KR20200096344A - A heating and cooling system - Google Patents

Abstract

The present invention relates to a high-efficiency cooling and heating system capable of heating and cooling by connecting a cooling system to a general heating system to circulate cold water through a heating pipe belonging to the heating system, so that cooling costs can be reduced, and inexpensive installation and operation costs by using the existing heating boiler and pipe as it is. The cooling and heating system is formed as a cold water supply unit (100) by winding a refrigerant pipe (45) connected to the air conditioning unit (40) to an outer periphery of a water tank (50), and one side of the cold water supply unit (100) is formed by mounting a hot water supply pipe (60) and a cold water supply pipe (70) and a cold water return pipe (70′) connected to the hot water supply pipe (60) and the hot water return pipe (60′), respectively.

Description

Cooling and heating system{A heating and cooling system}

The present invention relates to a cooling and heating system, and in particular, by connecting a cooling system to a general heating system and circulating cold water through a heating pipe belonging to a heating system, it is possible to not only heat but also cool down, thereby reducing cooling costs. It relates to a high-efficiency cooling and heating system in which installation and operation costs are low by utilizing the pipe as it is.

In general, a heating system is heated by circulating hot water inside the heating pipe after a heating pipe connected to the boiler is buried in the floor.This heating system can be used for heating in cold winter, but the weather is not good. In hot summer, a separate air conditioner for cooling is required. Therefore, not only the double cost of purchasing the air conditioner was consumed, but also the power consumption due to the operation of the air conditioner increased, resulting in an increase in operating costs.

In order to solve this problem, there is a prior art for installing a cooling device inside the heating system as Korean Utility Model Registration No. 20-0250945 "Combined heating and cooling boiler" (registration date: 2001.10.06), but this is a conventional heating system. Since it has to be newly installed after removal, it is not only uneconomical because it consumes a lot of installation costs, and there are problems such as impractical use of the existing heating system.

Korean Utility Model Registration No. 20-0250945 "Combined heating and cooling boiler" (Registration date: 2001.10.06)

An object of the present invention is to connect the cold water supply pipe and the cold water return pipe to the hot water supply pipe and the hot water return pipe connected to the boiler, respectively, connect the cold water supply pipe to the cooling unit and the mounted cold water supply unit, and the cold water supply unit to the outer periphery of the water tank. By winding the refrigerant pipe and covering the outer periphery of the water tank where the refrigerant pipe is wound, an insulation material and a heat-insulating plate are applied, so that a cooling system can be constructed while using the heat pipe of the existing heating system as it is, minimizing installation and operation costs. In addition, it is possible to easily switch between cooling and heating through a control box connecting the air conditioner unit and the boiler, and to provide a cooling and heating system that can reduce installation and operation costs at a minimum.

In order to achieve the above object, the cooling and heating system of the present invention is a conventional cooling and heating system in which a circulation pump is mounted on one side and a heating pipe is connected to the other side, and a cooling unit 40 consisting of an evaporator, a compressor, a condenser and an expansion valve is connected. In the system, a refrigerant pipe connected to the air conditioner is wound around the outer periphery of a water tank to form a cold water supply unit, and at one side of the cold water supply unit, a hot water supply pipe and a cold water supply pipe and a cold water return pipe connected to the hot water return pipe are respectively provided. It is characterized by being formed by mounting.

The cooling and heating system of the present invention is equipped with a cooling system (A2) composed of a cooling device unit 40 and a cold water supply unit 100 to the existing heating system (A1), so that the existing heating system (A1) and the cooling system (A2) Installation and operation costs can be minimized by solving the problem of space utilization due to excessive installation cost and expansion of occupied space due to the dualization of the system.

Figure 1a or 1b is a schematic diagram showing the overall flow of the present invention,
2 is a cross-sectional view showing a cross-section of the water tank of the present invention.

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

As shown in FIGS. 1A to 2, the cooling and heating system of the present invention includes an evaporator 41 and a compressor 42 to a boiler 30 equipped with a circulation pump 10 on one side and a heat pipe 20 connected to the other side. ), a cooling/heating system connected to the air conditioner unit 40 composed of a condenser 43 and an expansion valve 44, and a refrigerant pipe 45 connected to the air conditioner unit 40 at the outer periphery of the water tank 50 A cold water supply pipe 70 and a cold water return pipe 70 ′ connected to a hot water supply pipe 60 and a hot water return pipe 60 ′ on one side of the cold water supply unit 100 It is formed by attaching each.

An insulating material 51 is coated on the outer periphery of the water tank 50 in which the refrigerant pipe 45 is wound, and the heat insulating material 51 is coated with a heat insulating plate 52.

The cold water supply unit 100 and the boiler 30 are connected to the control box 90 to which the temperature sensor 80 is connected.

In the drawings, reference numeral (1) denotes a distributor, (2) a check valve, (3) an electromagnetic valve, (A1) a heating system, and (A2) a cooling system.

The operation of the cooling and heating system of the present invention configured as described above is as follows.

The present invention connects the cooling unit 40 composed of the evaporator 41, the compressor 42, the condenser 43 and the expansion valve 44 to the refrigerant pipe 45, and one side of the refrigerant pipe 45 As shown in FIG. 2, after winding to the outer periphery of a water tank 50 in which a predetermined amount of water is stored, a cold water supply pipe 70 and a cold water return pipe equipped with an electromagnetic valve 3 on one side of the water tank 50 Connect (70').

In addition, the cold water supply pipe 70 is connected to the hot water supply pipe 60, the cold water return pipe 70 ′ is connected to the hot water return pipe 60 ′, and the cold water supply unit is connected to the control box 90 to which the boiler 30 is connected. Connect 100.

Looking at the operating process of the heating system A1 used in seasons such as winter when the weather is cold, when the heating system A1 is operated through the control box 90 as shown in FIG. 1A, the water supplied through the water supply pipe is converted to the boiler. It is heated while passing through (30) and is supplied to the hot water supply pipe (60), and the supplied hot water circulates through the heating pipe (20) buried in the floor through the distributor (1), and then passes through the distributor (1) again to the hot water return pipe. It is returned to the boiler 30 through (60') and recycled, and the warm water can be heated indoors by recirculating the heating pipe 20 buried in the floor.

In addition, looking at the operation process of the cooling system (A2) used in the season such as the hot summer, when operating the cooling system (A2) through the control box 90 as shown in Figure 1b, the evaporator 41 and the compressor The refrigerant is introduced between 42 and the refrigerant is wound around the outer periphery of the water tank 50 through the compressor 42, the condenser 43 and the expansion valve 44 through the refrigerant pipe 45, and then It is repeatedly circulated through the evaporator 41. When the water stored in the water tank 50 drops to an appropriate temperature through the circulation of the refrigerant, cold water is supplied through the cold water supply pipe 70 mounted on one side of the water tank 50, and the supplied cold water is a hot water supply pipe. The heated pipe 20 buried in the floor is circulated through the distributor (1) connected to the 60, and the circulated cold water passes through the distributor (1) again through the cold water return pipe (70') through the water tank (50). And recycled. That is, by circulating the cold water through the heating pipe 20, it is possible to cool the room.

In the above, the temperature sensor 80 mounted on the water tank 50 of the cold water supply unit 100 detects the temperature of the water stored in the water tank 50, when the water stored in the water tank 50 reaches an appropriate temperature. In this case, the cooling unit 40 is automatically stopped through the control box 90, and when the temperature of the water stored in the water tank 50 increases, the cooling unit 40 is restarted to minimize power waste. You will be able to.

In this way, the temperature sensor 80 is connected to the control box 90 to select cooling and heating, and the heating pipe 20, which was used only during the existing heating, is also used for cooling to reduce the cost required for cooling and Easy to recycle.

1: distributor 2: check valve 3: solenoid valve
10: circulation pump 20: heat pipe 30: boiler
40: air conditioning unit 41: evaporator 42: compressor
43: condenser 44: expansion valve 45: refrigerant pipe
50: water tank 51: insulation material 52: insulation plate
60: hot water supply pipe 60': hot water return pipe 70: cold water supply pipe
70': cold water return pipe 80: temperature sensor 90: control box
100: cold water supply part A1: heating system A2: cooling system

Claims (1)

A cooling unit consisting of an evaporator 41, a compressor 42, a condenser 43, and an expansion valve 44 in the boiler 30, where the circulation pump 10 is mounted on one side and the heat pipe 20 is connected to the other side ( In a conventional cooling and heating system connected to 40), the refrigerant pipe 45 connected to the air conditioner unit 40 is wound around the outer periphery of the water tank 50 to form a cold water supply unit 100, and the cold water supply unit A cooling and heating system, characterized in that formed by mounting a cold water supply pipe (70) and a cold water return pipe (70') connected to the hot water supply pipe (60) and the hot water return pipe (60') on one side of the 100.

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