KR960009590Y1 - Heater exchange combined use accumulator of truck cooler - Google Patents

Abstract

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Description

Heat exchanger-equipped evaporator for truck refrigerator

1 is a side perspective view and a sectional view showing a conventional heat exchanger.

2 is an internal configuration of the present invention.

3 is a plan view showing the upper portion of the present invention.

* Explanation of symbols for main parts of the drawings

1 housing 2 gas inlet for gas refrigerant

3: upper hole for gas refrigerant distribution 4: piping

5: Outlet for gas refrigerant distribution 6: Lower hole for circulation of frozen oil

7: Piping for liquid refrigerant passage 8: Liquid refrigerant inlet

9: liquid cooling outlet

The present invention relates to an accumulator for a heat exchanger of a truck chiller, and in particular, a pipe of a hot liquid refrigerant flowing out of a condenser inside a truck chiller before passing through an expansion valve is allowed to be banded several times and in contact with a low temperature gas refrigerant sucked from an evaporator. It is related with the heat exchanger combined accumulator which made this effective.

In the heat exchanger of the conventional truck refrigerator, as shown in FIG. 1, the hot liquid refrigerant from the condenser is introduced into the liquid refrigerant inlet 11 of the heat exchanger, and then passes through the straight pipe 15 of the housing 10. 12 and flows to the expansion valve, and the low temperature gas refrigerant introduced from the evaporator flows into the gas refrigerant inlet 13 of the housing 10 and contacts the straight pipe 15 through which the high temperature liquid refrigerant flows. After this is achieved to flow through the gas refrigerant outlet 14 to the compressor.

The heat exchanger of the conventional truck refrigerator is such that the high temperature liquid refrigerant from the condenser passes through the straight pipe 15 of the heat exchanger before passing through the expansion valve so that the heat exchange with the low temperature gas refrigerant introduced into the heat exchanger is performed. Since the high temperature liquid refrigerant flows through the straight pipe 15, the contact surface with the low-temperature gas refrigerant is reduced, so the heat transfer is not effective, there was a disadvantage that the freezing capacity is lowered.

The present invention has been devised in view of the above, and the heat exchange is increased as the contact surface of the low-temperature gas refrigerant from the evaporator is widened by allowing the pipe through which the high-temperature liquid refrigerant from the condenser flows through the empty space of the accumulator several times. The aim is to provide a heat exchanger accumulator that enables the truck refrigeration accumulator to perform its own functions.

When described in detail based on the accompanying drawings as follows.

According to the present invention, the gas coolant inlet 2 and the gas coolant outlet 3 are installed in the housing 1 of the accumulator, and the outlet 3 extends through the pipe 4 to penetrate the upper surface of the housing 1. After being bent at the bottom, the tip 4a is positioned at the upper portion of the housing 1, and the gas coolant is provided at the upper and lower portions of the pipe 4 with the upper hole 5 and the filter 6a. While forming the lower hole 6 for refrigeration oil circulation, the liquid refrigerant passage pipe 7 through which the high temperature liquid refrigerant from the condenser flows is bent through the inner periphery of the housing 1 several times and then passed through.

2 is an internal configuration diagram showing the accumulator for heat exchange and combined use according to the present invention, and on one side of the accumulator housing 1, a gas coolant inlet 2 through which a low-temperature gas refrigerant from the evaporator can be introduced is installed. (1) the pipe 4 forming the outlet (3) through the upper portion to be bent in the lower portion of the housing (1) and the tip (4a) is located in the upper portion of the housing (1), A lower hole 6 for refrigerating oil circulation having a filter 6a is formed to allow the frozen oil to circulate in the accumulator to be circulated, and an upper hole 5 in the upper portion of the pipe 4 in the housing 1 toward the outlet 3. ) So that the internal gas refrigerant can flow out separately.

In this way, in the housing 1 into which the low-temperature gas refrigerant flows, the liquid refrigerant penetrating pipe 7 through which the high-temperature liquid refrigerant from the condenser penetrates may be bent several times, and the inlet 8 is formed in the housing 1. The pipe 7 installed at the side and introduced into the inside is bent several times the inner periphery of the housing 1 and then through the outlet 9 at the side of the housing 1.

According to the present invention, the low-temperature gas refrigerant from the evaporator in the heat exchange accumulator flows in through the gas refrigerant inlet 2 and is dispersed therein, and then flows out through the gas refrigerant outlet outlet 3 consisting of the piping 4. The hot liquid refrigerant from the condenser is circulated through the accumulator housing 1 through the pipe 7, and the hot liquid refrigerant from the condenser can be circulated through the pipe 7. The high temperature liquid refrigerant from the condenser enters the liquid refrigerant inlet (8) of the heat exchanger accumulator, passes through the bent pipe (7) several times, and then flows through the liquid refrigerant outlet (9) to the expansion valve. .

Therefore, the low-temperature gas refrigerant from the evaporator is dispersed throughout the inside of the accumulator housing (1), so that the heat exchange occurs in contact with the bent pipe (7) through which the liquid refrigerant flows.

The low-temperature gas refrigerant heat exchanged as described above flows to the expansion valve through the inner tip 4a of the gas refrigerant outlet outlet 3 formed by the pipe 7.

On the other hand, a lower hole 6 having a filter 6a is formed in the lower portion of the pipe 4 of the gas coolant outlet outlet 3 so as to filter the refrigeration oil contained in the low temperature gas refrigerant flowing from the evaporator. In the upper part of the pipe (4) inside the housing (1), a gas refrigerant distribution upper hole (5) is formed so that when the refrigeration oil is excessively accumulated in the lower part of the housing (1) The gas refrigerant can flow the gas refrigerant to the expansion valve through the upper opening upper hole (5).

As such, the present invention allows the pipe 7 through which the high temperature liquid refrigerant from the condenser flows to be bent several times in the accumulator 1, thereby increasing the contact surface with the low temperature gas refrigerant from the evaporator, thereby increasing the effect of heat exchange. It is possible to cleanly circulate the refrigeration oil accumulated in the accumulator, it is possible to improve efficiency and stability by allowing it to flow out through a separate gas coolant outflow hole.

Claims (1)

In the hot liquid refrigerant is circulated through the liquid refrigerant through pipe (7) passing through the housing (1) of the accumulator provided with the gas refrigerant inlet (2) and the gas refrigerant outlet (3), The liquid refrigerant through pipe 7 penetrating the housing 1 is spirally bent inside the housing and connected to the gas coolant outlet 3 so as to be mounted in the housing 1. · An accumulator for use as a heat exchanger for a truck refrigerator, characterized in that an upper hole (5) for gas refrigerant flow and a lower hole (6) for refrigeration oil circulation provided with a filter (6a) are formed on the lower side.