KR19990001032A - Compressor suction valve device - Google Patents

Abstract

The present invention relates to a suction valve device of the compressor to allow the suction valve to open and close the suction hole of the valve plate installed in the compressor, the present invention relates to a cylinder chamber of the cylinder block and the suction hole of the valve plate in the suction valve plate; A slide groove is formed so that the corresponding surfaces of the cylinder block and the valve plate communicate with each other integrally with the suction passage and the suction passage communicating with each other, and the suction passage and the slide groove of the suction valve plate are formed in a corresponding shape to provide elastic force during opening and closing. Since the suction valve can be inserted into the valve, it is possible to minimize the volume between the opening and closing of the suction valve and to improve the freezing capacity and the compression efficiency.

Description

Compressor suction valve device

The present invention relates to a suction valve device of the compressor, and more particularly, to allow the suction valve to open and close the suction hole of the valve plate installed in the compressor.

In general, a compressor compresses a refrigerant in a gaseous state and supplies a refrigerant at a high temperature and a high pressure to circulate the refrigerant while maintaining the inside of the evaporator at a low pressure so that the liquefied refrigerant can evaporate at a low temperature. As a kind of pump that also functions, the conventional hermetic compressor is to rotate the rotating shaft 14 at a high speed inside the upper and lower cases 11 and 12 made of a pressure vessel, as shown in Figs. A motor block 13 comprising a rotor 19 for generating power and a stator 20 is installed, and a cylinder block 1 having a cylinder chamber 4a for compressing and expanding a refrigerant on one side of the bottom surface of the motor 13 is formed. This is installed.

In addition, an eccentric crank shaft 15 is installed at the lower end of the rotating shaft 14, and a connecting rod 16 for converting the rotational movement of the crank shaft 15 into linear reciprocating motion is provided at one end of the crank shaft 15. The other end of the connecting rod 16 is provided with a piston 17 for reciprocating linear motion to compress and expand the refrigerant in the cylinder chamber 4a of the cylinder block 1.

In addition, the valve plate 2 and the discharge hole in which the suction hole 5 and the discharge hole 9 communicate with the suction valve plate 3a, the cylinder chamber 4a are sequentially formed in front of the cylinder block 1. 9 is provided with a discharge valve 18, a base 21, and a cylinder head 22 having a suction chamber and a discharge chamber in communication with the suction hole 5 and the discharge hole 9, respectively for opening and closing.

On the other hand, the suction valve plate 3a is provided with a suction valve 8a for opening and closing the suction hole 5 of the valve plate 2, and the cylinder chamber of the cylinder block 1 at the free end of the suction valve 8a. (4a) A locking piece 24 is formed to catch the stopper groove 23 formed in the inner wall to limit the amount of opening of the suction valve 8a, and on one side of the suction valve plate 3a, The discharge passage 10a communicating with the discharge hole 9 is formed and configured.

Therefore, when the rotating shaft 14 rotates at high speed as the motor 13 installed in the upper and lower cases 11 and 12 of the compressor is driven, the crank shaft 15 rotates and the connecting rod 16 Since the piston is linearly reciprocated, the piston 17 installed at the other end of the connecting rod 16 linearly reciprocates in the cylinder chamber 4a of the cylinder block 1, and thus suction and compression of the refrigerant proceed. Referring to the suction and compression process of the refrigerant as follows.

First, when the piston 17 moves to the bottom dead center, the suction valve 8a of the suction valve plate 3a is pulled into the cylinder chamber 4a of the cylinder block 1, and at the same time, the refrigerant is sucked into the suction pipe 25 and the muffler ( 26 and the suction chamber 5 of the cylinder head 22 are introduced into the suction hole 5 of the valve plate 2 and then sucked into the cylinder chamber 4a to expand the refrigerant.

In addition, when the piston 17 is moved to the top dead center, the suction valve 8a is pushed and the suction hole 5 is closed, while the discharge valve 18 is pushed while the discharge hole 9 of the valve plate 2 is pushed. In this case, the refrigerant compressed in the cylinder chamber 4a is discharged into the discharge chamber of the cylinder head 22 through the discharge hole 9 and then circulated into the refrigeration cycle apparatus.

However, in such a conventional compressor, when the suction valve 8a is pulled in the suction process of the refrigerant, the engaging piece 24 of the suction valve 8a is caught by the stopper groove 23 formed in the inner wall of the cylinder chamber 4a. While the opening amount is limited, there is a problem in that the compression efficiency is lowered because the compressed refrigerant is re-expanded by the volume of the stopper groove 23 during the compression of the refrigerant.

That is, when the piston 17 is moved to the top dead center, the compressed refrigerant is moved to the inside of the stopper groove 23 formed in the inner wall of the cylinder chamber 4a and the volume is re-expanded. Due to this, the compression efficiency is lowered, and at the same time, there are many problems such as a decrease in the overall refrigeration efficiency of the refrigeration cycle apparatus.

The present invention is to solve the above problems, to minimize the volume of the gap generated during opening and closing of the intake valve to freely open and close the suction hole of the valve plate installed in the compressor in a sliding manner at the same time freezing It is an object of the present invention to provide a suction valve device of a compressor which can improve the capacity and the compression efficiency.

1 is a longitudinal sectional view showing a conventional hermetic reciprocating compressor.

FIG. 2 is an exploded perspective view illustrating a state in which main components are coupled between the cylinder head and the cylinder block of FIG. 1; FIG.

3 is a front view showing a state in which the suction valve plate of FIGS. 1 and 2 is installed;

4 is a longitudinal sectional view showing a state in which the intake valve plate of FIGS. 1 and 2 is installed;

5 is an exploded perspective view showing a state in which the suction valve is inserted into the suction valve plate according to the present invention.

6 is a front view showing a state in which the suction valve plate of FIG. 5 is installed;

7 is a longitudinal sectional view showing a state in which the suction valve plate of FIG. 5 is installed;

Explanation of symbols on the main parts of the drawings

One; Cylinder block 2; Valve plate

3; Suction valve plate 4; Cylinder chamber

5; Suction hole 6; Suction passage

7; Slide groove 8; Intake valve

9; Discharge holes 10; Discharge passage

R; Round part

In order to achieve the above object, the present invention provides a cylinder block coupled to a cylinder head and having a cylinder chamber, a valve plate having suction holes and discharge holes communicating with the cylinder chamber, and a suction valve between the cylinder block and the valve plate. A suction valve device of a compressor provided with a suction valve plate provided with the suction valve plate, wherein the corresponding surfaces of the cylinder block and the valve plate are integrally connected to the suction passage and the suction passage communicating with the suction hole of the cylinder chamber and the valve plate of the cylinder block. It is achieved by providing a suction valve device of a compressor in which a slide groove is formed to pass through each other, and the suction passage and the slide groove of the suction valve plate are formed in a corresponding shape, and the suction valve is inserted to maintain an elastic force during opening and closing. .

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

5 is an exploded perspective view illustrating a state in which a suction valve is inserted into a suction valve plate according to the present invention, FIG. 6 is a front view illustrating a state in which the suction valve plate of FIG. 5 is installed, and FIG. 7 is a state in which the suction valve plate of FIG. 5 is installed. As a longitudinal cross-sectional view showing the same, the same components as in the prior art will be described using the same reference numerals.

In the present invention, the suction valve plate 3 is provided between the cylinder block 1 and the valve plate 2 provided in the compressor, and the cylinder chamber 4 of the cylinder block 1 in the center of the suction valve plate 3. ) And a suction passage 6 communicating with the suction hole 5 of the valve plate 2 in a rectangular shape, and corresponding surfaces of the cylinder block 1 and the valve plate 2 are formed at both ends of the suction passage 6. A slide groove 7 is formed to pass through each other and have a width smaller than the width of the suction passage 6.

In addition, an intake valve 6 and a slide groove 7 of the intake valve plate 3 are inserted into a corresponding shape, and an intake valve 8 capable of maintaining an elastic force during opening and closing is inserted therein, and the intake passage 6 On one side, a discharge passage 10 having a semi-circular arc shape is formed so that the discharge hole 9 of the valve plate 2 and the cylinder chamber 4 of the cylinder block 1 communicate with each other.

And, the thickness of the intake valve 8 is about 10% of the thickness of the intake valve plate 3 so as to loosely contact the surface when the intake valve plate 3 is placed between the cylinder block 1 and the valve plate 2. It is formed to a small degree, the inner peripheral surface of the end of the cylinder chamber 4 of the cylinder block 1 is formed by forming a round portion (R) to minimize friction when both ends of the suction valve (8) is pulled.

The operation of the present invention configured as described above will be described in detail with reference to the accompanying drawings.

A suction valve plate 3 is installed between the cylinder block 1 and the valve plate 2 installed in the compressor, in which a suction passage 6 formed in a rectangle in the center of the suction valve plate 3 and both ends thereof. The upper and lower parts of the pressure vessel in the state in which the suction valve (8) formed in a shape corresponding to the suction passage (6) and the slide groove (7) to maintain the elastic force during opening and closing is inserted into the formed slide groove (7) When the rotating shaft 14 rotates at a high speed as the motor 13 installed in the case 11 or 12 is driven, the crank shaft 15 rotates and the connecting rod 16 performs a linear reciprocating motion. Therefore, as the piston 17 installed at the other end of the connecting rod 16 linearly reciprocates in the cylinder chamber 4 of the cylinder block 1, the suction and compression of the refrigerant proceed. The explanation is as follows.

First, when the piston 17 is moved to the bottom dead center, the suction valve 8 of the suction valve plate 3 is pulled into the cylinder chamber 4 of the cylinder block 1 and the suction valve 8 is moved to the piston ( 17), in which process both ends of the intake valve 8 are pulled together and the intake valve 8 is guided.

In addition, the frictional force can be minimized by the round part R formed on the inner circumferential surface of the end of the cylinder chamber 4 of the cylinder block 1 when both ends of the suction valve 8 are pulled out, and the cylinder block 1 and the valve plate ( Since loosely assembled with the corresponding surface of 2) it is possible to reduce the friction force when both ends of the intake valve (8) is pulled.

That is, since the thickness of the intake valve 8 is about 10% smaller than the thickness of the intake valve plate 3 placed between the cylinder block 1 and the valve plate 2, the cylinder is formed by the thickness difference of the intake valve 8. The frictional force can be reduced by not being in contact with the block 1 and the valve plate 2.

On the other hand, when the piston 17 is moved to the bottom dead center, the suction valve 8 is pulled and the suction hole 5 of the valve plate 2 is opened. At this time, the refrigerant flows from the suction chamber of the cylinder block 1 to the cylinder chamber ( When the piston 17 is moved to the top dead center when the piston 17 moves to the top dead center, the suction hole 8 is closed while the suction valve 8 is closed. Guided by both ends).

In addition, when the piston 17 is moved to the top dead center, the refrigerant is compressed and discharged, and the refrigerant compressed in this process is discharge passage 10 formed in a semicircular arc shape on one side of the suction passage 6 of the suction valve plate 3; The discharge valve 9 is moved toward the discharge hole 9 of the valve plate 2, and the discharge valve 18 is opened by the pressure to discharge the compressed refrigerant.

In addition, a separate structure inside the cylinder chamber 4 of the cylinder block 1 when the refrigerant is compressed, that is, a stopper groove or the like for limiting the pulling distance when the suction valve 8 is pulled in the suction process of the refrigerant is provided. Since it is not formed, the re-expansion of the refrigerant is not made it is possible to improve the compression efficiency.

As described above, according to the present invention, the suction hole of the valve plate installed in the compressor can be opened and closed efficiently by a slide method, thereby minimizing the inter-volume volume generated during opening and closing of the suction valve and improving the refrigerating capacity and compression efficiency. It is a very useful invention that can greatly improve the efficiency and reliability of the device.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (5)

Suction of the compressor having a cylinder block coupled to the cylinder head and having a cylinder chamber, a valve plate having suction holes and discharge holes communicating with the cylinder chamber, and a suction valve plate provided with a suction valve between the cylinder block and the valve plate. In the valve device, The suction valve plate is provided with a slide groove through which the corresponding surfaces of the cylinder block and the valve plate communicate with each other integrally with the suction passage and the suction passage communicating with the cylinder chamber of the cylinder block and the suction hole of the valve plate. The suction passage of the compressor and the suction groove is formed in a corresponding shape, the suction valve device of the compressor, characterized in that the suction valve is inserted to maintain the elastic force during opening and closing. 2. The suction valve apparatus of claim 1, wherein the suction passage is formed at the center of the suction valve plate, and slide grooves having a width smaller than the width of the suction passage are formed at both ends of the suction passage. The suction valve apparatus of claim 1, wherein a discharge passage having a semicircular shape is formed at one side of the suction passage so that the discharge hole of the valve plate and the cylinder chamber of the cylinder block communicate with each other. The intake valve of a compressor according to claim 1, wherein the intake valve has a thickness about 10% smaller than the intake valve plate so that the intake valve plate is loosely in contact with the surface when the intake valve plate is placed between the cylinder block and the valve plate. Device. The suction valve apparatus of claim 1, wherein a round part is formed on an inner circumferential surface of the cylinder chamber end of the cylinder block to minimize friction when both ends of the suction valve are pulled.