KR200339349Y1 - Regenerative heat pump system using geothermy - Google Patents

Abstract

The present invention relates to a heat storage heat pump system using geothermal heat to perform cooling and heating using geothermal heat as a heat source.

The present invention is a heat pump system using geothermal heat to perform cooling and heating using geothermal heat as a heat source, equipped with a plurality of geothermal heat exchange pipes buried in the ground geothermal heat from the geothermal heat exchange pipe when heated in the heat pump A heat exchange circuit unit used as a heat source of an evaporator and supplying hot water produced in a condenser to a cooling and heating place, and discharging the condenser arrangement generated in the cooling and heating heat pump to the geothermal heat exchange pipes during cooling; In the heat exchange circuit unit is installed between the heating and cooling heat pump and the heating and cooling place, the hot and cold water from the heating and cooling heat pump is heated or cooled with a predetermined cold and hot heat at midnight power, and then stored and supplied to the cooling and heating place without interruption. It characterized in that it comprises a cold and hot water storage tank.

Description

Regenerative heat pump system using geothermy}

The present invention relates to a heat pump system using geothermal heat to perform cooling and heating using geothermal heat as a heat source, and more specifically, a heat pump for cooling and heating in a heat exchange circuit unit using a heat and cooling heat pump that performs geothermal heat as a heat source. The present invention relates to a heat storage heat pump system using geothermal heat that continuously cools and cools by installing a cold / cold water storage tank using a late-night electric power that stores cold and hot water from the air and then supplies it without interruption for cooling and heating.

In general, the heat pump is composed of an evaporator, a compressor, a condenser and expansion valves so that the circulation medium repeats liquefaction and vaporization to perform heating and cooling through other peripherals connected thereto. Such heat pumps perform heating and cooling using electric energy as a main energy source. However, in recent years, heat pumps are used for heating and cooling with wastewater heat or geothermal heat as a main heat source.

However, if the heat pump that is cooling and heating with such energy is suddenly stopped due to a failure or the like, the whole system for performing cooling and heating is stopped accordingly, which causes a lot of pain for the user using it. There was. Thus, some users are separately prepared for the installation of a heating and heating device, such as a boiler for the error of such a heat pump.

In addition, since the conventional heat pump consumes energy and performs cooling and heating through its peripheral devices connected to it, it is true that excessive energy is used to burden the user with economical burden.

Therefore, the present invention was devised to solve such a problem, and an object of the present invention is to store the cold and hot water from the heat-cooling heat pump in a heat exchange circuit using a heat-heating heat pump for cooling and heating using geothermal heat as a heat source. In order to provide a heat storage heat pump system using geothermal heat to continuously perform cooling and heating by installing a cold / hot water heat storage tank using a late-night power supply without interruption for the next cooling and heating.

Another object of the present invention is to provide a heat storage heat pump system using geothermal heat that significantly reduces the energy consumption of a heat pump for cooling and heating.

1 is a system diagram showing a heat storage type heat pump system using geothermal heat according to the present invention.

<Description of Symbols for Major Parts of Drawings>

10: heat exchange circuit part 11: geothermal heat exchange pipe

12: Heat pump for cooling and heating 13: Cooling and heating place

20: Cold and hot water heat storage tank

The present invention for achieving the above object is a geothermal heat pump system using geothermal heat to perform the heating and cooling, geothermal heat from the geothermal heat exchange pipe is provided with a plurality of geothermal heat exchange pipes buried in the ground Is used as a heat source for the evaporator in a heating and cooling heat pump, and the hot water produced in the condenser is supplied to a cooling and heating place, and during cooling, the arrangement of the condenser generated in the cooling and heating heat pump is discharged to the ground through the geothermal exchange pipes. A heat exchange circuit portion; In the heat exchange circuit unit is installed between the heating and cooling heat pump and the heating and cooling place, the hot and cold water from the heating and cooling heat pump is heated or cooled with a predetermined cold and hot heat at midnight power, and then stored and supplied to the cooling and heating place without interruption. It characterized in that it comprises a cold and hot water storage tank.

The above objects, advantages and other features will become apparent from the following description with reference to the accompanying drawings.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention in detail as follows.

1 is a system diagram showing a heat storage type heat pump system using geothermal heat according to the present invention.

As shown in the figure, the heat storage heat pump system using the geothermal heat of the present invention is provided with a heat exchange circuit portion 10 to perform the cooling and heating to geothermal heat source.

The heat exchange circuit unit 10 is configured to perform cooling and heating through a plurality of geothermal heat exchange pipes 11 embedded in the ground, and such air conditioning forms a circulation cycle with the geothermal heat exchange pipes 11 and is connected to an evaporator and a condenser. It is made from a heat pump 12 for heating and cooling of a well-known technique having a.

The cold and hot water obtained from the cooling and heating heat pump 12 to form a circulation cycle with the cooling and heating heat pump 12 is moved to a cooling and heating place 13 in which a connected heat exchanger (not shown) is installed to exchange heat with outside air. Air conditioning and heating or hot water supply.

Reference numerals M1 and M2 denote circulation motors, and reference numeral V denotes three directions for changing the circulation path of the cold and hot water circulating through the heating / cooling heat pump 12 and the cooling / heating place 13 as necessary. The valve is shown.

Therefore, when the heat exchange circuit unit 10 having this structure is heated during the winter season or the like, when the cool circulation medium, that is, brine passes through the geothermal heat exchange pipes 11 by the driving of the circulation motor M1, The heat exchange with the ground geothermal heat causes the circulation medium to get geothermal heat.

The circulating medium thus obtained geothermal heat is deprived of the geothermal heat obtained while passing through the evaporator of the heating and cooling heat pump 12, the geothermal heat is released to the condenser of the heating and cooling heat pump 12 is recirculated motor ( The operation of M2) warms the circulating medium, ie, water, circulating through this condenser.

The circulating medium warmed to a high temperature by this process is moved to the heating / cooling place 13 and is heated to the heating / cooling place 13 or supplied to a hot water supply. As a result of this process, the heat exchange circuit unit 10 recovers the ground heat recovered from the ground. Use for heating.

In addition, when cooling at a time such as summer, as the cooling and heating heat pump 12 performs a cooling cycle leading to compression, condensation, expansion, and vaporization, a circulating medium circulating the cooling and heating heat pump 12, that is, water It cools to this low temperature. The circulating medium cooled as described above is cooled by heat exchange with outside air while passing through the cooling / heating place 13.

At this time, the high temperature heat generated from the condenser of the heat and cooling heat pump 12 is transferred to the circulation medium ie, brine circulating the geothermal heat exchange pipes 11, and the geothermal heat exchange pipe Since they are released into the ground through (11), the use of existing outdoor units is excluded.

On the other hand, the heat storage heat pump system using the geothermal heat of the present invention is provided with a cold and hot water storage tank (20). The cold / hot water heat storage tank 20 is installed between the heating / cooling heat pump 12 and the cooling / heating place 13 in the heat exchange circuit section 10, and the cold / hot water heat storage tank 20 is provided from the cooling / heating heat pump 12. After storing the hot and cold water serves as a medium for supplying the cooling and heating place (13).

The cold / hot water heat storage tank 20 is configured to store or cool the hot and cold water from the heat / heating heat pump 12 with a predetermined cold / hot heat using a cheap midnight electric power, and the temperature of the cold / hot heat for cooling or cooling is It is sufficient to be able to maintain the temperature of the cold / hot water from the air-conditioning heat pump 12.

Reference numeral M3 denotes a circulation pump for circulating the cold / hot water stored in the cold / hot water heat storage tank 20 to the cooling / heating place 13.

Therefore, the cold / hot water heat storage tank 20 stores the cold / hot water from the air-conditioning heat pump 12 while maintaining the temperature at low-cost midnight electric power, and then continuously supplies the air-cooled water without interruption for cooling and heating. Even in the event of an error in the heating and cooling heat pump 12, it is possible to perform cooling and heating for the cooling and heating place 13, and also to reduce the operation rate of the heating and cooling heat pump 12 to significantly reduce the energy consumption.

Thus, the heat storage heat pump system using the geothermal heat of the present invention makes use of geothermal heat during heating, and also stores the cold and hot water from the heat and cooling heat pump 12 in a cold / hot water heat storage tank 20 using midnight electric power, and then for cooling and heating. In order to supply, it is possible to significantly reduce the energy consumption of the heat pump 12 for heating and cooling, and to continuously perform cooling and heating.

As described above, the present invention uses a late-night electric power to store the cold and hot water from the heat-cooling heat pump in the heat-exchange circuit unit using the heat-heating circuit for cooling and heating using geothermal heat as a heat source, and then supply without interruption for cooling and heating. By installing a cold and hot water storage tank, the cooling and heating are continuously performed, and the energy consumption of the heat and cooling heat pump is greatly reduced due to the structure of the cold and hot water storage tank and the geothermal heat source.

Claims (1)

In the heat pump system using geothermal heat to perform cooling and heating using geothermal heat as a heat source, It is equipped with a number of geothermal heat exchange pipes buried in the ground to use the geothermal heat from the geothermal heat exchange pipe as a heat source for the evaporator in a heat and heat heat pump for heating and to supply the hot water produced in the condenser to the heating and cooling place, and the air conditioning when cooling A heat exchange circuit unit for discharging the condenser generated in the heat pump to the ground through the geothermal heat exchange pipes; In the heat exchange circuit unit is installed between the heating and cooling heat pump and the heating and cooling place, the hot and cold water from the heating and cooling heat pump is heated or cooled with a predetermined cold and hot heat at midnight power, and then stored and supplied to the cooling and heating place without interruption. A heat storage heat pump system using geothermal heat, characterized in that it comprises a cold and hot water storage tank.