KR101535384B1 - Heating system of heat pump using solar energy and underground heat storage - Google Patents

Abstract

The present invention relates to a heat pump heating system using solar heat and underground heat. The heat pump heating system using solar heat and underground heat comprises a solar heat collection device having a solar heat collection plate, a circulation pump, and an underground heat storage tank, and a heat pump. Heating water heated and stored in the underground heat storage tank by the solar heat collection plate and the circulation pump, and whose temperature is higher than or equal to a prescribed temperature is circulated by a different circulation pump for heating. The underground heat storage tank supplies a heat source to the heat pump, which is used as an evaporator which evaporates refrigerant gas. When the temperature of the heating water stored in the underground heat storage tank is lower than the prescribed temperature, the circulation pump is stopped, and then the heat pump using the heating water whose temperature is lower than the prescribed temperature as a heat source operates for continuous heating. Heating is basically done by the heating water heated by solar heat and stored in the underground heat storage tank, but heating can be continued by the heat pump even when the temperature of the heating water is lowered for uninterrupted heating to increase heating efficiency.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heat pump heating system using solar heat and underground heat storage,

More particularly, the present invention relates to a heat pump heating system using solar heat and underground heat storage, and more particularly, to a heat pump heating system using solar heat to circulate water stored in an underground storage tank at a predetermined temperature or more by a circulation pump, The circulation pump is stopped and the heat pump, which is the heat source of the evaporator, is operated so that the heat generated by the heat pump is continuously used for heating. In the heat pump heating system using the solar heat and the underground heat storage .

In solar heating systems, most of the heat is stored in the heat storage tank by the solar heat, and when the temperature is above a predetermined temperature, the heat is circulated to use as heating water. In this heating system, "heating and cooling method of building using solar and groundwater (heart)" of Patent Document 1 of the prior art document warms up the heating water stored in the underground smelting stone thermal storage tank by solar heat obtained from the roof heat collecting plate, And the heating water is continuously supplied to the room through the auxiliary boiler so as to be heated.

However, according to the invention of Patent Document 1, the heating water stored in the underground smelting stone thermal storage tank is heated by solar heat, and when the heating water stored in the underground smelting stone thermal storage tank can not be used, the preliminary boiler is operated to heat the underground smelting stone storage tank, However, since it is necessary to use a spare boiler, there is a problem that heating efficiency is inevitably lowered for continuous heating.

In addition, the forced circulation pump type hot water supply apparatus using an open expansion tank using solar heat is composed of a heat accumulating tank filled with water containing a solar heat collecting heat collector, a heat exchanger and an auxiliary electric heater, and is installed in the heat storage tank The temperature of the heating medium in the heat exchanger is measured by a sensor and the driving of the pump for moving the heating medium in accordance with the temperature difference can be instructed.

However, the invention of Patent Document 2 uses a heat exchanger and a sensor in order to utilize the heating medium stored in the heat storage tank for heating, although it uses heating using solar heat, and the pump may not be driven depending on the temperature difference of the heating medium There is a problem that the efficiency of heating for continuous heating is inevitably low.

Korean Patent Publication No. 1995-0000739 Korean Utility Model Registration No. 20-0337474

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a circulating pump for circulating water stored in an underground storage tank by solar heat, When the circulation pump is operated and the temperature of the circulation pump becomes lower than a certain temperature, the circulation pump is stopped, and the heat pump using the heating water of a temperature lower than a certain temperature is operated, Pump heating system.

Another object of the present invention is to provide a heat pump heating system using solar heat and underground heat storage in which an underground thermal storage tank in which heating water is stored by solar heat is used as an evaporator of a heat pump and uses the heating water as a heat source.

In order to achieve the above object, a heat pump heating system using solar heat and underground heat storage according to the present invention comprises a solar heat collector including a solar heat collecting plate, a circulation pump and an underground storage tank, and a heat pump, The indoor heat storage tank is used as an evaporator that supplies a heat source to the heat pump and evaporates the refrigerant gas, and the indoor heat storage tank is used as the indoor heat storage tank, When the temperature of the heating water stored in the circulating pump is lower than a predetermined temperature, the operation of the circulation pump is stopped, and the heating is continuously performed by the operation of the heat pump using the heating water below the predetermined temperature as the heat source.

In addition, it is preferable that the heat pump, which is composed of an underground storage tank and an expansion valve, used as a compressor, a condenser, and an evaporator, uses the heating water as a heat source for heat exchange for heating when the refrigerant gas circulating is discharged from the condenser at a high temperature Do.

And a control sensor installed in the underground storage tank for sensing a predetermined temperature of the heating water.

Preferably, the circulation pump comprises a storage water circulation pump circulating the stored water stored by solar heat of the solar heat collection plate and a heating water circulation pump circulating the heating water.

And a heating panel supplied with heating water by the heating water circulation pump and used for heating, wherein the condenser of the heat pump is a fan coil unit, the depth of the underground storage tank is 1 to 2.5 m , The set temperature for switching the use of the heating water to the heating panel and the use of the fan coil unit is preferably a temperature within a range of 30 to 50 占 폚.

Also, it is preferable that the underground heat storage tank is formed by placing crushed stones on the ground surface of an underground space formed by digging construction through excavation to form the foundations of a building, and then installing burr concrete, and use the underground space as a heat storage space Do.

According to the heat pump heating system using the solar heat and the underground heat storage of the present invention, the heating is performed by the heating water of the underground storage tank basically stored by the solar heat. However, even if the temperature of the heating water is lowered, So that the efficiency of heating can be increased.

In addition, since the heating water of the underground storage tank higher than the outside temperature is used as the heat source of the heat pump, the efficiency can be improved as compared with the conventional air heat source heat pump. Unlike the conventional solar heat storage tank, Space is used as a heat storage space, there is an effect that a space for installing a separate heat storage tank is not necessary.

FIG. 1 is a schematic diagram of a heat pump heating system using solar heat and underground heat storage according to the present invention.
FIG. 2 is a schematic view of a heat pump applied to a heat pump heating system using solar heat and underground heat storage according to the present invention
Figs. 3 and 4 are photographs of the construction of the underground storage tank of the heat pump heating system using the solar heat and the underground heat storage according to the present invention
Figs. 5 and 6 are photographs of a back-up operation of an underground heat storage tank of a heat pump heating system using solar heat and underground heat storage according to the present invention
FIG. 7 is a graph showing the power consumption of the heat pump and the power consumption of the heat pump according to the height of the underground storage tank of the heat pump heating system using the solar heat and the underground heat storage according to the present invention

Hereinafter, preferred embodiments of a heat pump heating system using solar heat and underground heat storage according to the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that the present invention is not limited to the disclosed embodiments, but may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to inform.

FIG. 1 shows a schematic installation layout of a heat pump heating system using solar heat and underground heat storage according to the present invention.

The heat pump heating system using the solar heat and the underground heat storage according to the present invention is intended to increase the heating efficiency of a house or a building by using a solar heat collector and an underground heat storage. As shown in FIG. 1, A solar collector 4 including a storage tank 2 and a storage water circulating pump 3a connecting the storage tank 2 and the heat pump 5 using the aboveground storage tank 2 as an evaporator.

The solar thermal collecting panel 1 is installed outside a house or a building and the underground thermal storage tank 2 is installed on the ground of a house or a building and the stored water stored in the underground storage tank 2 is stored in a circulating pump 3a, and is stored in the underground storage tank 2 for use as the heating water in the future, and the stored water is stored in the underground storage tank 2 for future use as heating water. Therefore, the underground thermal storage tank 2 is used as a storage tank for storing the stored water stored by the solar heat collection plate 1. In addition, a control sensor is installed in the underground storage tank 2 to sense the temperature of the stored storage water after the circulation of the stored storage water to the heating water. A heating panel 6 is installed in a house or a building and a heating water circulation pump 3b is connected between the heating panel 6 and the underground storage tank 2 to store the stored water in the underground storage tank 2 When the temperature is equal to or higher than the predetermined temperature, the heating water circulating pump 3b circulates heated water to the heating panel 6.

The heat pump 5 includes an underground storage tank 2 used as an evaporator and a fan coil unit 7 used as a condenser installed in a house or a building together with a compressor and an expansion valve. As shown in Fig. 2, the heat pump 5 includes a compressor 8, a fan coil unit 7 as a condenser, an expansion valve 9, And a four-way valve (4-A) installed at a junction between the compressor (8) and the fan coil unit (7) and a connection point between the underground storage tank (2) and the compressor (8) way valve 10. The refrigerant gas is circulated in the order of the compressor 8, the fan coil unit 7, the expansion valve 9, and the underground storage tank 2. The fan coil unit 7 is composed of an air blower, a cold / hot water coil, an air filter and the like without a freezer. The fan coil unit 7 blows air toward the heat exchanger through a blower while passing a coolant through the air- It is a device that creates a pleasant indoor environment by warming.

The method of heating by the heat pump heating system using the solar heat and the underground heat storage of the present invention will be described as follows.

The solar energy of the solar heat collected and collected by the solar heat collecting plate 1 of the solar collector 4 warms up the stored water stored in the underground storage tank 2 of the house or the building and circulates it to be used as the heating water The heating water in the underground storage tank 2 is directly supplied to the heating panel 6 in the heating space to heat the residential space, and then the heating water in the underground storage tank 2 is heated again, (2). ≪ / RTI > If the temperature of the heating water in the underground storage tank 2 is less than 40 ° C, the temperature is sensed by the control sensor in the underground storage tank 2, and the operation of the heating water circulation pump for heating the house or the building is stopped. At this time, the heat pump is operated by the flow chart of the heat pump as shown in FIG. 2, and the heat pump performs the heat exchange between the high-temperature refrigerant gas emitted from the fan coil unit 7 as the condenser and the surrounding air, For heating. The set temperature of the heating water stored in the underground storage tank 2 as a reference for operating the heat pump is suitably a temperature within a range of 30 to 50 占 폚. Therefore, the specific set temperature within the set temperature range of the heating water becomes a set temperature for switching to use the heating water to the heating panel 6 or use the heating water to the fan coil unit 7 of the heat pump.

The heat pump 5 is a system capable of heating by using a low-temperature heat source. In general, as in the refrigeration cycle, the compressor 8, the condenser 7, the evaporator 2 and the expansion valve 9). The operation sequence of the heat pump is such that the high temperature and high pressure refrigerant gas discharged to the compressor 8 is condensed into the refrigerant liquid in the condenser 7 (corresponding to the fan coil unit in the present invention) The refrigerant becomes a refrigerant liquid, absorbs the heat source in the evaporator (the underground heat storage tank 2 in the present invention), becomes refrigerant vapor, and is sucked into the compressor 8 again. In the heat pump, the efficiency depends greatly on the heat source condition.

In the present invention, since the heat source of the heat pump uses the water heat source of less than 40 ° C, which is stored in the underground storage tank 2 higher than the ambient temperature, the efficiency can be increased as compared with the conventional air heat source heat pump. Especially, it has the advantage of reusing heat of middle temperature less than 30-50 ℃, which is stored by solar energy of solar heat and used for heating, and has a merit that the temperature of the heat source is higher than the outside temperature and the heat source The performance of the heat pump used in the present invention can be greatly improved.

On the other hand, underground heat storage tanks to be constructed for underground heat storage can acquire heat storage space easily without any additional expense if the following construction process is examined, and unlike existing solar heat storage tanks, there is no need to install a separate heat storage tank, It is also very good on the side.

In fact, if you look at the construction process, you will first construct a foundation to build the foundation of the building. In this case, it is common practice to excavate a depth of about 1 m and lay a line foundation thereon. Sometimes, when the ground is a rock, etc., the trench is omitted and the whole surface is used as a foundation.

Fig. 3 shows the state of the earth after the foundation earthworks work. The excavation was carried out at a depth of 1m on the surface of the massive earth. The crushed stone for the concrete work was laid wide on the ground surface and the concrete for foundation was laid on it. 4, and a heat storage space of the underground storage tank according to the present invention is stored by using the space shown in FIG.

In the case of not using the space, as shown in FIG. 5 showing the existing construction process, the accumulation space is filled with the soil recovered from the terra cotta, and FIG. 6 shows the state after the back-up operation is completed. Therefore, it is possible to utilize the underground space as a heat storage space immediately after waterproof work through the appropriate method before rewinding.

The analysis of the heat pump system using the underground heat storage according to the present invention was also performed. The analysis condition was that the set temperature of the heating space was kept at 24 ℃ and the operation control variable of the system was set to 2 ℃ and the panel or heat pump was operated when the temperature of the heating space was 22 ℃. The heating system was stopped when the temperature of the heating space reached 26 ℃.

The initial temperature of the storage tank was set at 35 ° C, the temperature of the heating space was assumed to be 23.5 ° C, and the flow rate of the working fluid of the collector was assumed to be 0.05 kg / s.

In the present invention, when the heat required for heating is obtained by using a solar collector, and heat is stored in the underground storage tank installed in the underground building, the heat transfer modeling of the collector, the heat storage tank and the heating space, The amount of energy to be supplied to the heating space and the power consumption of the heat pump were examined.

FIG. 7 is a graph showing the relationship between the amount of heat absorbed by the solar heat collector and the consumption power of the heat pump according to the height of the underground storage tank. In the case of increasing the height of the storage tank, Of the total energy consumption. As the height of the heat storage tank increases, the amount of heat of the shaft decreases and the power consumption of the heat pump decreases.

When the height of the underground storage tank is low, the decrease rate of the amount of the heat accumulation decreases sharply when the height of the underground storage tank is high. Also, the consumption power of the heat pump shows almost constant value even if the depth of the underground storage tank is increased to 2m or more, but the consumption power hardly decreases. The preferred height of the underground storage tank is 1 ~ 2.5m.

As described above, the heat pump heating system using solar heat and underground heat storage according to the present invention has been described with reference to the drawings. However, the present invention is not limited to the embodiments and the drawings disclosed herein, It is needless to say that various modifications can be made by those skilled in the art within the scope of technical thought.

1: solar collector 2: underground storage tank
3a: Reservoir water circulation pump 3b: Heating water circulation pump
4: solar collector 5: heat pump
6: Heating panel 7: Fan coil unit
8: compressor 9: expansion valve
10: Four way valve

Claims (9)

A solar heat collector and a heat pump including a solar heat collecting plate, a circulation pump, and an underground heat storage tank, and the solar heat collecting plate and the circulation pump circulate the stored water stored in the underground storage tank by a circulation pump However,
Wherein the underground heat storage tank is used as an evaporator for supplying a heat source to the heat pump and evaporating the refrigerant gas so that when the heating water stored in the underground storage tank is lower than a predetermined temperature, The heating is continuously performed by the operation of the heat pump using the water as the heat source,
Wherein the circulation pump is a storage water circulation pump circulating the stored water stored by the solar heat of the solar heat collection plate and the other circulation pump is a heating water circulation pump circulating the heating water. Heating system. The method according to claim 1,
The heat pump is composed of an underground storage tank and an expansion valve used as a compressor, a condenser, and an evaporator. When the refrigerant gas circulating with the heating water as a heat source is discharged from the condenser at a high temperature, the heat pump is used for heat exchange for heating Heat pump heating system using solar heat and underground heat storage. The method according to claim 1,
And a control sensor installed in the underground storage tank for sensing a predetermined temperature of the heating water. delete The method according to claim 1,
And a heating panel supplied with heating water by the heating water circulation pump and used for heating. The method according to claim 1,
Wherein the condenser of the heat pump is a fan coil unit. The method according to claim 1,
Wherein the depth of the underground storage tank is 1 to 2.5 m. The method according to claim 1,
Wherein the set temperature for switching between the use of the heating water and the use of the fan coil unit is a temperature within a range of 30 to 50 占 폚. The method according to claim 1,
Wherein the underground thermal storage tank is formed by placing crushed stone on an earth surface of an underground space formed by crushing work through excavation to form a foundation of a building and then placing burr concrete on it and using the underground space as a heat storage space Heat pump heating system using solar heat and underground heat storage.

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