KR100702991B1 - A discharge valve apparatus for hermetic compressor - Google Patents

Abstract

The present invention relates to a discharge valve device of a hermetic compressor. The discharge valve of the present invention is formed integrally with the gasket 40 and the gasket 40 having the elastic coating layer 41 'formed on the valve plate 30, the discharge valve plate 38, and the metal plate 41. It consists of a retainer 48 and a head cover 50. The retainer 48 controls the behavior of the discharge valve plate 38. According to the present invention as described above, since the discharge valve plate 38 made of a metal material comes into contact with the coating layer 41 ′ of the elastic material when controlling the behavior of the discharge valve plate 38, the impact noise is relatively reduced.

Hermetic compressors, discharge valves, retainers

Description

A discharge valve apparatus for hermetic compressor

1 is a cross-sectional view showing the internal configuration of a conventional hermetic compressor according to the prior art.

Figure 2 is a cross-sectional view showing a valve device and related parts of the hermetic compressor according to the prior art.

Figure 3 is a plan view showing the configuration of the valve spring and the valve plate constituting the valve device of the hermetic compressor according to the prior art.

Figure 4 is a front view showing the structure of the head cover formed with a discharge valve retainer according to another prior art.

Figure 5 is an exploded perspective view showing the configuration of a preferred embodiment of the discharge valve device of the hermetic compressor according to the present invention.

6 is a cross-sectional view of a retainer constituting an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1: 1t sealed container: upper container

2: frame 2S: spring

3: stator 4: rotor                 

5: crankshaft 6: cylinder

6 ': compression chamber 7: piston

8: Connecting Rod 9: Valve Assembly

10: Head cover 11: suction muffler

12: suction pipe 13: discharge pipe

30: valve plate 32: suction hole

34: discharge hole 36: fastening hole

38: discharge valve plate 40: gasket

42: suction hole 44: discharge communication part

46: fastener 48: retainer

49: connecting bridge 50: head cover

52: suction muffler seat 54: discharge chamber

56: fastener

The present invention relates to a hermetic compressor, and more particularly to a discharge valve for controlling the behavior of the discharge valve for discharging the compressed working fluid in the compression chamber.

1 shows an internal configuration of a hermetic compressor according to the prior art. According to this, the sealed container 1 which consists of the upper container 1t and the lower container 1b is provided, and the frame 2 is provided in the inside of the said sealed container 1. The stator 3 is fixed to the frame 2, and the frame 2 is supported inside the sealed container 1 by a spring 2S.

The crankshaft 5 is provided through the center of the frame 2. The crankshaft 5 is integrally provided with a rotor 4 and rotated together with the crankshaft 5 by electromagnetic interaction with the stator 3.

An eccentric pin 5b is formed on the upper end of the crankshaft 5 so as to be eccentric with respect to the rotation center of the crankshaft 5. A counterweight 5c is formed on the opposite side to which the eccentric pin 5b is formed, and the crankshaft 5 is rotatably supported by the frame 2.

An oil passage 5a is formed inside the crankshaft 5. The oil L provided on the bottom surface of the sealed container 1 is guided through the oil passage 5a to be delivered to the upper portion of the frame 2 and scattered. In addition, a pumping mechanism 5d for pumping the oil L to the oil passage 5a is installed at the lower end of the crankshaft 5.

On the other hand, the cylinder 6 provided with the compression chamber 6 'inside is integrally molded with the said frame 2. As shown in FIG. In the compression chamber 6 ′, a piston 7 connected to the eccentric pin 5b of the crankshaft 5 and the connecting rod 8 is provided. At the front end of the cylinder 6, a valve assembly 9 for controlling the refrigerant flowing into and out of the compression chamber 6 'is installed. The head cover 10 is mounted on the valve assembly 9, and the head cover 10 is connected to the valve assembly 9 so that the suction muffler 11 can transfer refrigerant to the compression chamber 6 ′. It is installed.

On the other hand, with reference to Figure 2 will be described in the main configuration of the valve assembly (9). A valve plate 9p is provided at the tip of the cylinder 6. The valve plate 9p is provided with a seating groove 9g in which a configuration for controlling discharge of the refrigerant compressed in the compression chamber 6 'is discharged. The discharge port 9e penetrates through one side of the valve plate 9p, and the suction port 9i penetrates through the other side of the valve plate 9p.

The seating groove 9g is provided with a valve plate 9v for opening and closing the discharge port 9e. The shape of the valve plate 9v is well illustrated in FIG. 3, the front end portion of which is installed at a position corresponding to the discharge port 9e and opens and closes 9v 'to open and close the discharge port 9e, and the other end is below. It is a fixing portion 9v "which is pressed and fixed by the retainer 9r to be described.

And the valve spring 9s is provided so that it may overlap with the said valve board 9v. The tip end of the valve spring 9s serves to control the swing of the valve plate 9v. And the other end is a fixed part which is pressed and fixed by the said retainer 9r.

A retainer 9r is seated in the seating groove 9g to fix the upper portion of the valve plate 9v and the valve spring 9s. A portion of the upper portion of the inner surface of the retainer 9r that corresponds to the front end of the valve spring 9s is formed as a restricting portion 9r 'and lower than other portions to regulate the fluctuation of the valve spring 9s. The valve assembly described here is only the main portion thereof. In the figure, reference numeral 9i denotes a suction port for sucking refrigerant into the compression chamber 6 '.                         

On the other hand, as shown in Figure 4 is also used a configuration in which the retainer is integrally formed in the head cover, it will be described, the discharge chamber 10r is discharged inside the head cover (10 ') is discharged compressed The retainer 9R is integrally formed on one side of the discharge chamber 10r. At this time, the retainer 9R is made to correspond to the shape of the discharge valve 9v or the valve spring 9s so as to control the behavior of the discharge valve 9v or the valve spring 9s. Reference numeral 11 'denotes a muffler seating portion.

In this configuration, the refrigerant is sucked into the compression chamber 6 'and the compressed refrigerant is discharged through the following process. That is, when the piston 7 moves to the bottom dead center from the top dead center, a relatively low pressure is formed inside the compression chamber 6 ', and the compression chamber 6 is formed through the suction port 9i. The refrigerant is sucked into the interior of '). At this time, the valve plate 9v is attracted to the valve plate 9p by the low pressure inside the compression chamber 6 'and closes the discharge port 9e.

When the piston 7 starts to move from the bottom dead center to the top dead center again, the suction port 9i is closed by the pressure generated in the compression chamber 6 '. In this state, the piston 7 continues to move toward the top dead center to compress the refrigerant. When the piston 7 reaches the top dead center, the valve plate 9v is pushed by the pressure of the compressed refrigerant to open the discharge port 9e and the refrigerant is discharged to the outside of the compression chamber 6 '. do.

At this time, the valve spring 9s prevents the valve plate 9v from being excessively attenuated, allows the valve spring 9v to be quickly returned to close the discharge port 9e, and the restricting portion 9r of the retainer 9r. ') Regulates the operation of the valve spring 9s.

However, the conventional compressor in which the valve assembly is operated in the above manner has the following problems.

That is, the valve plate 9v is formed of a metal material, and when the valve plate 9v is driven, the valve plate 9v continuously hits the retainer 9r and the valve plate 9p formed integrally with the head cover 10 '. ') And the valve plate 9p are made of metal, and the valve plate 9v is also made of metal, which is the largest noise source of the compressor.

Accordingly, an object of the present invention is to solve the conventional problems as described above, and to simplify the configuration for the operation of the discharge valve in the hermetic compressor.

Another object of the present invention is to minimize the noise generated when the discharge valve of the hermetic compressor.

According to a feature of the present invention for achieving the above object, the present invention is a valve plate in which the suction hole and the discharge hole is formed, the discharge valve plate installed in the valve plate to open and close the discharge hole, the behavior of the discharge valve plate And a head cover which is integrally formed with a retainer for controlling the leakage, and which is connected to the valve plate with the gasket therebetween, a discharge chamber communicating with the discharge hole, and a suction side communicating with the suction hole. It is configured by.                     

The gasket is formed of an elastic coating layer 41 'on both sides of the metal plate.

The gasket is formed with a suction hole communicating with the suction side of the head cover and a discharge communication unit having a shape corresponding to the discharge chamber, and the retainer is formed at a position corresponding to the discharge valve plate. Connecting bridges for providing rigidity are connected.
The connecting bridge extends from both ends of the retainer to both sides and is connected to the edge of the gasket.

According to the valve device of the hermetic compressor according to the present invention having such a configuration, the behavior of the discharge valve plate of the metal material is controlled by a retainer having the coating layer 41 ′ of the elastic material, thereby minimizing noise and vibration.

Hereinafter, a preferred embodiment of a discharge valve device of a hermetic compressor according to the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

5 is an exploded perspective view showing the configuration of a preferred embodiment of the discharge valve device of the hermetic compressor according to the present invention, and FIG. 6 is a sectional view of the retainer constituting the embodiment of the present invention.

As shown in these figures, the valve plate 30 mounted on the cylinder block in which the compression chamber is formed is formed of a metal material in a rectangular plate shape. Through the valve plate 30, the suction hole 32 for delivering the refrigerant to the compression chamber and the discharge hole 34 for discharging the refrigerant compressed in the compression chamber from the compression chamber are drilled. In addition, four fastening holes 36 for fastening to the cylinder block are formed at four corners of the valve plate 30.

The suction hole 32 is opened and closed by a suction valve plate installed on the surface of the valve plate 30 on the compression chamber side, and the discharge hole 34 is a discharge valve plate provided on an opposite surface on which the suction valve plate is installed. Opening and closing by 38).

The gasket 40 is positioned on the surface of the valve plate 30 on which the discharge valve plate 38 is installed. The gasket 40 is installed between the head cover 50 to be described below to prevent leakage. As shown in FIG. 6, the gasket 40 includes a coating layer 41 ′ formed of an elastic material on both surfaces of the thin metal plate 41. An example of a material for forming the coating layer 41 ′ is heat resistant rubber.

Meanwhile, a suction hole 42 corresponding to the suction hole 32 of the valve plate 38 is formed in the gasket 40, and corresponds to the discharge chamber 54 of the head cover 50 to be described below. In the position, the discharge communication tube 44 is drilled. Four fastening holes 46 corresponding to the fastening holes 36 are formed at four corners of the gasket 40.

In addition, a retainer 48 is formed at a position corresponding to the discharge valve plate 38 in the discharge communication portion 44. The retainer 48 controls the behavior of the discharge valve plate 38. Such a retainer 48 is formed to be inclined so as to maintain a predetermined distance from the front end of the discharge valve plate 38. In order to maintain the strength of the retainer 48, a connecting bridge 49 is formed at the tip of the retainer 48 to connect the edge of the gasket 40. The connecting bridge 49 extends to both sides of the tip of the retainer 48 as shown in FIG. 5.

Next, the head cover 50 is mounted to the valve plate 30 with the gasket 40 interposed therebetween. The suction muffler seating portion 52, which is a suction side communicating with the suction hole 32 of the valve plate 30, is formed in the head cover 50, and the discharge communication portion 44 of the gasket 40 is formed. The discharge chamber 54 is formed at a position corresponding to the discharge chamber 54. The discharge chamber 54 is a portion where the refrigerant compressed in the compression chamber is discharged by the operation of the discharge valve plate 38. Four fastening holes 56 corresponding to the fastening holes 36 and 46 are drilled at four corners of the head cover 50.

Hereinafter, the operation of the discharge valve device of the hermetic compressor according to the present invention having the configuration as described above.

The valve device of the present invention is fastened to the fastening holes (36, 46, 56) in the state in which the valve plate 30, the discharge valve plate 38, the gasket 40 and the head cover 50 are arranged in order. Is not connected to the cylinder block.

Referring to the operation of the discharge valve device, it is sucked into the compression chamber through the suction muffler seating portion 52, the suction holes (42, 32) is compressed. The compressed refrigerant is discharged to the discharge chamber 54 by the discharge valve plate 38 opening the discharge hole 34. The refrigerant discharged to the discharge chamber 54 is transferred to the discharge silencer through an unillustrated flow path.

At this time, the behavior of the discharge valve plate 38 is controlled by the retainer 48. The retainer 48 regulates the degree to which the tip of the discharge valve plate 38 is pushed by the pressure of the refrigerant applied through the discharge hole 34 so that the discharge valve plate 38 is properly opened and closed. .

On the other hand, since the compression cycle of the refrigerant proceeds repeatedly in the compression chamber, the discharge valve plate 38 continuously hits the retainer 48 while opening and closing the discharge hole 34. However, the retainer 48 is formed with an elastic coating layer 41 'can sufficiently buffer the impact.

That is, since the metal discharge valve plate 38 strikes the coating layer 41 ′ of the elastic material, the noise generated as compared with the contact between the metals is relatively small.

Since the discharge valve device of the hermetic compressor according to the present invention as described in detail above is formed with a retainer for controlling the behavior of the discharge valve plate made of metal integrally in the gasket formed with an elastic coating layer on the metal plate, the operation of the discharge valve plate When the metal material hits the coating layer, the operation noise of the discharge valve plate is relatively reduced.

In addition, since the retainer is integrally formed in the gasket, the number of parts constituting the discharge valve device may be relatively reduced, thereby improving assembly performance.

Claims (3)

A valve plate having suction holes and discharge holes formed therein; A discharge valve plate installed at the valve plate to open and close the discharge hole; A gasket for integrally formed with a retainer for controlling the behavior of the discharge valve plate and preventing leakage; A head cover fastened to the valve plate with the gasket therebetween and having a discharge chamber communicating with the discharge hole and a suction side communicating with the suction hole; The gasket is formed with a suction hole communicating with the suction side of the head cover and a discharge communication unit having a shape corresponding to the discharge chamber, and the retainer is formed at a position corresponding to the discharge valve plate. Discharge valve device of a hermetic compressor, characterized in that the connection bridge is formed to provide rigidity. According to claim 1, wherein the gasket is a discharge valve device of the hermetic compressor, characterized in that the coating layer of elastic material is formed on both sides of the metal plate. The discharge valve apparatus of claim 1 or 2, wherein the connection bridge extends from both ends of the retainer to both sides and is connected to an edge of the gasket.

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