KR20230012613A - electronic expansion valve - Google Patents

Abstract

The electromagnetic expansion valve includes a magnetic rotor (10), a connecting member (20), a position limiting member (30), a screw rod (40) and a motion guide shaft (50). Here, the connecting member 20 is fixedly installed in the magnetic rotor 10 . The connecting member 20 has a first matching hole 21 . The connecting member 20 is an injection molded structure. The position limiting member 30 is matched with the connecting member 20 for position limitation. The position limiting member 30 has a second matching hole 31 . The second matching hole 31 is installed to correspond to the first matching hole 21 . The screw rod 40 passes through the first matching hole 21. The screw rod 40 is fixedly connected to the inner wall of the second matching hole 31. The motion guide shaft 50 is fixedly connected to the position limiting member 30 . The motion guide shaft 50 extends within the magnetic rotor 10 along the axial direction of the magnetic rotor 10 .

Description

electronic expansion valve

This application relates to the field of electronic expansion valve technology, and more particularly to electronic expansion valves.

In a conventional electromagnetic expansion valve, a magnetic rotor and a matching connecting member with a screw rod are usually of powder metallurgy structure. This process is relatively expensive. In addition, due to the characteristics of the powder metallurgy material, when the connecting member is welded with other parts, the welding position turns black and the welding strength is not sufficient, making it difficult to identify the welding quality. Therefore, there is a need to improve electronic expansion valves to lower costs and improve quality.

The present application provides an electronic expansion valve capable of lowering the manufacturing cost of the electronic expansion valve.

To achieve the above object, the present application provides an electronic expansion valve. These include magnetic rotors; At least a part of the coupling member fixedly installed in the magnetic rotor, having a first matching hole, and having an injection molding structure; a position limiting member matched with the connecting member and having a second matching hole, wherein the second matching hole is installed to correspond to the first matching hole; a screw rod passing through the first matching hole and fixedly connected to an inner wall of the second matching hole; and a motion guide shaft fixedly connected to the position limiting member and extending within the magnetic rotor along an axial direction of the magnetic rotor.

In addition, the motion guide shaft and the position limiting member have an integral structure.

In addition, the connecting member is made of polyether plastic.

In addition, the connecting member includes a plate body and a boss installed on the plate body. The first matching hole is located on the plate body. The boss is matched with the position limiting member for position limitation.

In addition, the boss is provided with a position limiting groove. At least a part of the position limiting member is installed in the position limiting groove. An outer circumferential surface of the position limiting member is matched with an inner circumferential surface of the position limiting groove.

In addition, the outer circumferential surface of the position limiting member is composed of a plurality of planes and/or arcs. The shape of the inner circumferential surface of the position limiting groove matches the shape of the outer circumferential surface of the position limiting member.

In addition, the position limiting member is matched with the position limit groove by interference fit.

In addition, a process hole is provided on the plate body, and the motion guide shaft passes through the process hole.

Also, the screw rod passes through the second matching hole. An outer wall of the screw rod is welded to an inner wall of the second matching hole.

In addition, the outer circumferential surface of the connecting member is composed of a plurality of planes and/or arcs. An annular concave groove is provided on the inner wall of the magnetic rotor. A periphery of the connecting member is installed in the annular concave groove. An annular bottom wall of the annular concave groove matches a shape of an outer circumferential surface of the connecting member.

Applying the technical solution of the present application, an electronic expansion valve is provided. The electronic expansion valve includes a magnetic rotor, a connecting member, a position limiting member, a screw rod and a motion guide shaft. Here, at least a part of the connecting member is fixedly installed in the magnetic rotor. The connecting member has a first matching hole. The connecting member is an injection molded structure. The position limiting member is matched with the connecting member for position limiting. The position limiting member has a second matching hole. The second matching hole is installed to correspond to the first matching hole. The screw rod passes through the first matching hole. The screw rod is fixedly connected to the inner wall of the second matching hole. The motion guide shaft is fixedly connected to the position limiting member. A motion guide shaft extends within the magnetic rotor along an axial direction of the magnetic rotor. Adopting the above technical solution, the connecting member is an injection molded structure, and the connecting member and the position limiting member are position limit matching. Compared with the conventional powder metallurgy structural connecting member, the manufacturing cost of a single part can be lowered. In addition, since there is no need to weld the connecting member and the position limiting member, assembly cost can be reduced.

The accompanying drawings, which form part of this application, are intended to aid in further understanding of this application. The illustrative examples and descriptions of this application are for the purpose of interpreting this application, and do not unduly limit this application. A description of the accompanying drawings is as follows.
1 is a structural diagram of an electronic expansion valve according to an embodiment of the present application.
FIG. 2 is another view of the electronic expansion valve in FIG. 1;
Figure 3 is a schematic diagram of some structures in Figure 1;
Fig. 4 is a schematic view of a connecting member in Fig. 1;
5 is a schematic view of a position limiting member and a motion guide shaft in FIG. 1;
Here, the accompanying drawings include the following reference numerals.
10 is a magnetic rotor, 20 is a connecting member, 21 is a first matching hole, 22 is a plate body, 23 is a boss, 24 is a position limiting groove, 25 is a process hole, 30 is a position limiting member, 31 is a second matching hole, 40 is a screw rod and 50 is a motion guide shaft.

DESCRIPTION OF EMBODIMENTS The following clearly and completely describes the technical solutions in the embodiments of the present application with reference to the accompanying drawings in the embodiments of the present application. Of course, the described embodiments are only some rather than all embodiments of the present application. One or more illustrative embodiments below are for illustrative purposes only and do not limit the application or its application or use. All other embodiments obtained by a person skilled in the art without creative work based on the embodiments of the present application fall within the protection scope of the present application.

As shown in the accompanying drawings, embodiments of the present application provide an electronic expansion valve. It includes a magnetic rotor (10); At least a part is fixedly installed in the magnetic rotor 10, has a first matching hole 21, and the connection member 20 having an injection molding structure; A position limiting member 30 matched with the connecting member 20 and having a second matching hole 31 - the second matching hole 31 is installed to correspond to the first matching hole 21 -; A screw rod 40 passing through the first matching hole 21 and fixedly connected to the inner wall of the second matching hole 31; and a motion guide shaft 50 fixedly connected to the position limiting member 30 and extending within the magnetic rotor 10 along an axial direction of the magnetic rotor 10 .

Applying the technical solution of the present application, an electronic expansion valve is provided. The electromagnetic expansion valve includes a magnetic rotor 10, a connecting member 20, a position limiting member 30, a screw rod 40 and a motion guide shaft 50. Here, at least a part of the connecting member 20 is fixedly installed in the magnetic rotor 10 . The connecting member 20 has a first matching hole 21 . The connecting member 20 is an injection molded structure. The position limiting member 30 is matched with the connecting member 20 for position limitation. The position limiting member 30 has a second matching hole 31 . The second matching hole 31 is installed to correspond to the first matching hole 21 . The screw rod 40 passes through the first matching hole 21 . The screw rod 40 is fixedly connected to the inner wall of the second matching hole 31 . The motion guide shaft 50 is fixedly connected to the position limiting member 30 . The motion guide shaft 50 extends within the magnetic rotor 10 along the axial direction of the magnetic rotor 10 . Adopting the above technical solution, the connecting member 20 is an injection molding structure, and the connecting member 20 and the position limiting member 30 are position-limited matching. Compared to the conventional powder metallurgy structure connecting member 20, the manufacturing cost of a single part can be lowered. In addition, since there is no need to weld the connecting member 20 and the position limiting member 30, assembly cost can be reduced.

In this embodiment, the motion guide shaft 50 and the position limiting member 30 have an integral structure. Through this, the number of parts can be reduced and processing is easy.

In this embodiment, the connecting member 20 is made of polyether plastic. Adopting these materials has high strength and low cost.

In this embodiment, the connecting member 20 includes a plate body 22 and a boss 23 installed on the plate body 22 . The first matching hole 21 is located on the plate body 22 . The boss 23 is matched with the position limiting member 30 for position limitation. This makes it easy to match the connecting member 20 and the position limiting member 30 .

Optionally, a chamfer is provided around the lower end of the first matching hole 21 to facilitate penetration of the screw rod 40 .

Optionally, a third matching hole is provided on the plate body 22 . The third matching hole communicates with the first matching hole 21 . The diameter of the third matching hole is greater than that of the first matching hole 21 . The third matching hole is located between the first matching hole 21 and the position limiting member 30 . Since solder can be placed in the third matching hole, welding of the screw rod 40 and the position limiting member 30 is easy.

Specifically, the boss 23 is provided with a position limiting groove 24. At least a part of the position limiting member 30 is installed in the position limiting groove 24. The outer circumferential surface of the position limiting member 30 is matched with the inner circumferential surface of the position limiting groove 24 . Through the above-described installation, it is possible to implement position restriction of the position limiting member 30 and the connecting member 20 in the circumferential direction.

In this embodiment, the outer circumferential surface of the position limiting member 30 is composed of a plurality of flat and/or arcuate surfaces. The shape of the inner circumferential surface of the position limiting groove 24 matches the shape of the outer circumferential surface of the position limiting member 30 . Through the above-described installation, it is easy to prevent the position limiting member 30 and the connecting member 20 from moving relatively in the circumferential direction by implementing the position limiting member 30 and the connecting member 20 in the circumferential direction.

In this embodiment, the position limiting member 30 is matched with the position limiting groove 24 by interference fit. Specifically, the position limiting member 30 is assembled into the position limiting groove 24 through a pressure assembly method. It has a simple process, easy operation and low production cost.

In this embodiment, a process hole 25 is provided on the plate body 22, and the motion guide shaft 50 passes through the process hole 25. The material capacity can be reduced through the process hole 25 and the motion guide shaft 50 can be avoided.

In this embodiment, the screw rod 40 passes through the second matching hole 31 . The outer wall of the screw rod 40 is welded to the inner wall of the second matching hole 31 . This can reliably fix the screw rod 40 and the position limiting member 30. In addition, this method does not require fixed connection of the screw rod 40 and the connecting member 20, and there is no need to weld the position limiting member 30 and the connecting member 20. Therefore, these three are firmly fixed and assembly is easy.

Optionally, the screw rod 40 includes a first rod section and a second rod section connected to each other. The diameter of the first rod section is smaller than the diameter of the second rod section. The first rod section passes through the first matching hole 21 and the second matching hole 31 . The step between the first rod section and the second rod section abuts the connecting member 20, realizing the axial positioning and positioning of the two.

In this embodiment, the outer circumferential surface of the connecting member 20 is composed of a plurality of planes and/or arcs. An annular concave groove is provided on the inner wall of the magnetic rotor 10 . The circumference of the connecting member 20 is installed in an annular concave groove. The annular bottom wall of the annular concave groove matches the shape of the outer peripheral surface of the connecting member 20 . By adopting the above installation, it is possible to reliably connect the connecting member 20 and the magnetic rotor 10 . It also prevents the two from causing relative movement in the circumferential direction.

The present application provides an electronic expansion valve. The electromagnetic expansion valve includes a magnetic rotor 10, a connecting member 20, a position limiting member 30, a screw rod 40 and a motion guide shaft 50. Here, at least a part of the connecting member 20 is fixedly installed in the magnetic rotor 10 . The connecting member 20 has a first matching hole 21 . The connecting member 20 is an injection molded structure. The position limiting member 30 is matched with the connecting member 20 for position limitation. The position limiting member 30 has a second matching hole 31 . The second matching hole 31 is installed to correspond to the first matching hole 21 . The screw rod 40 passes through the first matching hole 21 . The screw rod 40 is fixedly connected to the inner wall of the second matching hole 31 . The motion guide shaft 50 is fixedly connected to the position limiting member 30 . The motion guide shaft 50 extends within the magnetic rotor 10 along the axial direction of the magnetic rotor 10 . Adopting the above technical solution, the connecting member 20 is an injection molding structure, and the connecting member 20 and the position limiting member 30 are position-limited matching. Compared to the conventional powder metallurgy structure connecting member 20, the manufacturing cost of a single part can be lowered. In addition, since there is no need to weld the connecting member 20 and the position limiting member 30, assembly cost can be reduced.

The above content is only a preferred embodiment of the present application, so it does not limit the present application. Those skilled in the art to which this application belongs may modify and change the present invention in various ways. All modifications, equivalent replacements, improvements, etc. made within the scope of the spirit and principle of this application shall fall within the protection scope of this application.

Claims (10)

In the electronic expansion valve,
magnetic rotor 10;
At least a part of the coupling member 20 fixedly installed in the magnetic rotor 10, having a first matching hole 21, and having an injection molding structure;
A position limiting member 30 matched with the connecting member 20 and having a second matching hole 31 - the second matching hole 31 is installed to correspond to the first matching hole 21 - ;
a screw rod 40 passing through the first matching hole 21 and fixedly connected to an inner wall of the second matching hole 31; and
Electromagnetic expansion characterized in that it includes a motion guide shaft 50 fixedly connected to the position limiting member 30 and extending within the magnetic rotor 10 along the axial direction of the magnetic rotor 10 valve. According to claim 1,
The electronic expansion valve, characterized in that the motion guide shaft (50) and the position limiting member (30) have an integral structure. According to claim 1,
The electronic expansion valve, characterized in that the connecting member (20) is made of polyether plastic. According to claim 1,
The connecting member 20 includes a plate body 22 and a boss 23 installed on the plate body 22, the first matching hole 21 is located on the plate body 22, and the boss 23 ) is an electronic expansion valve, characterized in that the position limiting member 30 and the position limit matching. According to claim 4,
The boss 23 has a position limiting groove 24, and at least a part of the position limiting member 30 is installed in the position limiting groove 24, and the outer circumferential surface of the position limiting member 30 has the position limiting member 30. An electronic expansion valve, characterized in that the inner circumferential surface of the limit groove 24 and the position limit matching. According to claim 5,
The outer circumferential surface of the position limiting member 30 is composed of at least one of a plurality of planes and arcs, and the shape of the inner circumferential surface of the position limiting groove 24 matches the shape of the outer circumferential surface of the position limiting member 30, characterized in that electronic expansion valve. According to claim 5,
The electromagnetic expansion valve, characterized in that the position limiting member (30) and the position limiting groove (24) are matched by interference fit. According to claim 4,
An electronic expansion valve, characterized in that a process hole 25 is provided on the plate body 22, and the motion guide shaft 50 passes through the process hole 25. According to claim 1,
The electromagnetic expansion valve, characterized in that the screw rod (40) passes through the second matching hole (31), and the outer wall of the screw rod (40) is welded to the inner wall of the second matching hole (31). According to claim 1,
The outer circumferential surface of the connecting member 20 is composed of at least one of a plurality of flat surfaces and arc surfaces, an annular concave groove is provided on an inner wall of the magnetic rotor 10, and the circumference of the connecting member 20 is provided with the annular concave groove. The electromagnetic expansion valve, characterized in that the annular bottom wall of the annular concave groove matches the shape of the outer circumferential surface of the connecting member (20).

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