KR890005204Y1 - Sealed-type electrically operated compressor - Google Patents

Abstract

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Description

Double barrier wall device of hermetic compressor

1 is a longitudinal cross-sectional view of the present invention.

2 is a plan view of the present invention.

3 is a conventional longitudinal section view.

* Explanation of symbols on the main parts of the drawings

1: cell 2: gap

3: jaw 4: double barrier wall

The present invention provides an additional partition wall inside the compressor for refrigerators and freezers to prevent the liquid refrigerants that do not evaporate completely from the gaseous refrigerants and impurities in the refrigeration cycle directly into the cylinders. The present invention relates to a double barrier wall device of a hermetic compressor which can achieve the effect of noise attenuation by forming a double partition.

Conventionally, the compressor sucks and compresses low-pressure refrigerant from the evaporator to compress the high-temperature and high-pressure refrigerant to the condenser, and in the condenser, the high-temperature and high-pressure gas refrigerant is exchanged with the surrounding air to release the high temperature heat of the gas refrigerant. The condensed liquefied refrigerant cools around the evaporator again in a liquid state of low temperature and low pressure.

At this time, the liquid refrigerant must be completely evaporated in the evaporator to become a gas state, but when the ambient temperature is low or suddenly during start-up operation, the refrigerant between the liquids that cannot be evaporated may be introduced into the compressor.

When the liquid refrigerant is mixed into the cylinder of the compressor, the liquid refrigerant is evaporated inside the compressor mechanism to take heat away and cause a new movement of heat, and the density of the gas within the cylinder changes rapidly, indicating a pulsation of the pressure in the cylinder. As a result, the compressor may be unstable, resulting in irregular noise, reduced compressor efficiency, and valve damage.

In order to attenuate the propagation of this noise, a method of attaching a sound insulation damping agent to the outside of the compressor cell has been used.

The present invention for solving the above disadvantages by installing a partition with a thin steel plate on the upper end of the refrigerant flows from the evaporator into the sealed container of the compressor to allow the outermost to maintain a narrow gap with the cell.

Also, make a jaw so that even if liquid refrigerant and impurities are mixed, they are collected there once, and then the liquid refrigerant is evaporated by the heat of the compressor and then introduced into the cylinder. The liquid refrigerant and the impurities of the refrigerating cycle are prevented from being sucked directly into the cylinder to eliminate performance degradation and abnormal noise. This will be described in detail by the accompanying drawings.

In the hermetic compressor for refrigerators and freezers, the suction tube 5 penetrates the upper end of the cell 1, and a thin iron plate has a narrow gap 2 between the cell 1 and a jaw 3 formed on the outer shell. The blocking wall 4 is provided. Reference numeral 6 is a suction muffler 7 is a suction muffler tube.

In the present invention, when the refrigerant is sucked through the suction tube 5 installed on the compressor cell 1, the gaseous refrigerant spreads through the narrow gap 2 between the compressor cell and the partition wall and is sucked into the compressor.

A small amount of sucked liquid refrigerant is accumulated in the jaw (3) formed on the outer surface of the partition wall, and then vaporized by the compressor heat and introduced into the suction muffler tube (7) of the compressor.

In addition, since the refrigerant entering the suction tube is diffused without being directly sucked into the compressor and is sucked back into the compressor through a narrow gap, the refrigerant acts as a silencer, thereby reducing noise during suction.

In addition, even when the ambient temperature is low, since the liquid refrigerant collects in the jaw 3 of the double barrier wall 4 and changes to a gas state, the refrigerant does not affect the refrigerant cycle.

Claims (1)

In a hermetic compressor for refrigerators and freezers, a double barrier wall (4) is installed so as to penetrate the suction tube (5) inside the upper end of the cell (1) and form a narrow gap (2) with the cell (1) directly below it. A small amount of liquid refrigerant sucked by the outer jaw (3) is accumulated and vaporized by the heat of the compressor, and the gaseous refrigerant sucked into the suction tube (5) is once diffused into the double blocking wall and then narrows. (2) The double blocking wall device of the hermetic compressor, which is sucked in to reduce the noise during suction.