KR20080067401A - Abrasion resistance improved electronic expansion valve - Google Patents

Abstract

An abrasion resistance improved electronic expansion valve is provided to increase abrasion resistance by forming a fixed screw part inserted into an electronic expansion valve with a lubricant material. An abrasion resistance improved electronic expansion valve includes an upper body(10) and a base(20). The upper body includes upper and lower cases(11,12), a magnet(13), a moving screw part(14), a needle(15), a fixed frame(16), and a fixed screw part(17). The upper and lower cases are coupled to each other. The magnet is coupled to an inside of the upper case. The moving screw part is inserted in a hole formed on the magnet. The needle is inserted in the moving screw part and is protruded outside the lower case. The fixed frame is coupled to exterior of the moving screw part and is protruded outside the lower case. The fixed screw part is coupled to the fixed frame and includes a screw thread inside. The base includes refrigerant outlet and inlet(21,22), and an orifice(23). The refrigerant outlet discharges refrigerant. The refrigerant inlet is formed vertically to the refrigerant outlet and intakes the refrigerant. The orifice is protruded from the refrigerant outlet and has a diameter larger as going to an exhaust.

Description

Abrasion resistance improvement electronic expansion valve. {ABRASION RESISTANCE IMPROVED Electronic Expansion Valve}

1 is a cross-sectional view showing an electromagnetic expansion valve according to a first embodiment of the present invention.

2 is an enlarged cross-sectional view of FIG.

3 is an enlarged cross-sectional view of FIG.

4 is a perspective view and a cross-sectional view of an orifice according to a first embodiment of the present invention.

5 is a cross-sectional view of the fixing screw unit according to the first embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10: upper body 11: upper case

12: lower case 13: magnet

14: Moving screw part 15: Needle

15a: fixing washer 16: fixed frame

16a: rotary spring 17: set screw part

18: compression spring 19,19 ': stopper

20: base 21: discharge pipe

22: inlet tube 23: orifice

23a: protruding jaw 30: stator coil

40: valve body

The present invention relates to an electromagnetic expansion valve having improved wear resistance, and the material of the fixing screw inserted into the electromagnetic expansion valve is manufactured separately with a lubricating material to increase wear resistance, and the orifice is separately processed and assembled to improve the precision of parts and various shapes. A wear resistance improving electromagnetic expansion valve capable of providing an orifice of

In general, the structure of the fixed frame of the electronic expansion valve used in an air conditioner, a freezer, a heat pump, etc. is composed of a precision screw part which is assembled by moving a moving screw part on the inner side, and a thread shape that controls the rotational movement of the moving screw part on the outer circumference of the stator It has a disadvantage in that it requires an excessive processing time due to the one-piece processing and the machining of the inner surface and the processing of another thread on the outer surface.

In addition, the material of the fixed frame is made of hard plating after precision processing by using brass-based materials with high machinability, and is coated with hard plating on precision screw parts requiring wear resistance. There is an added disadvantage.

Orifice of the conventional electronic expansion valve base is formed integrally processed, in particular is processed integrally using a brass-based free machinability material.

The problem of the orifice is that there is a problem that the deformation and hardness of the orifice falls during the assembly and welding of the valve body by using a brass-based material, the material of the needle that is the counterpart for adjusting the area of the orifice is made of stainless steel series Due to the characteristics of the valve which repeats the opening and closing of the orifice continuously, orifice wear occurs and leakage increases as time passes.In the case of a refrigerant using a high pressure, the orifice is an expansion part of the refrigerant due to the high pressure discharge pressure. Increasing wear occurs due to overload and high heat generation, and therefore, the material and shape of the orifice need to be improved, and the friction noise of the valve body increases due to the expansion of the refrigerant at high temperature and high pressure at the end of the orifice. There is this.

The present invention has been created to solve the above problems, can be used for natural refrigerant CO ₂ of high temperature and high pressure, and smoothly control the flow rate, and even if used for a long time, the material of the fixed screw portion so as not to cause the problem of lubricating material It is designed separately to increase abrasion resistance, and provides a fixed screw part that does not cause any problems even if no additional lubricant oil is added. Also, because the orifice is separately processed and assembled, it improves the precision of parts and provides various shapes of orifices. It is an object of the present invention to provide an electromagnetic expansion valve having improved wear resistance that can be applied to a shape.

The present invention has the following features to achieve the above object.

An expansion valve, comprising: an upper case in a dome shape at an upper portion thereof, and a lower case coupled to both ends of a lower side of the upper case; Magnets are formed and coupled to the inside of the upper case; A moving screw part inserted into a hole formed inside the magnet and having a hole penetrated therein; A needle inserted into the inner circumferential surface of the moving screw and having a lower surface pointed to protrude downward than the lower case; A fixing frame coupled to the outer circumferential surface of the moving screw part and having a lower surface protruding downwardly from the lower case; An upper body formed of a fixing screw coupled to an inner circumferential surface of the fixing frame; A discharge pipe formed to discharge refrigerant from the lower side; An inlet tube formed at a right angle with the discharge tube and configured to introduce a refrigerant; A base formed of an orifice which is coupled to the upper inner circumferential surface of the discharge pipe and protrudes upwards, wherein the fixing screw is formed with a thread through the inner circumferential surface of the cylindrical body, and is fixed to the inner circumferential surface of the fixing frame. Orifice is formed in multiple stages are coupled to the inside of the base, the hole is penetrated through the inner circumferential surface, the outlet direction is increased in diameter compared to the inlet, the fixing method of the fixing screw portion is fixed by the adhesive method, the press-in method, etc., The orifice is made of a stainless series material, it is characterized by the chamfering treatment of the upper surface in contact with the needle to increase the roughness and reduce the leakage of the refrigerant.

The present invention having such a feature will be more clearly described through the preferred embodiment accordingly. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view illustrating an electromagnetic expansion valve according to a first embodiment of the present invention, FIG. 2 is an enlarged cross-sectional view of FIG. 1, FIG. 3 is an enlarged cross-sectional view of FIG. 1, and FIG. 4 is a first view of the present invention. 5 is a perspective view and a cross-sectional view of an orifice according to an embodiment, and FIG. 5 is a cross-sectional view of a fixing screw unit according to a first embodiment of the present invention.

The electromagnetic expansion valve is composed of a stator coil 30 and a valve body 40, and an upper circumferential case 11 of a dome shape is formed as an inner circumferential surface of the stator coil 30, and a magnet inside the upper case 11. (13) is located, the moving screw portion 14 is inserted into the magnet 13, the needle (15) having a lower end of the rod shape is inserted into the inner peripheral surface of the moving screw portion 14, the needle ( Compression spring 18 is coupled to the outer circumferential surface of 15, and the needle 15 is fixed to the upper surface of the moving screw portion 14 by a fixing washer 15a formed on the upper surface of the moving screw portion 14.

The fixing frame 16 is coupled to the outer circumferential surface of the moving screw unit 14, the fixing screw unit 17 is inserted into the inner circumferential surface of the fixing frame 16, and the fixing frame 16 is formed of the base 20 to be described later. It is pressed in and fixed to the upper side, the outer circumferential surface of the fixing frame 16 is formed in the form of a thread so that the rotating spring (16a) can be installed, the rotating spring (16a) is installed, the movement interval of the rotating spring (16a) Stoppers 19 and 19 'are installed on the upper side and the lower side of the fixing frame 16 to adjust, and the fixing frame 16 protrudes downwardly from the lower case 12 so as to be described below. By being combined with the upper body 10 and the base 20 is combined.

Processing of the fixing screw portion 17 inserted into the fixed frame 16 may be processed by an automatic processing machine, a press forming method, a sintering method, and an injection molding method, and the like, even if the lubricating oil mixing ratio of the refrigerant is reduced by manufacturing a lubricating material. There is no problem in the operation of the valve, and it is also possible to be used for flow rate control in a variety of liquid and gaseous mediums without supplying oil for a long time, and the press method in the processing method of the female thread on the inner circumferential surface of the fixed screw part 17. Silver powder material is pressed and sintered to form threads through machining, which can have lubricity. In automatic processing machines, bearings are made by precisely processing the screw parts using materials having high machinability and lubricity for phosphorus and bronze. It has a lubricity to play a role.

The injection method of the fixed screw unit 17 uses a processing method to increase the wear resistance and lubricity by applying a precision injection method using a resin in which a lubricant such as Teflon-based is added to the engineering plastic resin, and mass production is possible. It is possible to reduce the production cost, by separating the fixed frame 16 and the fixed screw unit 17 can be applied to a variety of materials selection and processing method, and selectively processing a variety of materials according to the type of refrigerant Because it can be applied to the wear resistance, it can be easily applied to wear resistance, and also the machining precision for the threaded part can be increased by separate processing, and the machining roughness can be improved in various ways through the fixing of lapping, etc. Reduces wear on

The assembly of the fixing screw 17 and the fixing frame 16 is a press-fit method, and the second fixing is performed by a caulking process, and the fixing method is variously applied depending on the material of the fixing screw 17 and the specification of the refrigerant. As another fixing method, there is a method of applying an adhesive to the outer circumferential surface of the fixing screw unit 17 in contact with the fixing frame 16.

In addition, the stopper 19 'formed on the lower side of the outer circumferential surface of the fixed frame 16 is processed by an automatic processing machine to form a thread-shaped guide, and the rotary spring 16a moves up and down to move the screw portion 14. Limit the number of revolutions.

The magnet 13 serves to convert an electrical signal into a rotational motion, and is used by injecting neodium mark 30, which is a rare earth system having a high magnetic flux density, according to its characteristics, and can be injected in various forms.

In addition, a needle 15 and a compression spring 18 are inserted into the moving screw portion 14 and the moving screw portion 40 into the magnet 13, and the moving screw portion 14 uses a free cutting material. It is preferable to, and to apply the automatic processing machine to improve the precision, can be a separate hard plating to increase the hardness, the needle 15 serves to linearly adjust the area of the orifice (23) And, wear resistance and high machinability of using a stainless steel is improved durability, the role of the compression spring 18 serves to press the orifice 23 at the end of the needle (15) at a constant pressure.

The base 20 is coupled to the inlet tube 22 through which the refrigerant is introduced, the discharge tube 21 through which the refrigerant introduced from the inlet tube 22 is discharged, and an upper surface of the discharge tube 21 to form a refrigerant. Consists of an orifice 23 formed to adjust the discharge amount by the needle 15, the material of the orifice 23 can reduce the deformation caused by welding by using a stainless series, the needle 15 due to the separation process ) And the contact portion can increase the roughness by chamfering to reduce the amount of leakage of the refrigerant, the orifice 23 is processed in a multi-stage protruding jaw (23a) formed on the outer peripheral surface of the upper base 20 more firmly It is coupled to the inside of, and is firmly fixed so as not to fall out under high pressure.

In addition, the outlet direction of the orifice 23 is a portion in which two kinds of high-temperature and high-pressure refrigerant is expanded to an outlet side at which the refrigerant is expanded, and processed to form a constant angle at an ideal flow section in which a flow velocity passes very quickly. 23 can reduce the expansion noise, and also process the outer circumferential surface of the upper surface of the orifice 23 in a multi-stage form to ensure concentricity and flatness when assembling with the base 20.

As described above, in the present invention, since the material of the fixing screw inserted into the expansion valve is made of a lubricating material, wear resistance is increased, and a problem does not occur even if no additional lubricating oil is added. By processing the orifices separately, it is possible to improve the precision of parts and to apply the shapes of orifices of various shapes, and has the effect of reducing the noise generated during the expansion of the high temperature and high pressure refrigerant.

Claims (2)

In the solenoid valve, An upper case 11 having a dome shape at an upper portion thereof, and a lower case 12 coupled to both ends of the lower side of the upper case 11; A magnet 13 formed with a hole formed inside the upper case 11; A moving screw part 14 inserted into a hole formed inside the magnet 13 and having a hole penetrated therein; A needle 15 inserted into the inner circumferential surface of the moving screw 14 and protruding downwardly from the lower case 12 because the lower surface is sharply formed; A fixing frame 16 coupled to the outer circumferential surface of the moving screw part 14 and protruding downwardly from the lower case 12; An upper body 10 formed of a fixing screw part 17 coupled to an inner circumferential surface of the fixing frame 16; A discharge pipe 21 formed to discharge refrigerant from the lower side; An inflow pipe 22 formed at a right angle with the discharge pipe 21 and configured to allow a refrigerant to flow therein; And a base 20 formed of an orifice 23 which is coupled to the upper inner circumferential surface of the discharge pipe 21 and protrudes upward. The fixing screw portion 17 is formed through a cylindrical through the inner circumferential surface of the screw thread is fixed to the inner circumferential surface of the fixing frame 16, The orifice (23) is formed in multiple stages are coupled to the inside of the base 20, the hole through the inner circumferential surface, the outlet direction is the internal structure of the electronic expansion valve, characterized in that the inner diameter increases compared to the inlet. The method of claim 1, The fixing method of the fixing screw unit 17 is the internal structure of the electromagnetic expansion valve, characterized in that fixed by the adhesive method or the press-fit method.

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