KR19980027140A - Boiler with condenser of air conditioner - Google Patents

Abstract

The present invention is to achieve the function of the outdoor unit by using the heat exchanger of the boiler without using a separate outdoor unit (condenser) while obtaining hot water without the operation of the boiler to achieve a heating and hot water hot water to achieve economical and convenient use to the conventional outdoor unit It is impossible to install indoors, so it is installed outdoors. Considering the area of installation and the appearance of the building is unsatisfactory, it is impossible to develop low-cost air conditioner required for the outdoor unit, and the installation cost is added to the consumer's economy. In the present invention, the high pressure and high pressure refrigerant gas in the heat exchanger 12 and the compressor 20 which is connected to the outdoor unit 88 disposed in the water chamber 10 of the heat exchanger 12 to send the high temperature and high pressure refrigerant gas are heat exchanged. Pipe 22 for conveying the condensed gas and vaporized condensed gas connected to the pipe 22 It is configured to be connected to the indoor unit (evaporator) 24 to the compressor 20 to save the heat generated when using the air conditioner in the summer without saving the heat in the hot water and heating water in the boiler to use the heating and hot water energy saving effect It is possible to implement economical use, which makes it possible to enjoy the cost savings by not having to install a separate outdoor unit.

Description

Boiler with condenser coil of air conditioner

The present invention relates to the installation of a condensation coil in an outdoor unit of an air conditioner, which is a cooling device, in a boiler used as a heating device, and more particularly, to achieve a function of an outdoor unit by using a heat exchanger of a boiler without using a separate outdoor unit (condenser). The present invention relates to a boiler in which a condenser coil of a cooler is installed to achieve heating and hot water supply without heating the boiler, thereby achieving economical and convenient use.

In general, in the case of heating, fuel is combusted to condense and radiate the heated refrigerant in the heating cycle to the indoor unit heat exchanger using a compressor, and in the case of cooling, the air conditioner repeatedly expands, evaporates, compresses, and condenses the refrigerant. It is done. The air conditioner is composed of an indoor unit (evaporator) and an outdoor unit (condenser). As shown in FIG. 1, the refrigerant gas (freon gas) compressed by the compressor (1: compressor) by the refrigeration cycle passes through the outdoor unit (9: condenser). Condensation in the liquid state enters the indoor unit (4: evaporator) through a flow control means (3: expansion valve), the refrigerant temperature is lowered to achieve cooling.

This air conditioner operation method is a general technical matter, and the air conditioner outdoor unit (9) is classified into air-cooled and water-cooled type, and air-cooled type is a method of convection heat dissipation by using a motor (6) and a fan (7) in the condensing coil (5). 2 is a cooling tower (8: a device that cools water to outside air) using water as in the heat dissipation in a cooling tower (8) or condensing coil (5) outdoor unit (9) is installed indoors It was impossible to be installed outdoors, but considering the area of installation and the appearance of the building was unsatisfactory, and it was impossible to develop a low-cost air conditioner necessary for the manufacture of outdoor units, and the installation cost was added to the consumer's economic burden. .

In addition, in the case of the cooling tower (8) has a bad effect due to contamination by the outside air, there was a inconvenience that requires special attention to cleaning and management.

Accordingly, the present invention has been made to solve the above-mentioned drawbacks, the purpose of which is that the air conditioner outdoor unit (condenser) is made of air-cooled and water-cooled, the hassle of the process and the hassle of the process is attached to the outside when the outdoor unit is attached separately, It is to provide a boiler equipped with a condenser coil of an air conditioner, which is sanitary, reduces installation and assembly labor, and achieves safe and economical use by excluding unsanitary matters caused by pollution.

The present invention for achieving the above object is a boiler consisting of a burner for heating a heat exchanger having a water chamber and a flue for discharging smoke burned by the operation of the burner, the outdoor unit disposed in the water chamber of the heat exchanger The high temperature and high pressure refrigerant gas is exchanged in the compressor and heat exchanger to send the high temperature and high pressure refrigerant gas, and the pipe for transferring the condensed gas and the indoor unit (evaporator) for evaporating the condensed gas connected to the pipe are configured to be connected to the compressor. The boiler is provided with a condenser coil of the air conditioner.

In other words, the high-temperature, high-pressure refrigerant gas compressed by the compressor is sent to the outdoor unit without the boiler running, and the heat exchange is performed in the heat exchanger to change the water in the chamber into hot water to form heating and hot water, and the condensed gas is sent to the indoor unit to evaporate and cool. And the evaporated refrigerant is returned to the compressor to be recompressed to provide heating and cooling as well as safely and economically.

1 is a schematic configuration diagram showing a configuration of a conventional air conditioner and a heater

2 is a schematic perspective view of another conventional outdoor unit (condenser)

3 is a block diagram of a boiler having a cooling function according to the present invention

Figure 4 is a cross-sectional view of another embodiment according to the present invention

Figure 5 is a cross-sectional view of another embodiment according to the present invention

6 to 8 is a sectional view showing the configuration of another embodiment according to the present invention

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

10: water chamber 12: heat exchanger

14: burner 16: year

18: boiler 20: compressor

22: piping 24: indoor unit (evaporator)

30: hot water storage tank 32: primary condensing coil

34: 2nd condensing coil 40: burner fan

50: auxiliary heat exchanger 52: cooling motor

60: discharge valve 88, 88a: outdoor unit

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

Figure 3 is a block diagram of a boiler having a cooling function according to the present invention, Figure 4 is a configuration cross-sectional view of another embodiment according to the present invention, Figure 5 is a configuration cross-sectional view of another embodiment according to the present invention, Figure 6 to 8 are sectional views of another embodiment according to the present invention. Referring to these drawings, the boiler in which the condenser coil of the air conditioner of the present invention is installed has a combustion chamber 100 in a heat exchanger 12 having a water chamber 10. ) And a water chamber is provided at the top of the combustion chamber 100, and a flue 16 is provided in the water chamber 10, and a burner 14 for heating the heat exchanger 12 by the combustion chamber 100 is provided at the lower side of the combustion chamber 100. As is conventional, the boiler 18 is provided to be installed and burned by the operation of the burner 14 to be discharged through the flue 16. In addition, the compressor 20, which is connected to the outdoor unit 88 disposed in the water chamber 10 of the heat exchanger 12 and sends a high temperature and high pressure refrigerant gas, is spaced apart from the heat exchanger 12 at a predetermined interval, and the heat exchanger 12 The gas condensed by the heat exchange of the high temperature and high pressure refrigerant gas in 12) is transferred by the pipe 22, and the condensed gas transferred in connection with the pipe 22 is evaporated from the indoor unit (evaporator) 24, and the indoor unit 24 is provided to be connected to the compressor 20 to achieve a repeat function.

In addition, the hot water storage tank 30 in which the primary condensation coil 32 for supplying the water for forming the primary heat exchange by the refrigerant gas of the high temperature and high pressure of the compressor 20 is disposed in the heat exchanger 12. A secondary condensed coil 34 connected to the hot water storage tank 30 and extending from the primary condensed coil 32 connected to the compressor 20 is disposed in the heat exchanger 12 so that the outdoor unit ( 88) and 88a.

On the other hand, when the water chamber is heated by the outdoor unit 88 which heat-exchanges with the water chamber 10, the burner fan 40 attached to the burner 14 is operated so that the cooling air is discharged to the flue 16. And by the cooling motor 52 of the auxiliary heat exchanger 50 arranged to be connected to the heat exchanger 12 when the water chamber is heated by a outdoor unit 88 which exchanges heat with the water chamber 10. It is configured to discharge the high temperature, and when the water chamber is heated by a predetermined temperature or more by the outdoor unit 88 which makes a heat exchange with the water chamber 10 by hot water by the discharge valve 60 attached to one lower end of the heat exchanger 12 It is configured to be discharged in the present invention is not limited to any one of them to achieve a step-by-step function of the combination of these to provide a safe and wide range of use.

And, the hot water generated by the heat exchange in the hot water tank 30 is moved to the heat exchanger 12 is configured to heat exchange the heat to the medium.

The present invention having such a configuration is able to cope with the structure and parts of the hot water heating using the boiler to cope with the outdoor unit by using the heat exchanger of the boiler without using a separate outdoor unit (condenser) in the compressor 20 By generating the refrigerant gas of high temperature and high pressure through the first condensation coil 32 disposed in the boiler hot water storage tank (30), heat is transferred to the water in the hot water storage tank (30) to produce a high temperature refrigerant gas The refrigerant gas condensed to a predetermined temperature is first condensed by a heat exchange with water in the water chamber 10 in the secondary condensation coil 34 disposed in the boiler heat exchanger 12 to condense to a low temperature. Will be condensed. That is, the water in the hot water storage tank 30 and the water chamber 10 of the heat exchanger 12 by the first and second heat exchanges by the outdoor units 88 and 88a installed in the hot water storage tank 30 and the heat exchanger 12. The water stored in each is heated, and the water of the hot water storage tank 30 in the flow sequence of the high temperature and high pressure refrigerant gas of the compressor 20 is faster and higher temperature than the water stored in the water chamber 10 of the heat exchanger 12. The hot water is obtained and the hot water is circulated to the heat exchanger (12) to achieve economical hot water use.

The high-temperature high-pressure refrigerant gas heat-exchanged first and second is converted into the condensed refrigerant and is sent to the indoor unit 24 through the pipe 22 arranged to extend from the secondary condensation coil 34 to evaporate. In the separate blowing means, in particular, the cooling is achieved by the evaporation action by the fan and the evaporated refrigerant is sent back to the compressor 20 to achieve the cooling through the repeated action.

In the process of forming the refrigeration cycle, the high temperature and high pressure refrigerant gas generated in the compressor 20 is condensed while passing through the hot water storage tank 30 and the condenser 18 and 18a in the heat exchanger 12. If the condensation is not completely achieved when the temperature rises above the predetermined temperature, the burner fan 40 attached to the boiler 18 is operated at a second temperature as shown in FIG. 5 to cool the boiler by heat blowing. The water temperature in the water chamber 10 of) is prevented from rising above a certain temperature to obtain a 100% condensation effect.

In addition, when the air conditioner operation time is increased on a very hot day such as summer, even when the temperature of the hot water rises above a certain temperature even when the hot water and the blower fan 40 depend on the blowing, the secondary heat exchanger 50 is used as shown in FIG. 6. Auxiliary heat exchanger (50) is made of a window type to be attached to the window or made for the roof is used in the present invention is not limited to any one of the present invention according to the installation conditions selected according to the installation type cooling motor (52) Start up and vent to rooftops and windows to maintain the temperature that best condenses.

On the other hand, when the hot water in the water chamber 10 is raised to a high temperature despite the third cooling means as described above, the discharge valve 60 attached to one lower end of the fourth heat exchanger 12 as shown in FIG. By opening the hot water to be discharged to prevent the water temperature from rising above a certain temperature, it is possible to cope with the outdoor unit (condenser) by using the water chamber 10 in the boiler 18 by operating the air conditioner by perfect condensation. As shown in FIG. 8, the water chamber 10 of the heat exchanger 12 is heated with the hot water of the hot water storage tank 30 to obtain hot water without additional thermal energy, thereby achieving energy saving. Cooling and heating at the same time economical use.

The present invention as described above is built in the outdoor unit of the heat exchanger cooling unit using a refrigeration cycle in the boiler heat exchanger to achieve the condensation action using the boiler heating water and hot water without using a separate outdoor unit to discard the heat generated during the use of air conditioning in summer It is a new invention to implement economical use to save energy by saving energy by saving heating in hot water and heating water in a boiler so that heating and hot water can be used, and by not installing a separate outdoor unit.

Claims (6)

In the boiler 18 which consists of the burner 14 which heats the heat exchanger 12 which has the water chamber 10, and the flue 16 which discharges the smoke combusted by the operation of this burner 14, The compressor 20 connected to the outdoor unit 88 disposed in the water chamber 10 of the heat exchanger 12 to send the high temperature high pressure refrigerant gas and the high temperature high pressure refrigerant gas in the heat exchanger 12 to transfer the condensed gas. And a condenser coil of the air conditioner, characterized in that the condenser coil (evaporator) 24 for evaporating the condensed gas transported in connection with the pipe 22 and the conduit 22 is connected to the compressor 20. The hot water storage tank 30 connected to the heat exchanger 12 to supply hot water and the primary condensed coil 32 disposed in the hot water storage tank 30 and connected to the compressor 20. The extended secondary condensation coil 34 is arrange | positioned to the heat exchanger 12, and the outdoor unit 88 and 88a were comprised. The boiler which installed the condenser coil of the air conditioner characterized by the above-mentioned. The burner fan 40 attached to the burner 14 is operated when the water chamber is heated by the outdoor unit 88 which exchanges heat with the water chamber 10, and thus the cooling air is reduced in the amount of air. Boiler installed a condenser coil of the air conditioner, characterized in that configured to be discharged. The cooling motor 52 of the auxiliary heat exchanger 50 of claim 1, wherein when the water chamber is heated by the outdoor unit 88 which exchanges heat with the water chamber 10, the cooling chamber 52 is connected to the heat exchanger 12 when the water chamber is heated above a predetermined temperature. Boiler installed a condenser coil of the air conditioner, characterized in that configured to be discharged by the high temperature. The method of claim 1, wherein when the water chamber is heated by a predetermined temperature or more by the outdoor unit 88 in heat exchange with the water chamber 10, the hot water is discharged by the water discharge valve 60 attached to one lower end of the heat exchanger 12. A boiler having a condenser coil of a cooler installed. 3. The boiler according to claim 2, wherein the hot water generated by the heat exchange in the hot water tank 30 is moved to the heat exchanger 12 to heat exchange the heat to the medium. .