KR0139121B1 - Cooling and heating system for water cleaner - Google Patents

Abstract

The present invention relates to a low temperature cooling and heating system that cools and heats purified water to produce hot water and cold water. A cold water tank through which the water stored in the reservoir is supplied through the first connection hose, a heat absorbing means mounted inside the cold water tank to absorb the heat of the water stored in the water reservoir, and heat absorbed by the heat absorbing means through a thermal electronic device. The heat dissipation means for receiving and discharging, characterized in that consisting of a hot water tank, the water stored in the reservoir is supplied through a second connection hose, and formed around the hot water tank to heat the water inside the hot water tank.

Cooling and heating system of the water purifier according to the present invention can maximize the energy efficiency and increase the cooling efficiency to cool the water stored in the cold water tank very low, the structure is simple but the cost is very low.

Description

Cooling and heating system of water purifier

1 is a block diagram of a cooling and heating system of a water purifier according to the prior art,

2 is an embodiment of the cooling and heating system of the water purifier according to the present invention,

3 is another embodiment of the cooling and heating system of the water purifier according to the present invention,

4 is another embodiment of the cooling and heating system of another water purifier according to the present invention,

FIG. 5 is an internal detail view of a heat exchanger for cooling the heat sink body of the thermal electronic device shown in FIG.

FIG. 6 is an internal detail view of a water film condensation cooling the heat dissipation plate body of the thermal electronic device shown in FIG.

＊ Explanation of symbols for main parts of drawing

11: water filter unit, 12: reservoir,

13: first connection hose, 14: cold water container,

15: endothermic heat pipe, 16: heat electronic device,

17: heat dissipation heat pipe, 17 ': heat dissipation fin,

18: bolt, 19: second connection hose,

20: hot water tank, 21: band heater,

22: endothermic fin, 23: heat exchanger,

24,26: third connection hose, 25: water film condenser,

27: simple storage container

The present invention relates to a cooling and heating system of a water purifier, and more particularly, to a cooling and heating system of a water purifier that cools and heats purified water to make hot water and cold water.

The cooling and heating system of a conventional water purifier includes a purified water filter unit 101 to which raw water is supplied as shown in FIG. 1, a reservoir 102 to store purified water through the purified water filter unit 101, and The cold water tank 103, through which the water of the reservoir 102 is supplied through the connecting hose 103 ′, a cooling device for cooling the water inside the cold water tank 103, and the water of the reservoir 102 are connected. It consists of a hot water tank 104 supplied through the hose 104 'and a band heater 105 formed to surround the hot water tank 104 to heat the water in the hot water tank 104.

The cooling device is an evaporator 106 is stored in the cold water container 103 and the refrigerant is stored as a volatile liquid, a compressor 107 for compressing the refrigerant of the evaporator 106 to a high pressure, and in the compressor 107 The condenser 108 is liquefied while passing through the high pressure refrigerant, and the expansion valve 109 to lower the pressure of the refrigerant passing through the condenser 108 so that the refrigerant evaporates in the evaporator.

In the conventional cooling and heating system of the water purifier configured as described above, the purified water is stored in the storage container 102 while passing through the water filter unit 101, and the purified water stored in the storage container is the cold water container 103 and the hot water container 104. Supplied to. The water supplied to the cold water container 103 is cooled by the evaporator 106 because the refrigerant vaporizes inside the evaporator 106.

The vaporized refrigerant refrigerant supplied from the evaporator 106 to the compressor 107 is compressed to high pressure and liquefied in the condenser 108. The liquefied refrigerant loses heat and the condenser 108 absorbs it and flows it into the surrounding air. When the liquid refrigerant passes through the expansion valve 109, the pressure is lowered again and vaporized in the evaporator 106. Since the refrigerant must absorb ambient heat in order to vaporize, the water stored in the cold water container 103 is cooled.

The cooling and heating system of the conventional water purifier needs to additionally install a cooling device such as an evaporator, a compressor, a condenser, and an expansion valve to the water purifier, which makes the structure complicated, increases the installation cost, and generates noise in the compressor. In addition, since the heat generated from the cooling device is discharged to the outside, there is a problem that the energy efficiency is lowered.

Accordingly, the present invention has been made to solve the above problems of the prior art, the object of the present invention is to improve the cooling and heating system of a water purifier with a simple structure and improved cooling efficiency and energy efficiency.

The cooling and heating system of the water purifier of the present invention for achieving the above object is a first filter hose for supplying raw water, a reservoir for storing purified water from the purified water filter unit, the water stored in the reservoir is a first connection hose A cold water container supplied through the cold water container, heat absorbing means mounted inside the cold water container to absorb heat of water stored in the cold water container, heat dissipation means for receiving and dissipating heat absorbed by the heat absorbing means through a thermal electronic device, and the storage container. Water is stored in the hot water tank is supplied through the second connection hose, characterized in that consisting of a band heater formed surrounding the hot water tank to heat the water inside the hot water tank.

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

One embodiment of the cooling and heating system of the water purifier according to the present invention is a water filter unit 11, the raw water is supplied as shown in Figure 2, and a reservoir for storing the purified water from the water filter unit 11 (12), a cold water container (14) through which the water stored in the reservoir (12) is supplied through the first connection hose (13), and an endothermic heat pipe (15) that absorbs the heat of the water stored in the cold water container (14). It is composed of

In addition, the heat absorbed by the heat absorbing heat pipe 15 is received through the heat electronic device 16 to be discharged to the outside and the heat radiation heat pipe 17 and the heat dissipation fins (18) fastened to the heat electronic device 16 with a bolt (18). 17 '), the water stored in the reservoir 12 is formed to surround the hot water tank 20 and the hot water tank 20 is supplied through the second connection hose 19, the inside of the hot water tank 20 The band heater 21 which heats water is comprised.

In the cooling and heating system of the water purifier according to the present invention configured as described above, the water purified by the water filter unit 11 is stored in the reservoir 12 and the cold water tank through the first and second connection hoses 13 and 19. 14 and the hot water tank 20 is supplied. The heat absorption heat pipe 15 absorbs the heat of the water stored in the cold water tank 14 and transfers the heat to the heat dissipation heat pipe 17 through the heat conduction element 16. The heat transmitted to the heat dissipation heat pipe 17 is discharged to the outside through the heat dissipation fin 17 'protruding to the outside.

Another embodiment of the cooling and heating system of the water purifier according to the present invention is a water filter unit 11, the raw water is supplied as shown in Figure 3, and a reservoir for storing the purified water from the water filter unit 11 (12) and a heat absorbing fin (22), which is a heat-absorbing element that absorbs the heat of the water stored in the cold water container (14), through which the water stored in the reservoir (12) is supplied through the first connection hose (13), A heat exchanger 23 which receives heat absorbed by the fins 22 through the thermal electronic element 16 and radiates heat; and a hot water tank in which water stored in the reservoir 12 is supplied through the second connection hose 19. 20 and a band heater 21 formed surrounding the hot water tank 20 to heat the water in the hot water tank 20.

Water supplied to the heat exchanger 23 through the third heat hose 24 passes through the heat sink body surface of the thermoelectronic element 16 to absorb heat while cooling the heat sink body as shown in FIG. 5.

The cooling and heating system of the water purifier according to the present invention configured as described above operates as follows. The water purified by the purified water filter unit 11 is stored in the reservoir 12 and then supplied to the cold water tank 14 and the hot water tank 20 through the first and second connection hoses 13 and 19. The heat absorbing fin 22 absorbs the heat of the water stored in the cold water tank 14 and transfers the heat to the hot electronic device 16.

The water stored in the reservoir 12 is supplied to the heat exchanger 23 through the third connection hose 24 to cool the heat sink body of the thermoelectronic element 16. The water heated through the heat exchanger 23 is supplied to the hot water tank 20, and the water stored in the hot water tank 20 is reheated by the band heater 21.

In still another embodiment of the present invention, the cooling and heating system of the water purifier includes a purified water filter unit 11 to which raw water is supplied, and purified water from the purified water filter unit 11, as shown in FIG. Reservoir 12, the cold water reservoir 14, the water stored in the reservoir 12 is supplied through the first connection hose 13, and mounted inside the cold water tank 14 to the cold water tank 14 The heat absorbing fin 22 absorbing the heat of the stored water, the water film condenser 25 cooling the heat sink body of the heat electronic element 16 which receives the heat absorbed by the heat absorbing fin 22, and the reservoir 12 It consists of a hot water tank 20, the water is supplied through the second connecting hose 19, and the band heater 21 formed to surround the hot water tank 20 to heat the water in the hot water tank 20. .

After the water supplied through the third connection hose 26 passes through the surface of the heat sink body of the thermal electronic device 16 through the water film condenser 25 to cool the heat sink body as shown in FIG. It is supplied to the hot water container 20 via the simple storage container 27.

The cooling and heating system of the water purifier according to the present invention configured as described above operates as follows. The water purified by the purified water filter unit 11 is stored in the reservoir 12 and then supplied to the cold water tank 14 and the hot water tank 20 through the first and second connection hoses 13 and 19. The heat absorbing fin 22 absorbs the heat of the water stored in the cold water tank 14 and transfers the heat to the hot electronic device 16.

The water supplied to the water film condenser 25 through the third connection hose 26 cools the heat sink body while passing through the surface of the heat sink body of the thermoelectronic element 16, and is stored in the simple storage container 27. The water in the simple storage container 27 is supplied to the hot water container 20, and is reheated through the band heater 21.

In the cooling and heating system of the water purifier according to the present invention as described above, the heat of the heat dissipating plate body that is released to cool the water stored in the cold water tank is cooled by using the purified water stored in the storage tank, and then the heat dissipating plate body is heated with toll. Since hot water is used to heat the water stored in the hot water tank, the energy efficiency is maximized and the heat sink of the thermoelectric element is cooled with water, so the cooling efficiency is increased, so that the water stored in the water tank can be cooled very low, and the structure is simple. Yet the manufacturing price is very cheap effect.

Claims (6)

A purified water filter unit for supplying raw water, a reservoir for storing water purified by the purified water filter unit, a cold water tank for supplying water stored in the reservoir through a first connection hose, and a cold water tank mounted inside the inner container Heat absorbing means for absorbing heat stored in the water, heat dissipating means for receiving and dissipating heat absorbed by the heat absorbing means through a thermal electronic device, and a hot water tank through which water stored in the storage container is supplied through a second connection hose; Cooling and heating system of the water purifier, characterized by consisting of a band heater formed surrounding the tub to heat the water inside the hot water tank The cooling and heating system of a water purifier according to claim 1, wherein the heat absorbing means is an endothermic heat pipe. The cooling and heating system of a water purifier according to claim 1, wherein the heat absorbing means has a heat absorbing fin attached to an endothermic heat pipe. The heat dissipation means of the heat dissipation means is bolted to the thermo-electronic device is characterized in that it comprises a heat dissipation heat pipe for cooling the heat dissipating plate body of the heat electronic device, and a heat dissipation fin for receiving the heat of the heat dissipation heat pipe to discharge to the outside Water cooling and heating systems. The heat dissipation means of claim 1, wherein the heat dissipation means comprises: a heat exchanger receiving heat from the heat absorbing means through the thermoelectronic element, and water stored in the reservoir is supplied to the heat exchanger, and water passing through the heat exchanger is supplied to the hot water tank. A water purifier cooling and heating system comprising three connection hoses, wherein water passing through the heat exchanger cools the heat dissipation plate of the thermal electronic device. According to claim 1, wherein the water film condenser located on the upper surface of the thermal electronic device, the third connection hose for supplying the water stored in the reservoir to the water film condenser, and the water supplied to the water film condenser of the heat sink of the heat electronic device Cooling and heating system of the water purifier, characterized in that it consists of a simple storage bin is stored after cooling the heat sink body through the surface, the water is stored in the simple reservoir.