CN107725820B - No leakage Solenoid ball valve - Google Patents

Abstract

The present invention relates to a kind of No leakage Solenoid ball valves, it is characterised in that: including the valve body with inner passage, is provided on valve body and the first hydraulic fluid port, pressure oil port and oil return opening；Valve pocket with inner hole, is mounted on the inner passage of valve body, and the peripheral wall of valve pocket is equipped with the through-flow control hole to be connected to inner hole and the first hydraulic fluid port；The first valve seat with inner hole, is mounted on the left side of valve pocket, and the right side of the first valve seat has the first valve port to be connected to valve pocket inner hole and the hole T；The second valve seat with inner hole, is mounted on the right side of valve pocket, and the left side of the first valve seat has the second valve port to be connected to valve pocket inner hole and the hole P；Spool is connected with guide cylinder, first conical surface, second conical surface and sealing convex shoulder in turn from left to right, seals and forms liquid sealing between the periphery wall of convex shoulder and the inner hole of valve pocket, and the width of sliding sleeve is greater than the aperture of through-flow control hole.It is a kind of Solenoid ball valve simple and reasonable, that operating position and the equal No leakage of crossover position that commutates can be achieved.

Description

No leakage Solenoid ball valve

Technical field

The present invention relates to a kind of Solenoid ball valve, a kind of especially No leakage Solenoid ball valve.

Background technique

Control valve class is one of main prototype part of hydraulic system, and wherein Solenoid ball valve is one kind of control valve class.Electromagnetic ball Valve is exactly that spool is spherical solenoid electric valve, it is in addition to having all features of solenoid valve, and there are also its exclusive some characteristics.Its Using the ball-type solenoid directional control valve that the thrust of electromagnet pushes steel ball to realize oil circuit on-off as driving force, it is suitable for various mineral Oil is the hydraulic system of working media, to realize the pilot control of No leakage.It, can also when meeting flow-drooping characteristic requirement Direction controlling as other executing agencies.

Such as the Chinese utility model patent that an Authorization Notice No. is CN202048222U, entitled " direct-push type electromagnetic ball valve " The Solenoid ball valve for disclosing such a two-position three way, when electromagnet no power, steel ball is directly pressed in T mouthfuls of end valves by spring On seat, P mouthfuls and A mouthfuls conductings, cut-off and No leakage between A mouthfuls and T mouthfuls；When the solenoid is energized, electromagnet overcomes spring force will Steel ball is shifted on P mouthfuls of end valve seats, and A mouthfuls and T mouthful communicate, the hole the P and hole A is ended and No leakage.Although foregoing invention is able to achieve two The No leakage of operating position, but be detached from T mouthfuls of end valve seats in crossover position, that is, steel ball or be detached from P mouthfuls of end valve seats, it is in T mouthfuls Between end valve seat and P mouthfuls of end valve seats, when any one end valve seat contact seal of getting along well, P mouthfuls at this time, A mouthfuls and T mouthfuls are communicated, and P mouthfuls Oil liquid can directly flow back to T mouthfuls, be the purpose that No leakage cannot be achieved at this time, this is requiring the stringent application to be leakage Do not allow.

How to design and a can guarantee that dead-tight Solenoid ball valve is art technology even if transitional intermediate positions Personnel need the technical problem solved.

Summary of the invention

The technical problem to be solved by the present invention is to provided for above-mentioned state of the art it is a kind of it is simple and reasonable, The Solenoid ball valve of operating position and the equal No leakage of crossover position that commutates can be achieved.

The technical scheme of the invention to solve the technical problem is: a kind of No leakage Solenoid ball valve, feature exist In:

Including the valve body with inner passage, be provided on valve body the first hydraulic fluid port communicated with inner passage, pressure oil port and Oil return opening；Blind nut is mounted on the inner passage right part of valve body to block the right output port of inner passage；Valve with inner hole Set, is mounted on the inner passage of valve body, and the peripheral wall of valve pocket is equipped with the through-flow control to be connected to the inner hole and the first hydraulic fluid port of valve pocket Drilling；The first valve seat with inner hole, is mounted on the left side of valve pocket, the right side of the first valve seat have to be connected to valve pocket inner hole and First valve port in the hole T；The second valve seat with inner hole, is mounted on the right side of valve pocket, and the left side of the first valve seat has to be connected to Second valve port of valve pocket inner hole and the hole P；Spool is connected with guide cylinder, first conical surface, second conical surface and close in turn from left to right Convex shoulder is sealed, forms liquid sealing between the periphery wall of the sealing convex shoulder and the inner hole of valve pocket, seals the width of convex shoulder greater than through-flow The aperture of control hole；It moves to left to first conical surface thereon in spool by under the complete impaction state of the first valve port, the sealing convex shoulder On the left of through-flow control hole, the first hydraulic fluid port and oil return opening are blocked, meanwhile, the first hydraulic fluid port passes through through-flow control hole, the second valve port It is connected to afterwards with pressure oil port；The sealing by under the complete impaction state of the second valve port is moved to right to second conical surface thereon in spool Convex shoulder is located on the right side of through-flow control hole, and the first hydraulic fluid port is connected to the return port after passing through through-flow control hole, the first valve port, meanwhile, the One hydraulic fluid port and pressure oil port block；Under the centrally located state of spool, the sealing convex shoulder hides through-flow control hole completely Lid, first hydraulic fluid port are blocked with oil return opening and pressure oil port simultaneously；Spool driving structure, to drive spool to move left and right.

Preferably, above-mentioned spool driving structure includes mandril, the inner passage set on valve body and the right side positioned at spool, The left end of mandril is pushed up after the second valve port and is held in spool right end face, and the right end of mandril is equipped with spring, which acts on The trend that mandril makes mandril that a left side be kept to push away spool；Electromagnet is to push spool to move to right.When electromagnet must not be electric, spring passes through top Spool is shifted onto the first valve port position of valve body by bar；Push spool to overcome the compressing force of spring when electromagnet obtains electric, by spool to Right promotion.This driving structure is rationally distributed.

It is constrained to be formed to spool, it is ensured that smoothly left and right slides spool, is equipped in the inner passage of above-mentioned valve body Positioning sleeve is equipped with sealing element between the inner wall of the inner passage of the periphery and valve body of positioning sleeve, positioning sleeve is located at electromagnet and the Between one valve seat, the guide cylinder of the spool is located in the inner hole of positioning sleeve, and the inner hole of the periphery of spool and positioning sleeve it Between be equipped with sealing element.

As an improvement, the electromagnet is threadedly connected to valve body left end, mandril, the right end and valve of mandril are equipped in electromagnet The left end of core matches.

The valve body is equipped with connection runner, and the hole P is connected to by the connection runner with the left end of spool, in this way can be with balanced valve The stress of core left and right ends reduces the design power of electromagnet.

Compared with the prior art, the advantages of the present invention are as follows: spool be equipped with guide cylinder, first conical surface, second conical surface and Convex shoulder is sealed, seals and forms liquid sealing between the periphery wall of convex shoulder and the inner hole of valve pocket, the width for sealing convex shoulder is greater than through-flow control The aperture of drilling；The first valve port is compressed into shape completely when spool driving structure driving spool is moved to left to first conical surface thereon in this way Under state, the first hydraulic fluid port and oil return opening are blocked, meanwhile, the first hydraulic fluid port after through-flow control hole, the second valve port with pressure oil port by connecting It is logical；When spool driving structure driving spool is moved to right under the complete impaction state of the second valve port to second conical surface thereon, the One hydraulic fluid port is connected to the return port after passing through through-flow control hole, the first valve port, meanwhile, the first hydraulic fluid port and pressure oil port block；In valve Under the centrally located state of core, sealing convex shoulder through-flow control hole is completely covered by, the first hydraulic fluid port simultaneously with oil return opening and pressure Hydraulic fluid port blocks；So this Solenoid ball valve by the improvement to spool, can guarantee in operating position and commutation crossover position all without letting out Leakage.

Detailed description of the invention

Fig. 1 is the structure sectional view of the embodiment of the present invention；

Fig. 2 is the partial enlarged view of Fig. 1；

Fig. 3 is position view of the spool under crossover position state in the embodiment of the present invention；

Fig. 4 is the application principle schematic diagram of the embodiment of the present invention.

Specific embodiment

The present invention will be described in further detail below with reference to the embodiments of the drawings.

It as shown in figures 1-4, is a preferred embodiment of the present invention.

A kind of No leakage Solenoid ball valve, including

Valve body 1 with inner passage is provided with the first hydraulic fluid port A, the pressure oil P communicated with inner passage on valve body 1 and returns Hydraulic fluid port T.

Blind nut 2 is threaded in the inner passage right part of valve body 1 to block the right output port of inner passage；

Valve pocket 3 with inner hole, is mounted on the inner passage of valve body 1, and the peripheral wall of valve pocket 3 is equipped with to be connected to valve pocket 3 Inner hole and the first hydraulic fluid port A through-flow control hole 31, through-flow control hole 31 has multiple circumferentially equal portions.

The first valve seat 7 with inner hole, is mounted on the left side of valve pocket 3, and the right side of the first valve seat 7 has to be connected to valve pocket First valve port 71 of 3 inner holes and the hole T；The second valve seat 8 with inner hole is mounted on the right side of valve pocket 3, the left side of the second valve seat 8 With the second valve port 81 to be connected to 3 inner hole of valve pocket and the hole P.

Spool 5 is connected with guide cylinder 51, first conical surface 52, second conical surface 53 and sealing convex shoulder 54 in turn from left to right, It seals and forms liquid sealing between the periphery wall of convex shoulder 54 and the inner hole of valve pocket 3, the width D of sealing convex shoulder 54 is greater than through-flow control hole 31 aperture

It moves to left to first conical surface 52 thereon in spool 5 by under the complete impaction state of the first valve port 71, the sealing convex shoulder 54 are located at 31 left side of through-flow control hole, and the first hydraulic fluid port A and oil return inlet T block, meanwhile, the first hydraulic fluid port A by through-flow control hole 31, It is connected to after second valve port 81 with pressure oil port P.

It moves to right to second conical surface 53 thereon in spool 5 by under the complete impaction state of the second valve port 81, the sealing convex shoulder 54 are located at through-flow 31 right side of control hole, and the first hydraulic fluid port A after through-flow control hole 31, the first valve port 71 with oil return inlet T by being connected to, together When, the first hydraulic fluid port A and pressure oil port P are blocked.

Under the centrally located state of spool 5, through-flow control hole 31 is completely covered by by the sealing convex shoulder 54, and described One hydraulic fluid port A is blocked with oil return inlet T and pressure oil port P simultaneously；

Spool driving structure, to drive core assembly 5 to move left and right.Spool driving structure includes:

The left end on mandril 6, the inner passage set on valve body 1 and the right side positioned at spool 5, mandril 6 passes through the second valve port 81 Top is held in 5 right end face of spool afterwards, and the right end of mandril 6 is equipped with spring 4, which, which acts on mandril 6, makes mandril 6 keep left Push away the trend of spool 5.

Electromagnet 10 is to push spool 5 to move to right.

Positioning sleeve 9 is installed in the inner passage of valve body 1, the inner wall of the inner passage of the periphery and valve body 1 of positioning sleeve 9 it Between be equipped with sealing element, positioning sleeve 9 is located between electromagnet 10 and the first valve seat 7, and the guide cylinder 51 of spool 5 is located at positioning sleeve 9 Inner hole in, and between the periphery of spool 5 and the inner hole of positioning sleeve 9 be equipped with sealing element.

Electromagnet 10 is threadedly connected to 1 left end of valve body, and mandril 101, the right end and spool 5 of mandril 101 are equipped in electromagnet 1 Left end match.

Valve body 1 is set to connection runner 11, and the hole P is connected to by connection runner 11 with the left end of spool 5.

The operation principle and process of this No leakage Solenoid ball valve is as follows.

When electromagnet 10 must not be electric, spring 4 is shifted spool 5 at second valve port 71 of the first valve seat 7 by mandril 6, the One conical surface 52 will seal convex shoulder 54 and be located at 31 left side of through-flow control hole under the complete impaction state of first valve port 71, the first hydraulic fluid port A with Oil return inlet T blocks, meanwhile, the first hydraulic fluid port A after through-flow control hole 31, the second valve port 71 with pressure oil port P by being connected to.

Electromagnet 10 it is electric, 10 inside mandril 101 of electromagnet pushes spool 5 to overcome the compressing force of spring 4, by spool 5 to Right promotion first will can be covered gradually on valve pocket 3 with the first hydraulic fluid port A through-flow control hole 31 being connected to when spool 5 moves right Firmly, so the first hydraulic fluid port A and pressure oil port during the sealing convex shoulder 54 in spool 5 gradually covers through-flow control hole 31 P is still communicated, but oil return inlet T and the first hydraulic fluid port A are off；When the sealing convex shoulder 54 in spool 5 is by through-flow control hole 31 all cover, and when continuing to move right, spool 5 successively can gradually expose through-flow control hole 31, pressure oil during this Mouth P and the first hydraulic fluid port A can be communicated gradually, and the first hydraulic fluid port A and pressure oil port P are (because of the periphery wall and valve pocket 3 of sealing convex shoulder 54 Inner hole between form liquid sealing) cut-off, until second conical surface 53 compresses the second valve port 81 completely, sealing convex shoulder 54 is located at logical The right side of flow control drilling 31, the first hydraulic fluid port A by being connected to after through-flow control hole 31, the first valve port 71 with oil return inlet T, meanwhile, first Hydraulic fluid port A and pressure oil port P is blocked.So the invention can guarantee in operating position and commutation crossover position all No leakages.

Although the preferred embodiment of the present invention has been described in detail above, it is to be clearly understood that for this field Technical staff for, the invention may be variously modified and varied.Done within the spirit and principles of the present invention What modification, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (5)

1. a kind of No leakage Solenoid ball valve, it is characterised in that: including

Valve body (1) with inner passage is provided with the first hydraulic fluid port (A) communicated with inner passage, pressure oil port on valve body (1) (P) and oil return opening (T)；

Blind nut (2) is mounted on the inner passage right part of valve body (1) to block the right output port of inner passage；

Valve pocket (3) with inner hole, is mounted on the inner passage of valve body (1), and the peripheral wall of valve pocket (3) is equipped with to be connected to valve pocket (3) the through-flow control hole (31) of inner hole and the first hydraulic fluid port (A)；

The first valve seat (7) with inner hole, is mounted on the left side of valve pocket (3), and the right side of the first valve seat (7) has to communicating valve Cover the first valve port (71) of (3) inner hole and the hole T；

The second valve seat (8) with inner hole, is mounted on the right side of valve pocket (3), and the left side of the first valve seat (8) has to communicating valve Cover the second valve port (81) of (3) inner hole and the hole P；

It is convex to be connected with guide cylinder (51), first conical surface (52), second conical surface (53) and sealing in turn from left to right for spool (5) Shoulder (54) forms liquid sealing, seals the width of convex shoulder (54) between the periphery wall of sealing convex shoulder (54) and the inner hole of valve pocket (3) Spend the aperture (φ) that (D) is greater than through-flow control hole (31)；

It moves to left to first conical surface (52) thereon in spool (5) by under the first valve port (71) completely impaction state, the sealing is convex Shoulder (54) is located on the left of through-flow control hole (31), and the first hydraulic fluid port (A) and oil return opening (T) are blocked, meanwhile, the first hydraulic fluid port (A) passes through Through-flow control hole (31), the second valve port (71) are connected to pressure oil port (P) afterwards；

It moves to right to second conical surface (53) thereon in spool (5) by under the second valve port (81) completely impaction state, the sealing is convex Shoulder (54) is located on the right side of through-flow control hole (31), the first hydraulic fluid port (A) by through-flow control hole (31), the first valve port (71) afterwards with return Hydraulic fluid port (T) connection, meanwhile, the first hydraulic fluid port (A) and pressure oil port (P) are blocked；

The first valve port (71) impaction state completely is transitioned into second conical surface (53) for second from first conical surface (52) in spool (5) During valve port (81) impaction state completely, spool (5) is moved right so as to seal convex shoulder (54) for through-flow control hole (31) It gradually covers in, the first hydraulic fluid port (A) and pressure oil port (P) gradually block；When sealing convex shoulder (54) is complete by through-flow control hole (31) Portion covers, and first hydraulic fluid port (A) blocks with oil return opening (T) and pressure oil port (P) simultaneously；Spool (5) continue to move right with Expose sealing convex shoulder (54) gradually through-flow control hole (31) gradually, oil return opening (T) and the first hydraulic fluid port (A) gradually communicate, During this, oil return opening (T) and pressure oil port (P) block always；

Spool driving structure, to drive spool (5) to move left and right.

2. No leakage Solenoid ball valve according to claim 1, it is characterised in that: the spool driving structure includes,

Mandril (6) is set to the inner passage of valve body (1) and is located at the right side of spool (5), and the left end of mandril (6) passes through the second valve Mouth (81) afterwards hold in spool (5) right end face by top, and the right end of mandril (6) is equipped with spring (4), which acts on mandril (6) trend for making mandril (6) that a left side is kept to push away spool (5)；

Electromagnet (10) is to push spool (5) to move to right.

3. the Solenoid ball valve of No leakage according to claim 2, it is characterised in that: in the inner passage of the valve body (1) It is equipped with positioning sleeve (9), sealing element, positioning sleeve is equipped between the inner wall of the inner passage of the periphery and valve body (1) of positioning sleeve (9) (9) between electromagnet (10) and the first valve seat (7), the guide cylinder (51) of the spool (5) is located at the interior of positioning sleeve (9) Kong Zhong, and sealing element is equipped between the periphery of spool (5) and the inner hole of positioning sleeve (9).

4. No leakage Solenoid ball valve according to claim 2, it is characterised in that: the electromagnet (10) is threadedly connected to valve Body (1) left end, electromagnet (1) is interior to be equipped with mandril (101), and the right end of mandril (101) is matched with the left end of spool (5).

5. No leakage Solenoid ball valve according to claim 1, it is characterised in that: the valve body (1) is set to connection runner (11), the hole P is connected to by connection runner (11) with the left end of spool (5).