KR20060004102A - Reciprocating compressor - Google Patents

Abstract

The present invention relates to a reciprocating compressor that can improve the performance by improving the suction and discharge holes.

The reciprocating compressor according to the present invention includes a compression chamber in which a refrigerant is compressed, a piston installed in the compression chamber so as to move forward and backward, and a compression of the refrigerant in the compression chamber, and suction to guide the suction and discharge of the refrigerant. It is provided with a valve plate provided with a ball and a discharge hole, a plurality of suction and discharge holes are respectively provided to increase the total size of the suction and discharge holes to facilitate the suction and discharge of the refrigerant, while the pressure inside and outside the compression chamber Since the force due to the car is distributed through the plurality of suction holes and the plurality of discharge holes to act on the suction valve and the discharge valve, the breakage of the suction valve and the discharge valve is reduced.

Description

Reciprocating Compressor {RECIPROCATING COMPRESSOR}

1 is a side cross-sectional view showing the overall structure of a reciprocating compressor according to the present invention.

Figure 2 is an exploded perspective view showing a valve device provided in the reciprocating compressor according to the present invention.

Explanation of symbols on the main parts of the drawings

10: sealed container 20: compression device

21: cylinder block 22: piston

23: cylinder head 30: drive device

40: valve device 50: valve plate

51: suction hole 52: discharge hole

53: valve seat groove 60: suction valve

61: suction valve 70: discharge valve

71: seating portion 72: discharge valve portion

80: retainer

The present invention relates to a reciprocating compressor, and more particularly to a reciprocating compressor that can improve the performance by improving the suction and discharge holes.

In general, a reciprocating compressor is a device in which a piston reciprocated by a rotating shaft compresses and discharges a refrigerant introduced into a cylinder, and is provided with a compression device for compressing a refrigerant and a driving device for driving the refrigerant.

The compression apparatus includes a cylinder forming a compression chamber and a piston reciprocating inside the cylinder, and one side of the cylinder is provided with a cylinder head having a suction chamber and a discharge chamber communicating with the outside. And a valve device for controlling the inflow and outflow of the refrigerant is provided between the cylinder and the cylinder head.

The valve device includes a valve plate on which suction and discharge holes are formed so as to communicate with the suction chamber and the discharge chamber of the cylinder, the cylinder head, respectively, a suction valve for opening and closing the suction hole, and a discharge valve for opening and closing the discharge hole.

Accordingly, the suction valve and the discharge valve are opened and closed according to the pressure of the compression chamber by the compression action of the piston, and the refrigerant is sucked from the suction chamber into the compression chamber, compressed, and then discharged into the discharge chamber to compress the refrigerant.

By the way, in the conventional reciprocating compressor, the suction and discharge holes are advantageous in improving the compression performance because the flow resistance decreases when the size of the suction and discharge holes is increased, but in the suction and discharge valves that need to open and close a relatively large area. Since the force due to the pressure difference is concentrated in the portions disposed at the center of the discharge hole and the suction hole, the suction valve and the discharge valve may be damaged, thereby limiting the diameters of the suction and discharge holes.

The present invention is to solve such a problem, it is an object of the present invention to provide a reciprocating compressor that can further improve the performance.

A reciprocating compressor according to the present invention for achieving the above object is, a compression chamber in which the refrigerant is compressed, a piston which is installed in the compression chamber so as to move forward and backward and moves to move the compression of the refrigerant in the compression chamber, and the compression It characterized in that it comprises a valve plate provided with a plurality of discharge holes to guide the discharge of the refrigerant compressed in the chamber, and one discharge valve for opening and closing the plurality of discharge holes individually.

The discharge valve may include a seating part fixed to the valve plate and a plurality of discharge valve parts extending from the seating part to open and close the plurality of discharge holes, respectively.

In addition, the valve plate is provided with a pair of discharge holes, the seating portion is disposed between the pair of discharge holes of the valve plate, the discharge valve portion is symmetrically extended to both sides from the seating portion of the pair of It is characterized by opening and closing the discharge hole individually.

In addition, the valve plate is provided with a retainer for fixing the discharge valve to the valve plate, the retainer is fixed to the mounting portion is fixed to the valve plate, and extends symmetrically to both sides from the fixing portion And a stopper part disposed to be spaced apart from the valve plate by a predetermined distance to limit an opening angle of the discharge valve part.

In addition, the reciprocating compressor according to the present invention is a compression chamber in which the refrigerant is compressed, the piston is installed in the compression chamber so as to move forward and backward, and the refrigerant to be compressed in the compression chamber, and the refrigerant to be introduced into the compression chamber It is provided with a valve plate provided with a guide suction hole, the valve plate is characterized in that it comprises a plurality of suction holes and one suction valve for opening and closing the plurality of suction holes.

In addition, the suction holes are provided in a substantially equilateral triangle so that the three to form a predetermined interval from each other, the suction valve is characterized in that it comprises a suction valve portion for opening and closing the three suction holes at the same time.

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

As shown in FIG. 1, the reciprocating compressor according to the present invention receives power from the inside of the sealed container 10 in which the upper container 11 and the lower container 12 are combined to form a sealed space therein. Compressor 20 for compressing the refrigerant and a drive device 30 for generating power by receiving power to drive the compression device 20.

The compression device 20 is provided with a cylinder block 21 having a compression chamber 21a in which a refrigerant is compressed, and is installed in the compression chamber 21a so as to move forward and backward to reciprocate in the compression chamber 21a to suck in refrigerant. It is provided with a piston 22 for compressing and discharging, and one side of the cylinder block 21 is disposed so as to face the cylinder head 23 formed with the suction chamber 23a and the discharge chamber 23b, respectively.

The drive device 30 employs a linear motor to reciprocate the piston 22. The drive device 30 includes an inner stator 31 and an inner stator 31 provided outside the cylinder block 21. An outer stator 32 surrounding the outer circumferential surface thereof and having a predetermined distance therebetween to form a magnetic field, and between the inner stator 31 and the outer stator 32 being formed in an annular shape and having a magnet 33a installed in the circumferential direction The ruler 33 is provided, and the piston 22 is provided in the center side of the mover 33. As shown in FIG. Reference numeral 34 is a resonant spring 34 which causes the movable element 33 and the piston 22 to resonate.

 Therefore, when power is applied to the outer stator 32 and a magnetic field is generated, the magnet 33a provided on the mover electromagnetically interacts with the inner stator 31 and the outer stator 32 and reciprocates, thereby. The piston 22 installed in the mover 33 moves forward and backward in the compression chamber 21a to compress the refrigerant.

In addition, a valve device 40 is provided between the cylinder 21 and the cylinder head 23 to control the refrigerant flow. As shown in FIG. 2, the valve device 40 may communicate the compression chamber 21a provided in the cylinder block 21 and the suction chamber 23a and the discharge chamber 23b provided in the cylinder head 23 with each other. And a valve plate 50 having a suction hole 51 and a discharge hole 52 formed therein, and a suction valve 60 for opening and closing the suction hole 51 on the cylinder block 21 side of the valve plate 50. On the cylinder head 23 side of the valve plate 50, a discharge valve 70 for opening and closing the discharge hole 52 is provided.

Suction valve 60 is formed of a thin metal plate is fixed to the valve plate 50 through a fastening member such as a screw and elastically deformed as the pressure in the compression chamber 21a lowers to a certain level at the central side thereof, the suction hole The suction valve part 61 which opens 51 is provided.

The discharge valve 70 is formed of a thin metal plate like the suction valve 60, the valve plate 50 is formed in a shape corresponding to the discharge valve 70 so that the discharge valve 70 can be installed, The valve seating groove 53 in which the discharge hole 52 is provided is provided inside. The discharge valve 70 includes a seating portion 71 seated and installed on one side of the valve seating groove 53, and a discharge valve portion 72 that opens and closes the discharge hole 52 by covering the discharge hole 52. When the pressure in the compression chamber 21a rises above a certain level, the discharge valve portion 72 elastically deforms around the seating portion 71 fixed to one side of the valve seating groove 53 and opens the discharge hole 52. It is supposed to be.

In addition, in the reciprocating compressor according to the present invention, while the suction and discharge of the refrigerant is made smoothly, the force due to the pressure difference is distributed to the suction valve 60 and the discharge valve 70 so as to act on the valve plate 50. ) Are provided with a plurality of suction holes 51 and discharge holes 52 mentioned above, and each suction hole 51 and discharge hole 52 has a force due to a pressure difference between the suction valve part 61 and Each of the discharge valves 72 is formed to have a predetermined size or less to prevent excessive acting on the discharge valve portion 72.

In the present embodiment, the suction holes 51 are arranged in a triangular shape so that three are formed at a predetermined interval from each other, and the suction valve 60 is provided with one suction valve portion 61 for opening and closing the three suction holes 51. The two suction holes 51 can be opened and closed at the same time by one suction valve portion 61. Therefore, the force due to the pressure difference between the compression chamber 21a and the suction chamber 23a is distributed and acted in three places of the suction valve part 61.

In addition, a pair of discharge holes 52 are provided, one on each side of the valve seating groove 53, respectively, and the discharge valve 70 has two seating parts 71 to open and close the two discharge holes 52. It is fixed between the discharge holes 52, a pair of discharge valve portion 72 is symmetrically extended to both sides from one end of the seating portion 71 so as to cover each of the two discharge holes 52 to be opened and closed individually It is. Therefore, the force due to the pressure difference between the compression chamber 21a and the discharge chamber 23b is distributed and acted in two places. In the present embodiment, the discharge valve 70 is formed in a substantially T-shape.

On the other hand, the outer side of the discharge valve 70 is provided with a retainer 80 for limiting the opening angle of the discharge valve 70 while being fixed to the discharge valve 70 to the valve plate 50. The retainer 80 includes a fixing portion 81 for allowing the seating portion 71 of the discharge valve 70 to be fixedly installed on the valve plate 50, and extends from the fixing portion 81, and an end thereof is the valve plate 50. And a stopper portion 82 provided to be spaced apart from the predetermined distance to limit the opening angle of the discharge valve portion 72. The seating portion 71 of the discharge valve 70 is formed to correspond to the shape of the discharge valve 70. The stopper portion 82 extends symmetrically in both directions from one end of the fixing portion 81 for fixing, and is formed in a T shape like the discharge valve 70.

As described above in detail, the reciprocating compressor according to the present invention is provided with a plurality of suction holes and discharge holes each having a predetermined size or less in the valve plate, so that the suction and discharge of the refrigerant are smoothly performed to improve performance. It works.

In addition, the reciprocating compressor according to the present invention because the force due to the pressure difference in the compression chamber and the outside is distributed to a plurality of suction holes and a plurality of discharge holes act on the suction valve and the discharge valve can reduce the breakage of the suction valve and the discharge valve portion. There is a working effect.

Claims (6)

A compression chamber in which the refrigerant is compressed, a piston installed in the compression chamber so as to move forward and backward and compression of the refrigerant in the compression chamber, and a plurality of discharges to guide the discharge of the compressed refrigerant in the compression chamber. A valve plate provided with a ball, and one discharge valve for opening and closing the plurality of discharge holes individually, characterized in that the reciprocating compressor. The method of claim 1, The discharge valve is a reciprocating compressor characterized in that it comprises a seating portion which is mounted to the valve plate and a plurality of discharge valve portion extending from the seating portion to open and close the plurality of discharge holes respectively. The method of claim 2, The valve plate is provided with a pair of discharge holes, and the seating portion is disposed between the pair of discharge holes of the valve plate, and the discharge valve portion extends symmetrically to both sides from the seating portion to provide the pair of discharge holes. Reciprocating compressor characterized in that the opening and closing individually. The method of claim 3, wherein The valve plate is provided with a retainer for fixing the discharge valve to the valve plate, the retainer is a fixing portion for allowing the seating portion to be fixed to the valve plate, and extends symmetrically to both sides from the fixing portion and the valve And a stopper portion disposed to be spaced apart from the plate by a predetermined distance to limit an opening angle of the discharge valve portion. Compression chamber is compressed to the refrigerant, the compression chamber is installed in the compression chamber to move forward and backward and the compression is made in the compression chamber is provided with a valve plate provided with a suction hole for guiding the refrigerant flow into the compression chamber, The valve plate is provided with a plurality of suction holes and the reciprocating compressor comprising a suction valve for opening and closing the plurality of suction holes. The method of claim 5, The suction hole is provided in a substantially equilateral triangle so that the three are at a predetermined interval from each other, the suction valve comprises a suction valve portion for opening and closing the three suction holes at the same time.

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