KR100428065B1 - Heat Pump System Comprising Multiple Condensers and Vaporizers - Google Patents

Abstract

The present invention is capable of installing at least three condensers in the path from the compressor to the receiver and optionally circulating the refrigerant into each expansion valve and the evaporator at least three expansion valves and at least three evaporators in the path from the receiver to the compressor. The heat source of each evaporator can selectively use the waste heat of the wastewater discharged from the bath, the bath or the swimming pool, and the heat obtained when cooling the cold bath installed in the bath. It can be used to heat up to temperature and then directly heated by fuel to reduce power consumption and manage energy efficiently.

In addition, by installing one of the condenser to exchange heat with the outdoor evaporator to selectively supply the high-temperature and high-pressure refrigerant from the compressor, when the air is used as a heat source of the evaporator, the outdoor temperature falls When defrosting occurs in the evaporator can be defrosted by the heat released from the condenser.

Description

Heat Pump System Comprising Multiple Condensers and Vaporizers

The present invention relates to a heat pump apparatus having a plurality of condensers and evaporators used in a bath or a swimming pool. More specifically, a plurality of condensers are installed in the path from the compressor to the receiver, and a plurality of expansion valves and the evaporator are selectively installed in the path from the receiver to the compressor to circulate refrigerant to each expansion valve and the evaporator. The present invention relates to a heat pump apparatus for heating hot water by selectively using waste heat of waste water discharged from an air, a bath or a swimming pool, and heat obtained when cooling a cold bath installed in a bath as a heat source of an evaporator.

Existing baths and swimming pools use only pure fossil fuels to supply hot water at 70 to 80 ° C and the waste water is discarded as it is, or when the temperature of the cold bath is increased, the heat obtained by cooling it is left as it is. In many cases, it was not used efficiently.

In addition, the conventional heat pump apparatus as shown in FIG. 5 uses one condenser and one evaporator, and as shown in FIG. 5, a compressor (1) compressing a refrigerant and separating oil from a high temperature refrigerant compressed from the compressor. Oil separator (2), condenser (3) where hot refrigerant dissipates heat, receiver (9) for storing refrigerant exiting the condenser, expansion valve (11) for expanding refrigerant from the receiver, from expander The refrigerant consists of an evaporator 12, which receives heat from the surroundings and evaporates, and a liquid separator 18 which separates the liquid phase from the refrigerant from the evaporator and sends the gas to the compressor 1 in the gas phase. Hot water can be obtained as the heat source from the condenser.

Therefore, using a heat pump can be used as a device that can supply hot water instead of fossil fuel. However, there is still a problem that cannot use the heat source generated when the cooling water is not used and the temperature of the cold water increases. In addition, since the evaporator of the heat pump is outdoors, there is a problem in that, when the outdoor temperature decreases in winter, an frost is generated and the performance of the heat pump is degraded.

Therefore, in order to solve the above problems, the present invention provides at least three condensers in the path from the compressor to the receiver and at least three expansion valves and at least three evaporators in the path from the receiver to the compressor. By circulating through the expansion valve and the evaporator, the heat source of each evaporator can selectively use the waste heat of the wastewater discharged from the air, the bath or the swimming pool, and the heat obtained from the cooling of the cold bath installed in the bath. The purpose.

In the above heat pump apparatus, one of the plurality of condensers is installed to exchange heat with the outdoor evaporator to selectively supply the refrigerant at a high temperature and high pressure from the compressor to use air as a heat source of the evaporator. In this case, it is another object of the present invention to allow defrosting by heat released from the condenser when the outdoor temperature is lowered to cause an evaporation to occur.

1 is a circuit diagram of a heat pump apparatus having a plurality of condensers and an evaporator according to the present invention for the case of heating hot water using an air heat source;

Figure 2 is a circuit diagram of a heat pump apparatus having a plurality of condensers and evaporators according to the present invention for heating hot water by waste heat recovery;

3 is a circuit diagram of a heat pump apparatus having a plurality of condensers and an evaporator according to the present invention for heating hot water using a heat source of cold water;

Figure 4 is a circuit diagram of a heat pump apparatus having a plurality of condensers and evaporators in accordance with the present invention for the prevention of dropping when using an air heat source,

5 is a circuit configuration diagram of a conventional heat pump apparatus.

<Description of Symbols for Main Parts of Drawings>

1: compressor 2: oil separator

3,5,8: first, second, third condenser 4,10,13: first, second, third three-way valve

6,7: check valve 9: receiver

11,14,16: 1st, 2nd, 3rd expansion valve 12, 15, 17: 1st, 2nd, 3rd evaporator

18: liquid separator

In order to achieve the above objects, the present invention provides a heat pump apparatus using a plurality of heat sources as evaporative heat of a refrigerant in an evaporator, wherein each cycle composed of a condenser, an expansion valve, and an evaporator is formed corresponding to each heat source. Provided is a heat pump apparatus.

The plurality of heat sources may also include a first cycle using air as a heat source, a second cycle using waste heat of wastewater as a heat source, and a third cycle using heat obtained when cooling a cold bath as a heat source,

The first cycle includes a compressor for compressing a refrigerant, a first condenser that primarily dissipates heat from the high temperature and high pressure refrigerant from the compressor, a second condenser that dissipates heat from the refrigerant from the first condenser, and a refrigerant from the second condenser. And a first evaporator for evaporating the refrigerant from the expansion valve, the first expansion valve for expanding the refrigerant from the receiver, and the refrigerant from the expansion valve.

The second cycle includes a compressor for compressing the refrigerant, a first condenser that primarily releases heat from the high temperature and high pressure refrigerant from the compressor, a second condenser that releases heat from the refrigerant from the first condenser, and a refrigerant from the second condenser. And a second evaporator configured to evaporate the refrigerant from the expansion valve, the second expansion valve for expanding the refrigerant from the receiver, and the refrigerant from the expansion valve.

The third cycle includes a compressor for compressing the refrigerant, a first condenser that primarily releases heat from the high temperature and high pressure refrigerant from the compressor, a second condenser that releases heat from the refrigerant from the first condenser, and a refrigerant from the second condenser. And a third evaporator configured to evaporate the refrigerant from the expansion valve, the third expansion valve for expanding the refrigerant from the receiver, and the refrigerant from the expansion valve. And

The first cycle includes a compressor for compressing a refrigerant, a first condenser that primarily dissipates heat from the high temperature and high pressure refrigerant from the compressor, a third condenser that dissipates heat from the refrigerant from the first condenser, and a refrigerant from the second condenser. It provides a heat pump device comprising a receiver for storing a, a first expansion valve for expanding the refrigerant from the receiver, a first evaporator for evaporating the refrigerant from the expansion valve by an external heat source.

In addition, the third condenser and the first evaporator of the first cycle provides a heat pump device, characterized in that installed so as to exchange heat.

In addition, the condenser of the present invention comprises a first, second and third condenser between the compressor and the receiver, the first condenser is installed at the outlet of the compressor, the second and third condenser is passed through the first condenser Branched by the first valve so as to selectively flow refrigerant by the first valve and rejoined at the inlet of the receiver;

The evaporator comprises first, second and third evaporators between the receiver and the compressor, branched by the first evaporator, the second and third evaporators and the second valve, and again the second and third evaporators Branched by three valves and each of the first, second and third evaporators joined at the inlet side of the liquid separation and connected to the compressor; And

A first, second, and third expansion valves are provided at respective inlets of the first, second, and third evaporators, respectively.

Looking at the configuration of the present invention with reference to the drawings as follows. 1 is a schematic circuit diagram of a heat pump apparatus having a plurality of condensers and an evaporator according to the present invention for the case of heating hot water using an air heat source.

Referring to FIG. 1, the present invention has the same configuration as the components of the conventional heat pump apparatus described in the above-described prior art, but the condenser provided between the compressor 1 and the receiver 9 includes the first, second and It consists of three which are the 3rd condenser (3, 5, 8), and the evaporator installed between the receiver 9 and the compressor 1 is also the 1st, 2nd, and 3rd evaporator (12, 15, 17). And three expansion valves (11, 14, 16) are installed at the inlet side of each evaporator.

The first condenser (3) is installed on the compressor outlet side to take heat from the refrigerant of the high temperature and high pressure state compressed in the compressor (1) and is used as a heat source for the primary heating, second and third condenser (5, 8) is installed to branch by the first three-way valve (4) so that the refrigerant discharged from the first condenser (3) by the operation of the first three-way valve (4) the second condenser (5) or third condenser ( It flows to 8) and is used as a heat source secondarily.

The first evaporator 12 is installed to be selectively branched by the second and third evaporators 15 and 17 and the second three-way valve 10, and again, the second evaporator 15 and the third evaporator 17. The refrigerant is installed to be selectively branched by the third three-way valve 13, and the refrigerant exiting the receiver is any one of the first, second and third evaporator by the operation of the second and third three-way valves (10, 13). Can be selectively flown into the evaporator. Each of the first, second and third evaporators 12, 15 and 17 takes heat from an external heat source in the evaporator to evaporate and recombine the refrigerant and enter the compressor 1 via the liquid separator 18 in one passage. .

First, second and third expansion valves 11, 14 and 16 are installed at the inlet side of the first, second and third evaporators 12, 15 and 17, respectively, so that the refrigerant from the receiver 9 It is expanded by each expansion valve and then enters the corresponding respective evaporator.

Hereinafter, referring to FIG. 1 to FIG. 4, the specific operation according to the present invention will be described. 1 is a schematic circuit diagram of a heat pump apparatus in which the present invention uses an air heat source as a heat source of an evaporator. In the present exemplary embodiment, the first three-way valve 4 does not flow to the third condenser 8 when the refrigerant flows to the second condenser 5, and the second three-way valve 10 includes the first evaporator 12. ), It does not flow to the second and third evaporators 15 and 17.

Therefore, the refrigerant compressed in the state of high temperature and high pressure in the compressor 1 is primarily used to raise the temperature of the water in the bath or swimming pool by releasing heat primarily from the first condenser 3 via the oil separator 2. Thereafter, the second condenser 5 may be heated secondly via the first three-way valve 4. The low temperature refrigerant passing through the second condenser flows to the receiver 9 through the check valve 6, and then the refrigerant exiting the receiver 9 is transferred to the first evaporator 12 by the second three-way valve 10. To the side. Therefore, the refrigerant that is expanded in the expansion valve 11 installed at the inlet side of the first evaporator 12 and becomes a low-pressure aerosol state is evaporated by receiving heat from the outdoor air in the first evaporator 12 installed outdoors, and then again the liquid separator. It is operated by a cycle passing through (12) into the compressor (1). Therefore, the first evaporator 12 absorbs heat from air, which is an external heat source, and may be used to heat the bath or swimming pool water in the first condenser 3 and the second condenser 5.

2 is a schematic circuit diagram of a heat pump apparatus having a plurality of condensers and an evaporator according to the present invention for heating hot water by waste heat recovery. When the waste heat is recovered and used as a heat source of the evaporator, a second evaporator 15 is used. Accordingly, the first three-way valve 4 is the same as using air as a heat source, but the second three-way valve 10 blocks the refrigerant from flowing to the first evaporator 12 and the second and third evaporators 15 and 17. The refrigerant passing through the second three-way valve to the third three-way valve 13 to the second evaporator 15 and to block the flow to the third evaporator 17. Therefore, the refrigerant circulates from the air to the receiver 9 as in the cycle used as a heat source of the evaporator, and the refrigerant from the receiver 9 passes through the second three-way valve 10 and the third three-way valve 13. 2 to the evaporator 15. At the inlet side of the second evaporator 15, a second expansion valve 14 is installed to expand the refrigerant into a low pressure aerosol state. Thereafter, the second evaporator 15 uses waste heat as a heat source to evaporate the refrigerant and flow back to the compressor 1. Thus, the heat source obtained from the waste heat in the second evaporator 15 can be used to heat the hot water of the bath or pool in the first condenser 3 and the second condenser 5.

3 is a schematic circuit diagram of a heat pump apparatus having a plurality of condensers and an evaporator according to the present invention for heating hot water using a heat source of cold water. The evaporator which uses the heat source obtained by raising the temperature of a cold water and cooling it again to heat hot water of a bath or a swimming pool is the 3rd evaporator 17. As shown in FIG. Therefore, the same as the refrigerant circulation cycle using waste heat as the heat source of the evaporator except that the third three-way valve 13 blocks the refrigerant from flowing to the second evaporator 14 and flows to the third evaporator 17. Therefore, the refrigerant passing through the receiver 9 flows through the second three-way valve 10 and the third three-way valve 13 to the third evaporator 17 and before the third expansion valve 16 enters the third evaporator. Inflate at Thereafter, the temperature is increased in the cold water in the third evaporator 17, and the heat obtained by cooling it is sent to the compressor 1 using the heat of evaporation of the refrigerant. Thus, the heat from the cold bath can be used to heat the hot water of the bath in the first condenser 3 and the second condenser 5.

4 is a schematic circuit diagram of a heat pump apparatus having a plurality of condensers and an evaporator according to the present invention for prevention of dropping when using an air heat source. This is used to defrost the heat of the third condenser 8 when the outdoor temperature is lowered when the air shown in FIG. 1 is used as a heat source and thus a drop is generated in the first evaporator 12. Therefore, the circuit configuration of the evaporator is the same as that of FIG. 1, but since the third condenser 8 is used, the first three-way valve 4 blocks the refrigerant flowing out of the first condenser 3 from flowing into the second condenser 5 and the third. To condenser (8). Therefore, the third condenser 8 should be installed so as to exchange heat with the first evaporator 12. When the dropping occurs in the first evaporator 12, the first three-way valve 4 changes the flow of the refrigerant. Phosphorus condensation heat may be applied to the first evaporator 12 through the third condenser 8 to perform defrosting.

The present invention thus provides for the installation of at least three condensers on the path from the compressor to the receiver and at least three expansion valves and at least three evaporators to selectively circulate the refrigerant to the respective expansion valves and the evaporator on the path from the receiver to the compressor. By installing so that the heat source of each evaporator can selectively use the waste heat of the waste water discharged from the bath, the bath or swimming pool, and the heat obtained when cooling the cold bath installed in the bath, the hot water of the bath or swimming pool is heated to a high temperature. Can be used to supply

In addition, by installing one of the condenser to exchange heat with the outdoor evaporator to selectively supply the high-temperature and high-pressure refrigerant from the compressor, when the air is used as a heat source of the evaporator, the outdoor temperature falls When defrosting occurs in the evaporator can be defrosted by the heat released from the condenser.

Claims (8)

A heat pump apparatus using a plurality of heat sources as evaporative heat of a refrigerant in an evaporator, wherein each cycle consisting of a condenser, an expansion valve, and an evaporator is formed corresponding to each heat source. The method of claim 1, The plurality of heat sources include a first cycle using air as a heat source, a second cycle using waste heat of waste water as a heat source, and a third cycle using heat obtained upon cooling of a cold bath as a heat source. The method of claim 2, The first cycle includes a compressor for compressing a refrigerant, a first condenser that primarily dissipates heat from the high temperature and high pressure refrigerant from the compressor, a second condenser that dissipates heat from the refrigerant from the first condenser, and a refrigerant from the second condenser. And a first evaporator configured to evaporate the refrigerant from the expansion valve by an external heat source. The method of claim 2, The second cycle includes a compressor for compressing the refrigerant, a first condenser that primarily releases heat from the high temperature and high pressure refrigerant from the compressor, a second condenser that releases heat from the refrigerant from the first condenser, and a refrigerant from the second condenser. And a second evaporator configured to evaporate the refrigerant from the expansion valve by an external heat source, and a second expansion valve for expanding the refrigerant from the receiver. The method of claim 2, The third cycle includes a compressor for compressing a refrigerant, a first condenser that primarily dissipates heat from the high temperature and high pressure refrigerant from the compressor, a second condenser that dissipates heat from the refrigerant from the first condenser, and a refrigerant from the second condenser. And a third evaporator configured to evaporate the refrigerant from the expansion valve, the third expansion valve for expanding the refrigerant from the receiver, and the refrigerant from the expansion valve by an external heat source. The method of claim 2, The first cycle includes a compressor for compressing a refrigerant, a first condenser that primarily dissipates heat from the high temperature and high pressure refrigerant from the compressor, a third condenser that dissipates heat from the refrigerant from the first condenser, and a refrigerant from the second condenser. And a first evaporator configured to evaporate the refrigerant from the expansion valve by an external heat source. The method of claim 7, wherein And the third condenser and the first evaporator are installed to exchange heat with each other. The method of claim 1, The condenser includes first, second and third condensers between the compressor and the receiver, the first condenser is installed at the outlet of the compressor, and the second and third condensers are passed through the first condenser to the first valve. Branched by a first valve so that the refrigerant can flow selectively and then merged again at the inlet of the receiver; The evaporator comprises first, second and third evaporators between the receiver and the compressor, branched by the first evaporator, the second and third evaporators and the second valve, and again the second and third evaporators Branched by three valves and each of the first, second and third evaporators joined at the inlet side of the liquid separation and connected to the compressor; And And a first, second, and third expansion valve is provided at each inlet side of the first, second, and third evaporators, respectively.