KR20120068950A - Electric valve and stop device thereof - Google Patents

Abstract

The present invention includes a spring guide rail and a sliding ring cooperating helically in combination, wherein the spring guide rail has an upper stop and a lower stop, and includes an electric valve stop comprising a nut cooperating with a screw rod of the electric valve. In the apparatus, the nut has a radially extending stepped surface used for fixed connection with the valve seat of the electric valve, a snap-type position-limiting surface is provided on a portion of the nut below the stepped surface; The spring guide rail is assembled around a portion of the nut on the stepped surface and the lower stop of the spring guide rail extends radially to form a positioning portion in contact with the stepped surface, and below the positioning portion A portion of the lower stop discloses an electric valve stop that snaps onto the snap-on position-limiting surface on the nut to achieve positioning. Compared with the prior art, the present invention has the following advantages. The structure is simple and reliable, and by simply and quickly fixing the stop spring guide rail during the assembly process, the assembly process can be effectively reduced and the assembly cost can be significantly reduced. On this basis, the present invention also discloses an electric valve comprising the stop device described above.

Description

ELECTRIC VALVE AND STOP DEVICE THEREOF

The present invention relates to a valve, in particular an electric valve and its stopping device.

Currently used electric valves include a shell, a stator coil surrounding the shell, a valve seat connected to the bottom of the shell, a magnetic rotor located inside the shell, a valve A motor comprising a needle and a valve core seat, consisting of a stator and a rotor, is used to drive the valve needle to engage and disengage the valve. During operation, the rotor is controlled to rotate clockwise and counterclockwise. By power transmission of screw rods and nuts, the rotational movement of the rotor is converted into axial linear displacement of the valve needle, regulating the flow rate of refrigerant entering the evaporator and ensuring the efficient operation of the refrigeration system Adjust the flow area of the hole. Clearly, in order to ensure that the upward and downward displacement of the valve needle is within a predetermined range, it is necessary to provide a stop device for the upper and lower limit positions.

Japanese Patent JP2009162366A discloses an electric valve employing the above-described principle, and the sliding ring and the spring guide rail which cooperate with each other are used to control the valve needle to move in the axial direction within a predetermined range. The nut cooperating with the valve needle is assembled in an inner hole on the top of the guide sleeve, and the guide sleeve and the valve seat cooperate to be fixed by welding; The stationary spring guide rail is coupled around the outside of the guide sleeve, the trailing portion of the stationary spring guide rail is inserted into the positioning hole of the guide sleeve, and the trailing portion of the spring guide rail is fixed to position and fix the spring guide rail. Need to be; The spring guide rail and the sliding ring are combined to cooperate helically, the sliding ring under the action of the rotor under the action of the rotor until the sliding ring is in the limit operating position adjacent to the upper or lower stop of the spring guide rail. Can be rotated and axially moved along.

In the assembly process of the spring guide rail of the above technical solution, first, the spring guide rail is inserted into the positioning hole of the guide sleeve, and then the trailing part of the spring guide rail is fixed to ensure absolutely reliable positioning. ; Then, before the trailing portion of the spring guide rail is fixed, the relative position of the spring guide rail needs to be controlled to ensure assembly accuracy. Clearly, the technical solution of the above-described structure requires many assembly processes and the assembly processes are not simple enough, which increases the assembly cost and the manufacturing cost of the electric valve.

As mentioned above, in order to eliminate the disadvantage that many processes are required in the presently used structure, it is urgently necessary to optimally design the stop device of the electric valve currently used.

In view of the above disadvantages, the technical problem to be solved in the present invention is to provide an electric valve stop device that can be simply assembled to effectively control the assembly cost of the electric valve. On this basis, the present invention also provides an electric valve comprising the above-mentioned stop device.

The present invention includes a spring guide rail and a sliding ring cooperating helically in combination, wherein the spring guide rail has an upper stop and a lower stop, and includes an electric valve stop comprising a nut cooperating with a screw rod of the electric valve. In the apparatus, the nut has a radially extending stepped surface used for fixed connection with the valve seat of the electric valve, a snap-type position-limiting surface is provided on a portion of the nut below the stepped surface; The spring guide rail is assembled around a portion of the nut on the stepped surface and the lower stop of the spring guide rail extends radially to form a positioning portion in contact with the stepped surface, and below the positioning portion A portion of the lower stop provides an electric valve stop device that snaps onto the snap-on position-limiting surface on the nut to achieve positioning.

Preferably, The snap-on position-limiting surface specifically refers to a circumferential position-limiting surface axially arranged on the nut and an axial position-limiting surface connected with the circumferential position-limiting surface; The portion of the lower stop below the positioning portion is formed by extending in particular in the axial direction and extending in the circumferential direction from the circumferential position-limiting portion in contact with the circumferential position-limiting surface and the circumferential position-limiting portion. By reference to an axial position-limiting portion which is formed by and abuts the axial position-limiting surface.

Preferably, the nut is formed of a plastic material and an annular metal connecting piece used to be fixedly connected with the valve seat of the electric valve is fitted and fixed to the outer peripheral surface of the part of the nut below the stepped surface.

Preferably, the nut and the annular metal connecting piece are injection molded integrally.

Preferably, a first groove axially arranged and a second groove circumferentially arranged in communication with the first groove are provided on the body of the nut between the step surface and the annular metal connecting piece; The circumferential position-limiting surface and the axial position-limiting surface are formed in the groove walls of the first and second grooves, respectively.

Preferably, a third groove is arranged axially on the body of the nut between the stepped surface and the annular metal connecting piece, and a first opening hole axially opposite the third groove is formed of the annular metal connecting piece. Formed on an outer circumference, the circumferential position-limiting surface is formed on the groove wall of the third groove and the sidewall of the first opening, and the axial position-limiting surface is located next to the first opening. It is formed on the lower surface of the annular metal connecting piece.

Preferably, the second opening is formed on the outer circumference of the annular metal connecting piece, the circumferential position-limiting surface is formed on the sidewall of the second opening, and the axial position-limiting surface is the second opening. It is formed on the lower surface of the annular metal connecting piece located next to the ball.

The invention relates to an electric valve comprising a valve seat and shell forming an inner accommodating chamber, a valve needle screw rod component and a stopper cooperating with the rotor and arranged in the inner accommodating chamber. An electric valve employing an electric valve stop device is disclosed.

Preferably, the valve needle screw rod component is:

A valve needle disposed in a valve core seat positioned at the bottom of the valve seat, wherein one end of the valve needle cooperates with a valve hole and the other end of the valve needle is axially arranged inwardly recessed receiving a valve needle having a chamber;

A screw rod, the central portion of the screw rod spirally cooperating with the nut, one end of the screw rod is fixedly connected to the rotor, and the other end of the screw rod is inserted into the inwardly concave chamber of the valve needle. The screw rod; And

A return resilient component pre-compressed and disposed within said inwardly recessed receiving chamber inside said screw rod,

A portion of the screw rod disposed within the inwardly concave receiving chamber has a first position-limiting portion extending radially outwardly, and an outer circumference of the inwardly concave receiving chamber of the valve needle extends radially inwardly. A position-limiting portion, wherein the first position-limiting portion and the second position-limiting portion cooperate with one another.

The spring guide rail of the electric valve stopper according to the invention is fully assembled on the top of the nut, and the bottom stop of the spring guide rail extends radially to form a positioning portion in contact with the step surface of the nut, thereby preening the spring guide rail. -Ensure that the assembled axial positioning is realized. A portion of the lower stop below the positioning portion is snapped onto the snap-on position-limiting surface on the nut to achieve positioning, whereby the spring guide rail To be fixed. Compared with the prior art, the present invention has the following advantages. The structure is simple and reliable, and by simply and quickly fixing the stop spring guide rail during the assembly process, the assembly process can be effectively reduced and the assembly cost can be significantly reduced.

In a preferred technical solution according to the invention, the spring guide rail snaps onto the circumferential position-limiting surface and the axial position-limiting surface on the nut via its circumferential position-limiting portion and axial position-limiting portion. Thereby achieving an assembly, it is easier to ensure assembly consistency of the relative position relative to the stop spring guide rail, and the assembly precision of the stop device is further improved.

In another preferred technical solution according to the invention, the nut is made of a plastic material. As such, when the sliding ring cooperates helically along the spring guide rail, the frictional resistance of the relative sliding between the sliding ring and the outer peripheral surface of the plastic nut is relatively small, and the rotational resistance of the rotor of the electric valve is effectively reduced.

1 is a schematic diagram of an overall structure of an electric valve according to a first embodiment.
2 is an assembly schematic view of the stopping device of the electric valve according to the first embodiment.
3 is a perspective view of the electric valve according to the first embodiment before the rotor and the shell are mounted.
4 is an assembly schematic view of the stopping device of the electric valve according to the second embodiment.
5 is a perspective view of the electric valve according to the second embodiment before the rotor and the shell are mounted.
6 is a perspective view of the electric valve according to the third embodiment before the rotor and the shell are mounted.

An electric valve stop device that can be simply assembled is provided in the present invention. The idea of the stop device is: a nut cooperating with the screw rod of the electric valve has a radially extending stepped surface, and a snapped position-limiting surface is provided on a portion of the nut below the stepped surface; A spring guide rail is assembled around a portion of the nut on the stepped surface and the lower stop of the spring guide rail extends radially to form a positioning portion adjacent to the stepped surface, the lower stop of the lower stop below the positioning portion. Part is in that it snaps onto the snap-on position-limiting surface on the nut to be positioned. This technical solution can effectively control the assembly cost of the electric valve. Embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1, a schematic diagram of the overall structure of an electric valve according to an embodiment is shown.

As shown in FIG. 1, the valve seat component is formed by a valve core seat 11 and a valve seat 12, as well as connecting pipes 13, 14 which are welded to each other. The shell 5 is assembled around and welded to the valve seat 12 to form a sealed valve chamber. The valve needle screw rod component, nut component, rotor component and stop device are disposed in the valve chamber.

The lower end of the valve needle 21 cooperates with the valve hole to open or close the electric valve. The upper end of the valve needle 21 has an inwardly recessed accommodating chamber in the axial direction, and the upper end of the valve needle 21 is welded with the valve needle bushing 22 to extend radially inwardly from the outer circumference of the inwardly concave accommodating chamber. Forms a two position-limiting portion; The lower end of the screw rod 23 is inserted into the valve needle bushing 22 and the retainer ring 24 provided in the inwardly concave receiving chamber is welded to the head portion of the screw rod 23 to extend radially outward. Form a first position-limiting portion. Retainer ring 24 abuts and cooperates with valve needle bushing 22 to realize axial position limitation of screw rod 23. The spring 25 is arranged in the inwardly concave receiving chamber to return the screw rod 23. Of course, the spring 25 is not limited to the spiral compression spring as shown arranged in the inwardly concave receiving chamber after pre-compression. In fact, all returning elastic components that can be arranged in the inwardly concave receiving chamber inside the screw rod after pre-compression are available. Similarly, the fixing and connecting manner between the screw rod 23 and the retainer ring 24 as well as between the valve needle 21 and the valve needle bushing 22 is not limited to welding only; Other connection methods such as interference fits can also be applied.

The nut component comprises a plastic nut 32 and an annular metal connecting piece 31. The metal connecting piece 31 is used to fit in the outer circumferential surface of the nut body below the step surface of the plastic nut and to be fixed with the valve seat of the electric valve by welding. The plastic nut 32 is preferably made of engineering resin and is formed integrally with the annular metal connecting piece 31 by injection molding.

Stop devices are helically cooperated in combination A spring guide rail 33 and a sliding ring 34. The spring guide rail 33 has an upper stop and a lower stop assembled around the outer peripheral surface of the upper part of the plastic nut 32 and cooperating with the stop sliding ring 34 for position-limiting.

The rotor component consists of a magnetic rotor 41, a rotor stop 42, and a connecting body for connecting the magnetic rotor 41 and the rotor stop 42. The magnetic rotor 41 is assembled around the outside of the spring guide rail 33, and the rotor stop 42 extends in the axial direction to cooperate with the sliding ring 34; The spring guide rail 33, the sliding ring 34 and the rotor stop 42 described above constitute the stopping mechanism of the electric valve.

In the technical solution of the present invention, the above-mentioned snap-in position-limiting surface is in particular circumferential position-limiting surface arranged axially on the nut 32 and the axial position in connection with said circumferential position-limiting surface. -Refer to the limiting surface. The above-mentioned lower stop under the positioning portion of the spring guide rail 33 is formed by extending in the circumferential direction, in particular from the circumferential position-limiting portion, and the axial position-limiting portion in contact with the axial position-limiting surface as well as the circumferential direction. Reference is made to the circumferential position-limiting portion which is formed by extending axially from the position-limiting surface and abuts therewith. This makes it easier to ensure assembly consistency of the relative position of the stop spring guide rail, thereby improving the assembly accuracy of the stop device. 2, an assembly schematic of the electric valve stop device according to the present embodiment is shown.

The plastic nut 32 is injection molded from engineering plastic and its body can be divided into top, middle and bottom. The outer circumference of the upper portion 32a is a peripheral assembly portion for the spring guide rail 33; The outer circumference of the middle portion 32b is larger than the outer circumference of the upper portion; The stepped surface is formed between the upper portion 32a and the middle portion 32b, and the middle portion 32b has a projection 32d at the center where the third groove 32e is provided; The metal connecting piece 31 is fitted in the middle part 32b and fixed thereto; The lower portion 32c is used to connect to the valve core seat 11. The outer circumference of the metal connecting piece 41 formed integrally with the nut 32 by injection molding has a plurality of openings 31c, one of which is just below the projection 32d of the plastic nut. Are arranged in. In other words, the circumferential position-limiting surface is formed on the groove wall of the third groove and the sidewall of the first opening, and the axial position-limiting surface is formed on the lower surface of the annular metal connecting piece positioned next to the first opening. . In addition, the remaining openings 31c other than the openings 31 located directly below the projections 32d communicate the upper receiving chamber above the metal connecting piece 31 with the lower receiving chamber below the metal connecting piece 31, Balance the pressure in the two receiving chambers.

The spring guide rail 33 is formed by winding a steel wire. The main body of the spring guide rail 33 forms a spiral guide portion 33b, an upper portion of the spring guide rail 33 forms an upper stop portion 33a, and a lower portion of the spring guide rail 33 forms a lower stop portion ( 33c). The lower stop 33c extends radially to form a positioning portion in contact with the stepped surface, and extends downward in the axial direction from the positioning portion to remove the circumferential position-limiting portion 33d of the spring guide rail 33. And the circumferential position-limiting portion 33d further extends in the circumferential direction to form the axial position-limiting portion 33e of the spring guide rail 33.

The sliding ring 34 is also formed by winding a steel wire, which in turn is constituted by a stop head portion 34a, a spiral guide 34b and a stop tail portion 34c. Since the nut 32 is preferably made of plastic, when the sliding ring 34 cooperates with the spring guide rail 33 helically, the relative sliding movement between the sliding ring 34 and the outer circumferential surface of the plastic nut 32 The frictional resistance of is relatively small, and the rotational resistance of the rotor of the electric valve is effectively reduced.

Referring to the assembly method of the various components in the stop device of the technical solution of the present invention, reference is made to the sequence of arrows as shown in FIG. First, the axis of the spiral guide portion 34b of the sliding ring 34 coincides with the axis of the spiral guide portion 33b of the spring guide rail 33 along the spiral direction of the spring guide rail 33, and the sliding ring ( 34 is disposed on the first turn of the helical body of the spring guide rail 33; Thereafter, the sliding ring 34 and the spring guide rail 33 are assembled around the outer circumference of the upper portion 32a of the plastic nut 32 so that the positioning portion of the spring guide rail 33 is stepped of the nut 31. Contact with the surface to achieve pre-positioning; The trailing portion (axial position-limiting portion 33e) of the spring guide rail 33 is pulled away from the axis and then released so that the circumferential position-limiting portion 33d of the spring guide rail 33 acts as an elastic force. Is snapped back into its original position and snaps into an opening 31c on the outer periphery of the metal connecting piece 41 and the third groove 32e arranged on the projection of the plastic nut 32; At this time, the axial position-limiting portion 33e of the spring guide rail 33 is also snap-fitted on the lower surface of the metal connecting piece 31 located on the side of the opening hole 31c. After finishing the above-described assembly process, the spring guide rail 33 is fixed.

Referring to FIG. 3, there is shown a perspective view of an electric valve according to this embodiment in which a rotor and a shell are mounted. As shown, the nut and stop device assembled according to the above-described assembly manner and order are disposed on the valve seat component, that is, the lower part of the plastic nut 32 is inserted and assembled on the valve core 11, Thereafter, the metal connecting piece 31 is welded to the top edge of the valve seat 12 by welding (such as laser welding) to reliably position the nut 32 and the nut 32 to the valve seat 12. Ensure that it will not be rotated or pulled. After welding, due to the limitation of the valve seat 12 and the metal connecting piece 31, the trailing part of the spring guide rail 33 can no longer be pulled away from the axis, so that the spring guide rail 33 is It is reliably limited to a fixed position.

Compared with the prior art, the present invention has the following advantages. The structure of the present invention is simple and reliable, and it is possible to fix the stop spring guide rail simply and quickly in the assembly process. Thus, the assembly process is effectively reduced and the assembly cost is significantly reduced.

As shown in Fig. 1, after the assembly of the stop device is finished in the above-described assembly manner and order, the screw rod 23 and the sliding ring 34 are adjusted to the specified position; Thereafter, the rotor 41 having the rotor stop 42 is assembled to the top of the screw rod 23 at the specified position, and the rotor connecting body is welded to the top of the screw rod 23 to rotate it. The electron 41 and the screw rod 23 are integrally connected; Finally, the shell 5 is assembled on the valve seat 12 and the lower end of the shell 5 is hermetically welded to the top of the valve seat 12. As such, when the electric valve is actuated, the coil drives to rotate the rotor 41 of the electric valve, and the stop of the rotor 41 drives the sliding ring 34 to the spiral guide of the spring guide rail 33. It will drive to rotate along 33b. When the sliding ring 34 rotates upward to the limiting point, the sliding ring 34 will be limited from continuous upward rotation by the upper stop 33a of the spring guide rail 33 to realize the effect of the upper stop; When the sliding ring 34 rotates downward to the limit point, the sliding ring 34 will be limited from continuous downward rotation by the lower stop 33c of the spring guide rail 33 to realize the effect of the lower stop.

The snap-on position-limiting surface is not limited to the structural configuration of the circumferential position-limiting surface and the axial position-limiting surface as shown in this embodiment, and the trailing portion of the spring guide rail 33 is circumferentially and It is mentioned that all structural configurations that can be positioned and fixed in the axial direction fall within the protection scope of the present invention. In the following, two embodiments will be described in detail, respectively.

4 and 5, FIG. 4 is an assembly schematic view of the electric valve stop device according to the second embodiment, and FIG. 5 is a perspective view of the electric valve according to the second embodiment before the rotor and the shell are mounted.

The components and connection relationships applied to this embodiment are the same as those of the first embodiment. As shown in FIGS. 4 and 5, the difference between the two embodiments is that the arrangement of the position-limiting grooves on the plastic nut 32 cooperating with the position-limiting portion on the spring guide rail 33 is different.

In the technical solution of the invention, the position-limiting groove of the plastic nut 32 is L-shaped, that is, a first groove arranged in the axial direction and a second arranged in the circumferential direction in communication with the first groove. Grooves are provided on the body of the nut 32 between the stepped surface and the annular metal connecting piece 31; The circumferential position-limiting surface and the axial position-limiting surface are formed in the groove walls of the first and second grooves, respectively. Thus, similarly to the first embodiment, the circumferential position-limiting portion 33d and the axial position-limiting portion 33e of the spring guide rail 33 are formed in an "L" shape. During assembly, the trailing portion of the spring guide rail 33 is pulled away from the axis so that the positioning portion of the spring guide rail 33 is in contact with the step surface of the nut 32, and then the spring guide rail 33 A trailing portion of) is released to allow the position-limiting portion of the spring guide rail 33 to return to its original position under the action of elastic force; At this time, the L-shaped circumferential position-limiting portion 33d and the axial position-limiting portion 33e of the spring guide rail 33 are snapped into the L-shaped groove of the plastic nut 32 directly. In this embodiment, the "L" type is preferably applied, but various modifications such as the "P" type, "V" type, "U" type, "C" type and "6" type have the same positioning and It can be applied to achieve a fixed effect, all of which fall within the protection scope of the present invention.

6, FIG. 6 is a perspective view of an electric valve according to a third embodiment before the rotor and shell are mounted.

The components and connection relationships applied to this embodiment are the same as those of the first and second embodiments. As shown in Fig. 6, the design of the present invention is simplified based on the first embodiment, i.e., there is no protrusion or position-limiting groove in the middle part of the plastic nut 32 of the technical solution of the present invention. The structure of the portion is the same as in the first embodiment. Positioning and fixing of the spring guide rail 33 of this embodiment are realized only by one of the opening holes 31c of the metal connecting piece 31. After the nut and stopper component are assembled and secured to the valve seat component, the trailing portion of the spring guide rail 33 is fully snapped into the opening of the metal connecting piece 31 and the lower surface positioned next to the opening. Limited.

Only preferred embodiments according to the invention are described above. Those skilled in the art should note that some modifications and variations can be made without departing from the principles of the invention, and these modifications and variations will also fall within the protection scope of the invention. will be.

11: valve core seat 12: valve seat
13: connecting pipe 14: connecting pipe
21: valve needle 22: valve needle bushing
23: screw rod 24: retainer ring
25: spring 31: metal connecting piece
31c: opening 32: nut
32a: upper part of nut 32b: middle part of nut
32c: lower part of nut 32d: protrusion
32e: third groove 33: spring guide rail
33a: upper stop 33b: spiral guide
33c: lower stop 33d: circumferential position-limiting portion
33e: Axial position-limiting part 34: Sliding ring
34a: upper stop head portion 34b: spiral guide portion
34c: lower stop tail 41: rotor
42: rotor stop 5: shell

Claims (9)

An electric valve stop device, comprising: a spring guide rail and a sliding ring in combination and helically cooperating, the spring guide rail having an upper stop and a lower stop:
A nut cooperating with the screw rod of the electric valve, the nut having a radially extending step surface that is used for fixed connection with the valve seat of the electric valve; A snap-on position-limiting surface is provided on a portion of the nut below the stepped surface;
The spring guide rail is assembled on a portion of the nut on the stepped surface and the lower stop of the spring guide rail extends radially to form a positioning portion in contact with the stepped surface; And a portion of the lower stop snaps onto the snap-on position-limiting surface on the nut to achieve positioning. 2. The method according to claim 1, wherein the snap-down position-limiting surface refers specifically to a circumferential position-limiting surface arranged axially on the nut and an axial position-limiting surface connected with the circumferential position-limiting surface. To;
The portion of the lower stop below the positioning portion is formed by extending in particular in the axial direction and extending in the circumferential direction from the circumferential position-limiting portion in contact with the circumferential position-limiting surface, and the circumferential position-limiting portion. And an axial position-limiting portion formed by and contacting the axial position-limiting surface. 3. The annular metal connecting piece of claim 2, wherein the nut is formed of a plastic material, and the annular metal connecting piece used to be fixedly connected to the valve seat of the electric valve is fitted to the outer peripheral surface of the part of the nut below the stepped surface. An electric valve stop device characterized in that. 4. The electric valve stopper according to claim 3, wherein the nut and the annular metal connecting piece are integrally injection molded. The body of the nut according to claim 3 or 4, wherein the first groove arranged in the axial direction and the second groove arranged in the circumferential direction in communication with the first groove are on the body of the nut between the step surface and the annular metal connecting piece. Provided to; And the circumferential position-limiting surface and the axial position-limiting surface are formed in the groove walls of the first and second grooves, respectively. The first opening according to claim 3 or 4, wherein a third groove is axially arranged on the body of the nut between the step surface and the annular metal connecting piece, and is axially opposed to the third groove. Is formed on the outer circumference of the annular metal connecting piece, the circumferential position-limiting surface is formed on the groove wall of the third groove and the side wall of the first opening, and the axial position-limiting surface is the first opening. An electric valve stop device, characterized in that formed on the lower surface of the annular metal connecting piece located next to the ball. 5. The method according to claim 3 or 4, wherein the second opening is formed on the outer circumference of the annular metal connecting piece, the circumferential position-limiting surface is formed on the sidewall of the second opening, and the axial position-limiting. And a surface is formed on a bottom surface of the annular metal connecting piece positioned next to the second opening. 8. An electric valve comprising a valve seat and shell forming an inner accommodating chamber, a valve needle screw rod component and a stopper cooperating with the rotor and arranged in the inner accommodating chamber. An electric valve adopting the electric valve stop device according to any one of claims. 9. The valve needle screw rod component of claim 8 wherein:
A valve needle disposed in a valve core seat positioned at the bottom of the valve seat, the valve needle having an inwardly recessed receiving chamber in which one end of the valve needle cooperates with a valve hole and the other end of the valve needle is arranged in an axial direction; Valve needles;
A screw rod, the central portion of the screw rod spirally cooperating with the nut, one end of the screw rod is fixedly connected to the rotor, and the other end of the screw rod is inserted into the inwardly concave chamber of the valve needle. The screw rod; And
A return resilient component pre-compressed and disposed within said inwardly recessed receiving chamber inside said screw rod,
A portion of the screw rod disposed within the inwardly concave receiving chamber has a first position-limiting portion extending radially outwardly, and an outer circumference of the inwardly concave receiving chamber of the valve needle extends radially inwardly. And a position-limiting portion, wherein the first position-limiting portion and the second position-limiting portion cooperate with one another.

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