KR20120066032A - An electric valve - Google Patents

Abstract

Disclosed is an electric valve used to regulate the flow rate of a fluid. The electric valve includes a valve seat element, a nut element and a valve needle screw rod element. The valve seat element includes a valve seat and a valve core seat. The nut element comprises a nut to which the valve needle screw rod is mounted, and the bottom of the nut is assembled to surround the top of the valve core seat. The lower end of the nut of the electric valve is used to mount the valve needle screw rod element, and is connected in such a manner as to be assembled with the upper end of the valve core seat, resulting in coaxiality between the nut and the valve port of the valve core seat. It is very easy to do. Therefore, the coaxiality between the valve needle and the valve core seat is relatively high, thereby avoiding the problem of poor sealing of the valve port and abnormal wear of the valve port. At the same time, since the coaxiality between the valve needle and the valve port is improved, the frictional force generated when the rotor of the rotor element rotates will be significantly reduced and the reliability of the movement of the electric valve will also be improved.

Description

An electric valve

TECHNICAL FIELD The present invention relates to the technical field of control valves, and more particularly, to an electric valve for controlling a flow rate of a fluid.

This application claims the priority of the invention “An Electric Valve”, Chinese Patent Application No. 201010515234.1, filed with Chinese Patent Office (CSIPO) on October 15, 2010, the entire contents of which are here It is cited for reference.

In various refrigeration and heating equipment, as well as air conditioners, refrigerators, heat pumps for hot water, electric valves are often used to regulate the flow rate of a fluid.

Generally, the electric valve includes a valve seat element, a nut element, a valve needle screw rod element and a rotor element. The valve seat element generally comprises a valve core seat, a valve seat and a connection pipe. The valve seat is provided with a valve port. The valve core seat, the valve seat and the connecting pipe are generally welded integrally to form the valve seat element. The valve needle of the valve needle screw element is mounted in the nut of the nut element.

Japanese Laid Open Patent Document (JP2010-25932) discloses an electric valve in which the nut of the nut element is fixed in the guide sleeve, the guide sleeve is fixed on the valve seat, and the valve needle is required to be fixed in the valve port of the valve seat. do. Therefore, higher coaxiality is required between the valve seat and the nut. Indirect control achieved by a number of assembly processes is required in the above-mentioned electric valves to ensure coaxiality between the valve core seat and the nut, and the coaxiality between the valve seat and the nut and the nut, guide sleeve, valve seat and Since it is influenced by the process precision of many parts such as a valve needle, it is difficult to guarantee coaxiality. If the valve core seat is not coaxial with the nut, non-coaxial phenomena are more likely to occur between the valve needle and the valve port, resulting in poor sealing of the valve port and abnormal wear of the valve port. In this way, the reliability of the movement of the electric valve is relatively low, and the life of the electric valve is short.

Also, in recent years, replacing the metal material with the plastic material has become a trend in the present technology. However, in the above-mentioned electric valve, if the nut is made of plastic material, it will be insufficient to secure the contact strength between the nut and the guide sleeve only by an interference fit, which has a relatively low contact reliability. Therefore, although the process cost of the electric valve is relatively high, the nut must be made of a metal material that is more expensive than a plastic material.

Therefore, there is an urgent need for the development of an electric valve having a relatively high coaxiality between the nut and the valve core seat in the present technology.

It is an object of the present invention to provide an electric valve having a relatively high coaxiality between the nut and the valve core seat.

In order to achieve the above object, the present invention includes a valve seat element, a nut element and a valve needle screw rod element, the valve seat element comprising a valve seat and a valve core seat; The nut element comprises a nut on which the valve needle screw rod element is mounted, the lower end of the nut being assembled to surround the upper end of the valve core seat.

Advantageously, said upper end of said valve core seat is inserted into said inner hole at said lower end of said nut, said valve core seat being clearance fit, transition fit, or interference fit with said nut. It is assembled to enclose in an interference fit manner.

Preferably, the lower end of the nut is inserted into the inner hole at the upper end of the valve core seat, and the nut is assembled to surround the valve core seat in a clearance fit, transition fit or interference fit manner.

Preferably, the nut comprises a plastic nut and an annular metal connecting piece; The plastic nut is formed by injection molding engineering plastic on the annular metal connecting piece.

Preferably, the outside of the annular metal connecting piece is fixed by welding to the valve seat.

Preferably, one or more outer notches are provided on the outside of the annular metal connecting piece.

Preferably, one or more inner notches are provided inside the annular metal connecting piece; One or more through holes are provided on the annular portion of the annular connecting piece.

Preferably, the valve needle screw rod element comprises a screw rod and a valve needle, one end of the valve needle being provided with a valve needle bushing; The valve needle is provided in a through hole of the valve core seat; One end of the valve needle is inserted into a valve port of the valve seat, and the other end of the valve needle is provided with a hole in the valve needle; One end of the screw rod having a retainer ring is inserted into the valve needle inner hole.

Preferably, a spring is provided in the valve needle inner hole and the end of the screw rod abuts the spring.

Preferably, an inner hole is provided at the top of the nut to mount the screw rod; An upper end of the inner hole is a guide hole, while a lower end of the inner hole is a thread hole; The screw hole and the inner thread of the screw rod form a transfer screw screw pair.

In the electric valve according to the invention, the bottom valve of the nut is connected in such a way that it is mounted with a valve needle screw rod element and is assembled so as to surround the top of the valve core seat, so that between the nut and the valve port of the valve core seat It is very easy to secure coaxiality. Therefore, the coaxiality between the valve needle and the valve core seat is relatively high, thereby avoiding the problem of poor sealing of the valve port and abnormal wear of the valve port; At the same time, since the coaxiality between the valve needle and the valve port is improved, the frictional force generated when the rotor of the rotor element rotates will be significantly reduced and the reliability of the movement of the electric valve will also be improved.

In a preferred technical solution, the nut comprises a plastic nut and an annular metal connecting piece. The plastic nut is formed by injection molding engineering plastic on the annular metal connecting piece. The nut is integrally formed by the injection molding on the annular metal connecting piece, the main body of the nut is injection molded by engineering plastic, thereby simplifying the manufacturing process of the nut, the production efficiency of the nut is relatively high and The cost is relatively low, and at the same time the connection strength between the nut and the valve seat can be ensured.

1 is a cross-sectional schematic diagram of a specific embodiment of a motorized valve according to the present invention;
2 is a structural schematic diagram of the nut shown in FIG. 1;
3 is a structural schematic diagram of the annular metal connecting piece shown in FIG. 2;
4 is a structural schematic diagram of the electric valve shown in FIG. 1 before the shell is installed;
Figure 5 is a schematic cross-sectional view of another embodiment of the electric valve according to the present invention.

To help those skilled in the art understand the technical solution of the present invention, the present invention will be described in detail with reference to the drawings and specific embodiments.

See FIGS. 1 to 4. 1 is a cross-sectional schematic diagram of a specific embodiment of a motorized valve according to the present invention; 2 is a structural schematic diagram of the nut shown in FIG. 1; 3 is a structural schematic diagram of the annular metal connecting piece shown in FIG. 2; 4 is a structural schematic diagram of the electric valve shown in FIG. 1 before the shell is fixed.

As shown in FIG. 1, the electric valve according to the invention comprises a valve seat element, a nut element, a valve needle screw rod element and a rotor element.

The valve seat element comprises a valve core seat 11, a valve seat 12, a first connecting pipe 13 and a second connecting pipe 14. The valve core seat 11, the valve seat 12, the first connecting pipe 13 and the second connecting pipe 14 are integrally connected to form a valve seat element. The valve core seat 11, the valve seat 12, the first connecting pipe 13 and the second connecting pipe 14 may be integrally connected or integrally formed by welding.

The nut element comprises a nut used for mounting the valve needle screw rod element. The outer circumferential surface located at the top of the nut is provided to be surrounded by the spring guide rail 33 and the stop sliding ring 34, the bottom of the nut is assembled to surround at the top of the valve core seat 11, and the side of the nut is the valve seat It is fixed at 12. In a specific embodiment, as shown in FIG. 1, the top of the valve core seat 11 is inserted into the inner hole at the bottom of the nut. The valve core seat 11 is inserted into the nut in a clearance fit, transition fit or interference fit manner.

The valve needle screw rod element may comprise a valve needle 21, a valve needle bushing 22, a screw rod 23, a retainer ring 24 and a spring 25. The valve needle 21 and the valve needle bushing 22 are connected in one piece, in particular by welding or interference press-fit. A retainer ring 24 is provided at the head of the screw rod 23, and the retainer ring 24 can be assembled to surround the screw rod 23 by welding or an interference press fit. The screw rod 23 is assembled in the inner hole of the valve needle 21, and a spring 25 is provided in the inner hole, so that the end of the screw rod 23 abuts the spring 25.

The rotor element comprises a rotor 41, a rotor stop 42 and a connecting body for connecting the rotor 41 and the rotor stop 42. The rotor element is fixed on the top of the screw rod 23.

In a specific technical solution, the electric valve also comprises a shell 5. The shell 5 is assembled to enclose on the valve seat 12 and is used to seal the valve body.

In the electric valve according to the invention, the lower end of the nut on which the valve needle screw rod element is mounted is connected to and surrounded by the upper end of the valve core seat 11, the side of the nut being fixed to the valve seat 12, As a result, it is very easy to secure the coaxiality between the valve port of the valve core seat 11 and the nut. Therefore, the coaxiality between the valve needle 21 and the valve core seat 11 is relatively high, thereby avoiding the problem of poor sealing of the valve port or abnormal wear of the valve port; At the same time, since the coaxiality between the valve needle 21 and the valve port is improved, the frictional force generated when the rotor 41 of the rotor element rotates will be considerably reduced and the reliability of the movement of the electric valve will be improved.

In the above-mentioned embodiment, the valve needle screw rod element, rotor element and shell 5 are not related to the inventive element of the present invention. The structure of the valve needle screw rod element rotor element and shell 5 is not particularly limited in the present invention. All valve needle screw rod elements, rod elements and shells 5 with any other construction are within the scope of protection of the present invention.

In a preferred technical solution, as shown in FIGS. 2 and 3, the nut element comprises a plastic nut 32 and an annular metal connecting piece 31. The annular metal connecting piece 31 is annular and provided with a through hole in the center thereof. The annular metal connecting piece 31 may be formed by stamping a metal sheet material, and the plastic nut 32 is formed by injection molding engineering plastic on the annular metal connecting piece 31.

The nut is formed integrally with the annular metal connecting piece 31 by injection molding. The main body of the nut is injection molded by engineering plastics. In this way, the manufacturing process of the nut is simple, the manufacturing efficiency of the nut is relatively high, the cost of the nut is relatively low, and at the same time the connection strength between the nut and the valve seat 12 can be secured.

In a specific technical solution, the outside of the annular metal connecting piece 31 is fixed by welding to the valve seat 12 and the nut is fixedly connected with the valve seat 12 via the annular metal connecting piece 31. A strong connection can be formed between the annular metal connecting piece 31 and the valve seat 12, as a result of which a connection strength is secured between the nut and the valve seat 12.

In a preferred technical solution, one or more inner notches 31-1 are provided inside the annular metal connecting piece 31, while one or more communication holes 31-2 are provided in the annular metal connecting piece 31. It is provided on the annular part of. The inner notch 31-1 and the transmission hole 31-2 can strengthen the connection strength between the plastic nut 32 and the upper and lower sides of the annular metal connecting piece 31, and annular metal connecting piece 31. Can be prevented from rotating relative to the plastic nut 32.

In a preferred technical solution, one or more outer notches 31-3 are provided on the outside of the annular metal connecting piece 31. The outer notch 31-3 may be used as a passage of the refrigeration medium and to balance the pressure across both sides of the connecting piece. In a specific technical solution, any one of the outer notches 31-3 is used to limit the position of the tail of the spring guide rail 25.

In a specific technical solution, as shown in Figs. 3 and 4, the plastic nut 32 can be divided into three parts: the upper part 32-1 of the plastic nut the middle part 32-2 of the plastic nut, the plastic Lower part of the nut (32-3).

The outer circumferential surface of the upper portion 32-1 of the plastic nut is a stop guide rail, which is an enclosed portion, which is used to assemble around the spring guide rail 25 and the stop sliding ring 34; The upper part of the inner hole of the upper part 32-1 of the plastic nut is the screw rod guide hole, and the lower part of the inner hole is the inner screw hole. The screw rod guide hole is a small clearance fit with the outer circumferential surface located on top of the screw rod 23, as a result, providing a circumferential position guide for the rotor 41. The inner screw hole and the outer screw on the screw rod 23 form a transfer screw screw pair. The outer diameter of the middle portion 32-2 of the plastic nut is larger than the outer diameter of the upper portion 32-1 of the plastic nut. The annular metal connecting piece 31 is connected to the middle portion 32-2 of the plastic nut by injection molding. The lower part 32-3 of the plastic nut is used to be assembled to surround on the upper part of the valve core seat 11.

The electric valve according to the present invention can be assembled by the following method.

The valve needle screw rod element is inserted into the nut from the bottom of the nut and screwed into the nut. The valve needle screw rod element and nut are then assembled to enclose on the valve core seat 11 and the edge of the annular metal connecting piece 31 is welded to the valve seat 12. After the stop sliding ring 34 and the rotor stop 42 have been adjusted in their proper positions, the rotor element is assembled to enclose above the screw rod 23 and the screw rod 23 is welded to the connecting body of the rotor 41. do. Finally, the shell 5 is assembled to enclose on the valve seat 12 and welded to seal the valve seat 12.

In the above-mentioned embodiment, the annular metal connecting piece 31 and the plastic nut 32 are injection molded in the nut. However, the electric valve according to the present invention is not limited thereto. The nut may be formed of a metallic material. All structures that are fixed in such a way that the nut and valve core seat 11 are assembled to enclose are within the protection scope of the present invention.

In the above-mentioned embodiment, the manner in which the nut and the valve core seat 11 are enclosed in an enclosed manner is that the upper end of the valve core seat 11 is inserted into the inner hole at the lower end of the nut, and a clearance fitting, transition fitting or An interference fit can be formed between them. However, the present invention is not limited to this. Also, the bottom of the nut can be inserted into the inner hole at the top of the valve core seat 11, which embodiment will be described briefly below.

See FIG. 5. Figure 5 is a schematic cross-sectional view of another specific example of the electric valve according to the present invention.

As shown in FIG. 5, the lower end of the nut is inserted into the inner hole at the upper end of the valve core seat 11, and the lower end of the nut is inserted into the valve core seat 11 in a manner of a clearance fit, a transition fit or an interference fit. ) Is assembled to enclose the top. Since other structures are similar to those of the above-mentioned embodiment, the description will be omitted.

In the above-mentioned embodiment, the bottom of the nut is assembled to surround the top of the valve core seat in the manner of a clearance fit, transition fit or interference fit. However, the present invention is not limited to this. The lower end of the nut can be assembled to enclose the upper end of the valve core seat by way of a screw connection, which is also within the protection scope of the present invention.

Only preferred embodiments according to the invention are described above. However, since the contextual expression is limited and the specific structure possible is not, in fact, limited, one of ordinary skill in the art will be able to make modifications and variations without departing from the spirit of the present invention, which is also intended to protect the present invention. Beware of belonging.

11: valve core seat
12: valve seat
13: first connecting pipe
14: second connecting pipe
21: valve needle
22: valve needle bushing
23: screw rod
24: retaining ring
25: spring
31: annular metal connecting piece
31-1: inner notch
31-2: communication hole
31-3: outer notch
32: plastic nut
32-1: Upper part of the plastic nut
32-2: middle part of plastic nut
32-3: Lower part of the plastic nut
33: spring guide rail
34: sliding ring
41: rotor
42: rotor stop
5: shell

Claims (10)

A valve seat element, a nut element and a valve needle screw rod element; wherein the valve seat element comprises a valve seat and a valve core seat; In the motorized valve, the nut element comprises a nut to which the valve needle screw rod element is mounted.
Characterized in that the lower end of the nut is assembled to surround the upper end of the valve core seat,
Motorized valve.
The method of claim 1,
The upper end of the valve core seat is inserted into the inner hole at the lower end of the nut, and the valve core seat is clearance fit, transition fit or interference fit with the nut. It is characterized in that it is assembled to enclose in a manner,
Motorized valve.
The method of claim 1,
The lower end of the nut is inserted into the inner hole at the upper end of the valve core seat, and the nut is assembled to surround the valve core seat in a clearance fitting, transition fitting or interference fitting manner.
Motorized valve.
The method according to any one of claims 1 to 3,
The nut comprises a plastic nut and an annular metal connecting piece; The plastic nut is formed by injection molding an engineering plastic on the annular metal connecting piece,
Motorized valve.
The method of claim 4, wherein
The outer side of the annular metal connecting piece is fixed to the valve seat by welding,
Motorized valve.
The method of claim 5, wherein
One or more outer notches are provided on the outside of the annular metal connecting piece,
Motorized valve.
The method of claim 5, wherein
One or more inner notches are provided inside the annular metal connecting piece; Characterized in that one or more through holes are provided on the annular portion of the annular connecting piece,
Motorized valve.
The method of claim 4, wherein
The valve needle screw rod element comprises a screw rod and a valve needle, one end of the valve needle being provided to the valve needle bushing; The valve needle is provided in a through hole of the valve core seat; One end of the valve needle is inserted into a valve port of the valve seat, and the other end of the valve needle is provided in a hole in the valve needle; One end of the screw rod having a retainer ring is inserted into the valve needle inner hole,
Motorized valve.
The method of claim 8,
A spring is provided in the valve needle inner hole, and the end of the screw rod abuts the spring,
Motorized valve.
The method of claim 8,
An inner hole is provided on top of the nut to mount the screw rod; An upper end of the inner hole is a guide hole, while a lower end of the inner hole is a screw hole; The screw hole and the external screw of the screw rod form a transfer screw screw pair,
Motorized valve.

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