JP2012533717A - Motorized valve - Google Patents

Abstract

An electric valve having a high coaxiality between a nut and a valve core seat is provided.
An electric valve of the present invention includes a valve seat unit, a nut unit, and a needle valve screw shaft unit. The valve seat unit includes a valve seat 12 and a valve core seat 11, and the nut unit includes a nut 32 for mounting the needle valve screw shaft unit. The lower end portion of the nut 32 is fitted into the upper end portion of the valve core seat 11.
[Selection] Figure 1

Description

  The present invention relates to the technical field of control valves, and more particularly to a motor-operated valve for adjusting the flow rate of fluid.

  In an air conditioner, a refrigerator, a heat pump water heater, and various types of cooling and heating facilities, the flow rate of fluid is generally adjusted using an electric valve.

  Generally, the electric valve includes a valve seat unit, a nut unit, a needle valve screw shaft unit, and a rotor unit. The valve seat unit includes a valve core seat, a valve seat, and a connecting pipe. The valve seat has a valve port. Normally, the valve core seat, the valve seat, and the connecting pipe are integrally welded to constitute a valve seat unit. The needle valve of the needle valve screw shaft unit is mounted in the nut of the nut unit.

  In the electric valve disclosed in Patent Document 1, the nut of the nut unit is fixed in the guide sleeve, the guide sleeve is fixed to the valve seat, and the needle valve needs to seal the valve port of the valve seat. Therefore, the demand for the coaxiality between the valve seat and the nut is relatively high, and the motor-operated valve must be indirectly controlled through multiple assembly steps so that the coaxiality between the valve core seat and the nut can be secured. . The coaxiality between the valve seat and the nut is affected by the processing accuracy of multiple parts such as the nut, guide sleeve, valve seat, and needle valve, so it is difficult to ensure the coaxiality, and the valve core seat and the nut are coaxial. Otherwise, the phenomenon that the needle valve and the valve port will not be coaxial is likely to appear, and as a result, the valve port will not be tightly sealed and the valve port will be eccentrically worn. And the service life of the motor-operated valve is shortened.

  Also, at present, the use of plastic material instead of metal material is one of the development trends in this field, and when the plastic valve nut is used in the motor-operated valve, the nut and the guide sleeve are based only on an interference fit. Since it is difficult to secure the connection strength of the two parties, the connection reliability is low, so plastic nuts cannot be used, expensive metal nuts must be used, and motorized valve processing Cost increases.

JP 2010-25932 A

  Therefore, a person skilled in the art is required to solve the technical problem of how to research and develop a motor-operated valve having a high degree of coaxiality between the nut and the valve core seat.

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

  To achieve the above object, the present invention includes a valve seat unit, a nut unit, and a needle valve screw shaft unit. The valve seat unit includes a valve seat and a valve core seat, and the nut unit. Is a motor-operated valve including a nut for attaching the needle valve screw shaft unit, wherein a lower end portion of the nut is fitted to an upper end portion of the valve core seat.

  Preferably, an upper end portion of the valve core seat is inserted into an inner hole of a lower end portion of the nut, and the nut is fitted on the valve core seat by a loose fit, an intermediate fit, or an interference fit. Yes.

  Preferably, a lower end portion of the nut is inserted into an inner hole of an upper end portion of the valve core seat, and the valve core seat is externally fitted to the nut by a play fit, an intermediate fit, or an interference fit. Yes.

  Preferably, the nut includes a plastic nut and an annular metal connection sheet, and the plastic nut is injection-molded using engineering plastic on the basis of the annular metal connection sheet.

  Preferably, the outer side of the annular metal connection sheet is fixed to the valve seat by welding.

  Preferably, one or more outer edge notches are provided outside the annular metal connection sheet.

  Preferably, one or more inner edge notches are provided inside the annular metal connection sheet, and one or more communication holes are provided in the annular portion of the annular connection sheet.

  Preferably, the needle valve screw shaft unit includes a needle valve having a needle valve bush provided at one end thereof, and a screw shaft. The needle valve is provided in a through hole of the valve core seat, and the needle The other end of the valve is inserted into the valve port of the valve seat, an inner hole is provided in the one end of the needle valve, and a blocker is inserted into one end of the screw shaft inserted into the inner hole of the needle valve. A ring is provided.

  Preferably, a spring is provided in the inner hole of the needle valve, and an end portion of the screw shaft is in contact with the spring.

  Preferably, the upper end of the nut is provided with an inner hole for attaching the screw shaft, the upper end of the inner hole is a guide hole, and the lower end of the inner hole is a female screw hole, The female screw hole and the male screw of the screw shaft make a pair.

  In the motor-operated valve of the present invention, the nut for attaching the needle valve screw shaft unit is connected so that the lower end of the nut is fitted to the upper end of the valve core seat, so that the nut and the valve mouth of the valve core seat are connected. The coaxiality can be extremely easily secured, and the coaxiality between the needle valve and the valve core seat is also increased, thereby avoiding the problem that the valve port is not tightly sealed and the problem that the valve port is eccentrically worn. At the same time, since the coaxiality between the needle valve and the valve port can be improved, the frictional force when the rotor of the rotor unit rotates is remarkably reduced, and the reliability of the operation of the motor-operated valve is improved.

  In a preferred technical solution, the nut includes a plastic nut and an annular metal connection sheet, and the plastic nut is injection-molded using engineering plastic on the basis of the annular metal connection sheet. Thus, the nut is injection-molded together using the annular metal connection sheet, so that the main body of the nut is injection-molded with engineering plastic, and the connection strength between the nut and the valve seat can be ensured. This simplifies the nut assembly process, increases production efficiency, and reduces costs.

It is a cross-sectional structure schematic diagram of one concrete implementation system of the motor operated valve of this invention. It is a structural schematic diagram of the nut in FIG. It is a structure schematic diagram of the cyclic | annular metal connection sheet | seat in FIG. It is a structural schematic diagram when the housing of the electric valve in FIG. 1 is not attached. It is a cross-sectional structure schematic diagram of the other concrete implementation system of the motor operated valve of this invention.

  In order that those skilled in the art may better understand the technical solution of the present invention, the present invention will be described in more detail with reference to the drawings and specific embodiments.

  Referring to FIGS. 1 to 4, FIG. 1 is a schematic cross-sectional view of one specific implementation method of the motor-operated valve of the present invention. FIG. 2 is a structural schematic diagram of the nut in FIG. FIG. 3 is a structural schematic diagram of the annular metal connection sheet in FIG. 2. FIG. 4 is a structural schematic diagram of the motor-operated valve in FIG. 1 when a housing is not attached.

  As shown in FIG. 1, the motor-operated valve of the present invention includes a valve seat unit, a nut unit, a needle valve screw shaft unit, and a rotor unit.

  Here, the valve seat unit includes a valve core seat 11, a valve seat 12, a first connection pipe 13, and a second connection pipe 14. A valve seat unit is formed by integrally connecting the valve core seat 11, the valve seat 12, the first connection pipe 13, and the second connection pipe 14. The valve core seat 11, the valve seat 12, the first connection pipe 13, and the second connection pipe 14 can be integrally connected by welding or can be integrally formed.

  The nut unit includes a nut for attaching a needle valve screw shaft unit. A spring rail 33 and a stop slide ring 34 are fitted on the outer circumference of the upper portion of the nut, and a lower end portion of the nut is a valve core seat. 11 and is fitted to the upper end of the valve 11, and the side surface of the nut is fixed to the valve seat 12. In one specific implementation, as shown in FIG. 1, the upper end portion of the valve core seat 11 is inserted into the inner hole of the lower end portion of the nut, and the nut is fitted in the valve core seat 11 with an idle fit, an intermediate fit, or It is externally fitted by an interference fit method.

  The needle valve screw shaft unit includes a needle valve 21, a needle valve bush 22, a screw shaft 23, a blocker ring 24, and a spring 25. The needle valve 21 and the needle valve bush 22 are integrally connected. Specifically, the needle valve 21 and the needle valve bush 22 are integrally connected by a method such as welding or interference fitting. A blocker ring 24 is externally fitted to the tip of the screw shaft 23, and the blocker ring 24 is externally fitted to the screw shaft 23 by a method such as welding or interference fitting. The screw shaft 23 is attached so as to engage with the inner hole of the needle valve 21, and a spring 25 is further provided in the inner hole of the needle valve 21, and the end of the screw shaft 23 abuts against the spring 25. Yes.

  The rotor unit includes a rotor 41, a rotor stopper 42, and a connection body that connects the two, and the rotor unit is fixed to the upper end of the screw shaft 23.

  Specifically, the motor-operated valve further includes a housing 5 for sealing the valve body, and the housing 5 is externally fitted to the valve seat 12.

  In the electric valve of the present invention, the nut for attaching the needle valve screw shaft unit is connected so that the lower end of the nut is fitted to the upper end of the valve core seat 11, and the side surface of the nut is fixed to the valve seat 12. ing. As a result, the coaxiality between the nut and the valve core seat 11 can be very easily secured, and the coaxiality between the needle valve 21 and the valve core seat 11 can be increased. The problem that the valve opening is worn eccentrically can be avoided. At the same time, since the coaxiality between the needle valve 21 and the valve port can be improved, the frictional force when the rotor 41 of the rotor unit rotates is remarkably reduced, and the reliability of the operation of the motor-operated valve is also improved.

  The present invention is not specifically limited to the structure of the needle valve screw shaft unit, the rotor unit, and the housing 5 by the above embodiment, and the needle valve screw shaft unit, the rotor unit, and the housing 5 are different from each other. Any structure should be within the protection scope of the present invention.

  In the preferred technical solution, as shown in FIGS. 2 and 3, the nut includes a plastic nut 32 and an annular metal connection sheet 31. The annular metal connection sheet 31 has an annular shape. Specifically, the middle of the annular metal connection sheet 31 is a through hole. The annular metal connection sheet 31 is formed by punching a metal plate material. On the basis of the annular metal connection sheet 31, injection molding is performed using engineering plastics.

  The nut is injection-molded together using the annular metal connection sheet 31 as a part of the mold, so that the main body of the nut is injection-molded with engineering plastic, and the connection strength between the nut and the valve seat 12 can be secured. This simplifies the nut assembly process, increases production efficiency, and reduces costs.

  Specifically, the outer side of the annular metal connection sheet 31 is fixed to the valve seat 12 by welding, and the nut is fixedly connected to the valve seat 12 via the annular metal connection sheet 31. Thus, since the annular metal connection sheet 31 can be firmly connected to the valve seat 12, the connection strength between the nut and the valve seat 12 can be ensured.

  In a preferred technical solution, one or more inner edge cutouts 31 a are provided inside the annular metal connection sheet 31, and one or more communication holes 31 b are provided in the annular portion of the annular metal connection sheet 31. Yes. By this inner edge notch 31a and the communication hole 31b, the connection strength between the upper and lower sides of the annular metal connection sheet 31 and the plastic nut 32 is increased, and the relative rotation between the annular metal connection sheet 31 and the plastic nut 32 can be performed. Can be prevented.

  Further, in a preferred technical solution, one or more outer edge notches 31 c are provided outside the annular metal connection sheet 31, and the outer edge notches 31 c serve as refrigerant passages, and both upper and lower sides of the annular metal connection sheet 31. In a specific technical solution, one of the outer edge cutouts 31 c limits the tail of the spring rail 33.

  In a specific technical solution, as shown in FIGS. 3 and 4, the plastic nut 32 is divided into three parts: a plastic nut upper part 32 a, a plastic nut middle part 32 b, and a plastic nut lower part 32 c.

  The outer periphery of the plastic nut upper portion 32a is a stop rail external fitting portion for externally fitting the spring rail 33 and the stop slide ring 34. The upper end portion of the inner hole of the plastic nut upper portion 32a is a guide hole of the screw shaft 23, and the lower end portion of the inner hole is a female screw hole. The guide hole of the screw shaft 23 and the outer circle at the upper end of the screw shaft 23 are loosely fitted with a small gap, thereby providing the rotor 41 with a circumferential positioning guide. The female screw hole and the male screw of the screw shaft 23 form a pair. The outer diameter of the plastic nut middle portion 32b is larger than the outer diameter of the plastic nut upper portion 32a, and the annular metal connection sheet 31 is connected to the plastic nut middle portion 32b by injection molding. The plastic nut lower portion 32 c is for fitting on the upper end portion of the valve core seat 11.

  The motor-operated valve of the present invention is assembled by the following method.

  The needle valve screw shaft unit is inserted into the nut from below the nut, the needle valve screw shaft unit is screwed into the nut, and the needle valve screw shaft unit and the nut are fitted into the valve core seat 11. The outer edge of 31 is welded to the valve seat 12. After the positions of the stop slide ring 34 and the rotor stopper 42 are set, the rotor unit is fitted on the tip of the screw shaft 23, and the screw shaft 23 is welded to the connection body of the rotor 41 by welding. Finally, after housing 5 is fitted onto valve seat 12, housing 5 is sealed and welded to valve seat 12.

  In the above embodiment, the nut adopts a structure in which the plastic nut 32 is injection molded on the annular metal connection sheet 31. However, the motor-operated valve of the present invention is not limited to this, and the nut may be a metal nut. Any nut should be included in the protection scope of the present invention as long as the nut is fixed to the valve core seat 11 by external fitting.

  In the embodiment, the nut and the valve core seat 11 are such that the upper end portion of the valve core seat 11 is inserted into the inner hole of the lower end portion of the nut, and the nut is loosely fitted, intermediately fitted, or tightened to the valve core seat 11. Although it is externally fitted by a fitting method, the present invention is not limited to this, and the lower end portion of the nut may be inserted into the inner hole of the upper end portion of the valve core seat 11. This example will be briefly described.

  Referring to FIG. 5, FIG. 5 is a schematic cross-sectional view of another specific implementation method of the electric valve of the present invention.

  As shown in FIG. 5, the lower end portion of the nut is inserted into the inner hole of the upper end portion of the valve core seat 11, and the upper end portion of the valve core seat 11 is play-fit, intermediate fit, or interference fit to the lower end portion of the nut. It is fitted. Since other specific implementation processes are similar to those of the above-described embodiment, detailed description thereof is omitted here.

  In the above embodiment, the lower end portion of the nut and the upper end portion of the valve core seat 11 are fitted together by a play fit, an intermediate fit, or an interference fit. However, the present invention is not limited to this, and the lower end of the nut. The upper end of the valve core seat and the valve core seat may be fitted together by screwing or the like, both of which should belong to the protection scope of the present invention.

  What has been described above is a preferred embodiment of the present invention. It should be pointed out that the present invention has a finite character representation, but the present invention has an objectively infinite concrete structure. That is, the present invention can be slightly improved and modified by general engineers in the technical field without departing from the principle of the present invention, and these improvements and modifications are within the protection scope of the present invention. Should be considered belonging.

11 valve core seat 12 valve seat 13 first connection pipe 14 second connection pipe 21 needle valve 22 needle valve bush 23 screw shaft 24 blocker ring 25 spring 31 annular metal connection sheet 31a inner edge notch 31b communication hole 31c outer edge notch 32 Plastic nut 32a Plastic nut upper part 32b Plastic nut middle part 32c Plastic nut lower part 33 Spring rail 34 Slide ring 41 Rotor 42 Rotor stopper 5 Housing

Claims (10)

A valve seat unit, a nut unit, and a needle valve screw shaft unit, wherein the valve seat unit includes a valve seat and a valve core seat, and the nut unit is a nut for attaching the needle valve screw shaft unit. In motorized valves including
The motor-operated valve, wherein a lower end portion of the nut is fitted to an upper end portion of the valve core seat.   The upper end portion of the valve core seat is inserted into an inner hole of the lower end portion of the nut, and the nut is externally fitted to the valve core seat by a play fit, an intermediate fit, or an interference fit. The motor-operated valve according to claim 1.   A lower end portion of the nut is inserted into an inner hole of an upper end portion of the valve core seat, and the valve core seat is externally fitted to the nut by a play fit, an intermediate fit, or an interference fit. The motor-operated valve according to claim 1.   The said nut contains a plastic nut and a cyclic | annular metal connection sheet | seat, The said plastic nut is injection-molded using engineering plastic on the basis of the said cyclic | annular metal connection sheet | seat. The motor-operated valve according to any one of 3 above.   The motor-operated valve according to claim 4, wherein an outer side of the annular metal connection sheet is fixed to the valve seat by welding.   The motor-operated valve according to claim 5, wherein one or more outer edge notches are provided outside the annular metal connection sheet. One or more inner edge cutouts are provided inside the annular metal connection sheet,
The motor-operated valve according to claim 5, wherein the annular portion of the annular connection sheet is provided with one or more communication holes. The needle valve screw shaft unit includes a needle valve provided with a needle valve bush at one end, and a screw shaft.
The needle valve is provided in a through hole of the valve core seat, the other end of the needle valve is inserted into a valve port of the valve seat, and an inner hole is provided at the one end of the needle valve. The motor-operated valve according to claim 4, wherein a blocker ring is provided at one end of the screw shaft inserted into the inner hole.   The motor-operated valve according to claim 8, wherein a spring is provided in the inner hole of the needle valve, and an end portion of the screw shaft is in contact with the spring.   An inner hole for attaching the screw shaft is provided at the upper end of the nut, the upper end of the inner hole serves as a guide hole, and the lower end of the inner hole serves as a female screw hole. The motor-operated valve according to claim 8, wherein the male screw of the screw shaft forms a pair.

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