KR0126732Y1 - Reciprocating compressor - Google Patents

Abstract

The present invention relates to a reciprocating compressor, and an object thereof is to provide a reciprocating compressor which shortens the suction flow path of the refrigerant to prevent overheating of the refrigerant to improve the compression efficiency of the refrigerant. In the reciprocating compressor according to the present invention, a sealed container 20 having a suction pipe 21 and a discharge pipe 22 formed at one side thereof, a driving unit 30 mounted inside the sealed container to generate rotational force, and a refrigerant at a side of the suction pipe A cylinder block 42 provided with a suction hole 63 and a discharge hole 64 to suck and discharge the gas, and a piston for reciprocating the inside of the cylinder block by receiving power from the driving unit to suck, compress, and discharge the refrigerant ( 43) A compressor including a suction tube (70) for communicating a suction tube and a suction hole to guide refrigerant outside the sealed container into the cylinder block, wherein the suction tube is connected to the suction tube to prevent heating of the refrigerant to be sucked. It is formed in a straight line communicating with the bellows-type spring 71 is built to withstand vibration.

Description

Reciprocating compressor

1 is a cross-sectional view of a conventional reciprocating compressor.

2 is a view showing a connection structure of the reciprocating compressor silencer shown in FIG.

3 is a sectional view of a reciprocating compressor to which the present invention is applied.

4 is an enlarged view of the cylinder head portion shown in FIG.

FIG. 5 shows the head gasket shown in FIG. 4. FIG.

6 is a view showing another embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

20: sealed container 21: suction pipe

22: discharge tube 30: drive unit

33: rotation axis 34: eccentric shaft

40: compression part 42: cylinder block

43: piston 51: bearing

60: cylinder head 60 ': head gasket

61: suction chamber 62: discharge chamber

63: suction hole 64: discharge hole

65: valve plate 66: suction valve

66 ': discharge valve 70: suction tube

71: spring 80: resonator

81: connector 90,90 ': locking portion

The present invention relates to a reciprocating compressor, and more particularly, to shorten the refrigerant suction path from the sealed container to the cylinder of the compressor to prevent the refrigerant from being heated from the high temperature heating element to increase the specific volume, thereby improving the compression efficiency. It relates to a reciprocating compressor.

In general, a reciprocating compressor is used to compress the refrigerant to high temperature and high pressure in a refrigerating device that continuously performs compression, condensation, expansion, and evaporation processes using the refrigerant as a working fluid. In the conventional reciprocating compressor, as shown in FIG. 1, a hermetically sealed container 1 having a discharge tube 1 and a suction tube 1 'is provided on the left and right sides thereof, and is installed inside the hermetic container 1. And a driving unit generating power and a compression unit receiving suction power from the driving unit to suck and compress the refrigerant. The driving unit includes a stator 2 'disposed at an upper side, a rotor 2, and a rotating shaft 3 installed at the rotor 2 and rotating and having an eccentric shaft 3' integrally provided at a lower end thereof. And a compression block disposed below the drive unit, the cylinder block 4 forming a compression chamber 7 for sucking and compressing refrigerant into the piston, and the piston 5 reciprocating inside the cylinder block 4. And a connecting rod 5 'for connecting the piston 5 and the eccentric shaft 3'. At this time, the bearing 6 is installed on the upper side of the cylinder block 4 to support the rotating shaft (3).

On the other hand, in the cylinder block 4 on the suction pipe 1 'side, as shown in FIG. 1 and FIG. 2, the cylinder head 4' having the suction chamber 7 and the discharge chamber 7 'is provided with the suction chamber ( 7) integrally coupled with the cylinder block 4 via a valve plate 9 having a suction hole 8 and a discharge hole 8 'for communicating the discharge chamber 7' with the compression chamber 7; do. At this time, the suction chamber 7 is in communication with the suction pipe (1 '), the discharge chamber (7') is formed in communication with the interior of the sealed container (1), the refrigerant in the suction hole (8) and the discharge hole (8 '). The valve plate 10 for adjusting the suction and discharge of the gas is provided. A silencer 11 is installed between the suction chamber 7 and the suction pipe 1 ', and a communication tube 12 is installed between the silencer 11 and the suction chamber 7, and the silencer 11 and the suction pipe 1' are installed. Between the suction tube 13 is installed so that the cold rice is sucked into the suction chamber 7 through the suction tube 13 through the silencer 11 through the suction pipe (1 ').

In the reciprocating compressor configured as described above, when power is applied to the stator 2 'and the rotor 2 and the rotor 2 rotates, the rotating shaft 3 coupled to the rotor 2 rotates. By connecting the eccentric rotation of the eccentric shaft 3 'which is integrally rotated with the rotary shaft 3, the connecting rod 5' converts the linear reciprocating motion to the piston 5 so that the piston 5 of the cylinder block 4 It reciprocates inside to compress the refrigerant. When the piston 5 moves to the left side (bottom dead center) of the cylinder block 4, the valve plate 10 which is blocking the suction hole 8 is opened due to the pressure difference, and the refrigerant flows into the suction pipe 1 ′ and the silencer 11. When the piston 5 moves to the right side (top dead center) through the suction chamber 7, the suction hole 8 is blocked and the sucked refrigerant is compressed. When the refrigerant is compressed to a certain pressure, the valve plate 10 which is blocking the discharge hole 8 'opens, and the refrigerant is discharged into the sealed container 1 through the discharge chamber 7' and discharged through the discharge tube 1. It is discharged to the outside.

However, such a reciprocating compressor has a long suction path through which the refrigerant is sucked from the outside of the sealed container to the internal compression chamber of the cylinder block. Thus, the refrigerant is heated by the refrigerant remaining in the inside of the sealed container at a high temperature in the suction process. There was a problem that the compression volume of the refrigerant is lowered because the specific volume of. Conventionally, in order to solve this problem, a connection tube connecting the silencer and the suction chamber is formed of a plastic material having a low thermal conductivity to prevent the refrigerant from being heated. However, since the suction path is long, the problem of the refrigerant being heated is not greatly improved. It was. In addition, the suction path has a lot of bending and because of the long length there was a problem that large flow loss occurs.

The present invention is to solve the above problems, an object of the present invention is to provide a reciprocating compressor that improves the compression efficiency of the refrigerant by preventing the heating of the refrigerant by shortening the suction flow path of the refrigerant.

Another object of the present invention is to provide a reciprocating compressor which reduces the flow loss of the refrigerant by forming a short suction path of the refrigerant in a straight line.

A reciprocating compressor according to the present invention for achieving the above object, a suction vessel and a discharge tube formed in one side, a sealed container, a drive unit which is installed inside the sealed vessel to generate a rotational force, suction to suck and discharge the refrigerant on the side of the suction tube A cylinder block provided with a ball and a discharge hole is formed, and a piston for reciprocating the inside of the cylinder block by receiving power from the driving unit communicates with the piston for suction, compression, and discharge of refrigerant, and a suction pipe and a suction hole to communicate refrigerant outside the sealed container with the inside of the cylinder block. In the compressor having a suction tube to guide to the suction tube, the suction tube is formed in a straight line communicating with the suction tube in order to prevent the heating of the refrigerant to be sucked, characterized in that the bellows type is built-in spring to withstand vibration It is.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the reciprocating compressor according to the present invention.

As shown in FIG. 3, the reciprocating compressor to which the present invention is applied is provided with a sealed container 20 in which discharge pipes 22 and suction pipes 21 are provided at left and right sides thereof, and power is supplied into the sealed container 20. It consists of a drive unit 30 for generating and a compression unit 40 for receiving the power from the drive unit 30 to suck, compress, and discharge the refrigerant. The drive unit 30 is configured to include a stator 31, a rotor 32, and a rotation shaft 33 which is installed integrally with the rotor 32 and has an eccentric shaft 34 integrally provided at a lower end thereof. The unit 40 is disposed below the drive unit 30 to reciprocate the cylinder block 42 and the inside of the cylinder block 42 to form a compression chamber 41 for sucking and compressing the refrigerant therein. The piston 43 and the connecting rod 44 which connects this piston 43 and the eccentric shaft 34 are comprised. At this time, the bearing 51 is installed on the upper side of the cylinder block 42 to support the rotating shaft 33, the suction pipe 21 is installed on the extension line of the cylinder block 42.

On the other hand, in the cylinder block 42 on the suction pipe 21 side, as shown in FIG. 4, the cylinder head 60 in which the suction chamber 61 and the discharge chamber 62 are formed is the suction chamber 61 and the discharge chamber 62. ) And a valve plate 65 formed with a suction hole 63 and a discharge hole 64 communicating with the compression chamber 41, and the suction hole 63 and the discharge hole 64 are provided with a refrigerant. The suction valve 66 and the discharge valve 66 'for controlling the suction and the discharge are installed to operate opposite to each other. At this time, the head gasket 60 'shown in FIG. 5 is installed between the valve plate 65 and the cylinder block 60 to prevent leakage of the refrigerant.

Between the suction chamber 61 and the suction tube 70, the suction tube 70 for communicating them is installed in a straight line without bending, the resonator for reducing the noise generated when the refrigerant is sucked on one side of the suction chamber 61 80 is installed via the connecting pipe 81. At this time, the connection tube 81 is preferably made of a low thermal conductivity material.

On the other hand, since the suction tube 70 is installed between the vibrating cylinder head 60 and the fixed suction tube 21, a bellows-type tube with a built-in spring 71 to withstand the vibration is used. In order to fix 70, the lower end of the connection pipe 81 on the suction chamber 61 is bent toward the suction pipe 21 to the outside of the cylinder head 60. The left end of the suction tube 70 is inserted into the connection tube 81, the right end is inserted into the suction tube 21 is fixed. At this time, the engaging portion 90 is formed in the outer connection pipe 81 and the suction pipe 21 at the left and right ends of the suction tube 70 to support the suction tube 70.

On the other hand, the structure for fixing the suction tube 70 is, as shown in Figure 6, instead of the lower end of the connecting tube 81, one side of the cylinder head 60 is formed with a guide 67 extending to the suction tube 21 side It is also preferable that the engaging portion 90 'is formed at the lower side of the connecting pipe 81 to fix the suction tube 70.

Referring to the operation of the reciprocating compressor configured as described above is as follows.

First, when power is applied to the rotor 32 and the stator 31 to rotate the rotation shaft 33, the eccentric rotation of the eccentric shaft 34 converts the connecting rod 44 into a linear reciprocating motion and the piston 43. This is a reciprocating motion. When the piston 43 moves to the left side (bottom dead center), the pressure inside the cylinder block 42 drops, and the valve plate 66 which blocks the suction hole 63 opens, and the refrigerant is sucked into the compression chamber 41. When the piston 43 moves to the right side (top dead center) and compresses the sucked refrigerant to a predetermined pressure, the valve plate 66 blocking the discharge hole 64 is opened, and the compressed refrigerant is discharged through the discharge chamber 52. Will be. Here, if the suction path of the refrigerant is described, when the piston 43 moves to the left side, the refrigerant in the suction pipe 21 is sucked into the compression chamber 41 through the suction chamber 61 through the suction tube 70. At this time, the flow noise generated in the refrigerant passing through the suction chamber 61 is to be reduced in the resonator (80).

As described in detail above, the reciprocating compressor according to the present invention may shorten the suction path of the refrigerant to prevent overheating of the refrigerant to be sucked, thereby suppressing an increase in the specific volume of the refrigerant, thereby improving the compression efficiency of the refrigerant. In addition, there is an advantage of reducing the flow loss of the refrigerant sucked by the suction path in a straight line.

Claims (6)

A sealed container 20 having a suction tube 21 and a discharge tube 22 formed at one side thereof, a driving unit 30 mounted inside the sealed container to generate a rotational force, and suctioned to suck and discharge the refrigerant to the side of the suction tube. A cylinder block 42 having a ball 63 and a discharge hole 64 formed therein, a piston 43 for sucking, compressing, and discharging refrigerant by reciprocating the inside of the cylinder block by receiving power from the driving unit, and A compressor having a suction tube (70) for communicating a suction tube and the suction hole to guide the refrigerant outside the sealed container to the inside of the cylinder block, wherein the suction tube prevents the heating of the refrigerant to be sucked. It is formed in a straight line in communication with the reciprocating compressor, characterized in that the bellows type with a spring 71 is built to withstand vibration. The cylinder head 60 of claim 1, wherein one side of the cylinder block is provided with a suction chamber 61 communicating with the suction tube and a discharge chamber 62 for discharging the refrigerant compressed in the cylinder block. Combination is installed, one side of the suction chamber reciprocating compressor, characterized in that the resonator (80) for reducing the noise generated in the refrigerant in the suction chamber is installed. 3. The reciprocating compressor according to claim 2, wherein a connecting tube (81) is provided between the resonator and the suction chamber to communicate with each other, and an end portion of the connecting tube on the suction chamber side extends toward the suction tube side. The reciprocating compressor of claim 3, wherein one side of the suction tube is fixed to the suction tube, and the other end of the suction tube is inserted into and fixed to an extension of the connection tube. 5. The reciprocating compressor according to claim 4, wherein an engaging portion (90) is formed at an extension portion of the connection pipe at the left and right ends of the suction tube and the suction pipe to fix the suction tube. 3. The reciprocating compressor according to claim 2, wherein the cylinder head at the portion where the suction tube is connected has a guide (67) for fixing the suction tube to the suction tube side.