KR100210095B1 - Outlet valve apparatus of compressor - Google Patents

Abstract

The present invention relates to a compressor discharge valve device, characterized in that a plurality of plate spring steel plates having different lengths, widths, numbers, and thicknesses are arranged in multiple layers on the upper side of the discharge lead valve to control the opening amount of the discharge lead valve. The opening amount of the discharge lead valve can be freely controlled by a plurality of plate spring steel plates having different shapes, numbers, or thicknesses, so that the optimum opening amount can be easily adjusted for each compressor capacity. By eliminating the interference, the wear and tear can be eliminated and the noise can be reduced.

Description

Discharge valve device of the compressor

The present invention relates to a compressor mounted on an air conditioner, a refrigerator, and the like, and more particularly, to a discharge valve device of a compressor which improves a structure of a discharge valve for discharging the compressed refrigerant to the outside of the cylinder block to prevent breakage and wear of the valve. It is about.

Conventional compressors have upper and lower shells 1 and 2 for protecting and sealing the interior as shown in FIGS. 1 and 2, and the upper and lower shells 1 and 2, respectively. The stator 3 is disposed inside the stator 3 to form a magnetic field while the rotor 5 is rotated under the influence of the magnetic field formed in the stator 3. The rotating shaft 9 is disposed inside the rotor 5 and rotates in association with the rotor 5, and one end of the rotating shaft 9 is configured to rotate the rotating shaft 9 in the rotating shaft 9. A connecting rod 11 for switching to a reciprocating motion is disposed, and a piston 13 is disposed at an end of the connecting rod 11 so as to reciprocate in conjunction with a reciprocating motion of the connecting rod 11. On the outside of the (13), the piston 13 is guided to reciprocate and at the same time cold A cylinder block 15 is disposed to form a space in which the medium is compressed, and a valve plate 21 having a suction hole 17 and a discharge hole 19 is disposed on an upper surface of the cylinder block 15. One surface of the valve plate 21 is provided with a cylinder head 27 in which a suction chamber 23 and a discharge chamber 25 are formed, and a gasket is maintained between the valve plate 21 and the cylinder head 27 to maintain airtightness. (29) is inserted and excreted.

On the discharge hole 19 side of the valve plate 21, a discharge lead valve 31 is placed on the upper surface of the valve plate 21 so as to discharge the refrigerant compressed at a high temperature and high pressure in the cylinder block 15. A stopper 33 for controlling the opening of the discharge lead valve 31 is disposed above the discharge lead valve 31, and above the stopper 33, a stopper 33 is provided. A keeper 35 for controlling opening is inserted into the valve plate 21, and the keeper 35 has protrusions 35a protruding at both ends thereof and pressed when the cylinder head 27 is mounted. By discharging, the discharge lead valve 31, the stopper 33, and the keeper 35 are fixed. (See Fig. 2).

Reference numeral 37 denotes a suction muffler for sending the refrigerant to the cylinder block 15, and reference numeral 39 denotes a connection pipe for sending the refrigerant of the suction muffler 37 to the cylinder block 15.

In the conventional reciprocating compressor configured as described above, when power is applied, a magnetic field is formed in the stator 3, and when the rotor 5 is rotated by the magnetic field formed in the stator 3, the rotor 5 is integrated with the rotor 5. Rotating shaft (9) is rotated, and as the rotor (5) is rotated, the connecting rod (11) disposed at one end of the rotor (5) linear reciprocating movement, the connecting rod (11) As the linear reciprocating motion of the one end of the connecting rod 11 and the piston 13 disposed inside the cylinder block 15 is moved reciprocally linearly driven through the suction muffler 35 and the connecting pipe 37 The refrigerant flowing into the suction chamber 23 of the cylinder head 27 pushes the suction valve 31 disposed in the suction hole 17 of the valve plate 21 and flows into the cylinder block 15. As the (13) moves, the refrigerant inside the compressed cylinder block (15) becomes a high pressure valve valve. Slide the discharge holes 19. The discharge reed valve 31 is disposed in the tree 21 and is discharged to the outside of the cylinder block 15.

At this time, the opening of the discharge lead valve 31 is controlled primarily by the stopper 33, and the opening of the discharge lead valve 31 is finally controlled by the keeper 35.

However, the conventional compressor configured as described above has an end of the discharge lead valve 31 when the discharge lead valve 31 is opened as the opening amount of the discharge lead valve 31 is controlled by the stopper 33 and the keeper 35. There is a problem that there is a risk of wear and damage by hitting the stopper 33 strongly, there is a problem in the mold by changing the shape of the discharge lead valve 31 in order to adjust the amount of opening of the compressor by capacity. There are a lot of kinds of parts have a problem that is difficult to commercialize.

Accordingly, the present invention has been made to solve the above-described problems, the object of the present invention is to improve the reliability of the valve by improving the structure for controlling the opening amount of the valve for discharging the compressed refrigerant, thereby increasing the capacity of the compressor It is to provide a discharge valve device of the compressor to easily adjust the optimum opening amount per star.

1 is an overall longitudinal cross-sectional view schematically showing the configuration of a conventional reciprocating compressor.

2 is an enlarged cross-sectional view schematically showing the configuration of a discharge device of a conventional reciprocating compressor.

Figure 3 is a partial longitudinal cross-sectional view schematically showing the configuration of the discharge device of the reciprocating compressor according to an embodiment of the present invention.

4 is an enlarged cross-sectional view showing main parts schematically showing a configuration of a discharge device of a reciprocating compressor according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

19: discharge hole 21: valve plate

27: cylinder head 29: gasket

31: discharge lead valve 41: leaf spring steel sheet

43: leaf spring

The discharge valve device of the compressor according to the present invention made to achieve the above object is a valve plate having a discharge hole formed to discharge the refrigerant compressed at high temperature and high pressure, and a discharge lead valve disposed on the discharge hole side to open and close the discharge hole. And, in the compressor having a cylinder head on the upper side of the valve plate to form a discharge chamber, characterized in that a plurality of leaf spring steel plate is formed in a plurality of layers on the upper side of the discharge lead valve.

Hereinafter, a preferred embodiment of the present invention will be described in more detail with reference to FIGS. 3 and 4 of the accompanying drawings.

The same reference numerals and the same names are used for the same parts as those shown in FIG. 1 and FIG.

As shown in FIGS. 3 and 4, a connecting rod 11 for converting a rotational movement of a rotating shaft (not shown) into a reciprocating movement is disposed, and at the end of the connecting rod 11, the connecting rod 11 is disposed. Piston 13 is disposed so as to reciprocate in conjunction with the reciprocating motion of the, and the outer side of the piston 13 guides the piston 13 to reciprocate and at the same time the cylinder block to form a space in which the refrigerant is compressed 15 is disposed, a valve plate 21 having suction holes (not shown) and discharge holes 19 is disposed on an upper surface of the cylinder block 15, and on one surface of the valve plate 21. The cylinder head 27 in which the suction chamber (not shown) and the discharge chamber 25 were formed is arrange | positioned, and the gasket 29 is inserted and arrange | positioned so that airtightness may be maintained between the valve plate 21 and the cylinder head 27. have.

As the piston 13 is compressed on the upper surface of the valve plate 21, a discharge lead valve 31 is arranged to be remountable so as to open the discharge hole 19 to discharge the refrigerant, and the discharge lead valve 31 is provided. In order to control the opening amount of the discharge lead valve 31, a plurality of leaf spring steel plates 41 having different lengths, widths, numbers, and thicknesses are arranged in multiple layers.

The plurality of leaf spring steel plates 41 is placed on one end side of the stacked plurality of leaf spring steel plates 41, and then the cylinder head 27 is pressed on the upper surface of the valve plate 21. (See Figure 3).

Next will be described the operation of the discharge valve device of the compressor according to an embodiment of the present invention.

First, when the connecting rod 11 is linearly reciprocated, one end of the connecting rod 11 and the piston 31 disposed inside the cylinder block 15 are linearly reciprocated to be driven in the direction of the arrow, so that the cylinder head ( The refrigerant flowing into the suction chamber (not shown) of the 27 is pushed into the suction valve (not shown) disposed in the suction hole (not shown) of the valve plate 21 to flow into the cylinder block 15, and the piston ( As the 13 moves, the refrigerant inside the compressed cylinder block 15 becomes high pressure and pushes the discharge lead valve 31 disposed in the discharge hole 19 of the valve plate 21 to the outside of the cylinder block 15. Discharged.

At this time, the plurality of plate spring steel plates 41 stacked on the upper surface of the discharge lead valve 31 adjusts the opening amount of the discharge lead valve 31 by adjusting the appropriate shape, number and thickness thereof. As described above, the end of the discharge lead valve 31 is not interrupted during the opening operation so that the discharge lead valve 31 can be smoothly opened without being damaged or worn.

In the above description, the plurality of leaf spring steel plate 41 is fixed by the leaf spring 43 and the cylinder head 27 as an example, but is not limited thereto, and is fixed by a riveting method or soft material ( By forcibly pressing and fixing the bar of copper, steel bar, etc., the leaf spring steel plate 41 can be fixed and the refrigerant can be prevented from leaking through the portion where the bar is fixed, or the leaf spring 43 It is also possible to fix the cylinder head 27 by simply pressing it on the upper surface of the valve plate 21 without using.

According to the discharge valve device of the compressor according to the present invention as described above, the number of opening of the discharge lead valve is freely adjusted to a plurality of plate spring steel plates of different numbers, widths, lengths and thicknesses to freely adjust the optimum opening amount for each compressor capacity. It can be easily adjusted, and it is possible to eliminate the interference of the end when opening the discharge lead valve to eliminate wear and breakage and to reduce noise.

Claims (6)

A valve plate having a discharge hole formed to discharge the refrigerant compressed at high temperature and high pressure, a discharge lead valve disposed at the discharge hole side to open and close the discharge hole, and a cylinder head above the valve plate to form a discharge chamber; In one compressor, the discharge valve device of the compressor, characterized in that a plurality of leaf spring steel plate formed on the upper side of the discharge lead valve in a plurality of layers. The discharge valve apparatus of claim 1, wherein the plurality of leaf spring steel plates are formed in different lengths, widths, numbers, and thicknesses to control the opening amount of the discharge lead valves. The discharge valve apparatus of the compressor according to claim 1 or 2, wherein the leaf spring steel plate is fixed by a leaf spring and a cylinder head. The discharge valve apparatus of claim 1 or 2, wherein the leaf spring steel plate is fixed by a cylinder head. The discharge valve apparatus of claim 1 or 2, wherein the leaf spring steel plate is fixed by a riveting method. The discharge valve apparatus of claim 1 or 2, wherein the leaf spring is fixed by forcibly pressing a soft bar to prevent leakage of the refrigerant.

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