KR920007627B1 - Defrost pipe for refrigerator - Google Patents

Abstract

The U-shaped defrost pipe for the compressor of refrigerator improves the condensation efficiency of refrigerant. The circulation tube (1) for refrigerant has a U-shaped bend (2a) to be housed in another U-bend tube (a) collecting and storing defrosted water and having an overflow outlet pipe (1a). The evaporated refrigerant from the compressor is cooled by the collected defrost water while passing the U-bend portion (2a) to expedite the condensation of the refrigerant to an advantage of improved efficiency for the refrigerator.

Description

U-shaped defrost pipe of refrigerator compressor

1 is a connection state between the compressor and the defrost pipe in a conventional refrigerator.

2 is a reference diagram showing another embodiment of FIG.

3 is a reference diagram showing another embodiment of FIG.

4 is a reference diagram showing a connection state of the compressor and the defrost pipe of the refrigerator according to the present invention.

5 is an enlarged cross-sectional view of the main portion of FIG.

* Explanation of symbols for main parts of the drawings

1: U-shaped defrost pipe a: Defrost water storage unit

1a: defrost water discharge pipe portion 22: refrigerant circulation pipe

22a: U-shaped bend

The present invention relates to a pipe structure of a compressor refrigerant circulation pipe in which a refrigerant is seen by an evaporator through a discharge pipe, which is a refrigerant circulation pipe in a compressor of a refrigerator, which is particularly effective in increasing the condensation efficiency by the defrost water itself. It is possible to relates to a U-shaped defrost pipe of the refrigerator.

The compressor used in the refrigerator circulates and compresses the refrigerant to discharge the refrigerant to the evaporator through the discharge pipe, which is a refrigerant circulation pipe, or to receive the circulated refrigerant as the suction pipe, which is illustrated in FIG.

Here, the compressor 21 is provided in the compression chamber of the refrigerator, and the refrigerant compressed through the discharge pipe 22, which is the refrigerant circulation pipe, is sent to the evaporator side, while the suction refrigerant passing through the refrigerant cycle passes from the suction pipe 23 to the compressor 21. In the process, defrost water and condensate generated in the air are dropped into the defrost tray 24 through the defrost water pipe.

In addition, as another example of the prior art is shown as FIG.

Here, a defrost water pipe 26 is provided in the suction or discharge pipe 25 for dropping defrost water or condensate into the defrost water tray 24.

As another example of the related art, a guide groove 27a for allowing the refrigerant circulation pipe to guide the condensed water or the defrost water to the outer surface of the suction or discharge pipe 27 and fall to the defrost water tray 24 as shown in FIG. 3. It is configured to receive defrost water.

However, in such a prior art, since the defrost water collected in the lower part of the discharge pipe 22, the condensation pipe 23, etc., which is the refrigerant circulation pipe in the compressor is designed to be discarded to the outside, any role that helps the condensation efficiency of the compressor. I couldn't even do it.

Therefore, such a compressor has caused a disadvantageous problem in efficiently utilizing condensation efficiency such as refrigerant cycle of the compressor.

An object of the present invention was developed to improve the problems of the prior art as described above, by reducing the temperature of the refrigerant circulated through the refrigerant circulation pipe in the compressor by the defrost water stored in the double pipe in the refrigerant circulation pipe of the compressor. It provides a U-shaped defrost pipe of a refrigerator that can increase the condensation efficiency of the compressor.

The present invention is characterized in that the refrigerant circulation pipe leading from the compressor to the evaporator is provided with a U-shaped curved portion, and the U-shaped defrost pipe of the refrigerator compressor having a U-shaped defrost pipe of a double tube superimposed on the U-shaped curved portion. will be.

Further features of the present invention will be understood from the following description with the embodiments of the present invention in more detail.

4 and 5 show a connection structure between the compressor 21 and the refrigerant circulation pipe 2 equipped with the U-shaped defrost pipe 1 of the present invention.

In this case, the refrigerant circulation pipe 2 jointed from the compressor 21 has a U-shaped curved portion 2a, and the defrosting water inside the U-shaped defrost pipe 1 overlaps the U-shaped curved portion 2a. The defrost water storage part (a) which can collect | restore and the defrost water discharge pipe part (1a) which sells outside when the defrost water of predetermined height collects from the U-shaped defrost pipe (1) body are comprised.

The present invention of such a configuration is as follows.

In other words, in the present invention, the compressor 21 and the refrigerant circulation pipe 2 connected to each other form a U-shaped curved portion 2a, and the U-shaped curved portion 2a surrounds the outer circumferential wall and is fixed to overlap U. The self defrost pipe (1) is provided, and the refrigerant discharged or sucked into the U-shaped curved portion (2a) is cooled by the defrost water collected in the defrost water storage (a) in the U-shaped defrost pipe (1). Drop it automatically.

Therefore, the condensation efficiency of the given energy in the compressor can be helped by the U-shaped defrost pipe 1, and consequently, the condensation efficiency of the overall compressor can be increased.

In addition, when the defrost water stored in the defrost water storage unit a in the M-shaped defrost pipe 1 is above a certain level, the defrost water discharge pipe part 1a connected to a predetermined side wall of the U-shaped defrost pipe 1 body is formed. The constant can be discharged.

The present invention has an advantageous feature that the U-shaped defrost pipe is provided in the discharge pipe connected to the compressor such as a refrigerator to automatically lower the temperature of the refrigerant discharged from the compressor, thereby increasing the condensation efficiency of the compressor.

Claims (1)

In the refrigerant circulation pipe (2) for circulating the refrigerant discharged from the compressor, the refrigerant circulation pipe is a refrigerant circulation pipe (2) having a U-shaped curved portion (2a), this U-shaped curved portion (2a) ) Is a refrigerator characterized by a configuration in which the U-shaped defrost pipe (1) having a defrost water storage unit (a) and a defrost water discharge pipe (1a) for enclosing the entire curved portion (2a) to lower the refrigerant temperature in the tube; U-shaped defrost pipe of compressor.