises and the parallel axes of said spool and the position-limited lever that fixedly installs that said position-limited lever passes said link press span, and said link press span can slide along said position-limited lever.
In technique scheme, preferably, said nut comprises first nut and second nut, and said link press span is fixedly connected with said first nut and/or second nut; Be provided with the adjustment piece between said first nut and said second nut, said adjustment piece applies pretightening force to said first nut and second nut, to adjust the axial clearance between said first nut and second nut and said leading screw.
In technique scheme, preferably, said adjustment piece is an elastomer block.
In technique scheme, preferably, said link press span is connected with said spool through the aligning contiguous block, and said aligning contiguous block can be adjusted the coaxality of said link press span and said spool.
In technique scheme, preferably, said aligning contiguous block is fixedly connected with said spool, and said link press span and said aligning contiguous block are hinged through cup-and-ball joint.
In technique scheme; Preferably; Said aligning contiguous block comprises first link and second link, an end of said first link stretch in said second link and with the said second link axially locating, said first link and the said second link radial clearance cooperate.
In technique scheme, preferably, said spool is the rotary type spool, and the output shaft of said actuating motor and said spool are rigidly connected.
In technique scheme, preferably, the output shaft of said actuating motor is provided with speed reducer.
The above-mentioned electro-hydraulic valve that the utility model provides, the electromagnet in the use actuating motor replacement existing technology electro-hydraulic valve uses the many disadvantages that electromagnet brought as the electromechanical converter of hydrovalve thereby overcome.
Because the torque of actuating motor output greatly, does not receive travel limits, speed of response fast, the electro-hydraulic valve oil rub resistance ability that makes the utility model provide is strong, speed of response fast, spool stroke can be unrestricted, control accuracy is high, the single-stage control ability is strong;
When available technology adopting solenoid actuated spool moves reciprocatingly; Need spring to cooperate and make valve core reset with spool; And because the utility model adopts actuating motor directly or be connected with the spool of hydrovalve through movement conversion mechanism, and the actuating motor in the utility model can just change counter-rotating, and clockwise and anticlockwise realization that can be through actuating motor is to the reciprocating control of spool; Thereby need not supporting use spring, so just eliminated problem by the caused vibration of hydraulic shock, noise;
Some hydrovalve is had relatively high expectations to control accuracy, and for example the ratio hydrovalve is not high owing to the proportion electro-magnet output accuracy in the existing technology; Cause its linearity not high; So the control accuracy of traditional Proportional valve is not high yet, poor linearity, speed of response are slow, does not often reach requirement, the utility model drives the spool of hydrovalve because of adopting actuating motor; Cause can adopt closed loop control, thereby the electro-hydraulic valve control accuracy that the utility model is provided is high, the linearity is high, speed of response is fast.
It is thus clear that the electro-hydraulic valve that adopts the utility model to provide can overcome the many disadvantages of available technology adopting electromagnet as electromechanical converter, has positive beneficial effect and application prospects.
Description of drawings
Fig. 1 is the structural representation according to said electro-hydraulic valve one embodiment of the utility model;
Fig. 2 is the C-C sectional view among Fig. 1;
Fig. 3 is the D portion enlarged view among Fig. 1;
Fig. 4 is the E portion enlarged view among Fig. 1;
Fig. 5 is the structural representation according to the another embodiment of the said electro-hydraulic valve of the utility model;
Fig. 6 is the F-F sectional view among Fig. 5;
Fig. 7 is the structural representation according to said another embodiment of electro-hydraulic valve of the utility model;
Fig. 8 is according to the said electro-hydraulic valve of a utility model embodiment structural representation again;
Fig. 9 is the sectional view of G-G among Fig. 8;
Figure 10 is the H-H sectional view among Fig. 8.
Wherein, the corresponding relation between reference character and the device name is among Fig. 1 to Figure 10:
Embodiment
In order to make those skilled in the art understand the technological scheme of the utility model better, the utility model is done further to specify below in conjunction with accompanying drawing and specific embodiment.
A lot of details have been set forth in the following description so that make much of the utility model; But; The utility model can also adopt other to be different from other modes described here and implement, and therefore, the utility model is not limited to the restriction of following disclosed specific embodiment.
To shown in Figure 4, be a embodiment like Fig. 1 according to the said electro-hydraulic valve of the utility model.Wherein, Fig. 1 is said this embodiment's of electro-hydraulic valve a structural representation; Fig. 2 is the C-C sectional view among Fig. 1; Fig. 3 is the D portion enlarged view among Fig. 1; Fig. 4 is the E portion enlarged view among Fig. 1.
With reference to figure 1, a kind of electro-hydraulic valve that the utility model provides comprises actuating motor 1 and hydrovalve 2, and said actuating motor 1 is connected with said hydrovalve 2, and said actuating motor 1 can drive spool 21 motions of said hydrovalve 2.In this embodiment, through the valve core movement of actuating motor control hydrovalve, break-make and the control of openings of sizes between spool 21 couples of control mouthful A, B and liquid entering hole P and liquid return hole T have been realized.
The above-mentioned electro-hydraulic valve that the utility model embodiment provides; Because of the electromechanical converter of the electromagnet in the use actuating motor replacement existing technology hydrovalve as hydrovalve; Use the many disadvantages that electromagnet brought thereby overcome: at first; Because the torque of actuating motor output greatly, does not receive travel limits, the electro-hydraulic valve oil rub resistance ability that makes the utility model provide is strong, speed of response fast, spool stroke can be unrestricted; Secondly; The solenoid actuated spool of available technology adopting moves reciprocatingly; Need spring to cooperate and make valve core reset with spool; And the utility model is owing to adopt actuating motor directly or be connected with the spool of hydrovalve through movement conversion mechanism, and the actuating motor in the utility model can just change counter-rotating, and clockwise and anticlockwise realization that can be through actuating motor is to the reciprocating control of spool; Thereby need not supporting use spring, so just eliminated problem by the caused vibration of hydraulic shock, noise; In addition, some hydrovalve is had relatively high expectations to control accuracy; For example the ratio hydrovalve because the electromagnet output accuracy is not high, causes its linearity not high in the existing technology; So the control accuracy of traditional Proportional valve is not high yet, poor linearity, speed of response are slow, does not often reach requirement, the utility model drives the spool of hydrovalve because of adopting actuating motor; Owing to can adopt closed loop control, thereby the electro-hydraulic valve control accuracy that the utility model is provided is high, the linearity is high, speed of response is fast.
It is thus clear that the electro-hydraulic valve that adopts the utility model to provide can overcome the many disadvantages of available technology adopting electromagnet as electromechanical converter, has positive beneficial effect.
In Fig. 1, this hydrovalve 2 comprises spool 21, valve body 22, front cover 23 and rear end cover 24.In specific embodiment; This spool 21 is the sliding type spool; Be that spool 21 is done straight reciprocating motion and controlled with the aperture to hydrovalve in valve body 22; Therefore, the output shaft of actuating motor 1 is connected with spool 21 through movement conversion mechanism 3, and movement conversion mechanism 3 can convert rotatablely moving of output shaft into the straight reciprocating motion of spool 21.
Above-mentioned movement conversion mechanism 3 is a screw-nut body, and it comprises the leading screw 32 and nut 31 that cooperates transmission, and wherein, the output shaft of actuating motor 1 is connected through coupling 8 with leading screw 32, and nut 31 is fixedly connected with spool 21 through link press span 4.Like this, the output shaft of actuating motor 1 rotates, and rotates synchronously to drive leading screw 32, and through cooperating between leading screw 32 and the nut 31, nut 31 is done straight reciprocating motion, thereby driving spool 21 carries out straight reciprocating motion, to control the aperture of valve port.Certainly, can also select the output shaft of actuating motor 1 to be connected, leading screw 32 and spool 21 ways of connecting with nut 31.Above-mentioned movement conversion mechanism 3 has a variety of selections, can also comprise pinion and rack, worm-and-wheel gear or cam mechanism etc., so long as the straight reciprocating motion that converts rotatablely moving of actuating motor into spool gets final product.
In one embodiment; Structure to front cover 23 designs accordingly, concrete axial length lengthening with front cover 23, and actuating motor 1 is fixed on the outer end of front cover 23; And in front cover 23, containing space is set, screw-nut body is located in this containing space.Through above-mentioned setting type, make actuating motor 1 and hydrovalve 2 be fixed together dexterously, screw-nut body is arranged in the front cover 23 of hydrovalve.In hydrovalve 2 working procedure, can improve the stability and the rigidity of whole electro-hydraulic valve of transmission of power of output shaft, screw-nut body and the spool 21 of actuating motor 1.
On the basis of said structure, rolling bearing 9 is set in front cover 23, the optical axis section of leading screw 32 is supported on the front cover 23 through rolling bearing 9.In order to satisfy stroke requirement to the spool 21 of hydrovalve 2; When hydrovalve 2 has a plurality of working positions and requires under the long situation of the stroke of spool 21; The axial length of screw-nut body needs lengthening equally; Realize the effective support effect to screw-nut body through rolling bearing is set, the excessive and moment of flexure that produces of the axial length of avoiding screw-nut body to occupy has further improved the stability of power transmission.
Need to prove that in actual application, for fear of the influence of the vibration of actuating motor 1 in operation process to hydrovalve 2, can independently be provided with between actuating motor 1 and the hydrovalve 2, promptly actuating motor 1 is not fixed on the front cover 23 of hydrovalve 2.At this moment, in order to improve the transmission stability of screw-nut body, corresponding fitting seat can also be set, screw-nut body is arranged in the fitting seat, can avoid external working environment its screw-nut body to be carried out the influence of power-converting.
In technique scheme, the output shaft of actuating motor 1 rotates, and drives leading screw 32 and rotates synchronously, and leading screw 32 matches with nut 31, and nut 31 is made axially reciprocating, thereby the spool 21 that drive is connected with nut 31 does reciprocating linear motion.In this movement conversion process; Because of the error in structural design and the assembly process; Under the driving of leading screw 32, the rotation of several angle possibly take place in nut 31, and the scope of this rotation angle is less; This phenomenon can cause link press span 4, spool 21 to carry out the rotation of several angle, thereby influences the running parameters such as valve port opening of spool.Therefore, for the motion state of the spool 21 of hydrovalve 2 is carried out strict control, this electro-hydraulic valve also comprises and is used to limit the position-limit mechanism that link press span 4 rotates.
With reference to figure 2, this position-limit mechanism comprises the guide rail 51 that is fixed on the front cover 23, the parallel axes setting of guide rail 51 and spool 21; And it axially is provided with guide groove 41 in link press span 4 upper edges, and guide groove 41 is engaged on the guide rail 51, and link press span 4 can slide along guide rail 51 through guide groove 41 like this.Adopt this position-limit mechanism; Leading screw 32 rotates under the driving of actuating motor 1; This position-limit mechanism has limited the rotation action of nut 31, link press span 4, and makes the straight reciprocating motion direction of link press span 4 and the parallel axes of spool 21, thereby further protects spool and improve the control accuracy of hydrovalve.Need to prove that the axial length of guide groove 41 can be set according to the displacement amount of spool, the position of guide rail 51.
As replacement scheme, can also on front cover 23, be fixed with slide block, guide groove 41 is engaged in the slide block, plays the function that restriction link press span 4 rotates equally.
The structure of above-mentioned position-limit mechanism is not limited to this, is illustrated in figure 5 as the structural representation according to the another embodiment of the utility model electro-hydraulic valve; Fig. 6 is the F-F sectional view among Fig. 5.
With reference to figure 5 and Fig. 6, this position-limit mechanism can comprise position-limited lever 52, and the two ends of position-limited lever 52 are fixed on the front cover 23, the parallel axes setting of position-limited lever 52 and spool 21, and position-limited lever 52 passes link press span 4, and link press span 4 can slide along position-limited lever 52.Through position-limited lever 52 is set, link press span 4 can slide along position-limited lever 52, thereby has limited rotatablely moving of link press span 4, makes the moving direction of link press span 4 and the parallel axes of spool 21.Understandable, the quantity to position-limited lever 52 among the utility model embodiment does not limit.In this embodiment, position-limited lever 52 can also pass nut 31, and promptly nut 31 all carries out horizontal slip along position-limited lever 52 with link press span 4.
In concrete design process, link press span 4 is fixedly connected with nut 31, link press span 4 and nut 31 the shelves limit to external diffraction circumferentially is set, position-limited lever 52 passes grade limit on link press span 4 and the nut 31 and is fixed on the front cover 2 its two ends or on the fitting seat.
In said structure, guide rail 51, position-limited lever 52 all with the parallel axes setting of spool 21, and be fixed on the front cover 23, thereby play the technique effect that restriction link press span 4 rotates.When concrete structure designs, if screw-nut body assembles through fitting seat, rather than be arranged in the front cover 23, so, guide rail 51, position-limited lever 52 can be fixed in the fitting seat accordingly, to satisfy the demand of its Position Design.
In the utility model embodiment; When being carried out movement conversion, the spinning movement of the output shaft of actuating motor 1 adopts screw-nut body; Because the error that exists in structural design and the assembly process; For example between leading screw 31 and nut 32, have axial clearance, the existence of this axial clearance can cause bigger mechanical shock, and has reduced sensitivity and speed of response that actuating motor just changes, reverses.
For this reason, as shown in Figure 3 in a kind of specific embodiment, above-mentioned nut 31 comprises that first nut 311 and 312, two nuts of second nut all are engaged on the leading screw 32, and link press span 4 is fixedly connected with said first nut 311 and/or second nut 312; Be provided with adjustment piece 313 between first nut and second nut, adjustment 313 pairs first nuts 311 of piece and second nut 312 apply pretightening force, to adjust the axial clearance of 32 of first nut 311 and second nut 312 and leading screws.
Among this embodiment, through nut 31 being set to first nut 311 and second nut 312, and adjustment piece 313 is set between two nuts; Apply pretightening force at adjustment piece 313; Make win nut 311 and second nut 312 all receive outside active force; Shown in the F among Fig. 3; Thereby make two nuts all have the trend of outside motion, promptly adjust the function that piece can reach two-way adjusting play, with the axial clearance between compensation nut and the leading screw.In leading screw 32 rotation processes; Axial clearance between first nut 311 and second nut 312 and the leading screw 32 is compensated through the active force of adjustment piece 313; Eliminated the mechanical impact force that causes owing to axial clearance; And improved sensitivity and the speed of response that actuating motor just changes, reverses, thereby make actuating motor 1 better brought into play as the effect of power source.
Certainly; In Fig. 3, adopt the structure of ball-screw nut; Through adjustment piece 313 between first nut 311 and second nut 312, the pretightening force that 313 pairs of two nuts of its adjustment piece apply can also be transmitted through ball, has further improved the reliability of its transmission.
Need apply active force to first nut 311 and second nut 312 based on adjustment piece 313; And adjustment piece 313 is set is elastomer block; Because elastomer block applies two-way function power to first nut 311 and second nut 312; The resiliently deformable of elastomer block can make the axial clearance between leading screw and the nut have certain adjustment surplus, to satisfy the work requirements of different operating modes.
In the utility model embodiment,, the annexation between link press span 4 and the spool 21 is further limited in order further to improve control accuracy to hydrovalve.
With reference to figure 4, link press span 4 is connected with spool 21 through aligning contiguous block 6, and this aligning contiguous block 6 can be adjusted the coaxality of said link press span 4 and said spool 21.Adopt this aligning contiguous block 6, can reduce the coaxality requirement of output shaft, leading screw and nut mechanism, link press span and the spool of actuating motor, reduce the structural design and the assembly precision requirement of above-mentioned each parts.If link press span 4 is rigidly connected with spool 21,, can cause wearing and tearing between spool and the valve body to strengthen even stuck when the output shaft of actuating motor 1, feed screw nut, link press span 4 during with spool 21 disalignments; Can adjust coaxality each other through aligning contiguous block 6; Make that the coaxality between spool and the valve body is unaffected; Can make spool 21 axially do straight reciprocating motion, thereby reduce the wearing and tearing between spool and the valve body, the control accuracy and the working life of improving hydrovalve according to predetermined.
In the present embodiment, as shown in Figure 4, this aligning contiguous block 6 is fixedly connected with spool 21, and link press span 4 is hinged through cup-and-ball joint with aligning contiguous block 6.For example, in the end of link press span 4 bulb is set, on aligning contiguous block 6, ball-and-socket is set, bulb is engaged in the ball-and-socket and can realizes the rotation of a plurality of degrees of freedom.Because cup-and-ball joint is hinged can to bear the stressed of all directions; Can realize the rotation of a plurality of degrees of freedom through the cup-and-ball joint articulated manner; When between link press span 4 and the spool 21 during disalignment; Can regulating spool 21 with the coaxality of link press span 4, thereby make spool 21 in valve body 22, to do straight reciprocating motion according to predetermined movement locus.
In order further to improve the effect that the spool coaxality is regulated; On the basis of said structure; This aligning contiguous block 6 comprises first link 61 and second link 62; One end of said first link 61 stretch in said second link 62 and with said second link, 62 axially locating, said first link 61 cooperates with said second link, 62 radial clearances.Specifically; As shown in Figure 4; First link 61 comprises link body 611, is outward extended with connecting head 612 along the axis of link body 611, is connected through linking neck 613 between link body 611 and the connecting head 612; Connecting head 612 is cylindrical body with linking neck 613, and the diameter of connecting head 612 is greater than the diameter of linking neck 613.Run through the diameter of the diameter of wherein first mounting hole 621 and second mounting hole, 622, the first mounting holes 621 less than second mounting hole 622 along the axial direction setting of second link 62, spool 21 is through being threaded matching and fixing in second mounting hole 622.Connecting head 612 is stretched into second mounting hole 622, and like this, linking neck 613 is engaged in first mounting hole 621, and the axial length of first mounting hole 621 equals the axial length of linking neck 613, to realize the axially locating of first link 61 and second link 62; The diameter of connecting head 612 is less than the diameter of second mounting hole 622; The diameter of linking neck 613 is less than the diameter of first mounting hole 621; Promptly an end of first link 61 and second link 62 radially has a gap, and promptly said radial clearance matches, to realize the adjustment to spool 21 coaxalitys.Adopt this structure, the axis (being the axis of spool) that first link 61 can relative second link 62 is done floating (domain of walker is exactly the scope in gap) among a small circle radially, thus the coaxality of adjustment link press span and spool.
Because between link press span 4 and first link 61 is the cup-and-ball joint articulated manner, this Placement is the transmission of influence power and motion not; The axial no gap between first link 61 and second link 62 does not simultaneously influence the sensitivity and the speed of response of valve core movement, under the situation that does not influence sensitivity and corresponding speed, has solved the out-of-alignment problem very dexterously.
Need to prove that in actual application, electro-hydraulic valve can comprise the technical characteristics of position-limit mechanism, screw-nut body, aligning contiguous block simultaneously, or the various combination form between above-mentioned any technical characteristics or the three.
In the utility model embodiment, in order to reduce the speed that actuating motor 1 is input to leading screw,, increase the stability of transmission of power to reduce mechanical impact force, output shaft that can actuating motor 1 as shown in Figure 7 is provided with speed reducer 7.
As Fig. 8 to shown in Figure 10 be according to the utility model electro-hydraulic valve structural representation of an embodiment again.Wherein, Fig. 8 is the structural representation of this enforcement electro-hydraulic valve, and Fig. 9 is the G-G sectional view among Fig. 8, and Figure 10 is the H-H sectional view among Fig. 8.
In the present embodiment, this hydrovalve 2 comprises spool 21, valve body 22, front cover 23 and rear end cover 24, and this spool 21 is the rotary type spool, and the output shaft of actuating motor 1 and spool 21 are rigidly connected.Like this, drive the rotation of spool 21, thereby control the aperture of valve port through rotatablely moving of actuating motor.
Same, the output shaft of actuating motor 1 is provided with speed reducer 7, to reduce the speed that actuating motor 1 is input to leading screw, to reduce mechanical impact force, increases the stability of transmission of power.
To sum up, the electro-hydraulic valve that the utility model provides, the oil rub resistance ability is strong, speed of response fast, spool stroke can be unrestricted; Eliminated problem by the caused vibration of hydraulic shock, noise; Control accuracy is high, the linearity is high, speed of response is fast.Overcome the many disadvantages of available technology adopting electromagnet as electromechanical converter.
More than the utility model; Be the theme and combine embodiment with electro-hydraulic valve; The utility model has been carried out detailed elaboration, still, according to the relation of principle and industrial and mineral between hydraulic transmission and control and Pneumatic Transmission and the control; Those skilled in the art is to be understood that; Can the utility model electro-hydraulic valve be used for Pneumatic Transmission and control fully, the electro-hydraulic valve that is about to the utility model uses as electropneumatic valve, carries out Pneumatic Transmission and control; Can solve equally that traditional air pressure valve ouput force is little, spool stroke is limited, speed of response is slow, stain resistance is poor, bulky during limited, the big flow of single-stage control ability, poor reliability, innerly problem such as be prone to produce vibration, noise, control accuracy is low, linearity is poor perhaps one of at least, realization and hydraulic transmission and control similar beneficial effect.
More than be merely the preferred embodiment of the utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various changes and variation.All within the spirit and principle of the utility model, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection domain of the utility model.

Claims (13)

1. an electro-hydraulic valve is characterized in that, comprises actuating motor (1) and hydrovalve (2); Said actuating motor (1) is connected with said hydrovalve (2), and said actuating motor (1) can drive spool (21) motion of said hydrovalve (2).
2. electro-hydraulic valve according to claim 1; It is characterized in that; Said spool (21) is the sliding type spool; The output shaft of said actuating motor (1) is connected with said spool (21) through movement conversion mechanism (3), and said movement conversion mechanism (3) can convert rotatablely moving of said output shaft into the straight reciprocating motion of said spool (21).
3. electro-hydraulic valve according to claim 2; It is characterized in that; Said movement conversion mechanism (3) is a screw-nut body, comprises the leading screw (32) and the nut (31) that cooperate transmission, wherein; The output shaft of said actuating motor (1) is connected with leading screw (32), and said nut (31) is connected with said spool (21) through link press span (4).
4. electro-hydraulic valve according to claim 3 is characterized in that, said electro-hydraulic valve also comprises rotatablely moving of said link press span (4) carried out spacing position-limit mechanism.
5. electro-hydraulic valve according to claim 4; It is characterized in that; Said position-limit mechanism comprises and the parallel axes of said spool (21) and the guide rail (51) that fixedly installs; It axially is provided with guide groove (41) in said link press span (4) upper edge, and said guide groove (41) cooperates with guide rail (51), and said guide groove (41) can slide along said guide rail (51).
6. electro-hydraulic valve according to claim 4; It is characterized in that; Said position-limit mechanism comprises and the parallel axes of said spool (21) and the position-limited lever (52) that fixedly installs that said position-limited lever (52) passes said link press span (4), and said link press span (4) can slide along said position-limited lever (52).
7. electro-hydraulic valve according to claim 3 is characterized in that, said nut (31) comprises first nut (311) and second nut (312), and said link press span (4) is fixedly connected with said first nut (311) and/or second nut (312); Be provided with adjustment piece (313) between said first nut (311) and said second nut (312); Said adjustment piece (313) applies pretightening force to said first nut (311) and second nut (312), to adjust the axial clearance between said first nut (311) and second nut (312) and said leading screw (32).
8. electro-hydraulic valve according to claim 7 is characterized in that, said adjustment piece (313) is an elastomer block.
9. electro-hydraulic valve according to claim 3 is characterized in that, said link press span (4) is connected with said spool (21) through aligning contiguous block (6), and said aligning contiguous block (6) can be adjusted the coaxality of said link press span (4) and said spool (21).
10. electro-hydraulic valve according to claim 9 is characterized in that, said aligning contiguous block (6) is fixedly connected with said spool (21), and said link press span (4) is hinged through cup-and-ball joint with said aligning contiguous block (6).
11. electro-hydraulic valve according to claim 10; It is characterized in that; Said aligning contiguous block (6) comprises first link (61) and second link (62); One end of said first link (61) stretch in said second link (62) and with said second link (62) axially locating, said first link (61) and the cooperation of said second link (62) radial clearance.
12. electro-hydraulic valve according to claim 1 is characterized in that, said spool (21) is the rotary type spool, and the output shaft of said actuating motor (1) and said spool (21) are rigidly connected.
13., it is characterized in that the output shaft of said actuating motor (1) is provided with speed reducer (7) according to each described electro-hydraulic valve of claim 1-12.
CN201220097412.8U 2012-03-09 2012-03-09 Electro-hydraulic valve Withdrawn - After Issue CN202451490U (en)

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CN201220097412.8U CN202451490U (en) 2012-03-09 2012-03-09 Electro-hydraulic valve

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CN201220097412.8U CN202451490U (en) 2012-03-09 2012-03-09 Electro-hydraulic valve

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CN202451490U true CN202451490U (en) 2012-09-26

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102562702A (en) * 2012-03-09 2012-07-11 三一重工股份有限公司 Electro hydraulic valve

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102562702A (en) * 2012-03-09 2012-07-11 三一重工股份有限公司 Electro hydraulic valve
CN102562702B (en) * 2012-03-09 2016-03-16 三一重工股份有限公司 A kind of electro-hydraulic valve

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