KR100238661B1 - Cylinder block of a refrigerator compressor - Google Patents

Abstract

The present invention relates to a cylinder block of a compressor for a refrigerator. According to the present invention, a cylinder bore (11) having a compression action of a refrigerant, a chamber (13a) for discharging the refrigerant compressed by the cylinder bore (11) to the outside through a discharge pipe, and the cylinder bore (11) and the chamber In the cylinder block of the compressor for a refrigerator having a body (12) is formed (13a), characterized in that only one chamber (13a) is formed in the body (12) to reduce noise due to resonance phenomenon, Since the resonance does not occur as in the prior art, there is an advantage that the noise generated during operation of the compressor is greatly reduced.

Description

Cylinder blocks of compressors for refrigerators

The present invention relates to a cylinder block of a compressor for a refrigerator, and more particularly to a cylinder block of a compressor for a refrigerator having a structure capable of reducing noise caused by resonance.

In general, a refrigerator includes a compressor for compressing a refrigerant to keep the refrigerating compartment and the freezer at a low temperature, a condenser for condensing the refrigerant compressed in the compressor, and an evaporator for evaporating the condensed refrigerant to generate low temperature cooling air using the heat of vaporization. A cooling device is formed.

Compressor is a device that sucks the low-temperature, low-pressure gaseous refrigerant evaporated in the evaporator, compresses it into a high-temperature, high-pressure gas state and transfers it to the condenser, briefly referring to the configuration and operation of this compressor. Looking at it as follows.

1 is a cross-sectional view illustrating a compressor of a general refrigerator, and FIG. 2 is an exploded perspective view showing a cylinder block in which a compression action of a refrigerant is performed and some components coupled to the cylinder block.

In the drawing, reference numeral 10 denotes a cylinder block, and a cylinder bore 11 is formed in the cylinder block 10 to compress the refrigerant, and the piston 20 is installed in the cylinder bore 11 so as to reciprocate. It is. The upper part of this cylinder block 10 is provided with an electric motor 30 for generating a rotational force. The electric motor 30 includes a stator 31, a rotor 32, and a drive shaft 33, and a crank shaft 40 is eccentrically connected to the drive shaft 33. This crankshaft 40 is connected with the piston 20 provided in the cylinder bore 11 by the connecting rod 41. As shown in FIG. Moreover, the valve 50 which controls the movement of a refrigerant | coolant is provided in the cylinder bore 11 side of the cylinder block 10, and the cylinder head 60 is provided here. The suction muffler 70 is provided above the cylinder head 60.

When the electric motor 30 is driven as described above, the rotational motion of the drive shaft 33 is changed to the reciprocating motion of the piston 20 by the crankshaft 40 and the connecting rod 41, and the reverse of the piston 20 During the stroke, the refrigerant is sucked into the cylinder bore 11 from the intake muffler 70 through the inlet port (not shown) of the cylinder head 60 and the valve 50, and the refrigerant is moved to a high temperature and high pressure during the forward stroke of the piston 20. Compressed and then conveyed to the outside through the discharge port (not shown) of the valve (50).

In addition, although not shown, the discharge port of the valve 50 is connected to a chamber formed at another side of the cylinder block 10 through a discharge hole (not shown) formed in the cylinder block 10. . And the discharge pipe connected with the condenser is connected to this chamber. Therefore, the compressed refrigerant discharged through the discharge port of the valve 50 is discharged to the discharge pipe through the discharge hole and the chamber of the cylinder block is transferred to the condenser.

Here, the chamber 13a formed on the cylinder block to be connected to the discharge pipe is formed to be biased toward one side of the body 12 of the cylinder block 10, as shown in FIG. This is because the through hole 12a is formed in the center of the body 12 of the cylinder block 10 in which the drive shaft of the electric motor is assembled. Therefore, there is a possibility that vibration may occur due to the imbalance of the center of gravity during operation of the compressor, and another chamber 13b is formed on the opposite side of the through hole 12a of the body 12 to solve this problem. The chamber 13b is formed at the same time as the chamber 13a at the time of casting of the cylinder block, but unlike the chamber 13a, the chamber 13b is not processed and serves only to balance weight. Reference numeral 90, which is not described in FIGS. 1 and 2, denotes a compressor case, and 34 denotes a bearing for supporting the drive shaft. In addition, 14 is a support for assembling the cylinder block, 15 is a spring installed on the support 14 for vibration absorption.

However, the cylinder block 10 of the conventional refrigerator compressor has the following problems. That is, the chamber 13a and the unused chamber 13b connected to the discharge pipe are formed symmetrically on both sides of the through hole 12 to achieve weight balance, thereby generating vibration due to unbalance of the center of gravity during operation of the compressor. Although suppressed, various noises such as the rotational sound of the drive shaft, the oil pickup sound, the valve sound, and the like cause resonance between the two chambers 13 a and 13b, thereby causing a very loud noise during operation of the compressor. .

Accordingly, an object of the present invention is to provide a cylinder of a compressor for a refrigerator capable of greatly reducing the noise level by removing resonance.

1 is a cross-sectional view showing a conventional compressor for a refrigerator.

FIG. 2 is a perspective view illustrating a cylinder block of the compressor for a refrigerator illustrated in FIG. 1. FIG.

Figure 3 is a perspective view of a cylinder block of the compressor for a refrigerator according to the present invention.

Explanation of symbols on the main parts of the drawings

10: cylinder block 11: cylinder bore

13a, 13b: chamber 30: electric motor

40: valve 60: cylinder head

The present invention for achieving the above object is a refrigerator having a cylinder bore in which a compression action of the refrigerant is performed, a chamber for discharging the refrigerant compressed in the cylinder bore to the outside through a discharge pipe, and a body in which the cylinder bore and the chamber are formed. In the cylinder block of the compressor, the body is characterized in that only one chamber is formed so as to reduce the noise caused by the resonance phenomenon.

The present invention having such a configuration has the advantage that the noise caused by the resonance caused by the two chambers can be greatly reduced by forming only one chamber.

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

3 shows a cylinder block of a compressor for a refrigerator according to the invention.

As shown in the drawing, the cylinder block 10 according to the present invention includes a body 12 having a through hole 12a formed at the center thereof so that a drive shaft (not shown) of the motor is assembled, and a cylinder bore formed at an upper side of the body 12. (11), a chamber 13a formed at one side of the through hole 12a of the body 12, and a support 14 for assembly. Here, the chamber 13a is formed to be biased toward one side of the body 12.

That is, the present invention removes another unused chamber (13b of FIG. 2), which is formed for the balance of the center of gravity in the cylinder block of the conventional refrigerator compressor.

The cylinder block 10 according to the present invention having such a configuration has only one chamber 13 a and may cause asymmetry in the weight balance. However, as a result of measuring the center of gravity of a product having two chambers and a product having only one chamber according to the present invention, the center of gravity of the three types of cylinder blocks, respectively, is X-axis, That is, a difference of about 0.55 to 2.11 mm on the axis connecting the two chambers and about 0.40 to 0.94 mm on the axis passing through the center of the cylinder bore, the weight of the conventional product and the product according to the present invention The difference in the center positions is very small and, therefore, the vibration levels resulting from it were found to be about the same.

In comparison, the noise levels of the same products at 220V-50Hz and 220V-60Hz were measured, respectively.

220V-50Hz 220V-60Hz Conventional Improvement Noise reduction level Conventional Improvement Noise reduction level Model 1 36.0 dB 33.5 dB ↓ 2.5dB 40.7 dB 35.1 dB ↓ 5.6dB Model 2 39.5 dB 37.1 dB ↓ 2.4dB 40.4 dB 37.9 dB ↓ 2.5dB Model 3 39.4 dB 36.9 dB ↓ 2.5dB 41.4 dB 37.4 dB ↓ 4.0dB

As shown in Table 1, the cylinder block according to the present invention, although the unused chamber which was adopted for the balance of the center of gravity in the conventional products is removed, the change in the center of gravity is very insignificant compared to the degree of noise reduction. 2.5 to 5.6dB, a very satisfactory noise reduction effect was obtained.

As described above, the present invention removes the unused chamber that has been conventionally formed for the balance of the center of gravity, while the increase in vibration due to the change of the center of gravity despite the removal of the unused chamber is very minimal. There is an advantage that a very large noise reduction effect can be obtained by eliminating the resonance phenomenon by removing.

Claims (2)

A cylinder block of a compressor for a refrigerator having a cylinder bore in which a compression action of a refrigerant is performed, a chamber for discharging the refrigerant compressed by the cylinder bore to the outside through a discharge pipe, and a body in which the cylinder bore and the chamber are formed. The cylinder block of the compressor for refrigerators, characterized in that only one chamber is formed so as to reduce the noise caused by the resonance phenomenon. The cylinder block of the compressor for a refrigerator of claim 1, wherein the chamber is formed by being biased toward one side of the body.

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