KR19980067387A - Self cooling air conditioner without outdoor unit - Google Patents

Abstract

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

The air conditioner has been improved so that the cooling function of the refrigerant can be achieved by the indoor unit alone without the need for an outdoor unit.

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

Conventional air conditioners require an outdoor unit, which is expensive and very inconvenient to install, use and move.

3. Summary of the Solution of the Invention.

After circulating water and air inside the indoor unit 1, the cooling unit 3 is configured to cool the refrigerant, and the refrigerant supplied from the compressor 5 passes through the cooling unit 3, and then the evaporator 2 To be supplied with

4. Important uses of the invention.

The air conditioner is completed only with the indoor unit, so the price is low and installation and movement are very convenient.

Description

Self cooling air conditioner without outdoor unit

The present invention relates to an air conditioner consisting only of an indoor unit because no outdoor unit is required. More specifically, the outdoor unit is allowed to pass through a refrigerant cooling device using water and air while the refrigerant heated by the compression of the compressor while allowing the refrigerant to be circulated only in the indoor unit. The present invention relates to an air conditioner for cooling the refrigerant in the indoor unit itself without the need for the air conditioning.

As is well known, the conventional air conditioner is configured such that a coolant generated in cold air in an evaporator of an indoor unit flows to an outdoor unit and air cools the refrigerant in an outdoor unit.

In other words, to install air conditioner, indoor unit and outdoor unit must be installed as mandatory, so users have to pay a lot of cost, and when installing, it is necessary to connect the pipe to the roof of the building through a wall or a window. There were problems such as burden and building damage.

In addition, the existing air conditioner is connected to the two thick copper pipes indoor unit and outdoor unit can not move the position after installing once, relocation and re-installation, additional installation costs will be additional, such as there were various closures .

The present invention devised in accordance with the above problems is to install a refrigerant cooling device using water and air in the interior of the indoor unit, the technical problem that the operation of the complete air conditioner is achieved only by the indoor unit without the outdoor unit.

1 is a circuit diagram showing a refrigerant flow of the present invention

2 is a circuit diagram showing a cooling unit of the present invention

3 is an enlarged cross-sectional view taken along the line A-A 'of FIG.

* Description of the symbols for the main parts of the drawings *

(1) Indoor unit (2) Evaporator (3) Cooling unit

(4) Water Tank (5) Compressor (6) Suction Blower

(6a) exhaust blower (7) pump (8) cover

(9) Case (10) Heat exchanger (11) (11a) Supply pipe

(12) capillary tube (13) through hole (14) blower tube

(15) Guide plate (16) Wall (17) Vent

(18) Air guide plate (19) Shower hole (20) Shower plate

(21) Water supply pipe (22) Water suction pipe (23) Water recovery pipe

(24) Drip tray (25) Drain pipe (26) Drain pipe

(27) Air cooling tube (28) Air cooling coil (29) Refrigerant recovery pipe

The present invention constitutes a cooling unit 3 at the bottom of the evaporator 2 of the indoor unit 1, installs a water tank 4 and a compressor 5 at the bottom thereof, and the lower and upper ends of the cooling unit 3. Suction blower (6) and discharge blower (6a) are installed in each to circulate the air, and water in the water tank (4) installs the pump (7) to circulate the cooling unit (3) and the refrigerant in the compressor (5). It is configured to feed the evaporator 2 after circulating the cooling unit (3) when feeding the.

Looking at the configuration of each of the above in more detail, the cooling device unit 3 is installed after the heat exchanger 10 of the small radiator type in the inner center of the case (9) having a cover (8) compressor ( The refrigerant flowing in 5) was circulated through the heat exchanger 10 through the supply pipes 11 and 11a and then introduced into the evaporator 2 through the capillary tube 12.

After forming the through hole 13 in the upper cover (8), the suction blower (6) is installed and the blower tube (14) is connected to the lower end of the case (9). And guide plate 15 to allow air to flow into the inside of the case 9, and on the bottom surface of the case 9, a vent 17 having a wall surface 16 is formed thereon and the wall surface 16 and While slightly spaced apart to form an air guide plate 18 that can cover the vent (17).

In addition, a shower plate 20 having a large number of shower holes 19 is formed on the heat exchanger 10 inside the case 9, and a water supply pipe 21 is connected to one side of the cover 8 on the pump 7. The water tank (4) and the water suction pipe (22) are connected to the pump (7), and the water recovery pipe (23) is connected between the air vent (17) and the air vent (17) at the bottom of the case (9). It was allowed to enter the tank (4).

The discharge pipe 25 of the water support 24 installed at the bottom of the evaporator 2 is connected to the water supply pipe 21 and a drain pipe 26 is formed at one side of the water tank 4 to increase the capacity of the water tank 4. Excess water was allowed to drain to the outside.

After the capillary tube 12 passes through the supply pipe 11a before entering the evaporator 2, the air cooling tube 27 is branched and introduced into the blower tube 14, and a coil-type air cooling coil 28 is introduced therein. ) Was formed and connected to the refrigerant recovery pipe 29 circulated from the evaporator 2 to the compressor 5.

In the figure, reference numeral 30 denotes a heat exchanger 10 pedestal, and 31 denotes a refrigerant pipe inside the heat exchanger 10.

Looking at the operation of the present invention having the above configuration, the operation of the suction and discharge blower (6) (6a) and the pump (7) at the same time as the refrigerant pressure operation of the compressor (5), starting from the compressor (5) The refrigerant circulates through the heat exchanger 10 through the supply pipes 11 and 11a and then enters the evaporator 2 through the capillary tube 12 and then flows back into the compressor 5 through the refrigerant recovery pipe 29. .

Since a great amount of heat is generated in the refrigerant being pushed through the compressor (5), it is configured to cool the heat in the cooling unit (3), which is a circulation of air and water pump by the intake and exhaust blowers (6) 6a. The cooling is effected by the circulation of water according to (7).

That is, when the exhaust blower 6a blows air into the case 9 through the vent 17 on the bottom surface of the case 9, the vent 17 is provided at the upper and side portions of the air guide plate 18. Because it is covered by water, even if water flows down from the top, the water can flow only into the top without flowing down into the vent 17, and the blown air passes through the heat exchanger 10 to cool its heat. It is discharged by the suction blower 6 again.

The air exiting the case 9 by the suction blower 6 cools the heat, and a part of the cool refrigerant branched from the air pipe 11a passes through the air cooling pipe 27 to the air blower 14. The air passing through the blower pipe 14 may be cooled because the air cooling coil 28 is circulated in the inside and circulated therein.

In addition, in the present invention, water is used to cool the refrigerant in the heat exchanger 10. When the pump 7 inhales the water in the water tank 4 and sends it to the water supply pipe 21, the water supply pipe 21 is a case ( The water flows down evenly from the shower hole 19 formed in the shower plate 20 while flowing into the upper portion of 9) to cool the heat exchanger 10.

At this time, in the evaporator 2, cold water droplets are generated due to a sudden temperature difference, and the foreign matter is joined with the water supplied from the pump 7 through the water support 24 and the discharge pipe 25 to lower the temperature of the water, and the water tank ( Water exceeding the capacity of 4) is discharged to the drain pipe (26).

As described above, the present invention allows the refrigerant to pass through the heat exchanger 10 installed inside the indoor unit before the refrigerant is supplied to the evaporator 2, and the water falling down from the top and the air rising from the bottom up to the heat exchanger 10. By configuring to cool, the temperature of the refrigerant can be always lowered to an appropriate temperature, and thus there is no need for an outdoor unit for a separate refrigerant cooling.

Therefore, when using the air conditioner according to the present invention can be used only by the indoor unit (1) can reduce the manufacturing and selling price, the installation is simple, the effect of the air conditioning installation location is very excellent and the invention can be called.

Claims (3)

A cooler unit 3 is formed at the bottom of the evaporator 2 of the indoor unit 1, and a heat exchanger 10 having a small radiator type is installed in the inside of the indoor unit 1, and the refrigerant fed from the compressor 5 is supplied to the supply pipe 11. After passing through the heat exchanger 10 through the (11a) to be supplied to the evaporator (2), the blower tube (14) after the suction blower (6) and the discharge blower (6a) is installed in the upper and lower parts of the case (9) Self-cooling room air conditioner does not require an outdoor unit, characterized in that the water tank (4) to form a water tank (4) to supply water to the pump (7) configured to flow from the top to the bottom. The method of claim 1, The cooling unit 3 forms a case 9 with a cover 8 to install a heat exchanger 10 therein, and forms a through hole 13 in the upper cover 8, and then a suction blower ( 6) installed and connected to the blower tube 14, the exhaust blower (6a) is a guide plate (15) to allow air to be blown down the case (9), the bottom surface of the case (9) a vent having a wall surface (16) After forming (17), the air guide plate (18) covering the vent (17) is formed while being slightly spaced apart from the wall (16) thereon, and an air cooling coil is formed in the middle of the blower pipe (14), and then the supply pipe Self cooling air conditioner that does not require an outdoor unit, characterized in that by connecting the air cooling pipe (27) branched from the (11a) connected to the end of the refrigerant recovery pipe (29). The method of claim 1, After installing the water tank (4) and the pump (7) on the lower side of the cooling unit (3) and connected to the water suction pipe (22) and the water supply pipe (21) to the upper part of the case (9), the case The upper part of the inner (9) forms a shower plate (20) having a plurality of shower holes (19) and the water tank (4) by connecting the water recovery pipe (23) between the vent (17) at the bottom of the case (9) It is connected to the water support 24 under the evaporator (2) is connected to the discharge pipe 25 to the water supply pipe 21 and the upper side of the water tank (4) is formed by forming a drain pipe (26) Self-cooling air conditioner that does not require an outdoor unit.