KR20000014051U - Upper stopper for soundproof and dustproof of hermetic compressor - Google Patents

Abstract

The present invention relates to an upper stopper for soundproofing and dustproofing which is suitable for preventing vibration and noise caused by resonance by installing an upper stopper having excellent rigidity between an upper case and a head of a cylinder in a hermetic compressor.

According to the present invention, a smooth curved upper stopper is attached inside the head of the upper case, and the head of the cylinder is formed in the same curved shape as the upper stopper.

The present invention configured as described above increases the thickness of the head portion to compensate for the rigidity, so that the transmission loss of radiation noise (Transmition Loss) is increased and the noise is reduced.

In addition, since the upper stopper and the head of the cylinder are rounded, the natural frequency moves at a high frequency, thereby suppressing resonance and reducing noise and vibration.

Description

Upper stopper for soundproof and dustproof of hermetic compressor

The present invention relates to a hermetic compressor for sucking, compressing, and discharging refrigerant gas in a sealed case.

More particularly, the present invention relates to an upper stopper for soundproofing and dustproofing of a hermetic compressor, which is provided with an upper stopper having excellent rigidity between the upper case and the head of the cylinder to prevent vibration and noise caused by resonance.

In general, a compressor is a device that converts mechanical energy into compressive energy of a compressive fluid, and examples thereof include a reciprocating compressor, a rotary compressor, and a turbo compressor.

The reciprocating compressor compresses the refrigerant gas through the reciprocating motion of the piston, and the rotary compressor compresses the refrigerant gas by rotating the rotor in the cylinder.The turbo compressor converts the velocity energy into pressure energy by using the centrifugal force of the impeller. Compress the gas.

Such a compressor serves to increase the condensation pressure by compressing the low pressure refrigerant gas introduced from the evaporator.

In addition, the refrigerant gas discharged from the compressor circulates through the condenser, the expansion valve, and the evaporator, thereby performing a cooling operation to take heat around the evaporator using the latent heat of evaporation of the refrigerant gas.

In other words, when the compressor compresses the refrigerant gas and raises the pressure and temperature up to the saturation pressure, the condenser absorbs heat contained in the refrigerant gas of high temperature and high pressure by using water or air to condense and liquefy the refrigerant gas. And the liquefied refrigerant gas is rapidly lowered in temperature and pressure by the throttling action of the expansion valve, and the refrigerant gas is cooled by absorbing heat from the object to be cooled as it is evaporated in the evaporator.

1 is a front sectional view of a hermetic compressor mainly used.

As shown in the figure, the hermetic compressor has a compressor body in a sealed space of the upper and lower cases 10 and 20.

The compressor main body has a frame 30 which acts as a large skeleton, a drive unit (or motor unit 40) mounted on the lower part of the frame to drive the shaft 60 as a transmission means, and linear movement of the rotational movement of the shaft. It is divided into a mechanical unit 50 for compressing and discharging the refrigerant gas sucked by the conversion.

The frame 30 supports the entire driving part and the mechanical part, and is supported by the side stopper 70 and the coil spring 80 which are cushioning and noise preventing means, respectively, on the upper and lower case 10 and 20.

The drive unit 40 is fixed to the bottom of the frame 30, the stator 90 to serve as a stator of the motor, the rotor 100 to serve as a rotor, and the shaft is pressed into the center of the rotor and rotates with it ( 60).

The mechanical part 50 is a place where the refrigerant gas is substantially sucked and compressed, the cylinder 110 fixed to the upper end of the frame 30, the piston 120 inserted into the cylinder, and the crank part of the shaft 60. It consists of a piston rod (130) connected with (61).

In addition, a valve plate 140 including suction and discharge valves, a suction muffler and a discharge muffler for guiding suction and discharge of the refrigerant gas are installed at the discharge side of the cylinder.

In addition, the suction muffler and the discharge muffler are respectively connected to a suction pipe and a discharge pipe for sucking and discharging the refrigerant gas.

The compressor such that the piston rod 130 of the mechanical part 50 converts the rotational movement of the shaft 60, which is a transmission means, into a linear movement, thereby linearly reciprocating the piston 120 in the cylinder 110, and thus the refrigerant sucked in. The gas is compressed and discharged.

Of these, the conventional compressor forms a constant gap between the head portion 11 and the cylinder 110 of the upper case 10, as shown in Figure 2, when excessive vibration and noise occurs in the drive unit 40, The main body was cut off before the driving part was burned out.

By the way, when the vibration and noise occurs, such a structure has a weak stiffness of the head portion 11 formed in the upper case 10, so that local deformation is fine when the vibration source of the high frequency is transmitted to the head portion. (Local Deformation) occurs, there was a problem causing excessive vibration and noise by resonating with the vibration source.

The present invention has been devised to solve this problem, and its technical problem is to compensate for the rigidity of the head portion formed in the upper case, so that the natural frequency is moved at a high frequency to prevent resonance, thereby reducing vibration and noise. It is in such a way.

1 is a front sectional view of a typical hermetic compressor

2 is a sectional view of main parts of a conventional structure

3 is a sectional view of main parts of the present invention;

※ Explanation of code about main part of drawing ※

10: upper case 11: head portion

20: lower case 30: frame

40: drive part 50: mechanical part

60: shaft 61: crank part

110: cylinder 111: head portion

140: valve plate 150: upper stopper

R, R ': Rounding

In order to achieve the above object, the present invention is to attach a smooth upper curved stopper to the inside of the head portion of the upper case, and the head portion of the cylinder is formed in the same curved shape as the upper stopper.

The present invention configured as described above increases the thickness of the head portion to compensate for the rigidity, so that the transmission loss of radiation noise (Transmition Loss) is increased and the noise is reduced.

In addition, since the upper stopper and the head of the cylinder are rounded, the natural frequency moves at a high frequency, thereby suppressing resonance and reducing noise and vibration.

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

Figure 3 shows an assembly cross-sectional view of the present invention.

As shown in the present invention in the conventional hermetic compressor is spaced apart a predetermined interval between the head portion 11 and the cylinder 110 of the upper case 10,

An upper stopper 150 having a rounded corner (R) is attached to the inside of the head part 11 of the upper case 10, and the head part 111 of the cylinder 110 contacting the upper case is also rounded ( R ').

The present invention configured as described above increases the thickness of the head portion 11 formed in the upper case 10 due to the thickness of the upper stopper 150, so that the rigidity is compensated for, so that the transmission loss of radiation noise is increased.

Therefore, the radiation noise generated in the driving unit 40 and the mechanical unit 50 is greatly reduced, thereby reducing the noise of the compressor.

In addition, the corners of the upper stopper 150 and the head 111 of the cylinder 110 in contact therewith are rounded (R, R ') so that the intrinsic generated in the drive unit 40 and the mechanical unit 50 is generated. As the frequency is moved at high frequency, resonance is suppressed.

Therefore, vibration and noise of the compressor and the refrigerator in which the compressor is installed are reduced.

As described above, the present invention attaches the upper stopper with rounded corners to the inner side of the head of the upper case, and rounds the head of the cylinder to increase the thickness of the head of the upper case, thereby improving rigidity and reducing noise. Since the loss is large, the noise is reduced.

In addition, since the natural frequency transmitted to the upper stopper and the head of the cylinder moves at a high frequency, resonance is suppressed and noise and vibration are reduced together.

Claims (1)

In the conventional hermetic compressor in which the head portion 11 of the upper case 10 and the cylinder 110 are spaced apart at regular intervals, An upper stopper 150 having a rounded corner R is attached to the inside of the head part 11 of the upper case 10, and the head part 111 of the cylinder 110 contacting the upper case is rounded ( The upper stopper for soundproofing and dustproofing of the hermetic compressor characterized by the R ') process.