KR200357888Y1 - A cooling and heating apparatus using the geathermy - Google Patents

Abstract

The present invention is a heat pump that performs cooling and heating through the outdoor unit that performs the role of a cooling tower in the summer and the heat recovery unit in the winter, the liquefaction and vaporization of the circulating medium and other peripherals connected thereto, and a high temperature fluid. In a conventional air-conditioning system composed of a first heat exchanger that transfers heat to a fluid having a low temperature through a heat transfer wall, it is installed in connection with the outdoor unit and is buried underground to use underground heat in winter and low in summer. A geothermal heat exchange pipe for supplying heat to the heat source of the heat pump, and a heat storage tank connected between the heat pump and the first heat exchanger and configured to accumulate cold and heat heat radiated and absorbed from the heat pump's condenser, and to supply it to a cooling and heating place; It is installed in connection with the heat pump, the first heat exchanger and the heating and cooling place so that the heating and cooling temperature of the heat storage tank is appropriate. It is characterized by a technical configuration that includes an auxiliary heat exchanger that is operated when not in operation, and reduces the operating cost of the heating and cooling system and provides a significantly improved cooling and heating system to provide a uniform and stable underground temperature throughout the year. will be.

Description

A cooling and heating apparatus using the geathermy}

The present invention relates to a cooling and heating device using air and geothermal heat using air heat and geothermal heat as a heat source of a heat pump. In particular, the heat exchange pipes are buried in the ground to use the ground heat of the ground which is relatively more stable than the air heat lacking in winter. In the summer, the cooling and heating system is significantly improved by supplying relatively low heat to the heat source of the heat pump, thereby reducing the operating cost of the heating and cooling system, and providing a heat source and a uniform and stable underground temperature throughout the year. .

In general, a cooling and heating system using a heat pump is mainly used as a cooling and heating system. In this cooling and heating system, an electric compressor driving method and an engine driven compression method using gas, diesel, and kerosene as fuels are used.

Looking at the configuration of the air-conditioning device as described above, the heat that performs the cooling and heating through the outdoor unit, which performs the role of the cooling tower in the summer, the role of heat recovery in the winter, the liquefaction and vaporization of the circulating medium and the other peripheral devices connected thereto. It consists of a pump and a heat exchanger that transfers heat from the high temperature fluid to the low temperature fluid through the heat transfer wall.

However, in the conventional air conditioners, when the outside air temperature gradually decreases during heating operation, ice is formed on the surface of the outdoor unit and the heating load increases, resulting in high energy consumption (electricity, gas, oil), and refrigerant from the outside air depending on the product performance difference. Due to the change of phase, the latent heat of evaporation could not be absorbed sufficiently, resulting in rapid efficiency deterioration, and the noise generated by overload operation is big, and the compression ratio in the outdoor unit compressor is increased, so the amount of heat obtained indoors is relatively small compared to the operating energy input. There was a problem leading to limit operation, which is an inefficient phenomenon.

Therefore, the present invention was devised to solve the above technical problem, and the object of the present invention is to use a relatively stable underground heat in winter by laying heat-exchange pipes in the ground to heat source insufficient in air heat and inversely in summer By supplying low heat to the heat source of the heat pump, it is possible to reduce the operating cost of the air conditioning unit, and to provide a heating and cooling unit with a greatly improved function to provide air heat as a heat source and a uniform and stable underground temperature throughout the year.

Another object of the present invention is to provide a heating and cooling device that can maximize the heating and cooling efficiency by using geothermal heat, and significantly reduce the cost of using energy used for heating and cooling.

1 is an overall configuration diagram according to an embodiment of the present invention,

2 is an overall configuration diagram according to another embodiment of the present invention.

<Description of the code used in the main part of the drawing>

10: air conditioning unit 11: geothermal heat exchange pipe

12: Outdoor unit 13: Heat pump

14: compressor 15: heat storage tank

16: 1st heat exchanger 17: cooling and heating place

18: secondary heat exchanger 19: second heat exchanger

20: Underground

In order to achieve the above technical problem, the present invention, the outdoor unit to perform the role of the cooling tower in the summer and the heat recovery unit in the winter, the cooling and heating through the other peripheral devices connected to the liquefaction and vaporization of the circulating medium is connected thereto In the air-conditioning and heating device comprising a heat pump to perform a heat transfer from the high-temperature fluid to the low-temperature fluid through the heat transfer wall, it is installed in connection with the outdoor unit, buried underground, underground in winter Geothermal heat exchange pipe that uses the heat of heat and supplies the low heat of the ground to the heat source of heat pump in summer, and is connected between the heat pump and the first heat exchanger and heats and cools the heat from the condenser of the heat pump. A heat storage tank that supplies heat to a cooling and heating place, and is connected to the heat pump, the first heat exchanger, and a cooling and heating place. It is to be configured to include a secondary heat exchanger is operated when the air temperature of the heat storage tank is not suitable as a feature of the technical construction.

In addition, a geothermal heating and cooling device, characterized in that the installation of the second heat exchanger between the heat pump and the heat storage tank.

1 is an overall configuration diagram according to an embodiment of the present invention, Figure 2 shows an overall configuration diagram according to another embodiment of the present invention, with reference to the accompanying drawings of the present invention will be described the configuration Is as follows.

As shown in Figure 1, the present invention, the air-conditioning device 10 using the geothermal heat provided by the present invention, the outdoor unit 12, which serves as a cooling tower in the summer and the heat recovery unit in the winter, and circulation Heat pump 13 for cooling and heating through repeated liquefaction and vaporization of the medium and other peripherals connected thereto, and first heat exchanger 16 for transferring heat from the high temperature fluid to the low temperature fluid through the heat transfer wall. In the conventional air conditioning and heating device 10, the geothermal heat exchange pipe 11 is installed in connection with the outdoor unit 12 and embedded in the ground (20), the heat pump 13 and the first heat exchanger (16). Heat storage tank 15 is connected between the installation and the heat pump 13 and the first heat exchanger 16 and the auxiliary heat exchanger (18) connected to the heating and cooling place 17 is characterized in that it is configured. .

The geothermal heat exchange pipe 11 connected to the outdoor unit 12 is vertically buried in underground holes or buried in a horizontal arc, which uses relatively stable underground heat in winter and reverse heat in summer in reverse. Supply to the heat source of the heat pump 13 through the outdoor unit (12).

On the other hand, the geothermal heat exchange pipe 11, a single U-Tube type is generally used, a double U-Tube type is also used in the present invention, it is preferable to use a double U-Tube type to secure a large amount of geothermal heat. Do.

And when the geothermal heat exchange pipe (11) buried underground hole size is 100 ~ 150㎜ level according to the soil conditions, the capacity of the installed system perforated 100m to 150m deep space to prevent thermal interference of the underground space It is common to leave the gap about 6m.

In addition, the outdoor unit 12 is connected to the geothermal heat exchange pipe 11 and the heat pump 13, and performs the function of the cooling tower in the summer, the air (air) heat and geothermal heat exchange pipe 11 in the winter Simultaneously perform the function of a heat recovery unit to recover the geothermal heat obtained through).

The heat pump 13 is installed in connection with the outdoor unit 12 and the heat storage tank 15 to perform a compression and evaporation cycle of the refrigerant.

That is, the air heat and geothermal heat supplied through the outdoor unit 12 is supplied to the heat source heat storage tank 15 to supply cooling and heat.

The heat storage tank 15 is connected to the heat pump 13 and the first heat exchanger 16, and heats the cold / hot heat supplied from the heat pump 13 therein, and stores the cold / heat heat stored therein. It serves to supply to the cooling and heating place 17 through the first heat exchanger (16).

The structure of such a heat storage tank 15 is as follows.

That is, the heat storage tank 15 forms a sealed accommodation space to accumulate the cold and hot heat supplied from the heat pump 13 to the accommodation space, and the stored cold and hot heat is transferred through the first heat exchanger 16. It is built in a vertical structure inside a container portion for accommodating a coolant to be supplied to the cooling and heating place 17.

And the heat storage tank 15 is connected to the heat pump 10, the pipe portion to circulate the circulation medium having the cold and hot heat from the heat pump 15 into the container portion, the straight portion to be joined to the pipe portion A plurality of installations along the way, it consists of a configuration including a tubular portion to transfer the cold and hot heat from the air-conditioning device 10 to circulate the pipe through the joint portion.

The auxiliary heat exchanger (18) is connected to the heat pump (13), the first heat exchanger (16) and the heating and cooling place (17), and can be operated even at night if necessary, but the heat storage tank (15) during the day If it is not suitable for the heating and cooling temperature is stored is to operate it to detect this, to compensate for the insufficient heat and heat in the heat storage tank (15) plays a secondary role of supplying the heat source directly to the cooling and heating place (17).

Further, the auxiliary heat exchanger 18 can be applied to any type of heat exchanger, such as a plate or cell-en-tube type.

On the other hand, the heat storage tank 15, the capacity increases according to the area of the cooling and heating place 17, but when the auxiliary heat exchanger 18 is installed, the heat storage tank 15 is compensated for the lack of cold and heat heat, the heat storage tank 15 Since it is not necessary to increase the capacity of, it is very economical and has an effect of preventing overload of the heat storage tank 15.

2 is a second heat exchanger 19 is installed between the heat pump 13 and the heat storage tank 15 as shown in the overall configuration according to another embodiment of the present invention in the heat pump 13 It is to improve the function to effectively supply the delivered cold and hot heat to the heat storage tank (15).

Of course, each device is composed of a line, the line is provided with a valve for blocking or changing the direction of the line, a pump for helping the flow of fluid, and a thermometer for sensing the temperature, but this configuration is a well-known technology, detailed description Omit.

Reference numeral 14, which is not described in the configuration, denotes a compressor installed in a heat pump, 21 denotes a thermometer, and 22 denotes a three-way valve.

As described in detail above, the air-conditioning device 10 of the present invention, the geothermal heat exchange pipe 11, the heat storage tank 15 and the auxiliary heat exchanger 18 is installed in a single air-conditioning device to use geothermal heat for heating and cooling If there is a feature, with reference to the accompanying drawings, the present invention will be described as follows.

First, when heating in winter, the heat source of the heat pump 13 uses air heat, the surface temperature of the outdoor unit 12 is lowered ice is formed, the circulation medium circulating through the geothermal heat exchange pipe 11 before the ice is formed ( Brine) obtains geothermal heat while passing through the geothermal heat exchange pipe 11, and this geothermal heat is used as a heat source of the heat pump 13 through which the circulation medium passes.

The heat source obtained from the geothermal heat exchange pipe 11 is supplied to the heat pump 13 through the outdoor unit 12.

That is, the heat pump 13 recovers geothermal heat from the circulating medium by heat exchange with an evaporator and releases it to the condenser to heat the circulating medium of the cold / hot water circuit passing through the condenser to a high temperature.

The circulating medium warmed to a high temperature is stored in the heat storage tank 16 and supplied to the heating hot water and the hot water supply through the first heat exchanger 16 of the cooling and heating place 17.

In addition, during summer cooling, the temperature of the circulation medium of the cold / hot water circuit is lowered to a low temperature because the heat pump 13 performs a cooling cycle leading to compression, condensation, expansion, and vaporization. It is supplied to the cooling and heating place 17 through the first heat exchanger 16 to perform cooling.

At this time, the high temperature arrangement generated in the condenser of the heat pump 13 is discharged to the outdoor unit 12 serving as a cooling tower.

At this time, when it is difficult to release heat to the atmosphere, the temperature is lowered with the help of cold heat from the geothermal heat exchange pipe 11.

Therefore, the circulating medium of the cold / hot water circuit heated or cold in the heat pump 13 for cooling and heating is stored in the heat storage tank 15 to be regenerated, and the first heat exchanger 16 of the cooling / heating place 17 is heated. The cold and hot water is stably supplied with the circulating medium heated or cooled in the heat storage tank 15 to continuously perform cooling and heating in the cooling and heating place 17.

2 is an overall configuration diagram according to another embodiment of the present invention, as shown, the second heat exchanger 19 is installed between the heat pump 13 and the heat storage tank 15 is a circulation medium As an example of changing the characteristics, the circulating medium discharged from the first heat exchanger 16 is stored in the heat storage tank 15 via the second heat exchanger 19 and then the first heat exchanger ( Allow a circulation cycle to be formed.

As described in detail above, the present invention is to install a geothermal heat exchange pipe in the ground to use a uniform and stable underground temperature throughout the year as a heat source insufficient in the atmosphere or air heat to use the geothermal heat together to achieve air conditioning and heating, And to provide an air conditioning and heating device to achieve the energy saving and operating cost reduction accordingly there is an effect.

In addition, since the ground temperature is stable and uniform throughout the year compared to air, the heat pump operates at low pressure and low temperature, resulting in less mechanical fatigue, and also because the evaporator coil rarely freezes due to the relatively high underground temperature. It is less likely that the mechanical stability is excellent effect.

Although the present invention has been described by the accompanying drawings, the present invention is not limited thereto, but many modifications and variations may be made within the following utility model registration claims.

Claims (2)

Heat pumps that heat and heat the outdoor unit, which acts as a cooling tower in the summer, and a heat recoverer in the winter, heats and heats the cooling medium through other peripherals connected to liquefaction and vaporization of the circulation medium. In the conventional heating and cooling device composed of a first heat exchanger for transferring heat to a low temperature fluid through A geothermal heat exchange pipe which is installed in connection with the outdoor unit and is buried underground and uses underground heat in winter and supplies low heat in the summer to a heat source of a heat pump; A heat storage tank connected between the heat pump and the first heat exchanger and configured to accumulate the cold and heat heat radiated and absorbed from the condenser of the heat pump and to supply it to a cooling and heating place; An auxiliary heat exchanger connected to the heat pump, the first heat exchanger, and a heating / heating place and operated when the heating / cooling temperature of the heat storage tank is not suitable; Geothermal heating and cooling device, characterized in that configured to include. The method of claim 1, And a second heat exchanger installed between the heat pump and the heat storage tank.