KR102388299B1 - Multi Sealing High Speed Solenoid Valve - Google Patents

Abstract

It consists of a valve body left insert block (2) and a valve body right insert block (3), and the valve body left insert block (2) and the valve body right insert block (3) are connected to each other to constitute the valve body body, , an end cover 1 is fixed to one side of the valve body left insertion block 2, and a spring cover 8 is fixed to one side of the valve body right insertion block 2; The valve sleeve 11 is installed in the inner chamber of the valve body body, the valve core 10 is installed in the valve sleeve 11, and one side of the valve core 10 located in the right insertion block 3 of the valve body is an armature connected to (7), the armature (7) acts in combination with the sucker-type electromagnet (6); A spring (9) is covered on the valve core (10), and one end of the spring (9) is in close contact with the spring cover (8) to disclose a multi-sealing high-speed solenoid valve. The multi-sealing high-speed solenoid valve can not only improve the sealing performance of the cylindrical surface sealing under the high oil supply pressure condition, but also effectively reduce the leakage phenomenon and secure a relatively high response speed.

Description

Multi Sealing High Speed Solenoid Valve

The present invention relates to the field of solenoid valves, and more particularly, to a multi-sealing high-speed solenoid valve, a two-position two-way direct acting valve having a high response speed.

A solenoid valve (Electromagnetic valve) is an industrial equipment controlled through electromagnetic, which is an automation basic element used to control a fluid, and belongs to an actuator, including, but not limited to, hydraulic and pneumatic. Used to adjust direction, flow rate, speed and other parameters. By combining the solenoid valve with various circuits, desired control can be realized, and both precision and smoothness of control can be secured. There are many different types of solenoid valves, and different solenoid valves can perform at different locations in the control system, the most common being check valves, safety valves, directional control valves and speed control valves.

A sealed chamber is provided in a conventional solenoid valve, through-holes are formed at different positions, each hole is connected to a different oil pipe, a piston is provided in the middle of the chamber, and two electromagnets are provided on both sides When electricity is applied to the magnet coil of one side, as the valve body moves to the corresponding side, it controls the movement of the valve body to open or close different oil discharge holes, and to always open the oil supply holes to provide hydraulic pressure. allowing oil to enter different oil discharge pipes, and then pushing the piston of the oil cylinder by the pressure of the oil, causing the piston to drive the piston rod, and the piston rod to drive the mechanical device; It becomes possible to control the mechanical motion through the electric current on-off of the electromagnet.

At present, there are various types of high-speed solenoid valves on the market, such as each series of Schneider servo valves, which can achieve relatively high response speed and relatively low leakage, but require precision and machining between the valve core and the valve hole. There is a problem that the manufacturing cost is very high because the level cannot be satisfied by most enterprises in China.

The technical problem to be solved by the present invention is to provide a multi-sealing high-speed solenoid valve that can not only improve the sealing performance of the cylindrical surface under high oil pressure conditions, but also effectively reduce the leakage phenomenon and secure a relatively high response speed. as for; The high-speed solenoid valve uses a cylindrical surface sealing instead of a conical surface sealing, and has the advantage of lower processing difficulty and lower cost compared to the conical surface; In addition, by using the cylindrical surface sealing, it has better ductility and malleability, and has the advantage of being able to easily add a new flow path.

In order to solve the above technical problem, the technical solution according to the present invention is,

It comprises a valve body left insertion block and a valve body right insertion block, wherein the valve body left insertion block and valve body right insertion block are connected to each other to form a valve body body, and one side of the valve body left insertion block has an end cover is fixed, and a spring cover is fixed to one side of the right insertion block of the valve body; A valve sleeve is installed in the internal chamber of the valve body body, and a valve core is installed in the valve sleeve, and one side of the valve core located in the right insertion block of the valve body is connected to an armature, and the armature is combined with a sucker-type electromagnet act; In the multi-sealing high-speed solenoid valve, a spring is covered on the valve core, and one end of the spring is closely attached to the spring cover,

Among them, the structure of the valve body left insert block has a body shape of a cuboid, one side of the cuboid is provided with a cylindrical protruding end, and the left insert block of the valve body is provided with a first chamber penetrating therethrough, and the valve The body left insertion block is further provided with a first mounting hole, a first oil leak storage room connector, and a first oil outlet; the first oil outlet communicates with the outer surface of the first chamber and the left side insertion block of the valve body, and the first oil leak storage chamber connector is located at the protruding end of the cylindrical body and passes therethrough;

The structure of the valve body right insert block has a body shape of a rectangular parallelepiped, and the valve body right insert block has a second chamber, a second annular groove chamber, a second oil supply port, a second oil leak storage chamber connector, and a second oil leak port. and a second mounting hole; the second chamber and the second annular groove chamber jointly constitute a chamber passing through the valve body right insert block, wherein the hole diameter of the second annular groove chamber is larger than the hole diameter of the second chamber; The second oil leak storage chamber connector is a through hole passing through the right insert block of the valve body, the second oil supply port communicates with the second environmental groove chamber and the outer surface of the valve body right insert block, and the second oil leak hole is 2 communicate with the chamber and valve body right insert block outer surface;

The structure of the valve sleeve is that the main body is a hollow cylinder, and the valve sleeve is provided with a third chamber passing therethrough in the axial direction; A third oil outlet, a third oil leak notch, a third oil supply notch and a third oil leak hole are sequentially distributed in the valve sleeve;

The structure of the valve core is sequentially provided with a guide section, a short connecting section, a sealing section, a sealing guide section and a long connecting section, and the valve core is provided with an axial flow passage passing therethrough in the axial direction; The guide section, the sealing section, and the sealing guide section are all cylindrical bodies of the same diameter, a cross guide is provided at a position close to the sealing section among the sealing guide sections, and a fourth oil leak hole and a fourth positioning section are provided on the long connecting section. a pin hole is provided; the fourth oil leak port communicates with the axial flow path and the elongated connecting section outer surface;

One side of the armature is a truncated cone that acts in combination with a sucker-type electromagnet, and the other side is a hollow cylinder and is provided with a valve core mixing chamber, the valve core mixing chamber being used to connect with the long connecting section of the valve core; a seventh positioning pin hole on the hollow cylindrical body of one side of the armature and a fourth positioning pin hole on the valve core communicate with each other;

When the valve body left insert block and the valve body right insert block are connected to each other, the second oil leak reservoir connector on the valve body right insert block and the first oil leak reservoir connector on the valve body left insert block communicate with each other, at this time, The first chamber of the body left insertion block and the second chamber of the valve body right insertion block are combined to form one annular oil chamber; The third oil leak port on the valve sleeve and the second oil leak port of the right insert block of the valve body communicate with each other, the third oil supply notch on the valve sleeve and the annular oil chamber communicate with each other, the third oil of the valve sleeve the leak notch and the first oil leak reservoir connector of the left insertion block of the valve body communicate with each other;

Among the sealing sections of the valve core, one side close to the guide section and one side close to the third oil outlet of the third oil leak notch of the valve sleeve are combined with each other to form a second sealing surface, and among the sealing guide shank of the valve core one side provided with the cross guide and one side close to the third oil leak notch among the third oil supply notch of the valve sleeve are combined with each other to form a first sealing surface; A fourth oil leak port of the valve core and a third oil leak port of the valve sleeve communicate with each other.

Further, the valve body left insertion block and the valve body right insertion block are positioned through the spigot.

Furthermore, the second oil supply port of the right insertion block of the valve body is a threaded hole, and its central axis is perpendicular to the second annular groove chamber central axis and is located on one side close to the second mounting hole.

Further, the central axis of the second oil leakage port of the right insertion block of the valve body is perpendicular to the central axis of the second mounting hole and parallel to the central axis of the second oil leakage storage chamber connector.

Further, two sealing ring grooves are further formed on the valve sleeve, the two sealing ring grooves are located on both sides of the third oil leak notch, and a sealing ring is installed between the valve sleeve and the valve body body, The sealing ring is mounted in the sealing ring groove.

Further, on the valve sleeve, the central axis of the third oil outlet is perpendicular to each other with the central axis of the third oil outlet.

Furthermore, a fifth oil leak hole is formed on the end cover, the fifth oil leak hole is a threaded through hole, the central axis thereof and the central axis of the end cover are superimposed on each other; The fifth oil leakage port communicates with the axial flow path of the valve core, and the end cover and the left side insertion block of the valve body are positioned through the spigot.

Further, the armature and the sucker-type electromagnet are disposed in an electromagnet case, and the electromagnet case includes an electromagnet case connecting section connected to each other with the right insertion block of the valve body, and an electromagnet case body section at the rear end; The electromagnet case body section is provided with an observation groove, an electromagnet mounting chamber and an electromagnet positioning hole.

Furthermore, a spacer for adjusting the preload of the spring is further provided between the spring and the spring cover.

Furthermore, a spacer for adjusting the sealing length of the two axial sealing surfaces of the valve core is further provided between the end cover and the left insertion block of the valve body.

Compared with the prior art, the advantageous technical effects of the present invention are as follows. That is, since a new flow path can be easily installed by using the cylindrical surface sealing type, it is different from the on-off valve using a single cone surface sealing; By making the cylindrical surface sealing have a better sealing effect under the same precision, it is possible to reduce the leakage and at the same time reduce the cost; By using the design of multiple sealing surfaces, it is possible to reduce the axial sealing length of a single sealing surface and at the same time shorten the opening and closing stroke of the valve core. and can significantly improve the response speed; By using the design of the annular oil chamber on the valve body, it is possible to shorten the oil injection time and ensure a sufficient oil supply amount within a unit time.

1 is an exemplary overall structure of a multi-sealing high-speed solenoid valve according to the present invention.
Figure 2 is a structural exemplary view of the valve body left side insertion block of the solenoid valve according to the present invention.
3 is a structural exemplary diagram of a valve body right insertion block in a solenoid valve according to the present invention.
4 is a structural exemplary view of the valve sleeve in the solenoid valve according to the present invention.
5 is a structural exemplary diagram of a valve core in a solenoid valve according to the present invention.
6 is an exemplary structural view of an end cover of the solenoid valve according to the present invention.
7 is a structural exemplary view of a spring cover in the solenoid valve according to the present invention.
8 is a structural diagram of an armature in the solenoid valve according to the present invention.
9 is a structural exemplary view of the electromagnet case of the solenoid valve according to the present invention.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings and specific embodiments.

The present invention relates to a multi-sealing high-speed solenoid valve. ), valve body right insert block (3), etc.), valve sleeve 11, valve core 10 and end cover 1; The valve body is composed of a valve body left insertion block 2 and a valve body right insertion block 3, both of which can be positioned through the spigot.

As shown in Fig. 2, the valve body left insertion block 2 can be divided into a large end and a small end, the outer shape of the large end is a cuboid, the outer shape of the small end is a cylinder, and the central axis of the small end is polymerized with the center of the upper and lower end faces of the cuboid; The valve body left insertion block (2) is provided with a first mounting hole (12), the first mounting hole (12) is a through-hole coaxial with the cylindrical body of the small end; A first chamber 13 is provided in the left insertion block 2 of the valve body, and a first oil outlet 15 and a first oil leak storage chamber connector 14 are provided on the first chamber 13 from left to right. ; The first oil outlet 15 communicates with the outer periphery of the first mounting hole 12 and the side surface of the valve body left insertion block 2 large end one position; The first oil leak storage compartment connector 14 is a cylindrical through-hole located at a small end, and its central axis is perpendicular to the central axis of the first oil outlet 15 and the central axis of the first mounting hole 12 , respectively.

As shown in FIG. 3 , the outer shape of the valve body right insertion block 3 is a rectangular parallelepiped, and the valve body right insertion block 3 has a concentric step through hole (the second chamber 16 and the second annular groove) penetrating it. chamber 19) is provided, wherein the hole diameter of the second annular groove chamber 19 is larger than the hole diameter of the second chamber 16; On the concentric stair through-hole, from left to right, a second oil leak storage chamber connecting port 20, a second oil supply port 17 and a second oil leak port are further provided; The second oil leak storage compartment connector 20 is a cylindrical threaded through-hole penetrating the left and right side surfaces of the valve body right insertion block 3; The second oil supply port 17 is a threaded hole, and its central axis is perpendicular to the central axis of the second annular groove chamber 19 and is located on one side close to the second mounting hole 18, the second annular groove communicating the outer periphery of (19) with the rear surface of the valve body right insert block (3); The central axis of the second oil leak hole 21 is perpendicular to the central axis of the second mounting hole 18 and parallel to the central axis of the second oil leak storage chamber connector 20, and the outside of the second mounting hole 18 The perimeter communicates with the right surface of the valve body right insert block (3). When the valve body left insert block (2) and the valve body right insert block (3) are connected to each other, the second oil leak reservoir connector 20 on the valve body right insert block 3 and the second oil leak reservoir connector 20 on the valve body left insert block 2 1 The oil leak storage chamber connector 14 communicates with each other, and at this time, the first chamber 13 of the valve body left insertion block 2 and the second chamber 16 of the valve body right insertion block 3 are combined It constitutes one annular oil chamber.

As shown in FIG. 4 , the valve sleeve 11 is a hollow cylinder, and from left to right a third oil outlet 22 , a third oil leak notch 27 , a third oil supply notch 24 and a third an oil leak port 26 is further provided, the inner hollow part of the valve sleeve 11 is a valve core mixing chamber, the diameter size of which is equal to the maximum outer peripheral diameter of the valve core 10; the central axis of the third oil outlet 22 and the central axis of the third oil outlet 26 are perpendicular to each other, and neither the third oil outlet 22 nor the third oil outlet 26 is a through hole; The third oil leak notch 27 and the third oil supply notch 24 are both manufactured through milling, and the milling direction is both perpendicular to the central axis of the valve sleeve 11 , and the third oil supply notch 24 is The milling direction is parallel to the central axis of the third oil outlet 26 , and the milling direction of the third oil leak notch 27 is mutually perpendicular to the central axis of the third oil outlet 26 ; In addition, the third oil leak port 26 communicates with the second oil leak port 21 of the right insert block 3 of the valve body, and the third oil supply notch 24 communicates with the annular oil chamber, The third oil leak notch 27 communicates with the second oil leak reservoir connector 20 .

As shown in Fig. 5, the working surface of the valve core 10 can be divided into five sections in the axial direction, from left to right, respectively, a guide section 29, a short connecting section 30, and a sealing section. (31), a sealing guide section (32) and an elongated connecting section (34); Among them, the guide section 29, the sealing section 31, and the sealing guide section 32 are all cylindrical bodies of the same diameter, the length of the guide section 29 and the sealing section 31 is relatively short, the sealing guide section (32) is relatively long, but a cross guide is formed on one side close to the sealing section (31); One side of the sealing section 31 of the valve core 10 close to the guide section 29 is blended with one side close to the third oil outlet 22 among the third oil leak notch 27 of the valve sleeve 11, A second sealing surface is formed, and one side of the sealing guide section 32 of the valve core 10 on which the cross guide is formed is a third oil leak notch 27 of the third oil supply notch 24 of the valve sleeve 11 . to form a first sealing surface by combining with one side close to; In addition, an axial flow path 28 is formed in the valve core 10, and the central axis of the axial flow path 28 is a through-hole overlapping with the central axis of the valve core 10; On the axial flow path 28, a fourth positioning pin hole 35 and a fourth oil leak hole 33 are further formed from left to right, both longer than the long connecting section 34, and at the same time a fourth positioning pin hole ( The central axis of 35 is parallel to the central axis of the fourth oil leak hole 33, and the fourth positioning pin hole 35 is a through hole; The fourth oil outlet 33 communicates with the outer periphery of the axial flow passage 28 and the outer surface of the elongated connecting section 34 , and communicates with the third oil outlet 26 of the valve sleeve 11 .

As shown in Fig. 6, the end cover can be divided into a large end and a small end, and both the large end and the small end are cylindrical; A fifth oil leak hole 36 is formed on the end cover 1, the fifth oil leak hole 36 is a threaded through hole, and the central axis thereof and the central axis of the end cover 1 are superimposed on each other, The fifth oil leak port 36 communicates with the axial flow passage 28 of the valve core 10 , and the end cover 1 and the valve body left insertion block 2 are positioned through the spigot.

7 to 9 , the driving device is configured to include an armature 7 , a sucker-type electromagnet 6 , a spring 9 , an electromagnet case and a spring cover 8 ; The armature 7 can be divided into two parts, a large end and a small end, the small end is a hollow cylinder, the large end has a truncated cone shape, the central axis of the large end is superimposed with the central axis of the small end, The outer circumferential diameter of the large end should be equal to the outer circumferential diameter of the electromagnet, the hollow part of the smaller end of which is the valve core compounding chamber 40, the outer circumferential diameter of which is the long connecting section 34 of the valve core 10 equal to the outer perimeter diameter of ; An axial vent hole 42 and a seventh positioning pin hole 41 are formed on the armature 7, and the axial vent hole 42 is a through hole located near the outer periphery of the large ends, and its central axis is parallel to the central axis of the large end, the quantity of the axial ventilation holes 42 can be determined according to the demand; The seventh positioning pin hole 41 is a through hole located on the small end, its central axis and the central axis of the small end are perpendicular to each other, and is combined with the fourth positioning pin hole 35 of the valve core 10 .

The outer shape of the electromagnet case is composed of one cuboid and one cylindrical body, the upper and lower surfaces of the cuboid are cube-shaped, the outer perimeter diameter of the cylindrical body is smaller than the length and width of the upper and lower surface squares, and the central axis of the cylindrical body is the upper and lower parts of the cuboid perpendicular to the surface but passing through the center of the upper and lower surfaces; Starting from one end of the cuboid, from left to right are the electromagnet mounting chamber 43 and the electromagnet positioning hole 46, respectively; One observation groove 44 is further formed on the electromagnet case, the width and thickness of both being the shortest distance from the outer circumference of the cuboid to the outer circumference of the electromagnet mounting chamber 43; The outer shape of the spring cover 8 is a cylindrical body, and a valve core guide hole 39 is formed, which is combined with the long connecting section 34, and the hole diameter is the same as the outer peripheral diameter of the long connecting section 34. Do.

The electromagnet used in the present invention has a ring-shaped sucker structure, the appearance of which is cylindrical, and a screw-type hole is formed on one side of a circular surface opposite to the sucker, and the electromagnet positioning hole 46 on the electromagnet case is combined with each other; The device according to the invention also essentially comprises a solenoid valve control device to transmit a flow path on-off control signal to the solenoid valve.

The spring 9 is located between one side of the sealing guide section 32 of the valve core 10 that is far from the sealing section 31 and the spring cover 8, and between the spring 9 and the spring cover 8, the spring (9) is further provided with an adjustment spacer for adjusting the preload; A sealing ring is provided between the valve sleeve 11 and the valve body body, and its position is between the third oil outlet 22 and the third oil leak notch 27 and the third oil leak notch 27 and the third oil It is located between the supply notch 24, and both the upper and lower openings of the valve body oil leak storage chamber must be sealed with bolts during operation. A spacer for adjusting the sealing lengths of the two axial sealing surfaces of the valve core 10 may be further provided between the end cover 1 and the valve body left insertion block 2 . An adjustment spacer for adjusting the stroke of the valve core may be further provided between the magnet mounting case and the valve body as well. End cover (1), valve body left insertion block (2), electromagnet case and spring cover (8) are all provided with non-helical through-holes for connection on one side close to the outer periphery, and valve body right insertion block (3) Threaded holes are formed on both upper and lower surfaces of the , and in order to secure sealing performance, a sealing ring may be further mounted between the mixing surfaces of the valve body left insertion block 2 and the valve body right insertion block 3 .

1: end cover
2: valve body left insertion block
3: valve body right insert block
4: Electromagnet case connection section
5: Electromagnet case body section
6: sucker type electromagnet
7: Armature
8 : spring cover
9: spring
10: valve core
11: valve sleeve
Valve body core left insert block structure
12: first mounting hole
13: first chamber
14: first oil leak storage room connector
15: first oil outlet
Valve body core right insert block structure
16: second chamber
17: second oil supply port
18: second mounting hole
19: second annular groove chamber
20: second oil leak storage room connector
21: second oil leak port
valve sleeve structure
22: third oil outlet
23 : sealing ring groove
24: 3rd oil supply notch
25: third chamber
26: third oil leak port
27: 3rd oil leak notch
valve core structure
28: axial flow path
29: Guide Section
30: Short Connection Section
31: sealing section
32: sealing guide section
33: fourth oil outlet
34: long connection section
35: fourth positioning pin hole
other structures
36: fifth oil leak port
37: fifth mounting hole
38: 6th mounting hole
39: valve core guide hole
40: valve core mixing chamber
41: seventh positioning pin hole
42: axial ventilation hole
43: electromagnet mounting chamber
44: observation groove
45: electromagnet mounting chamber
46: electromagnet positioning hole
Description: For members having the same or similar functions, for example, “first” indicates a member installed on the valve body left insertion block, “second” indicates a member installed on the valve body right insertion block, and , “third” denotes a member installed on the valve sleeve, “fourth” denotes a member installed on the valve core, and so on.

Claims (10)

It comprises a valve body left insertion block (2) and a valve body right insertion block (3), wherein the valve body left insertion block (2) and the valve body right insertion block (3) are connected to each other to form a valve body body and an end cover 1 is fixed to one side of the valve body left insertion block 2, and a spring cover 8 is fixed to one side of the valve body right insertion block 2; A valve sleeve 11 is installed in the inner chamber of the valve body body, and a valve core 10 is installed in the valve sleeve 11, and one side of the valve core 10 is located in the right insertion block 3 of the valve body. is connected to the armature 7, which acts in combination with the sucker-type electromagnet 6; A spring (9) is covered on the valve core (10), and one end of the spring (9) is closely attached to the spring cover (8);
Among them, the structure of the valve body left insertion block 2 has a body shape of a rectangular parallelepiped, one side of the rectangular parallelepiped has a cylindrical protruding end, and the valve body left insertion block 2 has a first chamber penetrating therethrough. (13) is provided, and the valve body left insertion block (2) is further provided with a first mounting hole (12), a first oil leak storage chamber connector (14), and a first oil outlet (15); The first oil outlet 15 communicates with the outer surface of the first chamber 13 and the left insertion block 2 of the valve body, and the first oil leak storage chamber connector 14 is located at the protruding end of the cylindrical body but passes through it. and;
The structure of the valve body right insert block 3 has a body shape of a rectangular parallelepiped, and the valve body right insert block 3 has a second chamber 16, a second annular groove chamber 19, a second oil supply port ( 17), a second oil leak storage chamber connector 20, a second oil leak hole 21 and a second mounting hole 18 are provided; The second chamber 16 and the second annular groove chamber 19 jointly constitute a chamber passing through the valve body right insertion block 3, but the hole diameter of the second annular groove chamber 19 is the second chamber ( 16) greater than the hole diameter; The second oil leak storage chamber connector 20 is a through-hole passing through the right insertion block 3 of the valve body, and the second oil supply port 17 is connected to the second environmental groove chamber 19 and the valve body right insertion block. (3) communicates with the outer surface, and the second oil leakage port 21 communicates with the second chamber 16 and the outer surface of the valve body right insertion block 3;
The structure of the valve sleeve 11 is that the main body is a hollow cylinder, and the valve sleeve 11 is provided with a third chamber 25 passing therethrough in the axial direction; A third oil outlet 22, a third oil leak notch 27, a third oil supply notch 24 and a third oil leak port 26 are sequentially distributed in the valve sleeve 11;
The structure of the valve core 10 is sequentially provided with a guide section 29, a short connecting section 30, a sealing section 31, a sealing guide section 32 and a long connecting section 34, the valve The core 10 is provided with an axial flow passage 28 passing therethrough in the axial direction; The guide section 29, the sealing section 31, and the sealing guide section 32 are all cylindrical bodies of the same diameter, and a cross guide is provided at a position close to the sealing section 31 among the sealing guide sections 32, , a fourth oil leak hole 33 and a fourth positioning pin hole 35 are provided on the long connecting section 34 ; the fourth oil leak port 33 communicates with the axial flow path 28 and the outer surface of the elongated connecting section 34;
One side of the armature 7 is a truncated cone that acts in combination with the sucker-type electromagnet 6, and the other side is a hollow cylindrical body and is provided with a valve core mixing chamber 40, and the valve core mixing chamber 40 is a valve core. used to connect with the long connecting section 34 of (10); the seventh positioning pin hole 41 on the hollow cylindrical body on one side of the armature 7 and the fourth positioning pin hole 35 on the valve core 10 communicate with each other;
When the valve body left insertion block 2 and the valve body right insertion block 3 are connected to each other, the second oil leak reservoir connector 20 on the valve body right insertion block 3 and the valve body left insertion block 2 The first oil leak storage chamber connector 14 communicates with each other, and at this time, the first chamber 13 of the valve body left insert block 2 and the second chamber 16 of the valve body right insert block 3 mix to constitute one annular oil chamber; The third oil leak port 26 on the valve sleeve 11 and the second oil leak port 21 of the valve body right insertion block 3 communicate with each other, and the third oil supply on the valve sleeve 11 is The notch 24 and the annular oil chamber communicate with each other, and the third oil leak notch 27 of the valve sleeve 11 communicates with the first oil leak reservoir connector 14 of the valve body left insertion block 2 communicates with each other, ;
One side of the sealing section 31 of the valve core 10 that is close to the guide section 29 and one side of the third oil leak notch 27 of the valve sleeve 11 that is close to the third oil outlet 22 are mutually Mixed to form a second sealing surface, one side of the sealing guide shank 32 of the valve core 10 having a cross guide and a third oil among the third oil supply notch 24 of the valve sleeve 11 one side close to the leak notch 27 is blended with each other to form a first sealing surface; A far-sealing high-speed solenoid valve, characterized in that the fourth oil outlet (33) of the valve core (10) and the third oil outlet (26) of the valve sleeve (11) communicate with each other. According to claim 1,
The far-sealing high-speed solenoid valve, characterized in that the valve body left insertion block (2) and the valve body right insertion block (3) are positioned through a spigot. According to claim 1,
The second oil supply port 17 of the right insertion block 3 of the valve body is a threaded hole, and its central axis is perpendicular to the central axis of the second annular groove chamber 19 , but is formed in the second mounting hole 18 . A far-sealing high-speed solenoid valve, characterized in that it is located on the near side. According to claim 1,
The central axis of the second oil leak hole 21 of the right insertion block 3 of the valve body is perpendicular to the central axis of the second mounting hole 18 and parallel to the central axis of the second oil leak storage chamber connector 20 A far-sealing high-speed solenoid valve characterized in that. According to claim 1,
Two sealing ring grooves 23 are further formed on the valve sleeve 11, and the two sealing ring grooves 23 are located on both sides of the third oil leak notch 27, and the valve sleeve 11 and A far-sealing high-speed solenoid valve, characterized in that a sealing ring is installed between the valve body body, and the sealing ring is mounted in the sealing ring groove (23). According to claim 1,
A far-sealing high-speed solenoid valve, characterized in that on the valve sleeve (11), the central axis of the third oil outlet (22) is perpendicular to the central axis of the third oil outlet (26). According to claim 1,
A fifth oil leak hole 36 is formed on the end cover 1 , wherein the fifth oil leak hole 36 is a threaded through hole, and the central axis thereof and the central axis of the end cover 1 overlap each other. become; The fifth oil leak port 36 communicates with the axial flow path 28 of the valve core 10, and the end cover 1 and the valve body left insertion block 2 are positioned through the spigot. A far-sealing high-speed solenoid valve characterized in that. According to claim 1,
The armature 7 and the sucker-type electromagnet 6 are arranged in an electromagnet case, and the electromagnet case includes an electromagnet case connecting section 4 connected to each other with the right insertion block 3 of the valve body, and an electromagnet case body section at the rear end ( 5) comprising; A far-sealing high-speed solenoid valve, characterized in that the electromagnet case body section (5) is provided with an observation groove (44), an electromagnet mounting chamber (45) and an electromagnet positioning hole (46). According to claim 1,
A far-sealing high-speed solenoid valve, characterized in that a spacer for adjusting the preload of the spring (9) is further provided between the spring (9) and the spring cover (8). According to claim 1,
A far-sealing high-speed solenoid valve, characterized in that a spacer for adjusting the sealing lengths of the two axial sealing surfaces of the valve core (10) is further provided between the end cover (1) and the left side insertion block (2) of the valve body (2) .

Images