KR200201142Y1 - Refrigerant cooling device of self water cooling airconditioner without outdoor heat exchanger - Google Patents

Abstract

1. The technical field to which the invention described in the claims belongs.

A field of refrigerant cooling device of self-cooling air conditioner without outdoor unit

2. The technical problem the invention is trying to solve.

Utility Model Registration Application No. 96-1679, which is a prior application, circulates a part of the refrigerant entering the evaporator through a capillary tube to a heat exchanger, whereby the cooling effect is lowered in some cases. Of course, it was accompanied by the increase of water consumption in each home or business.

3. Summary of the solution of the design.

This study maximizes the cooling efficiency by first cooling the refrigerant by condensate from the evaporator and air supplied from the air compressor, and then installing a secondary heat exchanger in the return pipe to allow the second cooled refrigerant to pass through. It is.

4. Significant Uses of the Invention.

Used for installation in air conditioners.

Description

Refrigerant cooling device of self-cooling air conditioner without outdoor unit

1 is a cross-sectional view of the present proposal.

2 is a cross-sectional view taken along the line AA ′ of FIG. 1.

3 is a cross-sectional view taken along the line B-B 'of FIG.

4 is an enlarged cross-sectional view of the heat exchanger in the present article.

5 is an enlarged cross-sectional view of the secondary heat exchanger in the present article.

6 is an exemplary view of the present invention showing the circulation of refrigerant and air.

* Explanation of symbols for main parts of the drawings

1: evaporator 2: cooling water tank

3: compressor 4: heat exchanger

5: radiator 6: air compressor

7: small air pipe 8: condensate discharge pipe

9: refrigerant recovery pipe 10: secondary heat exchanger

11: small tube

This paper relates to a refrigerant cooling device for self-cooling air conditioner without outdoor unit. Especially, it is further improved by Utility Model Tong Loong Application No. 96-1679, which is its own source, so that it can be cooled very stably without supplying a separate cooling water from the outside. I would have to.

Looking at Utility Model Registration No. 96-1679, which is my prior application, installs a secondary solenoid valve by branching the auxiliary inlet pipe to one side of the inlet pipe into which the condensate flows into the heat exchanger, and the secondary solenoid valve is a water supply and a hose. If the temperature sensor installed inside the heat exchanger is detected above the set temperature, the primary solenoid valve opens and the refrigerant flows back into the heat exchanger through the auxiliary refrigerant pipe to cool the condensed water. When the secondary solenoid valve is opened to supply water of tap water is configured to cool the secondary.

However, the design of the first application was accompanied by the following problems. In other words, by circulating a part of the refrigerant entering the evaporator through the capillary tube to the heat exchanger, the cooling effect is lowered in the heat of high temperature, the cooling effect is lowered, and the water is supplied from the tap water, so the hose is exposed and it does not look aesthetically. This is accompanied by the closure of water consumption in each home or business.

Therefore, the present invention has been devised to solve the above-mentioned problems. In particular, a heat exchanger is installed in a plurality of rows inside a cooling water tank, and a radiator is installed on the heat exchanger. Built-in air can be circulated as an air compressor, and the air from the heat exchanger is discharged out again with the condensate after passing through the radiator, so that the cooling of the refrigerant is first effectively cooled by the condensate and air in the coolant tank. Then, by installing a secondary heat exchanger in the refrigerant recovery pipe coming out through the evaporator so that the first cooled refrigerant is secondary cooled and supplied to the evaporator through the capillary tube, a part of the refrigerant supplied to the evaporator is used or the water tank is opened from the outside. It is possible to cool the refrigerant very stably even if it is not supplied. The purpose is to.

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

In the self-water-cooled air conditioner having a coolant tank (2) installed below the evaporator (1), and a heat exchanger installed in the coolant tank (2) to circulate freon gas through the compressor (3), the coolant tank (2) Connect and install a heat exchanger (4) connected to the compressor (3) in a plurality of rows therein, and install a radiator (5) thereon, each of the heat exchanger (4) with a separate air compressor (6) and A plurality of connected small air pipes 7 are connected to each other so that the air and the freon gas zigzag through the inside of each heat exchanger 4 so that the freon gas is first cooled by the coolant (ie condensate) and the air, and the heat exchange The air discharged through the gas (4) is discharged to the condensate discharge pipe (8) together with the condensate while cooling the hot water again through the radiator (5), and the primary cooled freon gas is supplied to the evaporator (1). Refrigerant before becoming Cooling ability by maximizing the cooling efficiency of Freon gas by supplying cooling to secondary evaporator 1 through small pipe 11 inside secondary heat exchanger 10 installed between water pipes 9 and 9 '. In order to improve the efficiency of the refrigerant, only the condensate and air generated in the evaporator can be cooled.

Meanwhile; The configuration of each of the heat exchangers 4 described above will be described in more detail. A plurality of air pipes 11 are formed between the partition walls 4a and 4a 'and between the partition walls 4a and 4a' on both sides of the body. The air supply chamber 4b, the air discharge chamber 4b ', and the air pipe 7, which are formed by the partitions 4a and 4a', communicate with each other, thereby being generated and supplied from the air compressor 6. Air is discharged through the air supply pipe 13, the air supply chamber 4b, the air pipe 7, and the air discharge chamber 4b 'to the air discharge plate 13', and then through the radiator 5, the condensate discharge pipe 8 Freon gas supply pipe 14 and the freon gas discharge pipe (14 ') connected to the compressor (3) to circulate with the condensate and to circulate the freon gas is installed on both sides of the heat exchanger (4) The freon gas supplied to the freon gas supply pipe 14 circulates as it passes between the air pipe 7 between the air supply chamber 4b and the air discharge chamber 4b '. It is configured to be cooled off by the open air.

The secondary heat exchanger 10 also has the same configuration as the heat exchanger 4.

Reference numeral 12 is a capillary tube, 13 is an air supply pipe, 13 'is an air discharge pipe, 14 is a freon gas supply pipe, 14' is a freon gas discharge pipe, 15 is a drop hole, 16 is a primary cooled refrigerant supply pipe 16 'is a secondary cooling Refrigerant discharge line.

Describe the operation and effects of this proposal. The main feature of this paper is to install a plurality of heat exchangers (4) in parallel in the cooling water tank (2) installed under the evaporator (1), and inside each heat exchanger (4) a small air pipe connected to the air compressor (6) In order to maximize the cooling effect of the seed, the compressor (3) is ultimately cooled simultaneously by the coolant (i.e. condensate) and the air at the excess of the freon gas passing through the heat exchanger (4) by the compressor (3). In addition, since the first cooled refrigerant passes through the secondary heat exchanger 10 connected to the refrigerant recovery pipe 9 again to be cooled, the cooling efficiency can be maximized without any concern.

In addition, in the process of cooling the refrigerant, the closed end of supplying coolant from the outside is burned down, which eliminates the need for an outdoor unit as well as a hose for connecting the coolant like in the original application, so it is very neat and tidy when installed in each home or office. In addition, the user can change the installation position of the air conditioner from time to time, so that at any time can be used appropriately in accordance with the home or office atmosphere and space.

On the other hand, the air supplied by the air compressor (6) is not discharged to the outside immediately while cooling the refrigerant through the heat exchanger (4), the action of cooling the cooling water again while passing through the radiator (5) installed on the inside of the cooling water tank By doing so, it is possible to prevent heat loss, and also to play a very important role in maintaining the cooling water at a predetermined temperature.

As described above, the present invention provides a heat exchanger (4) and a radiator (5) inside the coolant tank (2) so that the coolant can be cooled more quickly by the coolant and the air. The secondary heat exchanger 10 is installed to further cool the first cooled refrigerant, and the radiator is operated as air discharged after cooling the refrigerant to prevent the temperature rise of the cooling water. It is possible to maximize the effect, and the installation, movement, transport, etc. is a very convenient design.

Claims (1)

In the self-water-cooled air conditioner, a cooling water tank 2 is provided below the evaporator 1, and a heat exchanger is installed inside the cooling water tank 2 to circulate the freon gas through the compressor 3. A plurality of heat exchangers 4 are connected and installed at regular intervals inside and below the cooling water tank 2, and radiators 5 are installed on the heat exchangers 4, and each of the heat exchangers 4 has both sides inside the fuselage. An air supply chamber 4b formed by the partitions 4a and 4a 'by installing a plurality of air pipes 7 between the partitions 4a and 4a' and between the partitions 4a and 4a '. By forming a common structure such that the air discharge chamber 4b 'and the air pipe 7 communicate with each other, the Freon is zigzag through each heat exchanger 4 in a state in which air and Freon gas are dualized. The gas is first cooled by the coolant and air, and the air from the heat exchanger (4) is again Through the eta (5), while cooling the cooling water is discharged to the condensate discharge pipe (8) together with the condensate, the primary cooled freon gas between the refrigerant recovery pipe (9) (9 ') before being supplied to the evaporator (1) Installed inside the secondary heat exchanger through the refrigerant supply pipe 16 of the secondary heat exchanger 10, and then return to the refrigerant discharge pipe 16 'in order to return to the evaporator. Refrigerant cooling device of self-cooling air conditioner without outdoor unit, characterized in that the refrigerant is supplied through the small pipe (11) flowing through the secondary evaporator (1).