KR19980037764A - Flapper Valve System of Compressor - Google Patents

Abstract

The present invention provides a flapper valve system of a compressor.

The flapper valve system of the compressor is a flapper type which is fixed to the cylinder block 13 'to seal the upper part of the cylinder 13 and opened and closed according to the reciprocating motion of the piston 14 in the cylinder 13. A compressor having a suction and discharge valve assembly (15); An inlet or outlet 41 'is formed on top of the cylinder block 13' and leads to the cylinder 13, and the width of one side is narrow and the width of the other side is wide around the inlet or outlet 41 '. A valve plate 41 on which a seat 41 is formed; And a flapper valve 42 installed on the lower surface or the upper surface of the valve plate 41 so as to open and close the inlet or outlet 41 ′ of the valve plate 41 according to the internal pressure of the cylinder 13. Characterized in that.

Accordingly, the simple structure prevents unstable opening operation and deterioration of the valve due to oil sticking, and further improves the reliability or lifespan of the numerous opening and closing operations of the valve. There is.

Description

Flapper Valve System of Compressor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flapper valve system of a compressor, and more particularly to a compressor having a flapper valve assembly, which simplifies the structure and reduces performance due to oil sticking, while being reliable in operation. A flapper valve system of a compressor that can be prevented.

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 a low heat source inside and a high heat source inside the refrigerator 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, and the liquid refrigerant is throttled to low pressure and low temperature through an expansion valve. It enters the evaporator. The low pressure and low temperature refrigerant in the evaporator absorbs latent heat from the low heat source inside the refrigerator in the liquid phase, thereby causing a phase change to the saturated steam refrigerant, and then flowing 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. Supported by interposing the frame 24 at the bottom or side of the upper and lower cases 12, 11 with suitable dust and soundproof means, for example compression springs or leaf springs at intervals of.

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. Refrigerant gas from the intake and discharge valves 15 through the discharge pipe 23 'and the discharge pipe connecting pipe 23 fixedly sealed to the upper or lower cases 12 and 11, the external condenser It is sent out (not shown). The refrigerant filling pipe 22 'is hermetically fixed to the lower case 11 and is initially sealed after filling refrigerant gas therein.

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 valves 15, the pulsation of the refrigerant gas, and the pulsation of the refrigerant gas. 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 fixed to the lower part of the frame 24, and a rotor 19 rotating with a gap between the stator 18 (see Fig. 2), the rotor 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 through 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 as described above, a coolant oil storage tank 25 in which coolant oil is stored is formed at the bottom of the lower case 11, and the lubricating oil supply groove 20 'of the rotating shaft 20 is formed. As it is sucked into the upper portion, the refrigerant oil is supplied to each lubrication part to perform lubrication.

The conventional flapper discharge valve has a structure of fixing the valve and the stopper to the valve plate by using a rivet and a method of fixing the valve and the stopper by forming a mounting groove in the valve plate. The structure has a form of inserting and fixing a thin plate between the valve plate and the cylinder block.

That is, the flapper type discharge valve system in FIGS. 3A and 3B is composed of a valve plate 31, a flapper type suction 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 valve seat 31a and the valve mounting groove 31 are formed around the 13 '. The flapper discharge valve 32 has a 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 in accordance with the internal pressure of the cylinder 13. One end is fixed to the back spring 33 is elastically restricting the opening degree of the other end of the flapper discharge valve 32 and the mounting groove of the upper surface of the valve plate 31 so as to close quickly by applying elasticity when closing It is fixed at the upper part of the flapper type discharge valve 32 to 31. The back spring 33 may be omitted.

Further, a stopper 34 is inserted into the uppermost portion of the mounting groove 31 of the valve plate 31 so that the flapper discharge valve 32 is disposed above the flapper discharge valve 32 or the back spring 33. By limiting the degree of opening of the other end of the c) in the protrusion 34 ', the flapper discharge valve 32 can perform a smooth opening and closing operation.

However, in the flapper valve system of the compressor having the structure described above, the oil film 33 of the refrigeration oil is formed as shown in Fig. 3B. That is, the refrigerant oil sucked and scattered upward from the refrigerator oil storage tank 25 along the lubricating oil supply groove 20 'of the rotating shaft 20 is mixed into the refrigerant gas and is also sucked into the cylinder 13, thereby causing the flapper The oil film 33 of the refrigeration oil is formed between the valve 32 and the valve seat 31a so that the flapper valve can be completely sealed during the closing operation. A loss occurs and the opening becomes seismic by the oil sticking, which makes the opening operation uneven and thus lowers the valve performance.

Accordingly, the present invention is to solve the above problems, to eliminate the energy loss and operation instability caused by oil sticking of the flapper valve to improve the performance of the valve and furthermore the flapper type of compressor with reliability and durability The purpose is to provide a valve system.

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;

Figure 3a is a partially enlarged cross-sectional view showing the structure of a conventional flapper valve system of the compressor, Figure 3b is a partial enlarged cross-sectional view of the flapper discharge valve portion of Figure 3a,

Figure 4 is a partially enlarged cross-sectional view showing a flapper-type discharge valve system of the compressor according to an embodiment of the present invention,

5 is a plan view of a valve seat portion in the flapper valve system of the compressor of FIG.

* 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, 31 ', 41': discharge port, 31a, 41: valve seat, 32, 42: discharge valve, 34: stopper, 41: valve plate

In order 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 at an upper portion of the cylinder block and having a suction port to a discharge port, the valve plate having a valve seat having a narrow width on one side and a wide width on the other side around the suction port and the discharge port; And it provides a flapper valve system of the compressor comprising a flapper valve installed on the lower surface or the upper surface of the valve plate to open and close the inlet or outlet of the valve plate in accordance with the internal pressure of the cylinder.

Since the valve seat and the suction port to the discharge port are eccentrically formed, the valve seat may be formed to have a narrow width on one side and a wide width on the other side.

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

4 is a partial enlarged cross-sectional view of a flapper discharge valve system of a compressor according to an embodiment of the present invention.

In FIG. 4, the flapper discharge valve system includes a valve plate 41 and a flapper discharge valve 42.

The valve plate 41 is disposed above the cylinder block 13 'as in the prior art, and has an inlet port (not shown) and an outlet port 41' which lead to the cylinder 13, and the flapper discharge valve 42 is formed. In contact with the valve seat 41 is formed to close the discharge port 41 '. The valve seat 41 is formed with a narrow width d 'on one side and a large width d on the other side, as shown in FIG.

The flapper discharge valve 42 is provided on the upper surface of the valve plate 41 so as to open and close the discharge port 41 'of the valve plate 41 according to the internal pressure of the cylinder 13. As the conventional fixing method, there is a method of fixing the valve and the stopper to the valve plate using a rivet and a method of fixing the valve and the stopper by forming a mounting groove in the valve plate.

When the valve plate 41 is molded by sintering, its width can be changed at the time of sintering, and the valve seat 41 according to the present invention can be easily obtained by flat grinding or finishing. Since the inclined valve seat 41 is pierced by the piercing punch or the stripper at the same time as the piercing of the inlet or discharge port 41 ', the width of the valve seat 41 can be formed differently, which is more effective in manufacturing.

By forming the flapper valve as described above, it is possible to solve the instability due to oil sticking when the valve itself is left open, and further improve the performance of the valve. That is, in the narrow portion d ', since the adhesion force by the refrigerator oil film 43 is smaller than the adhesion force by the refrigerator oil film 43 in the wide portion d, the valve is first opened in the narrow portion d'. It can start to break the balance of adhesion due to oil sticking, and moreover, it can easily open the valve without losing the opening force by releasing the concentrated force gradually to the wide part (d), opening by oil sticking Force loss can be reduced, performance instability can be prevented, and valve performance and reliability can be improved.

In addition, although the flapper type discharge valve is described with reference to FIGS. 4 and 5, the same applies to the flapper type intake valve and the illustration is omitted. However, the valve seat is formed to have a symmetrical width in a conventional manner and the valve is eccentric. The same action and effect would result if the fork is placed in contact with the valve seat.

By the configuration and action of the flapper valve system of the compressor according to the present invention as described above, the valve seat 41 of the valve plate 41 is inclined or the flapper valve is eccentrically formed at its connection or the valve. Since the inside of the contact portion to the seat is formed as an asymmetrically inclined groove, it is possible to eliminate the unstable opening operation and deterioration of the valve due to oil sticking, and further improve the reliability or life of the valve's numerous opening and closing operations. There is an effect such as a simple and low cost.

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; An inlet or outlet 41 'is formed on top of the cylinder block 13' and communicates with the cylinder 13, and a width of one side is narrow and a width of the other side is wide around the inlet or outlet 41 '. A valve plate 41 on which a seat 41 is formed; And a flapper valve 42 installed on the lower surface or the upper surface of the valve plate 41 so as to open and close the inlet or outlet 41 ′ of the valve plate 41 according to the internal pressure of the cylinder 13. The flapper valve system of the compressor, characterized in that. The valve seat 41 of claim 1, wherein the valve seat 41 and the suction port to the discharge port 41 'are eccentrically formed so that the width d' of one side is narrow and the width d of the other side is wide. A flapper valve system of a compressor, characterized in that formed. The valve seat 41 and the inlet to outlet 41 'are formed concentrically, but the flapper valve is disposed eccentrically to the valve seat 41. A flapper valve system of a compressor, characterized in that the width (d ') of one side is narrow and the width (d) of the other side is in contact with the valve seat (41).