KR200423813Y1 - One body air conditioner - Google Patents

Abstract

In general, a separate type air conditioner should be installed outdoors, including a compressor, a cooler, etc., and an outdoor unit having to be installed by connecting a pipe through a wall and an indoor unit centered on an evaporator are connected to each other.

Compressor operation The refrigerant gas produces high temperature and high pressure and sends it to the cooler.

Therefore, to cool the room, the heat absorbed in the room is radiated to the outside to cool through the outdoor unit, and on the contrary, heating absorbs heat from the outside air to radiate the room to achieve the goal of cooling and heating.

In this case, the outdoor unit has a short service life due to the influence of the outdoor environment, temperature, etc., and is restricted in movement and installation. In order to overcome this limitation, the present invention integrates the indoor outdoor unit into a single body.

The integrated air conditioner of the present invention is not an integral of the window type, but refers to an integrated type that does not have a special structure arranged indoors to outdoors.

This integrated air conditioner is mounted in an even slightly curved exchanger installed after passing through both the cooling tube of the refrigerant gas circuit, the water pipe of the circuit where the cooling water is heated, and the circulation water pipe. By separating the cooling and heat of the heat exchanger, a slightly curved heat exchanger tube in the heat exchanger tube of the main heat exchanger circuit is equipped with a cooler configuration in a slightly bent tube in the heat exchanger circuit of the coolant, thereby realizing a change from the cooler structure to heat.

In this way, an air conditioner in which indoor air is integrated can be made.

Case, Compressor, Launcher (Water Inlet), Cooler, Refrigerant Gas Inside, Refrigerant Gas Appearance, Compatible Valve, Single Valve, Blower, Dryer, Capillary, Evaporator, Filling Cup, Electronic Heating Tube, Heat Exchanger Circulation Tube, Collection Tank , Heat exchanger tube, connector, thermoelectric cooler, water supply tube, water pump, compressor coolant tank, sealed water support, blower

Description

Integrated air conditioner {One body air conditioner}

1 is an explanatory view of an integrated air conditioner structure.

2 is a longitudinal sectional view of a single valve structure;

3 is an enlarged longitudinal sectional view of I which is the middle part of FIG. 1;

♠ Explanation of symbols on the main parts of the drawings.

1. Case 2. Compressor

3. Launcher (water inlet) 4. Cooler

5. Internal refrigerant gas 6. External refrigerant gas

7. Compatible Valve 8. Single Valve

9. Blower 10. Dryer

11.Capillary 12.Evaporator

13. Filling cup 14. Electronic heating tube

15. Returned oil circulation pipe 16. Collection tank

17. Heat exchanger 18. Connector

19, 21. Thermoelectric cooler 20. Water pipes (tubes with water)

22. Pumping machine 23. Compressor coolant tank

24. Sealed Waterproof Support 25. Blower

In the technical field to which the present invention belongs, an air conditioner using a conventionally used heater pump should be installed outdoors such as a compressor, a cooler, etc., and the center of the outdoor unit and the evaporator that must be installed by connecting pipes through a wall Indoor units are configured to be connected to each other.

Compressor operation in a closed circuit The refrigerant gas produces high temperature and high pressure and sends it to a cooler (evaporator). The refrigerant gas of high temperature and high pressure absorbs heat from the indoor air and sends it to the radiator of the outdoor unit to radiate heat to cool it.

Such a structure is limited to the movement and installation by separately constructing the indoor outdoor air and installing through a wall.

In addition, there is a disadvantage to add a separate auxiliary heater, etc. in order to heat,

The technical problem to be achieved by the present invention is to integrate the air conditioner separated from the current indoor air to facilitate the movement and installation, and to be able to use simply by selecting the cooling and heating without any additional equipment.

The main configuration of the integrated air conditioner according to the present invention is as follows.

a. The structure of the cooler 4 is provided with the refrigerant gas outer tube 6 overlying the refrigerant gas inner tube 5 and in contact with the connecting tube 18 and the thermoelectric cooler 19 of the refrigerant gas outer tube 6.

b. The cooling circulation circuit passes through the refrigerant gas outlet of the compressor 2 and is connected to the compatible valve 7 and the refrigerant gas inner tube 5 of the cooler 4, and the refrigerant gas inner tube 5 of the cooler 4 is a single valve ( 8) and through the dry filter (10), through the dry filter (10) and the capillary tube (11), through the capillary tube (11) and the evaporator (12) with heat sink fins, the evaporator (12) and cooler (4) with heat sink fins (4). Is connected to the refrigerant gas shell (6) of the cooling medium, the connected tube (18) and the thermoelectric cooler (19) of the refrigerant gas shell (6) are in contact with each other, the compressor (2) and the refrigerant gas inlet is connected, The blower 9 is installed where the evaporator 12 is located.

c. The structure of the receiving heat exchange circuit (circuit for converting water into heat) is provided with a collecting tank 16 under the evaporator 12 having a heat radiating fin, and a heat exchange tube 17 and a thermoelectric cooler 19 connected to the collecting tank 16. ) Are brought into contact with each other, and the water outlet of the heat exchanger tube 17 is installed in the cooling water tank 23 of the compressor.

d. The heating circulation circuit structure is provided with a return oil pipe (15) in the heat radiation fin of the evaporator (12), an electronic heating pipe (14) in the oil circulation pipe (15) which converts heat, and the refrigerant gas outlet of the compressor (2). After that, the compatible valve 7 and the evaporator 12 having the heat dissipation fins are connected to each other, and the evaporator 12 having the heat dissipation fins is connected to the refrigerant gas exterior 6 of the cooler 4. (18) and the thermoelectric cooler (19) are brought into contact with each other and connected to the refrigerant gas inlet of the compressor (2).

The water pump 22 is installed in the compressor cooling water tank 23 of the circuit for converting water into heat, and the water pump 22 and the water pipe 20 are connected, and the water pipe 20 and the thermoelectric cooler 21 are in contact with each other. The water outlet of the water pipe 20 is installed in the collecting tank 16.

The blower 25 is installed where the thermoelectric cooler 21 is located.

The compressor 2 is installed in the sealed waterproof support 24 of the cooling water tank 23.

Install one launch pipe (3) connected to the coolant trunk (23).

The feature of the integrated air conditioner of the present invention,

1. The cooler adopts the coolant gas shell over the coolant gas inner pipe, and the connecting pipe of the coolant gas shell and the thermoelectric cooler are in contact with each other, and the amount of heat of the coolant gas in the cooler inner pipe connected to the compressor outlet is absorbed by the coolant. The external refrigerant gas passes through the connecting pipe and is converted into heat at the cooling surface of the thermoelectric cooler, which satisfies the requirements of the cooler's own heat exchange, thereby maintaining the temperature of the cooler and the environmental temperature in parallel with each other. The structure and the indoor unit make it possible to create an integrated air conditioner and install it indoors.

2. The heat exchanger circuit (heating circuit to heat the water) is installed with a collecting tank under the evaporator with a heat sink fin, and the heat exchanger tube connected to the collecting tank and the thermoelectric cooler are in contact with each other, and the water outlet of the heat exchanger tube is connected to the compressor. Since the structure is installed in the cooling water tank, the cooling water of the evaporator with a heat radiating fin can be sufficiently collected during cooling, thereby lowering the temperature of the heat generating surface of the thermoelectric cooler and further lowering the temperature of the cooler.

3. The heating oil circulation tube (oil circulation tube to be converted to heat) is installed in the heat radiation fin of the evaporator of the heating circulation circuit, and the heating effect is improved because the structure of the electronic heating tube is installed in the heating oil circulation tube.

4. Compressor is installed in the coolant tank with water pump, water pump and water pipe are connected, water pipe and thermoelectric cooler are in contact with each other, a blower is installed where the thermoelectric cooler is located, and one launch pipe connected with the coolant tank is installed. Therefore, by means of a manual method, the cooling water lowers the cooling temperature of the compressor, and on the other hand, the cooling water of the compressor and the thermoelectric cooler are heated by the high temperature of the compressor, and the air of the blower lowers the temperature of the heat generating surface of the thermoelectric cooler. It is more advantageous to lower the temperature of the furnace and further lower the temperature of the cooler.

5. Since the compressor is installed in the sealed watertight support of the cooling water tank, it can prevent water from entering the compressor, and can also cool the compressor, which is advantageous for increasing the efficiency and service life of the compressor and lowering the noise. Do.

6. The finished product has the advantages of simple structure, easy manufacturing, small volume and long service life.

The specific execution method will be described with reference to the drawings,

The integrated air conditioner according to the present invention has a case (1), in which a compressor coolant tank (23) is installed, a waterproof support (24) sealed in the compressor coolant tank (23) is installed, and the compressor (2) is sealed Is installed in the waterproof support.

The case 1 is provided with a cooler 4 and an evaporator 12 with a bent tube for heat dissipation. The cooler 4 is made by overlaying the coolant gas shell 6 on the coolant gas inner tube 5, and the connecting pipe 18 and the thermoelectric cooler 19 of the coolant gas shell 6 are in contact with each other. .

The cooling circulation circuit passes through the refrigerant gas outlet of the compressor (2) and is connected to the compatible valve (7) and the refrigerant gas inner pipe (5) of the cooler (4), and the refrigerant gas inner pipe (5) of the cooler (4) is a single valve ( 8) and passing through the dry filter 10, the dry filter 10 and the capillary tube 11 is connected, connected to the capillary tube 11 and the evaporator 12 having a heat sink fin, the evaporator 12 and the cooler with a heat sink fin The refrigerant gas shell 6 of 4 is connected, and the connecting tube 18 of the refrigerant gas shell 6 and the thermoelectric cooler 19 are in contact with each other, and are connected to the refrigerant gas inlet of the compressor 2. A blower 9 is installed where there is an evaporator 12 having a heat radiating fin. The setting of the heat exchanger heat circuit in the case 1 is that the heat exchanger circuit must have a collecting tank 16 under the evaporator 12 having a heat dissipation fin, and a heat exchange tube 17 connected to the collecting tank 16. The super-electric cooler 19 is in contact with each other, the water outlet of the heat exchange tube 17 is configured to be installed in the compressor cooling water tank (23). A water pump 22 is installed in the compressor cooling water tank 23 of the heat exchange circuit, and the water pump 22 and the water pipe 20 are connected, and the water pipe 20 and the thermoelectric cooler 21 are in contact with each other. The water outlet of the pipe 20 is installed in the collecting tank 16. The blower 25 is installed where the thermoelectric cooler 21 is located.

The launching pipe 3 connected with the cooling water tank 23 is installed at a proper position in the case 1.

In the heating circulation circuit set in the case 1, the heating circulation circuit must install a recirculating oil circulating tube 15 in the heat radiation fin of the evaporator 12, and the electronic heating tube 14 is placed in the recirculating oil circulating tube 15. Installed, the refrigerant gas outlet of the compressor (2), the compatible valve (7) and the evaporator 12 with the heat dissipation fin is connected, the refrigerant gas appearance (6) of the evaporator 12 and the cooler (4) with the heat dissipation fin Is connected, the cooling tube of the connecting tube 18 and the thermoelectric cooler 19 of the refrigerant gas shell (6) should be in contact with each other.

In order to set the heat exchange heat circuit, the primary heat exchange is completed through the cooler 4, so that the refrigerant gas of the primary heat flow passes through the inner tube 5 of the cooler 4, and the dry filter 10 is operated by the single valve 8. Into the evaporator 12 having a heat radiation fin from the capillary tube 11, the cold air is discharged from the evaporator 12 having the heat radiation fin at low temperature via the blower 9 to the room. (I.e., it absorbs the heat of the room air.)

By the completion of the secondary heat exchange through the evaporator 12 having the heat dissipation fins, the refrigerant gas of the secondary heat exchange again passes through the refrigerant gas appearance 6 and the connecting pipe 18 of the cooler 4 and the inlet of the compressor 2. By returning to the compressor (2) from the cooling cycle is completed.

When it is used for heating, the electric heating tube 14 installed in the recirculating oil circulation pipe 15 is electrically powered to operate the blower 9, the compatible valve 7 is placed at a heating connection position, and the thermoelectric cooler ( Connect 19) to the reverse voltage and run the compressor 2. At the coolant outlet of the compressor (2), it passes through the compatible valve (7) and the evaporator (12) with heat dissipation fins, and connects the evaporator (12) with heat dissipation fins and the refrigerant gas exterior (6) of the cooler (4), The heating circulation circuit is realized when the connecting pipe 18 and the heat generating surface of the thermoelectric cooler 19 of the gas outer casing 6 are brought into contact with each other and connected to the coolant inlet of the compressor 2.

The sample of the integrated air conditioner of the present invention has a satisfactory air conditioning effect after 6 months of test operation, and has the advantages of large control temperature range, fast and cooling heating.

The effect of the present invention is to eliminate the inconvenience of movement and installation of the air conditioner by integrating the indoor outdoor air using a thermoelectric element in a conventional air conditioner, it is possible to enable heating without a special additional device by a simple operation.

In other words, it is possible to make a heating and cooling device that is easy to move and install in one product.

Claims (5)

In the cooling circulation circuit, the refrigerant gas is compressed by the compressor (2), through the compatible valve (7), through the refrigerant gas inner tube (5) of the cooler (4), through the single valve (8), through the dry filter (10), and the capillary tube. (11), the evaporator 12 with heat radiating fins sequentially passes through the evaporator 12 to cool through the blower 9, and the refrigerant gas passing through the evaporator 12 is the refrigerant gas appearance of the cooler 4 ( 6) repeat the circulation to the compressor (2), The cooler 4 is provided with a refrigerant gas outer tube 6 over the refrigerant gas inner tube 5, and the connection pipe 18 of the refrigerant gas outer tube 6 is in contact with the cooling unit of the thermoelectric cooler 19. and, In order to collect the condensed water of the evaporator 12, a collecting tank 16 is installed below the evaporator 12 having a heat dissipation fin, and distributed into a plurality of heat exchange tubes 17 connected to the collecting tank 16, and a plurality of heat exchange tubes. (17) and the heat generating portion of the thermoelectric cooler 19 is in contact with each other, the water passing through the heat exchange tube 17 constitutes a heat exchange heat circuit that is stored in the compressor cooling water tank (23), The structure of the heating circulation circuit is that the compressed refrigerant gas of the compressor (2) is heated by a blower in an evaporator (12) with a radiating fin via a compatible valve (7), and the refrigerant gas appearance (6) of the cooler (4). And a circulation process passing through the connecting pipes 18 and into the compressor 2, In the heating circulation circuit, an integrated air conditioner having a structure in which a recirculating oil circulation tube 15 is installed in a heat radiating fin of the evaporator 12 and an electronic heating tube 14 is installed in the recirculating oil circulation tube 15 to be used as an auxiliary heater. . According to claim 1, In the compressor cooling water tank 23 of the heat exchanger circuit, a water pump 22 and a water pipe 22 connected to the water pump 22 are installed, and the water pipe 20 and the thermoelectric cooler 21 are in contact with each other. The water outlet of 20 is an integrated air conditioner installed in the collecting tank 16. According to claim 1, An integrated air conditioner with a blower (25) installed where the thermoelectric cooler (21) is located. According to claim 1, Compressor (2) is an integrated air conditioner installed on the sealed waterproof support (24) of the cooling water tank (23). According to claim 1, An integrated air conditioner with one launch pipe (3) connected to the coolant tank (23).

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