KR200382939Y1 - A Valve Assembly For A Hermetic Compressor - Google Patents

Abstract

The present invention relates to a valve assembly of a hermetic compressor. According to the present invention, a valve plate 50 having a suction hole 51 and a discharge hole 53 for passing a working fluid and a valve plate 50 are installed on one surface of the valve plate 50 to selectively select the suction hole 51. A suction valve 60 for opening and closing, a discharge valve assembly 70 installed on the other surface of the valve plate 50 to selectively open and close the discharge hole 53, and the suction through the valve plate 50. It comprises a fixing means for simultaneously fixing the valve 60 and the discharge valve assembly 70. According to the present invention, there is an effect of reducing the production cost generated by separately mounting the intake valve 60 and the discharge valve assembly 70 to the valve plate 50.

Description

A Valve Assembly For A Hermetic Compressor

The present invention relates to a hermetic compressor, and more particularly to a valve assembly for controlling the flow of the working fluid flowing in and out of the compression chamber.

Figure 1 shows the internal configuration of a conventional hermetic compressor according to the prior art.

As shown in the drawing, an airtight container 1 including an upper container 1t and a lower container 1b is provided, and a frame 2 is installed inside the 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 installed 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 provided at an upper end of the crankshaft 5 so as to be eccentric with respect to the rotation center of the crankshaft 5. And the counterweight (5c) is formed on the opposite side of the eccentric pin (5b) is formed. Reference numeral 5a denotes a passage formed inside the crankshaft 5 for supplying the oil L. As shown in FIG.

On the other hand, the cylinder block 6 having a compression chamber 6 ′ therein is integrally molded to the frame 2. In addition, the compression chamber 6 'is provided with a piston 7 connected to the eccentric pin 5b of the crankshaft 5 and the connecting rod 8. A valve assembly 15 is installed at the front end of the cylinder block 6 to control the working fluid flowing into and out of the compression chamber 6 '. A silencer 11 for reducing noise generated by the working fluid is installed to be connected to the head cover 10.

 Reference numeral 5d is a pumping mechanism for sucking oil L into the passage 5a, 12 is a suction pipe for delivering a working fluid to the inside of the hermetic container 1, and 13 is a compressed working fluid outside the compressor. The discharge pipe discharged to the.

2 is an exploded perspective view showing a valve assembly and a peripheral configuration of a hermetic compressor according to the prior art.

As shown, the cylinder block 6 has a cylinder base 6b seated on the upper surface of the frame 2 at its lower end. The cylinder base 6b is provided with a mounting hole 6m through which a bolt (not shown) for mounting to the frame 2 passes. The cylinder block 6 has a cylinder front surface 6f on which the valve assembly 15 is mounted in a quadrangular shape. In the cylinder front surface 6f, fastening holes 6h for fastening the head cover 10 and the valve assembly 15 are formed at four corners.

A suction plate 21, a valve plate 23, a discharge plate 25, and a gasket 27 are sequentially installed between the cylinder front surface 6f and the head cover 10. The suction plate 23i and the discharge hole 23e are drilled in the valve plate 23, respectively. The suction hole 32i is opened and closed by a suction valve 22 formed in the suction plate 21. The discharge hole 23e is opened and closed by the discharge valve 26 in the discharge plate 25.

On the other hand, the four holes of each of the elements constituting the valve assembly 15 is bored with a bolt hole (H), respectively. The bolt holes H correspond to the fastening holes 6h drilled in the cylinder block 6 and the bolt holes 10 'drilled in the head cover 10, respectively. ) Is penetrated and fastened to the fastening hole 6h so that the valve assembly 15 and the head cover 10 are fastened to the cylinder block 6.

Figure 3 is an exploded perspective view showing the configuration of another valve assembly according to the prior art.

As shown, in the second prior art, the discharge plate is replaced with the discharge valve assembly 31 and mounted on the valve plate 33. In other words, the discharge valve assembly 31 is composed of a discharge valve 31a and a retainer 31b, and the discharge valve 31a selectively blocks the discharge hole 33e, and the retainer ( 31b) serves to limit the play of the discharge valve 31a.

The discharge valve assembly 31 is coupled to the valve plate 33 through a fastening hole 33a formed in the valve plate 33. At this time, the rivet 37 is used to couple the discharge valve assembly 31 to the valve plate 33. That is, the discharge valve assembly 31 is fastened to the valve plate 33 by caulking the tip of the rivet 37.

In addition, the suction plate 35 has the same structure as the first conventional technology, and selectively blocks the suction hole 33i of the valve plate 33 with the suction valve 35a formed therein.

Figure 4 is an exploded perspective view showing the configuration of another valve assembly according to the prior art.

As shown, in the third prior art, the suction valve 41 and the discharge valve 43 are coupled to the valve plate 45 by welding. In other words, the suction valve 41 is disposed on one surface of the valve plate 45, the front end of which selectively opens and closes the suction hole 45i, and the rear end thereof is fixed by spot welding to the valve plate 45. .

And the discharge valve 43 is disposed on the other surface of the valve plate 45, the front end is selectively opened and closed the discharge hole (45e) and the rear end is fixed by spot welding to the valve plate 45.

However, the prior art as described above has the following problems.

That is, in the first conventional technique, the discharge having the suction plate 21 having the suction valve 22 and the discharge valve 26 for opening and closing the suction hole 23i and the discharge hole 23e of the valve plate 23 is provided. Plate 25 is installed in close contact with each surface of the valve plate 23, respectively. Therefore, in the first conventional technology, the suction plate 21 and the discharge plate 25 corresponding to the area of the valve plate 23 are manufactured, and the suction plate 21 and the discharge plate 25 are respectively disposed on the valve plate 23. There was a problem that the production cost is increased by being seated on.

In the second prior art, the discharge valve assembly 31 is assembled to the valve plate 33 instead of the discharge plate 25 in the first prior art. However, according to the related art, a caulking process for assembling the discharge valve assembly 31 and a process for seating the suction plate 35 on the valve plate 33 are required. Therefore, in the second prior art, there is a problem in that the manufacturing cost is also increased by manufacturing the suction plate 35 having the same area as the valve plate 33 and assembling the valve assembly by performing two processes.

In addition, in the third prior art, the suction valve 41 and the discharge valve 43 are spot welded to one surface and the other surface of the valve plate 45, respectively. However, the suction valve 41 and the discharge valve 43 are relatively thin sheet metal products, which frequently generate deformation by heat caused by welding. Therefore, in the related art, since the suction valve 41 and the discharge valve 43 do not seal the suction hole 43i and the discharge hole 43e, leakage of the working fluid occurs, which results in a weakness in terms of reliability.

Therefore, the present invention is to solve the problems of the prior art as described above, an object of the present invention is to provide a valve assembly of a hermetic compressor that can be mounted at the same time the suction valve and the discharge valve on the valve plate.

Another object of the present invention is to provide a valve assembly of a hermetic compressor mounted on the valve plate with the deformation of the suction valve and the discharge valve minimized.

According to a feature of the present invention for achieving the above object, the present invention is a valve plate is formed with a suction hole and a discharge hole for passing the working fluid, and installed on one surface of the valve plate to selectively open and close the suction hole And a suction valve, a discharge valve assembly provided on the other surface of the valve plate to selectively open and close the discharge hole, and fixing means for simultaneously fixing the suction valve and the discharge valve assembly through the valve plate.

Two or more fastening holes are drilled in the valve plate at predetermined intervals, and a fixing means is inserted into each of the fastening holes to couple the suction valve and the discharge valve assembly to the valve plate.

The discharge valve assembly is a discharge valve that is in close contact with the valve plate to block the discharge hole, and positioned behind the discharge valve to be spaced apart from the discharge valve by a predetermined distance to the extent that the discharge valve is spaced apart from the discharge hole. It is configured to include retaining retainers.

The fixing means is a rivet, and the valve plate, the suction valve and the discharge valve assembly are coupled to each other by caulking the tip of the rivet.

The valve assembly of the hermetic compressor according to the present invention having such a configuration has an effect of reducing the production cost generated by separately mounting the intake valve and the discharge valve assembly on the valve plate.

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

Figure 5 is an exploded perspective view of the valve assembly and the peripheral parts according to a preferred embodiment of the hermetic compressor according to the present invention, Figure 6 is an exploded perspective view showing the configuration of the embodiment of the present invention. And Figure 7 is a perspective view showing the discharge valve assembly side configuration of the present invention embodiment, Figure 8 is a perspective view showing a suction valve side configuration of the present invention embodiment.

As shown in the drawing, the valve plate 50 has a suction hole 51, a discharge hole 53, a fastening hole 55 and a bolt hole 57. In more detail, the suction hole 51 and the discharge hole 53 are for sucking or discharging the working fluid into the compression chamber 101. That is, the suction hole 51 is a passage through which the working fluid flows into the compression chamber 101 when the pressure in the compression chamber 101 decreases, and the discharge hole 53 is compressed in the compression chamber 101. It is a passage through which the working fluid is discharged to the outside. The suction hole 51 and the discharge hole 53 are formed in a predetermined diameter spaced apart from the valve plate 50 by a predetermined interval.

In addition, the fastening hole 55 is a penetrating means through the inner circumference, it is preferable to have a diameter corresponding to the fixing means. The fastening hole 55 is formed to be spaced apart from the suction hole 51 and the discharge hole 53 by a predetermined interval. In addition, the fastening holes 55 are exemplified as being configured in the valve plate 50 to be spaced apart from each other in the present embodiment. However, the present invention is not limited thereto, and one or three fastening holes 55 may be formed.

The bolt hole 57 is to be bolted to the cylinder block 100, the head cover 110 and the like to be described below in the corner portion of the valve plate 50, are formed in each of the four corners. The diameter of the bolt hole 57 corresponds to the diameter of the bolt 120 for continuously fastening the valve plate 50, the cylinder block 100 and the head cover 110.

The suction valve 60 serves to selectively open and close the suction hole 51, and as shown in FIG. 8, the suction valve 60 has a plate shape having a relatively long length compared to the width. The tip of the suction valve 60 is configured to have a relatively larger area than the diameter of the suction hole 51 is located in close contact with the suction hole 51. And the rear end of the suction valve 60 is formed with a through hole 61 corresponding to the fastening hole 55 of the valve plate 50 is fixed to the valve plate 50 by the fixing means. In other words, the suction valve 60 is coupled to the valve plate 50 by fixing the fixing means through the through hole 61 and the fastening hole 55 of the suction valve 60.

The discharge valve assembly 70 is installed on the opposite side to one surface of the valve plate 50 on which the suction valve 60 is mounted, that is, the other surface of the valve plate 50. At this time, the discharge valve assembly 70 is fixed to the valve plate 50 together with the suction valve 60 by the fixing means.

The discharge valve assembly 70 is composed of a discharge valve 71 and a retainer 73. The discharge valve 71 is in close contact with the valve plate 50 serves to block the discharge hole (53). Therefore, the distal end of the discharge valve 71 has an area enough to completely cover the discharge hole 53, and the rear end has a through hole 71a corresponding to the fastening hole 55 of the valve plate 50. It is fixed to the valve plate 50 by the fixing means.

And the retainer 73 serves to limit the distance that the discharge valve 71 is separated from the discharge hole 53 when the working fluid is discharged through the discharge valve 71. To this end, the rear end of the retainer 73 is formed with a coupling hole (73a) corresponding to the through-hole (71a) of the discharge valve 71 is fixed by the fixing means together with the discharge valve 71, It is configured to be gradually spaced apart from the discharge valve 71 toward the tip.

As mentioned above, the fixing means serves to simultaneously combine the intake valve 60, the valve plate 50 and the discharge valve assembly 70. To this end, in this embodiment, it is illustrated that the rivet 80 is employed as a fixing means. In this case, the rivet 80 continuously penetrates through the suction valve 60, the valve plate 50, and the discharge valve assembly 70, thereby coupling the respective components 50, 60, 70. Done.

However, the fixing means is not limited only to the rivet 80, and other fixing means, for example, bolts, etc., unless the heat is not generated by the coupling and thus does not deform the suction valve 60 and the discharge valve 71. It is also possible to use.

A gasket 90 is interposed between the valve plate 50 and the head cover 110 to be described below to prevent leakage. At this time, the gasket 90 has a bolt hole 91 corresponding to the bolt hole 57 of the valve plate 50 at the corner portion thereof, and the valve plate 50 and the head cover 110 are bolted ( 120) to enable fastening at the same time.

Next, referring to the configuration of the cylinder block 100 in which the valve assembly is mounted, the compression chamber 101 is formed through the center of the cylinder block 100. The working fluid is compressed and discharged into the compression chamber 101 while entering and exiting under the control of the valve assembly.

The front surface of the cylinder block 100, that is, the portion on which the valve assembly is mounted, is precisely machined into the cylinder front surface 103. The penetrating hole 103a is drilled at its four corners by penetrating backward from the cylinder front surface 103. The fastening hole 103a is formed at a position corresponding to the bolt hole 57 of the valve plate 50. A cylinder base 105 is formed at the bottom of the cylinder block 100, and a mounting hole 105a is provided at the cylinder base 105 to be fastened to the frame.

The head cover 110 is coupled to the cylinder block 100 together with the valve assembly. The discharge chamber 111 is formed in the head cover 110 to communicate with the discharge hole 53 and discharge the working fluid compressed in the compression chamber 101. Bolt holes 113 through which the bolt 120 penetrates are formed at four corners of the head cover 110, respectively. The bolt hole 113 is drilled at a position corresponding to the bolt hole 57 of the valve plate 50.

Hereinafter, the operation of the valve assembly of the hermetic compressor according to the present invention having the configuration as described above will be described in detail.

The tip of the suction valve 60 is positioned in the suction hole 51 of the valve plate 50. Since the tip of the suction valve 60 has an area enough to completely cover the suction hole 51, when the suction valve 60 is placed in the position, the suction hole 51 is connected to the suction valve 60. Are shielded by At this time, the through hole 61 formed at the rear end of the suction valve 60 is positioned to correspond to the fastening hole 55 of the valve plate 50.

Meanwhile, the distal end of the discharge valve assembly 70 is positioned in the discharge hole 53 of the valve plate 50. The discharge valve 71 of the discharge valve assembly 70 has an area enough to completely cover the discharge hole (53). Therefore, the discharge hole 53 is shielded from the outside by the discharge valve 71. At this time, the through hole 71a and the coupling hole 73a respectively formed at the rear ends of the suction valve 60 and the retainer 73 of the discharge valve assembly 70 are positioned to correspond to the fastening hole 55.

Here, the intake valve 60 and the discharge valve assembly 70 are disposed on different surfaces of the valve plate 50. In other words, the suction valve 60 is disposed on one surface of the valve plate 50, while the discharge valve assembly 70 is disposed on the other surface of the valve plate 50.

As such, when the suction valve 60 and the discharge valve assembly 70 are positioned in the valve plate 50, the through hole 71a and the coupling hole 73a of the discharge valve assembly 70 and the suction valve ( A rivet 80, which is a fixing means, is inserted to continuously penetrate the through hole 61 of the 60 and the fastening hole 55 of the valve plate 50. The tip of the inserted rivet 80 is caulked by applying pressure. Therefore, the discharge valve assembly 70, the valve plate 50, and the suction valve 60 are simultaneously coupled by the rivets 80, thereby completing the valve assembly.

The head cover 110 is in close contact with one side of the valve assembly including the valve plate 50, the intake valve 60, and the discharge valve assembly 70, with the gasket 90 interposed therebetween, and the other side of the cylinder block ( It is fastened to the cylinder front surface 103 of 100. In other words, after the gasket 90 is stacked on the valve assembly and the head cover 110 is positioned in the gasket 90, the bolt 120 passes through the bolt holes 57, 91, and 113.

The valve assembly and the head cover 110 in the assembled state as described above is transferred to the main assembly line to fasten the bolt 120 to the fastening hole 103a formed in the front surface 103 of the cylinder block 100. ) Is mounted.

Subsequently, when the compressor employing the valve assembly according to the present invention is operated, a piston reciprocates linearly in the compression chamber 101 and suctions and discharges a working fluid to the compression chamber 101. In other words, when the piston is retracted and the working fluid is sucked into the compression chamber 101, the suction valve 60 is opened, so that the working fluid flows into the suction hole 51. On the contrary, when the piston moves forward and the working fluid of the compression chamber 101 is compressed, the discharge valve 71 is opened by the pressure of the working fluid, so that the working fluid flows out into the discharge hole 53.

At this time, the intake valve 60 and the discharge valve 71 are coupled to the valve plate 50 by the rivet 80 at the same time, do not affect each other driving and are operated separately. That is, even though the suction valve 60 is spaced apart from the valve plate 50 to open the suction hole 51, the discharge valve 71 maintains a shielding state of the discharge hole 53. On the contrary, even when the discharge valve 71 is driven, the suction valve 60 is maintained in a fixed state. Therefore, the intake valve 60 and the discharge valve 71 are to perform each role stably with each other even in the state of being fastened by the rivet 80 at the same time.

The rights of the present invention are not limited to the embodiments described above, but are defined by what is stated in the claims, and those skilled in the art can make various modifications and adaptations within the scope of the rights described in the claims. It is self-evident.

The valve assembly of the hermetic compressor according to the present invention as described in detail above is fastened at the same time through a rivet as a fixing means in the state in which the intake valve and the discharge valve assembly are placed in the fastening hole formed in the valve plate. Therefore, according to the present invention, there is an effect of reducing the production cost generated by separately mounting the intake valve and the discharge valve assembly on the valve plate.

In addition, according to the present invention, a stable method of fixing the valve assembly by caulking the front end of the rivet is used, thereby minimizing deformation of the valve assembly, thereby improving operational reliability of the intake valve and the discharge valve. have.

1 is a cross-sectional view showing the internal configuration of a typical hermetic compressor.

Figure 2 is an exploded perspective view showing the valve assembly and peripheral configuration of a hermetic compressor according to the prior art.

Figure 3 is an exploded perspective view showing the configuration of another valve assembly according to the prior art.

Figure 4 is an exploded perspective view showing the configuration of another valve assembly according to the prior art.

Figure 5 is an exploded perspective view of the valve assembly and the peripheral parts according to a preferred embodiment of the hermetic compressor according to the present invention.

6 is an exploded perspective view showing a configuration of an embodiment of the present invention.

7 is a perspective view showing the discharge valve assembly side configuration of the present invention embodiment.

8 is a perspective view showing the intake valve side configuration of an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

50: valve plate 51: suction hole

53 discharge hole 55 fastening hole

57: bolt hole 60: suction valve

61: through hole 70: discharge valve assembly

71: discharge valve 73: retainer

80 rivet 90 gasket

100: cylinder block 101: compression chamber

103: front cylinder 105: cylinder base

110: head cover 111: discharge chamber

120: Bolt

Claims (4)

A valve plate having suction holes and discharge holes for passing the working fluid therein; A suction valve installed on one surface of the valve plate to selectively open and close the suction hole; A discharge valve assembly installed on the other surface of the valve plate to selectively open and close the discharge hole; A valve assembly of a hermetic compressor, characterized in that it comprises a fixing means for fixing the suction valve and the discharge valve assembly at the same time through the valve plate. 2. The hermetic compressor according to claim 1, wherein two or more fastening holes are drilled in the valve plate at predetermined intervals so that a fixing means is inserted into each fastening hole so that the intake valve and the discharge valve assembly are coupled to the valve plate. Valve assembly. The method of claim 2, wherein the discharge valve assembly, A discharge valve in close contact with the valve plate and blocking the discharge hole; And a retainer positioned at a rear side of the discharge valve to be spaced apart from the discharge valve to limit a distance from the discharge hole to the discharge valve. The valve according to any one of claims 1 to 3, wherein the fixing means is a rivet, and the valve plate, the intake valve and the discharge valve assembly are coupled to each other by caulking the tip of the rivet. assembly.