KR19980037762A - Fixed structure of flapper discharge valve of compressor - Google Patents

Abstract

A valve plate 31 disposed on the upper surface 13 of the cylinder block 13 'and having at least a discharge port 13' for communicating with the cylinder 13; A flapper discharge valve (32) fixed to an upper surface of the valve plate (31) to open and close the discharge port (31 ') of the valve blade (31) according to the internal pressure of the cylinder (13); A back spring (33) fixed to an upper surface of the valve blade (31) to elastically limit the opening degree of the other end of the flapper discharge valve (32) and to apply elasticity when closing; In addition, a stopper 47 'is formed integrally with the back spring 33 at the upper portion of the back spring 33 to restrict the opening degree of the other end of the flapper discharge valve 32 integrally. It is characterized in that the discharge valve cover 47 is fixed to the upper name of the plate 31 to form the discharge chamber (37 ').

Accordingly, the number of parts can be reduced and the number of assembly operations can be reduced, and the flapper discharge valve 32 and the back spring 33 are firmly fixed to smoothly operate the flapper discharge valve 32. It is possible to reduce the noise or vibration while ensuring the effect.

Description

Fixed structure of flapper discharge valve of compressor

The present invention relates to a fixed structure of a flapper-type discharge valve of a compressor, and more particularly, to a compressor having a flapper-type valve assembly, which can simplify the structure, reduce the number of parts, and reduce the number of assembly operations. The fixed structure of the flapper discharge valve of the present invention.

Compressors typically convert mechanical energy into compressive energy of a compressive fluid, which are reciprocating, rotary and turbo. When such a compressor is used for a refrigerator, the saturated steam of a low boiling point refrigerant having the inside of the refrigerator as a low heat source and the outside as a high heat source is compressed to a high pressure and flowed to a condenser. In the condenser, latent heat of evaporation is released from the high-pressure and high-temperature refrigerant to a high-heat source outside the refrigerator, causing a phase change to a liquid refrigerant, which is then throttled to low pressure and low temperature through an expansion valve. , Is introduced into the evaporator. The low-pressure, low-temperature refrigerant in the evaporator mostly absorbs the latent heat from the low heat source inside the refrigerator in the liquid phase to cause a phase change to the refrigerant in a saturated steam state, and then flows into the compressor described above to form a refrigeration cycle. In the middle of repeating such a refrigeration cycle, the inside of the refrigerator is continuously supplied with cold air to bring about the desired refrigeration (long) effect.

Normally, the compressor for a domestic refrigerator is mainly installed in the lower part of the refrigerator while being closed in a case together with its driving electric motor in a single stage reciprocating type, and the internal structure of the state in which the upper case is removed is shown in plan view in FIG.

In the reciprocating compressor 10, the electric motor and the compressor are hermetically housed in the upper and lower cases 12 and 11 for soundproofing and dustproofing, and the upper and lower cases 12 and 11 are predetermined. At intervals of, the upper and lower casings 12 and 11 are supported by means of appropriate vibration and soundproofing means, for example compression springs or leaf springs, via the frame 24 at the bottom or side.

The above-described reciprocating compressor is composed of a cylinder block 13 fixed to the upper portion of the frame 24 horizontally in Figure 1 and a piston 14 reciprocally inserted into the cylinder therein (see Figure 2), By the reciprocating motion of the piston 14, low pressure and low temperature refrigerant gas is sucked through the suction and discharge valves 15 provided at the left end of the cylinder block 13, and high pressure and high temperature refrigerant gas is discharged. The suction and discharge valve 15 is composed of a flapper or reed type thin plate structure which is usually elastic for miniaturization, and the flapper or lead type suction and discharge valve 15 acts on both sides. It is opened and closed passively by the pressure difference.

In the reciprocating compressor configured as described above, the suction pipe (connecting pipe) 22 in which the low pressure and low temperature refrigerant gas is hermetically fixed to the upper or lower cases 12 and 11 during the backward movement of the piston 14. And a high pressure and a high temperature discharged from an external evaporator (not shown) to the suction lead valve of the suction and discharge valve 15 via the suction muffler 16 and discharged from the compressor during the forward movement of the piston 14. The refrigerant gas of the external condenser is discharged from the discharge valve of the suction and discharge valve 15 through the discharge pipe 23 'and the discharge pipe connecting pipe 23 fixedly sealed to the upper or lower cases 12 and 11. It is sent out (not shown). The refrigerant charging pipe 22 'is hermetically fixed to the lower case 11, and initially filled with refrigerant gas, and then sealed.

In addition, the compressor noise, which occupies most of the operation noise of the refrigerator, is generated by the reciprocating motion of the piston 14, the opening and closing shock of the suction and discharge valve 15, the pulsation of the suction gas and the discharge pressure, and the like. In order to reduce noise caused by the pulsation of the suction and discharge pressures, the refrigerant gas introduced into the suction pipe (connecting pipe) 22 is filled in the upper and lower cases 12 and 11, and through the suction muffler 16. The refrigerant sucked into the cylinder 13 and compressed in the cylinder 13 is discharged to the discharge pipe 23 ′ through the discharge muffler 17.

On the other hand, the electric motor is composed of a stator 18 fixedly installed at the lower part of the frame 24, and a rotor 19 rotating with a gap between the stator 18 (see FIG. 2). 19 is fixed to the rotating shaft 20 and rotatably supported by the frame 24 to rotate together. By forming the eccentric shaft 21 at the end of the rotating shaft 20 of the electric motor to the upper portion of the frame 24 to connect the piston 14 to the eccentric shaft 21 through the connecting rod and the number of shafts, The piston 14 reciprocates by the amount of eccentric rotation of the eccentric shaft 21. In addition, an external power source is applied to the winding coil of the stator 18 of the electric motor via an external terminal 18 'which is hermetically fixed to the upper and lower cases 12 and 11.

In order to smoothly operate the compressor and the driving motor which operate as described above, the oil storage tank 25 in which the refrigeration oil is stored is formed at the bottom of the lower case 11, and the upper portion is provided along the lubricating oil supply groove 20 'of the rotating shaft 20. As it is sucked into, it supplies lubricant oil to each lubrication part for lubrication.

3 and 4 show the structure of the above-described flapper discharge valve in detail. The flapper discharge valve system is composed of a valve plate 31, a flapper discharge valve 32, a back spring 33, a stopper 34, and a discharge valve cover 37.

The valve plate 31 is arranged to be closed on the upper surface 13 of the cylinder block 13 'and has at least a discharge port 31' for communicating the cylinder 13 and the discharge chamber 37 'with the discharge port on the upper surface thereof. The mounting groove 31 of the valve is formed around the 13 '. The flapper discharge valve 32 is provided in the mounting groove 31 on the upper surface of the valve plate 31 so as to open and close the discharge port 31 'of the valve plate 31 according to the internal pressure of the cylinder 13. One end is fixed, and the back spring 33 is mounted on the upper surface of the valve plate 31 so that the other end of the flapper-type discharge valve 32 elastically limits the degree of opening and closes quickly by applying elasticity when closing. It is fixed at the upper part of the flapper type discharge valve 32 to 31. This back spring 33 can be removed if unnecessary.

A discharge valve cover 37 is inserted into an uppermost portion of the mounting groove 31 of the valve plate 31 at an upper portion of the back spring 33, and together with the back spring 33, the flapper discharge valve 32 By fixedly limiting the opening degree of the other end of the flap-type discharge valve 32 it is possible to perform the smooth opening and closing operation.

However, as described above, the flapper discharge valve 32, the back spring 33 and the stopper 34 are inserted and mounted in the mounting groove 31 of the valve plate 31, and the discharge valve cover 37 is placed thereon. Is fixed to the cylinder block 13 'so that the flapper discharge valve 32, the back spring 33 and the stopper 34 together with the valve plate 31 are fixed, and the structure is not only complicated. It takes a lot of assembly labor, etc., because the stopper 34 is inserted and fixed in the mounting groove 31 of the valve plate 31 separated, the stopper 34 to some extent to facilitate the assembly. Resilience is required, and the reciprocation, operation of the flapper discharge valve 32, and the discharge pressure of the refrigerant gas cause vibration of the stopper 34 or slip with other components, thereby making noise and vibration more problematic. It is becoming.

Accordingly, the present invention is to solve the above-mentioned problems, by limiting the opening degree of the discharge valve to form a stopper integrally to the valve cover to ensure the smooth operation of the discharge valve to simplify the structure, yet firmly configured and the number of parts It is an object of the present invention to provide a fixed structure of a flapper discharge valve of a compressor which can reduce the number of assembly operations.

1 is a plan view showing the internal structure of a hermetic reciprocating compressor;

2 is a cross-sectional view taken along line 2-2 of FIG. 1 showing the internal structure of the hermetic compressor;

3 is a detailed cross-sectional view showing a fixed structure of a conventional flapper discharge valve;

4 is a bottom view of the valve cover of FIG. 3, FIG.

5 is a detailed cross-sectional view showing a fixing structure of the flapper discharge valve according to the present invention;

6 is a bottom view of the valve cover of FIG. 5.

* Explanation of the main symbols used in the drawings

10 compressor, 11 lower case, 12 upper case, 13 cylinder, 14 piston, 15 suction and discharge valve assembly, 16 suction muffler, 17 discharge muffler, 18 stator (stator), 19 times Electron (rotor), 20: rotating shaft, 21: eccentric shaft, 22: suction pipe (connecting pipe), 23: discharge pipe connecting pipe, 23 ': discharge pipe, 24: frame, 25: refrigeration oil reservoir, 31: valve Plate, 32: flapper discharge valve, 33: back spring, 34, 47 ': stopper, 37, 47: valve cover, 37': discharge chamber, 37, 47: valve cover fixing hole, 48: fixing protrusion

To achieve this object, the present invention is directed to a compressor having a flapper type suction and discharge valve assembly fixed to a cylinder block to seal an upper portion of a cylinder and opened and closed according to the reciprocating motion of a piston in the cylinder; A valve plate disposed to be closed on an upper surface of the cylinder block and having at least a discharge port through the cylinder; A flapper discharge valve having one end fixed to an upper surface of the valve plate to open and close the discharge port of the valve plate according to the internal pressure of the cylinder; A back spring fixed to the upper surface of the valve plate to elastically limit the opening degree of the other end of the flapper discharge valve and to apply elasticity when closing; In addition, a stopper is formed integrally with the back spring at the upper portion of the back spring, the stopper fixedly limiting the opening degree of the other end of the flapper discharge valve and fixed to the upper surface of the valve plate to form a discharge chamber. It provides a fixed structure of the flapper discharge valve of the compressor, characterized in that consisting of a cover.

A valve mounting groove is formed in the upper surface of the discharge port portion of the valve plate, and the flapper discharge valve and the back spring are installed in the mounting groove, and the back spring is prevented from being detached from the mounting groove. Since the fixing projection for pressurization is formed in the stopper of the discharge valve cover, the flapper discharge valve and the back spring can be firmly fixed with a simple structure. In addition, the discharge valve cover may be formed integrally with the suction chamber to be fluidly separated from the discharge chamber, the lower portion may be formed in the inlet port in the valve plate and a similar flapper type suction valve is provided between the valve plate and the upper surface of the cylinder block. It may be fixedly installed and configured to open and close the suction port by the pressure according to the reciprocating motion of the piston.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the embodiments of the present invention.

4 and 5 show the structure of the flapper discharge valve according to the present invention in detail. The flapper discharge valve system comprises a valve plate 31, a flapper discharge valve 32, a back spring 33 and a discharge valve cover 47.

The valve plate 31 is arranged to be closed on the upper surface 13 of the cylinder block 13 'as shown in FIG. 3, and at least the discharge port 31' for communicating the cylinder 13 with the discharge chamber 37 '. Is formed and the mounting groove 31 of the valve is formed around the discharge port 13 '. The flapper discharge valve 32 is provided in the mounting groove 31 on the upper surface of the valve plate 31 so as to open and close the discharge port 31 'of the valve plate 31 according to the internal pressure of the cylinder 13. The back spring 33 is elastically restricting the degree of opening of the other end of the flapper discharge valve 32, and the mounting groove 31 of the upper surface of the valve plate 31 so as to be closed quickly by applying elasticity when closing. ) Is inserted at the top of the flapper discharge valve 32.

The discharge valve cover 47 according to the present invention is fixed to the cylinder block 13 ′ via the fixing opening 47 at the upper surface of the valve plate 31, and thus the cylinder block 13 together with the valve plate 31. Is fixed to '). In addition, as shown in FIG. 6, a stopper 47 'is integrally formed in the middle of the discharge chamber 37' on the lower surface of the discharge valve cover 47, and the valve plate 31 is mounted when assembled. The fixing projection 48 below the stopper 47 'to press and fix the flapper discharge valve 32 and the back spring 33 inserted into the groove 31 and inserted into the mounting groove 31. Is formed integrally.

The stopper 47 'formed on the discharge valve cover 47 fixedly restricts the opening degree of the other end of the flapper discharge valve 32 together with the back spring 33 at the upper portion of the back spring 33. Done.

In addition, the discharge valve cover 47 may be formed integrally with the suction chamber 16 'so as to be fluidly separated from the discharge chamber 37' as shown by the double-dotted line in FIG.

According to the above-described flapper valve assembly mounting structure of the compressor according to the present invention, the valve plate 31 is processed and the mounting groove 31 is formed in the same manner as before, and the flapper discharge is performed. The manufacture of the valve 32 and the back spring 33 is also the same as before. In the case of the discharge valve cover 47 according to the present invention, the stopper 47 ′ and the fixing protrusion 48 may be integrally formed simultaneously by injection molding, but in the case of press molding a sheet, after drawing or forming The stopper 47 'may be formed to be connected to the discharge valve cover 47 by bending or forming, or may be integrally formed by welding or the like.

In assembling each component manufactured in this manner, first, the flapper discharge valve 32 is disposed at a predetermined position of the mounting groove 31 of the valve plate 31, and the back spring 33 is inserted and mounted thereon. After that, the discharge valve cover 47 is positioned using the fixing opening 47, and then fixed to the cylinder block 13 'by fixing means such as a screw to protrude downward from the stopper 47'. The projection 48 presses and fixes the flapper discharge valve 32 and the back spring 33 in the mounting groove 31 of the valve plate 31.

By manufacturing and assembling as described above, it is possible to reduce the separated stopper 34 of FIG. 3, and it is not necessary to insert and assemble the separate and manufactured stopper 47 ′ into the mounting groove 31 separately. In addition, the means for fixing the separate back spring 33 and the flapper discharge valve 32 to the mounting groove 31 becomes unnecessary, and the discharge valve cover 47 is firmly placed on the lower surface thereof. By pressing and fixing the back spring 33 and the flapper discharge valve 32 by the fixed fixing projections 48, the parts between the parts during the opening and closing operation are assured while ensuring the reliable opening and closing of the flapper discharge valve 32. No vibration or noise due to slip of

In this operation, as the piston 14 moves forward in the cylinder 13, the pressure in the cylinder 13 becomes greater than the pressure in the discharge chamber 37 'of the discharge valve cover 47, so that the flapper When the discharge valve 32 is bent and rotated about its fixed end against its elastic force, the discharge port 31 'of the valve plate 31 is opened and the compressed refrigerant gas in the cylinder 13 It is discharged to the discharge chamber 37 '. Since the flapper discharge valve 32 is not excessively bent or deformed by the pressure of the refrigerant gas discharged, the rotation of the flapper discharge valve 32 is limited by the stopper 47 'of the discharge valve cover 47 described above. . Thereafter, at the top dead center of the piston 14 or in the reverse direction, the flapper discharge valve 32 closes the discharge port 31 'quickly by its elastic force and the elastic force of the back spring 33. When the piston 14 moves backward, the pressure in the cylinder 13 is lower than the pressure in the discharge chamber 37 'so that the flapper discharge valve 32 is kept closed.

According to the configuration and the operation of the fixing structure of the flapper discharge valve of the compressor according to the embodiment of the present invention described above, the stopper 47 'is integrally formed in the discharge valve cover 47 and the fixing projection 48 Is formed to reduce the number of parts and at the same time reduce the number of assembly operations, and firmly fix the flapper type discharge valve 32 and the back spring 33 to provide a smooth flapper type discharge valve 32. It is possible to reduce noise or vibration while ensuring the operation.

Claims (3)

A flapper suction and discharge valve assembly 15 fixed to the cylinder block 13 ′ to seal the upper portion of the cylinder 13 and opened and closed according to the reciprocating motion of the piston 14 in the cylinder 13. In a compressor; A valve plate 31 disposed on the upper surface 13 of the cylinder block 13 'and having at least a discharge port 13' for communicating with the cylinder 13; A flapper discharge valve 32 having one end fixed to an upper surface of the valve plate 31 so as to open and close the discharge port 31 ′ of the valve plate 31 according to the internal pressure of the cylinder 13; A back spring (33) fixed to an upper surface of the valve plate (31) to elastically limit the opening degree of the other end of the flapper discharge valve (32) and to apply elasticity when closing; A stopper 47 'is formed integrally with the back spring 33 at the upper portion of the back spring 33 to correct the opening degree of the other end of the flapper discharge valve 32 integrally. A fixed structure of a flapper discharge valve of a storage machine, comprising a discharge valve cover 47 fixed to an upper surface of the plate 31 to form a discharge chamber 37 '. The valve mounting groove 31 is formed on the upper surface of the discharge port 31 'of the valve plate 31, and the flapper discharge valve 32 and the back spring are formed in the mounting groove 31. 33 is provided, and a fixing projection 48 for pressing the back spring 33 to prevent the back spring 33 from being detached from the mounting groove 31 is provided with the discharge valve cover 47. Fixed structure of the flapper discharge valve of the compressor, characterized in that formed on the stopper (47 ') of the compressor. The compressor flapper according to claim 1 or 2, wherein the suction valve 16 'is integrally formed in the discharge valve cover 47 so as to be fluidly separated from the discharge chamber 37'. Structure of discharge valve.