KR20230086034A - Air conditioning and heating quick response heat source heatpump system - Google Patents

Abstract

Disclosed is a rapid response heat source heat pump system for cooling and heating. As the rapid response heat source heat pump system for cooling and heating comprises a base heat source, a first heat pump, a multi heat source heat storage tank, a second heat pump, and a demand cooling and heating supply, not only does it have a simple system structure, but it can also respond quickly to temporary thermal environmental imbalances or changes on the heat source side. In addition, it has the advantage of being able to respond quickly even when a partially opposite operation load occurs at the demand location.

Description

Air conditioning and heating quick response heat source heatpump system}

The present invention relates to a rapid response heat source heat pump system for heating and cooling.

A heat pump system for providing cooling and heating to a consumer can provide cooling and heating to a consumer while absorbing heat from a heat source such as geothermal heat or discharging heat to a heat source.

It is that of the patent document presented below that can be presented as an example of a heat pump system that can provide cooling and heating for such a demand place.

However, according to the conventional heat pump system capable of providing cooling and heating to the consumer, the heat pump is simply used to absorb heat from a heat source such as geothermal heat, or to provide cooling and heating to the customer while discarding the heat to the heat source, or simply to provide cooling and heating to the customer in multiple stages. It is a structure that performs heat exchange in multiple stages by applying a cascade heat exchanger of In addition, when a multi-stage cascade heat exchanger is applied, additional piping and equipment must be additionally installed, which complicates the system.

Registered Patent No. 10-1117032, Registration Date: 2012.02.08, Title of Invention: Heat Pump System with Cascade Heat Exchanger

The present invention achieves a simple system structure, quickly responds to temporary thermal environment imbalances or changes on the heat source side, and quickly responds to cooling and heating even when a load of partial opposite operation occurs at the demand side. One object is to provide a heat pump system.

An air conditioning and heating quick response heat source heat pump system according to an aspect of the present invention includes a base heat source; a first heat pump that exchanges heat with the base heat source; a multi-heat source heat storage tank in which hot heat is stored in an upper part and cold heat is stored in a lower part while heat is exchanged with the first heat pump; a second heat pump that obtains at least one of the hot heat and the cold heat while exchanging heat with the multi-heat source heat storage tank; and performing at least one of a heating supply operation in which heat is exchanged with the second heat pump to supply heating to a consumer using the warm heat and a cooling supply operation in which heat is exchanged with the second heat pump and used to supply cooling to the consumer by using the cold heat. It includes; a demand source cooling and heating supply member that can do it.

Cooling and heating rapid response heat source heat pump system according to another aspect of the present invention includes a base heat source; a first heat pump that exchanges heat with the base heat source; a multi-heat source heat storage tank in which hot heat is stored in an upper part and cold heat is stored in a lower part while heat is exchanged with the first heat pump; a second heat pump that obtains at least one of the hot heat and the cold heat while exchanging heat with the multi-heat source heat storage tank; A first heat storage connection pipe connecting the first heat pump and a lowermost diffuser of the plurality of diffusers of the multi-heat source heat storage tank so that the cooling and heating heat exchange medium flows between the first heat pump and the bottom of the multi-heat source heat storage tank; A heat storage first heat connection pipe connecting an uppermost part of the plurality of diffusers of the multiple heat source heat storage tank and the first heat pump so that the cooling and heating heat exchange medium flows between the upper portion of the multiple heat source heat storage tank and the first heat pump; an intermediate branch pipe before heat storage connecting the first heat storage connection pipe and the first heat storage connection pipe; a heat storage middle diffuser connection pipe connecting the heat storage intermediate branch pipe and a central diffuser among the plurality of diffusers; A second heat storage connection pipe connecting the second heat pump and the lowermost one of the plurality of diffusers of the multiple heat source heat storage tank so that the cooling and heating heat exchange medium flows between the second heat pump and the lower part of the multi-heat source heat storage tank; A heat storage second heat connection pipe connecting an uppermost part of the plurality of diffusers of the multiple heat source heat storage tank and the second heat pump so that the cooling and heating heat exchange medium flows between the upper portion of the multi-heat source heat storage tank and the second heat pump; an intermediate branch pipe after heat storage connecting the second heat storage connection pipe and the second heat storage connection pipe; and a post-heat storage intermediate diffuser connecting pipe connecting a central portion of the intermediate branch pipe after heat storage to a central portion of the plurality of diffusers.

According to the cooling and heating quick response heat source heat pump system according to an aspect of the present invention, the cooling and heating quick response heat source heat pump system includes a base heat source, a first heat pump, a multi-heat source heat storage tank, a second heat pump, and supplying cooling and heating to a consumer. By including the member, while achieving a simple system structure, it is possible to quickly respond to temporary thermal environment imbalances or changes on the heat source side, and even when a load of partially opposite operation occurs at the demand side, it is possible to respond quickly to this It works.

1 is a view showing the configuration of a quick response heat source heat pump system for cooling and heating according to an embodiment of the present invention.

Hereinafter, a quick response heat source heat pump system for cooling and heating according to an embodiment of the present invention will be described with reference to the drawings.

1 is a diagram showing the configuration of a quick response heat source heat pump system for cooling and heating according to an embodiment of the present invention.

Referring to FIG. 1 , the cooling and heating rapid response heat source heat pump system 100 according to the present embodiment includes a base heat source 110, a first heat pump 115, a multi-heat source heat storage tank 120, and a second heat pump 125, and a demand cooling/heating supply member 130.

In addition, the cooling and heating quick response heat source heat pump system 100 may further include a cooling and heating supply bypass pipe 154 .

Here, the base heat source 110 and the first heat pump 115 are heat source heat storage units, and the multiple heat source heat storage tank 120, the second heat pump 125, and the demand cooling and heating supply member 130 are It may be defined as a load supply-side unit, and when applied to each floor of a building, a plurality of load supply-side units may be connected to a single number of heat source heat storage-side units, and when linked with district heating, a single number of heat source heat storage-side units may be connected. A plurality of load supply side units may be connected to a unit, or a plurality of load supply side units may be connected to a plurality of heat source heat storage side units.

The base heat source 110 can absorb or dissipate heat while providing cooling and heating to the demander, and various heat sources such as geothermal heat sources, water heat sources, waste heat sources, air heat sources, and renewable energy generated heat sources such as unused heat sources An example can be given.

The first heat pump 115 exchanges heat with the base heat source 110 .

Since the first heat pump 115 is a general heat pump, which is a device that transfers heat from a low-temperature object to a high-temperature object, as an example, detailed illustration and description thereof will be omitted.

While the multi-heat source heat storage tank 120 exchanges heat with the first heat pump 115, hot heat is stored in the upper part and cold heat is stored in the lower part.

A plurality of diffusers of different heights are installed inside the multi-heat source heat storage tank 120, hot heat is supplied through the uppermost one of the plurality of diffusers, cold heat is supplied through the lowermost one of the plurality of diffusers, and When a load and an additional cooling/heating load are required, unnecessary overall operation of the cooling/heating rapid response heat source heat pump system 100 is prevented by partial use of the multi-heat source heat storage tank 120 through the central height of the plurality of diffusers, and the cooling/heating It is possible to supply a cooling and heating heat exchange medium at a temperature favorable to the operation of the quick-response heat source heat pump system 100, as well as to supply hot or cold heat and then return the temperature of the cooling and heating heat exchange medium stored in the multi-heat source heat storage tank 120. The utilization efficiency of the multi-heat source heat storage tank 120 can be improved by comparing the temperature of the cooling/heating heat exchange medium by depth and returning the cooling/heating heat exchange medium to a point advantageous for stratification.

Here, water may be suggested as an example of the cooling/heating heat exchanging medium.

The second heat pump 125 obtains at least one of the hot heat and the cold heat while exchanging heat with the multi-heat source heat storage tank 120 .

Since the second heat pump 125 is a general heat pump, which is a device that transfers heat from a low-temperature object to a high-temperature object, as an example, detailed illustration and description thereof will be omitted herein.

The heat transferred through at least one of the first heat pump 115 and the second heat pump 125 is transferred to the multi-heat source heat storage tank 120 through the uppermost diffuser among the plurality of diffusers of the multi-heat source heat storage tank 120. The cold heat stored in the upper part of and transferred through at least one of the first heat pump 115 and the second heat pump 125 is transferred through the lowermost one of the plurality of diffusers of the multi-heat source heat storage tank 120. It is stored in the lower part of the multi-heat source heat storage tank 120.

In addition, the heat stored in the upper part of the multi-heat source heat storage tank 120 can be transferred to at least one of the first heat pump 115 and the second heat pump 125 through the uppermost one of the plurality of diffusers, , The cold heat stored in the lower part of the multi-heat source heat storage tank 120 may be transferred to at least one of the first heat pump 115 and the second heat pump 125 through the lowermost one of the plurality of diffusers.

The customer cooling/heating supply member 130 performs a heating supply operation in which heat is exchanged with the second heat pump 125 and heat is supplied to the customer using the warm heat, and the cooling/heating supply member 130 exchanges heat with the second heat pump 125 and uses the cold heat to perform the heating supply operation. At least one of the cooling supply operations for supplying cooling to a consumer may be performed, and various methods such as a water-to-water method and a water-to-air method may be suggested as examples.

The cooling/heating supply bypass pipe 154 directly connects the first heat pump 115 and the customer cooling/heating supply member 130, and is provided between the first heat pump 115 and the customer cooling/heating supply member 130. By allowing the heating/cooling heat exchange medium to circulate directly, the first heat pump 115 can directly supply at least one of heating and cooling to the consumer through the consumer cooling/heating supply member 130.

The cooling and heating supply bypass pipe 154 directly connects the first heat pump 115 and the customer cooling and heating supply member 130 without passing through the second heat pump 125, so that the second heat pump ( 125) is performing one of the main cooling and heating operations for the consumer, when a load of the opposite operation of the cooling and heating partially occurs in the consumer, the first heat pump 115 supplies the cooling and heating By providing cold heat or warm heat to the customer cooling/heating supply member 130 independently of the second heat pump 125 through the bypass pipe 154, the opposite operation of the other one of the cooling and heating partially generated in the customer In addition to being able to respond quickly to the load, it is also possible to respond quickly even when the maximum cooling and heating load occurs in the consumer.

In this embodiment, heat exchange between the second heat pump 125 and the customer cooling and heating supply member 130 and the first heat pump 115 and the customer cooling and heating supply through the cooling and heating supply bypass pipe 154 Through heat exchange between the members 130, cooling and heating may be simultaneously supplied to the consumer.

A base heat heat exchange supply pipe 140 is provided between the base heat source 110 and the first heat pump 115 so that a base heat exchange medium such as water flows from the base heat source 110 to the first heat pump 115. is connected, and between the first heat pump 115 and the base heat source 110 so that the base heat exchange medium flows from the first heat pump 115 to the base heat source 110, a heat base heat exchange return pipe ( 141) is connected, and on the base heat heat exchange supply pipe 140, a base heat heat exchange pump 143 for forming a flow of the base heat exchange medium between the base heat source 110 and the first heat pump 115 ) is installed, and a base heat bypass pipe 142 is connected between the base heat heat exchange supply pipe 140 and the base heat exchange return pipe 141, and the base heat heat exchange supply pipe 140 and the base heat exchange return pipe 140 are connected. A base heat three-way valve 144 is connected to a branch point of the heat bypass pipe 142 so that the flow rate of the base heat exchange medium toward the base heat bypass pipe 142 can be controlled.

The lowermost part of the plurality of diffusers of the first heat pump 115 and the multi-heat source heat storage tank 120 so that the cooling and heating heat exchange medium flows between the first heat pump 115 and the bottom of the multi-heat source heat storage tank 120. is connected by the first heat storage connection pipe 150, and the multi-heat source heat storage tank 120 so that the cooling and heating heat exchange medium flows between the upper part of the multi-heat source heat storage tank 120 and the first heat pump 115 The uppermost one of the plurality of diffusers and the first heat pump 115 are connected by a first heat storage heat connection pipe 151, and on the first heat storage heat connection pipe 151, the multi-heat source heat storage tank 120 A heat storage first heat heat exchange pump 160 for forming a flow of the cooling and heating heat exchange medium between the first heat pump 115 is installed, and the heat storage first heat connection pipe 151 and the first heat A first heat storage connection pipe 152 is connected between the heat storage connection pipe 150, and the first heat storage connection pipe 151 and the first heat storage bypass pipe 152 are connected to each other at a branch point. The one-heat three-way valve 161 is connected so that the flow rate of the cooling/heating heat exchange medium toward the heat storage first heat bypass pipe 152 can be controlled.

Between a point of the first heat storage connection pipe 150 spaced a predetermined distance from the junction of the first heat storage heat bypass pipe 152 toward the multi-heat source heat storage tank 120 and the demand cooling and heating supply member 130 The cooling and heating supply bypass pipe 154 is connected, and the cooling and heating supply bypass three-way valve 168 is connected to the branching point of the first heat storage connection pipe 150 and the cooling and heating supply bypass pipe 154. The flow rate of the heating and cooling heat exchange medium toward the cooling and heating supply bypass pipe 154 can be controlled, and the first heat storage heat bypass pipe 152 of the first heat storage connection pipe 151 can be controlled. A cooling/heating return bypass pipe 153 is connected between a point spaced a predetermined distance toward the multi-heat source heat storage tank 120 and the cooling/heating supply member 130, and the heat storage first heat connection pipe 151 and the cooling/heating return bypass A heating and cooling return bypass three-way valve 162 is connected to the joining point of the pass pipe 153 so that the flow rate of the heating and cooling heat exchange medium from the cooling and heating return bypass pipe 153 can be controlled.

Among the first heat storage connection pipes 150, a point spaced a predetermined distance from the branch point of the cooling and heating supply bypass pipe 154 toward the multi-heat source heat storage tank 120 and the first heat storage connection pipe 151 A cross supply pipe 158 before heat storage is connected between a point spaced a predetermined distance from the joining point of the cooling and heating return bypass pipe 153 toward the multi-heat source heat storage tank 120, and on the cross supply pipe 158 before heat storage A point spaced a predetermined distance from the branch point of the heat storage cross supply pipe 158 toward the multi-heat source heat storage tank 120 in the first heat storage connection pipe 150 where a thermoelectric cross supply opening/closing valve 165 is installed and From the joining point of the heat storage cross supply pipe 158 among the first heat storage connection pipes 151

A heat storage cross return water return pipe 156 is connected between points spaced a predetermined distance toward the first heat pump 115, and a heat storage cross return water return opening/closing valve 164 is installed on the heat storage cross return pipe 156, , Between the branch point of the cross supply pipe 158 before heat storage and the branch point of the cross return pipe 156 of the first heat storage connection pipe 150 and among the first heat storage connection pipe 151 Between the joining point of the cross supply pipe 158 before heat storage and the joining point of the cross return pipe 156 before heat storage, cross flow opening/closing valves 163 and 166 are respectively installed before heat storage.

When the heat storage cross supply opening/closing valve 165 and the heat storage cross return opening/closing valve 164 are closed and the heat storage cross flow opening/closing valves 163 and 166 are opened, the first heat pump 115 and the heat storage cross flow opening/closing valve 163 and 166 are opened. Between the multiple heat source heat storage tanks 120 , the cooling and heating heat exchange medium may flow through the first heat storage connection pipe 150 and the first heat storage connection pipe 151 .

On the other hand, when the heat storage cross supply opening/closing valve 165 and the heat storage cross return opening/closing valve 164 are opened and the heat storage cross flow opening/closing valves 163 and 166 are closed, the first heat pump 115 The cooling and heating heat exchange medium flowing toward the multi-heat source heat storage tank 120 is introduced into the upper portion of the multi-heat source heat storage tank 120 through the cross supply pipe 158 and the first heat storage connection pipe 151 before heat storage, The cooling and heating heat exchange medium flowing from the bottom of the multi-heat source heat storage tank 120 toward the first heat pump 115 passes through the cross return pipe 156 before heat storage and the first heat storage connection pipe 151. It can be introduced into the first heat pump (115).

The lowermost part of the plurality of diffusers of the second heat pump 125 and the multi-heat source heat storage tank 120 so that the cooling and heating heat exchange medium flows between the second heat pump 125 and the bottom of the multi-heat source heat storage tank 120. is connected by the second heat storage connection pipe 171, and the multi-heat source heat storage tank 120 so that the cooling and heating heat exchange medium flows between the upper part of the multi-heat source heat storage tank 120 and the second heat pump 125 The uppermost one of the plurality of diffusers and the second heat pump 125 are connected by a second heat storage heat connection pipe 170, and on the second heat storage heat connection pipe 170, the multi-heat source heat storage tank 120 and a heat storage second heat heat exchange pump 180 for forming a flow of the cooling and heating heat exchange medium between the second heat pump 125 is installed, and the heat storage second heat connection pipe 170 and the second heat A second heat storage connection pipe 172 is connected between the heat storage connection pipe 171, and the second heat storage connection pipe 170 and the second heat storage heat bypass pipe 172 are connected to each other at a branch point. The two-heat three-way valve 181 is connected so that the flow rate of the cooling/heating heat exchange medium toward the heat storage second heat bypass pipe 172 can be controlled.

Among the second heat storage connection pipes 171, a point spaced a predetermined distance from the junction of the second heat storage bypass pipe 172 toward the multi-heat source heat storage tank 120 and the second heat storage connection pipe 170 Among them, a cross supply pipe 175 after heat storage is connected between a point spaced a predetermined distance from the branch point of the second heat storage heat bypass pipe 172 toward the multi-heat source heat storage tank 120, and the cross supply pipe after heat storage ( 175), a cross supply opening/closing valve 183 after heat storage is installed, and a predetermined distance from the branch point of the cross supply pipe 175 after heat storage among the second heat storage connection pipes 171 toward the multiple heat source heat storage tank 120 Between the spaced point and the point spaced apart by a predetermined distance toward the second heat pump 125 from the junction point of the cross supply pipe 175 after heat storage among the second heat storage connection pipes 170, the cross return pipe after heat storage ( 174) is connected, a cross return water return after heat storage valve 184 is installed on the cross return water pipe after heat storage 174, and a cross supply pipe 175 after heat storage among the second heat storage connection pipes 171 is installed. Between the branching point and the branching point of the cross return pipe 174 after heat storage and between the junction point of the cross supply pipe 175 after heat storage among the second heat storage connection pipes 170 and the cross return pipe 174 after heat storage Cross flow opening and closing valves 182 and 186 are installed between the bonding points after heat storage, respectively.

When the cross supply opening/closing valve 183 after heat storage and the cross return opening/closing valve 184 after heat storage are closed and the cross flow opening/closing valves 182 and 186 are opened after each heat storage, the second heat pump 125 and the cross flow opening/closing valve 184 are opened. Between the multiple heat source heat storage tanks 120 , the cooling and heating heat exchange medium may flow through the second heat storage connection pipe 171 and the second heat storage connection pipe 170 .

On the other hand, when the cross supply opening/closing valve 183 after heat storage and the cross return opening/closing valve 184 after heat storage are opened, and the cross flow opening/closing valves 182 and 186 are closed after each heat storage, the second heat pump 125 The cooling and heating heat exchange medium flowing from the multi-heat source heat storage tank 120 flows into the upper part of the multi-heat source heat storage tank 120 through the cross supply pipe 175 and the second heat storage connection pipe 170 after the heat storage, The cooling and heating heat exchange medium flowing from the bottom of the multi-heat source heat storage tank 120 toward the second heat pump 125 passes through the cross return pipe 174 and the second heat storage connection pipe 170 after the heat storage. It can be introduced into the second heat pump 125.

On the other hand, between the connection portion of the heat storage cross supply pipe 158 of the first heat storage connection pipe 150 and the connection portion of the cooling and heating supply bypass pipe 154 and the heat storage first heat connection pipe 151 Between the connection part of the heat storage cross supply pipe 158 and the connection part of the cooling/heating return bypass pipe 153, a heat storage intermediate branch pipe 155 is connected, and the heat storage intermediate branch pipe 155 The central portion and one of the plurality of diffusers having a central height are connected by an intermediate diffuser connection pipe 101 before heat storage, and among the intermediate branch pipes 155 before heat storage, the first heat storage connection pipe 150 and the intermediate heat storage medium Between the diffuser connection pipe 101 and between the first heat storage heat connection pipe 151 and the middle diffuser connection pipe 101 among the intermediate branch pipes 155 before heat storage, an intermediate branch opening/closing valve 167 before heat storage ) is installed.

According to the selective opening and closing of the pair of intermediate branch opening/closing valves 167 before heat storage, the cooling and heating heat exchange medium of the intermediate temperature stored in the center of the multi-heat source heat storage tank 120 is transferred to the intermediate diffuser connection pipe before heat storage ( 101), then flows through any one of the intermediate branch pipes 155 before heat storage, and then flows through the first heat storage connection pipe 150 or the first heat storage connection pipe 151. there will be

Among the second heat storage connection pipes 171, between the connection portion of the post-heat storage cross supply pipe 175 and the connection portion of the second heat storage heat bypass pipe 172 and the second heat storage connection pipe 170 Between the connection part of the cross supply pipe 175 after heat storage and the connection part of the second heat bypass pipe 172, an intermediate branch pipe 173 after heat storage is connected, and the intermediate branch pipe 173 after heat storage ) and one of the plurality of diffusers having a central height is connected by an intermediate diffuser connection pipe 102 after heat storage, and among the intermediate branch pipes 173 after heat storage, the second heat storage connection pipe 171 and the heat storage Between the intermediate diffuser connection pipe 102 and between the second heat storage second heat connection pipe 170 of the intermediate branch pipe 173 after heat storage and the intermediate diffuser connection pipe 102 after heat storage, respectively, the intermediate branch opening/closing valve after heat storage (185) is installed.

According to the selective opening and closing of the pair of post-heat storage intermediate branch opening/closing valves 185, the cooling and heating heat exchange medium via the second heat pump 125 flows through the intermediate post-heat storage branch pipe 173 and the intermediate post-heat storage intermediate pipe 173. It flows through the diffuser connection pipe 102 and flows into the central portion of the multi-heat source heat storage tank 120 so that it can be stored.

During the heat storage operation, the one installed in the second heat storage connection pipe 171 among the cross flow opening/closing valves 182 and 186 after heat storage is closed, and the second heat storage connection among the intermediate branch opening/closing valves 185 after heat storage When the one relatively close to the pipe 171 is opened and the one relatively close to the heat storage second heat connection pipe 170 among the intermediate branch opening/closing valves 185 is closed after the heat storage, the second heat pump 125 The passed cooling and heating heat exchange medium flows through the intermediate branch pipe 173 after heat storage and the intermediate diffuser connection pipe 102 after heat storage, and can flow into the central portion of the multi-heat source heat storage tank 120.

On the other hand, among the cross flow opening/closing valves 182 and 186 after heat storage, one installed in the second heat storage connecting pipe 171 is opened, and among the intermediate branch opening/closing valves 185 after heat storage, the second heat storage connecting pipe 171 ) is closed, and if the one relatively close to the heat storage second heat connection pipe 170 is closed among the intermediate branch opening and closing valves 185 after the heat storage, the heat storage via the second heat pump 125 The cooling and heating heat exchange medium flows through the second heat storage connection pipe 171 and can be introduced into the lower portion of the multi-heat source heat storage tank 120 .

During the cold heat storage operation, the one installed in the second heat storage connection pipe 171 among the cross flow opening/closing valves 182 and 186 after heat storage is closed, and the second heat storage connection among the intermediate branch opening/closing valves 185 after heat storage When the one relatively close to the pipe 171 is opened and the one relatively close to the heat storage second heat connection pipe 170 among the intermediate branch opening/closing valves 185 is closed after the heat storage, the second heat pump 125 The passed cooling and heating heat exchange medium flows through the intermediate branch pipe 173 after heat storage and the intermediate diffuser connection pipe 102 after heat storage, and can flow into the central portion of the multi-heat source heat storage tank 120.

On the other hand, among the cross flow opening/closing valves 182 and 186 after heat storage, one installed in the second heat storage connecting pipe 171 is closed, and among the intermediate branch opening/closing valves 185 after heat storage, the second heat storage connecting pipe 171 ) is closed and the cross supply opening/closing valve 183 is opened after the heat storage, the cooling and heating heat exchange medium via the second heat pump 125 passes through the cross supply pipe 175 and the heat storage after the heat storage. It flows through the second heat connection pipe 170 and can flow into the upper part of the multi-heat source heat storage tank 120.

When configured as described above, one of the plurality of diffusers having a central height can be used in various ways as follows.

During the heating operation, on the side of the first heat pump 115, the multi-heat source heat storage tank 120 is heated through the central height of the plurality of diffusers at the time of partial load occurrence and when only heat below a certain level is required. Heat is stored from the upper part to the central part of the multi-heat source heat storage tank 120 due to the cooling and heating heat exchange medium introduced into the central part, thereby lowering the load of the base heat source 110 and the cooling and heating quick response heat source heat pump system 100 It is possible to prevent more than necessary operation of the cooling and heating quick response heat source heat pump system 100 to improve the operating efficiency and to enable rapid heat source storage,

On the side of the second heat pump 125, the heating and cooling heat exchange medium, which provides heating to the consumer using the heat supplied from the upper part of the multi-heat source heat storage tank 120, is returned to the multi-heat source heat storage tank 120. , By comparing the temperature of the heating and cooling heat exchange medium with the temperature of the central and lower portions of the multi-heat source heat storage tank 120, the cooling and heating heat exchange medium is selectively returned to a position favorable for stratification of the multi-heat source heat storage tank 120, thereby the multi-heat source By increasing the use efficiency of the heat storage tank 120 and preventing heat loss due to internal convection of the multi-heat source heat storage tank 120, the operation time of the heating and cooling quick response heat source heat pump system 100 can be minimized and prompt load response can be achieved. there will be

During the cooling operation, on the side of the first heat pump 115, the multi-heat source heat storage tank ( 120), by storing cold heat from the central part to the lower part, lowering the load of the base heat source 110 while preventing unnecessary operation of the cooling and heating quick response heat source heat pump system 100, and the cooling and heating quick response heat source heat It is possible to improve the operating efficiency of the pump system 100 and enable rapid heat source storage,

On the side of the second heat pump 125, the cooling and heating heat exchange medium, which provides cooling to the consumer using the cold heat supplied from the bottom of the multi-heat source heat storage tank 120, is returned to the multi-heat source heat storage tank 120. , By comparing the temperature of the heating and cooling heat exchange medium with the temperature of the central portion and the upper part of the multi-heat source heat storage tank 120, the cooling and heating heat exchange medium is selectively returned to a position favorable for stratification of the multi-heat source heat storage tank 120, so that the multi-heat source By increasing the use efficiency of the heat storage tank 120 and preventing heat loss due to internal convection of the multi-heat source heat storage tank 120, the operation time of the heating and cooling quick response heat source heat pump system 100 can be minimized and prompt load response can be achieved. there will be

Second heat consumer circulation pipes 131 and 132 are connected between the second heat pump 125 and the customer cooling and heating supply member 130, so that the second heat pump 125 and the customer cooling and heating supply member 130 While heat is exchanged between them, cooling and heating can be supplied from the second heat pump 125 to the cooling and heating supply member 130 while the heat exchange medium circulated through the second heat consumer circulation pipes 131 and 132 is circulated. there will be

Hereinafter, the operation of the heating and cooling quick response heat source heat pump system 100 according to the present embodiment will be described with reference to the drawings.

1) Thermal heat storage and heating supply operation when the minimum load heating demand occurs in the above consumers

When a heating demand with a relatively small minimum load compared to the maximum load is generated in the consumer, the first heat pump 115 absorbs warm heat while exchanging heat with the base heat source 110, and the first heat pump ( 115), the heating and cooling heat exchange medium absorbs heat from the first heat pump 115, and then the first heat storage connection pipe 150, the cross supply pipe 158 before heat storage, and the first heat storage By flowing into the upper part of the multi-heat source heat storage tank 120 through the heat connection pipe 151, heat is stored on the upper part of the multi-heat source heat storage tank 120.

Then, the cooling and heating heat exchange medium containing the hot heat stored in the upper part of the multi-heat source heat storage tank 120 flows to the second heat pump 125 through the second heat storage connection pipe 170, Heat is transferred to the second heat pump 125, and the heat transferred to the second heat pump 125 is transferred to the customer cooling/heating supply member 130, so that heating can be supplied to the customer.

On the other hand, the cooling and heating heat exchange medium cooled by transferring heat to the second heat pump 125 flows into the lower part of the multi-heat source heat storage tank 120 through the second heat storage connection pipe 171 and is stored.

Then, the cooling and heating heat exchange medium stored in the lower portion of the multi-heat source heat storage tank 120 is connected to the first heat storage connection pipe 150, the heat storage cross return pipe 156, and the heat storage first heat connection pipe ( 151) and passes through the first heat pump 115.

Through the above operation, heat is stored on the upper part of the multi-heat source heat storage tank 120 and heating can be supplied to the consumer.

Here, the operation in which heat is stored in the upper part of the multi-heat source heat storage tank 120 and the operation in which heating is supplied to the consumer may be performed simultaneously or separately at different times.

2) Cooling heat storage and cooling supply operation when the minimum load cooling demand occurs in the above consumer

When a cooling demand of a relatively small minimum load compared to the maximum load occurs in the consumer, the first heat pump 115 absorbs cold heat while exchanging heat with the base heat source 110 (the base heat source 110). The cooling and heating heat exchange medium passing through the first heat pump 115 also absorbs cold heat from the first heat pump 115 and then By flowing into the lower part of the multi-heat source heat storage tank 120 through the heat storage connection pipe 150, cold heat is stored in the lower part of the multi-heat source heat storage tank 120.

Then, the cooling and heating heat exchange medium containing cold heat stored in the lower part of the multi-heat source heat storage tank 120 is transferred to the second heat storage connection pipe 171, the cross return pipe 174 after heat storage, and the second heat storage It flows to the second heat pump 125 through the heat connection pipe 170, and cool heat is transferred to the second heat pump 125, and the cold heat transferred to the second heat pump 125 is used to cool and heat the consumer. By being transferred to the supply member 130, cooling can be supplied to the demand side.

On the other hand, the cooling and heating heat exchange medium whose temperature is raised after transferring cold heat to the second heat pump 125 (absorbing heat of the consumer) is transferred to the second heat storage connection pipe 171 and the cross supply pipe 175 after heat storage. and the second heat storage pipe 170 is introduced into the upper part of the multi-heat source heat storage tank 120 and stored.

Then, the cooling and heating heat exchange medium stored in the upper part of the multi-heat source heat storage tank 120 flows through the first heat storage connection pipe 151 and passes through the first heat pump 115 .

Through the above operation, cooling heat can be stored in the lower part of the multi-heat source heat storage tank 120 and cooling can be supplied to the consumer.

Here, the operation in which cold heat is stored in the lower portion of the multi-heat source heat storage tank 120 and the operation in which cooling is supplied to the consumer may be performed simultaneously or separately at different times.

3) Heating supply operation when the maximum load heating demand occurs in the above consumer

When a maximum load heating demand occurs in the consumer, the first heat pump 115 absorbs heat while exchanging heat with the base heat source 110, and the cooling and heating also passes through the first heat pump 115. After the heat exchange medium absorbs heat from the first heat pump 115, it passes directly through the cooling and heating supply member 130 through the first heat storage connection pipe 150 and the cooling and heating supply bypass pipe 154. While transferring the heat to the cooling and heating supply member 130 of the demand side, the cooling and heating heat exchange medium containing the heat stored in the upper part of the multi-heat source heat storage tank 120 passes through the second heat storage pipe 170. The heat is transferred to the second heat pump 125 through the second heat pump 125, and the heat transferred to the second heat pump 125 is also transferred to the cooling and heating supply member 130 of the customer. As a result, the heat stored in the multi-heat source heat storage tank 120 and transferred through the second heat pump 125 as well as the heat directly transferred from the first heat pump 115 are delivered to the consumer, It is possible to respond to the heating demand of the maximum load generated in the demand place.

On the other hand, the heating and cooling heat exchange medium, which flows through the heating and cooling supply bypass pipe 154 and transfers heat to the consumer cooling and heating supply member 130, is supplied to the cooling and heating return bypass pipe 153 and the heat storage first heat connection pipe. The cooling and heating heat exchange medium, which flows through the 151 and passes through the first heat pump 115 and transfers heat through the second heat pump 125, passes through the second heat storage connection pipe 171. Through this, the heat is introduced into the lower portion of the multi-heat source heat storage tank 120 and stored.

Through the above operation, it is possible to quickly respond to the heating demand of the maximum load generated in the consumer.

Here, direct heat transfer operation to the consumer cooling/heating supply member 130 through the cooling/heating supply bypass pipe 154 and heat transfer operation to the consumer cooling/heating supply member 130 through the second heat pump 125 are It may be conducted simultaneously or separately at different times.

4) Cooling supply operation when the maximum load cooling demand occurs in the above-mentioned consumer

When a maximum load cooling demand occurs in the consumer, the first heat pump 115 absorbs cooling heat while exchanging heat with the base heat source 110, and the cooling and heating also passes through the first heat pump 115. After the heat exchange medium absorbs cold heat from the first heat pump 115, it passes directly through the cooling and heating supply member 130 through the first heat storage connection pipe 150 and the cooling and heating supply bypass pipe 154. While transferring cool heat to the demand cooling and heating supply member 130, the cooling and heating heat exchange medium containing the cold heat stored in the lower part of the multi-heat source heat storage tank 120 is connected to the second heat storage connection pipe 171, After the heat storage, it flows to the second heat pump 125 through the cross return pipe 174 and the second heat storage connection pipe 170, and cool heat is transferred to the second heat pump 125, 2 The cold heat transferred to the heat pump 125 is also transferred to the cooling and heating supply member 130 of the consumer, so that the cold heat stored in the multi-heat source heat storage tank 120 and transferred through the second heat pump 125 The cooling heat directly transferred from the first heat pump 115 is also transferred to the consumer, so that the cooling demand of the maximum load generated by the consumer can be met.

Meanwhile, the heating/cooling heat exchange medium that flows through the cooling/heating supply bypass pipe 154 and then transfers cold heat to the cooling/heating supply member 130 of the customer is connected to the cooling/heating return bypass pipe 153 and the heat storage first heat connection pipe. The cooling and heating heat exchange medium that flows through the 151 and passes through the first heat pump 115 and transfers cold heat via the second heat pump 125 is the second heat storage connection pipe 171, After the heat storage, the heat is introduced into the upper part of the multi-heat source heat storage tank 120 through the cross supply pipe 175 and the second heat storage connection pipe 170 and is stored.

Through the above operation, it is possible to quickly respond to the cooling demand of the maximum load generated in the consumer.

Here, the direct cooling and heat transfer operation to the customer cooling and heating supply member 130 through the cooling and heating supply bypass pipe 154 and the cooling and heat transfer operation to the customer cooling and heating supply member 130 through the second heat pump 125 are It may be conducted simultaneously or separately at different times.

5) Simultaneous supply operation of air conditioning and heating to the above consumers at the same time 1

When demand for simultaneous supply of cooling and heating occurs at the same time, the first heat pump 115 absorbs heat while exchanging heat with the base heat source 110, and also passes through the first heat pump 115. After the cooling and heating heat exchange medium absorbs heat from the first heat pump 115, it supplies the cooling and heating supply member 130 to the customer through the first heat storage connection pipe 150 and the cooling and heating supply bypass pipe 154. In addition to transferring heat to the cooling and heating supply member 130 directly via the demand side, the cooling and heating heat exchange medium containing the cold heat stored in the lower portion of the multi-heat source heat storage tank 120 is transferred to the second heat storage connection pipe 171 ), after the heat storage, it flows to the second heat pump 125 through the cross return pipe 174 and the heat storage second heat connection pipe 170, and cool heat is transferred to the second heat pump 125, As the cold heat transferred to the second heat pump 125 is transferred to the cooling and heating supply member 130 of the consumer, the cold heat stored in the multi-heat source heat storage tank 120 and transferred through the second heat pump 125 In addition, the heat directly transferred from the first heat pump 115 is also delivered to the consumer at the same time, so that the demand for air conditioning and heating at the same time can be met.

On the other hand, the heating and cooling heat exchange medium, which flows through the heating and cooling supply bypass pipe 154 and transfers heat to the consumer cooling and heating supply member 130, is supplied to the cooling and heating return bypass pipe 153 and the heat storage first heat connection pipe. The cooling and heating heat exchange medium that flows through the 151 and passes through the first heat pump 115 and transfers cold heat via the second heat pump 125 is the second heat storage connection pipe 171, After the heat storage, the heat is introduced into the upper part of the multi-heat source heat storage tank 120 through the cross supply pipe 175 and the second heat storage connection pipe 170 and is stored.

Through the above operation, it is possible to quickly respond to the simultaneous supply demand for air conditioning and heating in the same time period generated by the consumer.

6) Simultaneous supply operation of air conditioning and heating to the above consumers at the same time 2

When demand for simultaneous heating and cooling occurs at the same time, the first heat pump 115 absorbs cold heat while exchanging heat with the base heat source 110, and also passes through the first heat pump 115. After the cooling and heating heat exchange medium absorbs cold heat from the first heat pump 115, it supplies the cooling and heating supply member 130 to the customer through the first heat storage connection pipe 150 and the cooling and heating supply bypass pipe 154. The cooling/heating heat exchange medium containing the hot heat stored in the upper part of the multi-heat source heat storage tank 120, while directly transferring cold heat to the cooling/heating supply member 130 of the demand side, transfers the cold heat to the heat storage second heat connection pipe 170 ) through the second heat pump 125, heat is transferred to the second heat pump 125, and the heat transferred to the second heat pump 125 is transferred to the cooling and heating supply member 130 , the hot heat stored in the multi-heat source heat storage tank 120 and transferred through the second heat pump 125 as well as the cold heat directly transferred from the first heat pump 115 are delivered to the consumer. As a result, it is possible to respond to the demand for simultaneous supply of air conditioning and heating at the same time zone generated by the consumer.

Meanwhile, the heating/cooling heat exchange medium that flows through the cooling/heating supply bypass pipe 154 and then transfers cold heat to the cooling/heating supply member 130 of the customer is connected to the cooling/heating return bypass pipe 153 and the heat storage first heat connection pipe. The cooling and heating heat exchange medium, which flows through the 151 and passes through the first heat pump 115 and transfers heat through the second heat pump 125, passes through the second heat storage connection pipe 171. Through this, the heat is introduced into the lower portion of the multi-heat source heat storage tank 120 and stored.

Through the above operation, it is possible to quickly respond to the simultaneous supply demand for air conditioning and heating in the same time period generated by the consumer.

7) Timely air conditioning and heating supply operation to the above-mentioned customers during the change of season

At the turn of the season, when daytime cooling and heating supply demand for daytime cooling and nighttime heating occurs, the cooling and heating heat exchange medium containing the cold heat stored in the lower part of the multi-heat source heat storage tank 120 during the daytime is connected to the second heat storage It flows to the second heat pump 125 through the pipe 171, the cross return pipe 174 after heat storage, and the second heat storage connection pipe 170, so that cold heat is supplied to the second heat pump 125. The cold heat transferred to the second heat pump 125 is transferred to the cooling and heating supply member 130 of the consumer, and is stored in the multi-heat source heat storage tank 120 through the second heat pump 125. The transferred cooling heat is transferred to the consumer, and accordingly, cooling can be supplied to the consumer during the daytime.

The cooling and heating heat exchange medium that transfers cold heat via the second heat pump 125 and absorbs the heat of the consumer is the second heat storage connection pipe 171, the cross supply pipe 175 after heat storage, and the heat storage The heat is introduced into the upper part of the multi-heat source heat storage tank 120 through the second heat connection pipe 170 and stored, and accordingly, the heat can be stored in the upper part of the multi-heat source heat storage tank 120 .

On the other hand, at night, the cooling and heating heat exchange medium stored in the upper part of the multi-heat source heat storage tank 120 flows to the second heat pump 125 through the second heat storage connection pipe 170, and the second heat Heat is transferred to the pump 125, and the heat transferred to the second heat pump 125 is transferred to the consumer cooling and heating supply member 130, so that it is stored in the multi-heat source heat storage tank 120 and then stored in the second heat storage tank 120. The heat transmitted through the heat pump 125 is transferred to the consumer, and accordingly, heating can be supplied to the consumer at night.

The cooling and heating heat exchange medium, which transfers heat via the second heat pump 125 and absorbs cold heat from the consumer, flows into the lower part of the multi-heat source heat storage tank 120 through the second heat storage connection pipe 171. and stored, so that cold heat can be stored in the lower part of the multi-heat source heat storage tank 120.

Through the above operation, it is possible to quickly respond to the day/night cooling/heating supply demand of daytime cooling and nighttime heating generated by the demander during the changing seasons.

As described above, by using the multi-heat source heat storage tank 120 as a heat source, it is possible to respond to the cooling and heating demand of the consumer, so that the heat source recovery time of the base heat source 110 can be maintained as much as possible, as well as temporary heat on the heat source side. It becomes possible to respond quickly to environmental imbalances or changes.

As described above, the cooling and heating quick response heat source heat pump system 100 includes the base heat source 110, the first heat pump 115, the multiple heat source heat storage tank 120, and the second heat pump 125 ) and the customer cooling/heating supply member 130, while achieving a simple system structure, it is possible to quickly respond to temporary thermal environment imbalance or change on the heat source side, and the load of the opposite operation is partially applied to the customer. Even in the case of an occurrence, it is possible to respond quickly to it.

Although the present invention has been shown and described in relation to specific embodiments above, those skilled in the art may modify the present invention in various ways without departing from the spirit and scope of the present invention described in the claims below. And it will be appreciated that it can be changed. However, it should be clearly stated that all of these modifications and variations are included within the scope of the present invention.

According to the heat pump system for quick response to cooling and heating according to one aspect of the present invention, while achieving a simple system structure, it is possible to quickly respond to temporary thermal environment imbalance or change on the heat source side, and the load of the opposite operation is partially applied to the demand side. Even if it occurs, it can respond quickly to it, so it can be said that the industrial applicability is high.

100: Heating and cooling quick response heat source heat pump system
110: base heat source
115: first heat pump
120: multiple heat source heat storage tank
125: second heat pump
130: Absence of air conditioning and heating supply
154: cooling and heating supply bypass piping

Claims (4)

base heat source;
a first heat pump that exchanges heat with the base heat source;
a multi-heat source heat storage tank in which hot heat is stored in an upper part and cold heat is stored in a lower part while heat is exchanged with the first heat pump;
a second heat pump that obtains at least one of the hot heat and the cold heat while exchanging heat with the multi-heat source heat storage tank; and
At least one of a heating supply operation in which heat is exchanged with the second heat pump to supply heating to a consumer using the warm heat and a cooling supply operation in which heat is exchanged with the second heat pump and used to supply cooling to the consumer by using the cooling heat. Cooling and heating quick response heat source heat pump system including; According to claim 1,
The cooling and heating quick response heat source heat pump system
The first heat pump is directly connected to the customer cooling/heating supply member so that the heating/cooling heat exchange medium is directly circulated between the first heat pump and the customer cooling/heating supply member, so that the first heat pump controls the customer cooling/heating supply member. The cooling and heating quick response heat source heat pump system further comprising: a cooling/heating supply bypass pipe through which at least one of heating and cooling can be directly supplied to the consumer. According to claim 2,
Through heat exchange between the second heat pump and the customer cooling/heating supply member and heat exchange between the first heat pump and the customer cooling/heating supply member through the cooling/heating supply bypass pipe, cooling and heating can be simultaneously supplied to the customer. Cooling and heating quick response heat source heat pump system characterized in that there is. base heat source;
a first heat pump that exchanges heat with the base heat source;
a multi-heat source heat storage tank in which hot heat is stored in an upper part and cold heat is stored in a lower part while heat is exchanged with the first heat pump;
a second heat pump that obtains at least one of the hot heat and the cold heat while exchanging heat with the multi-heat source heat storage tank;
A first heat storage connection pipe connecting the first heat pump and a lowermost diffuser of the plurality of diffusers of the multi-heat source heat storage tank so that the cooling and heating heat exchange medium flows between the first heat pump and the bottom of the multi-heat source heat storage tank;
A heat storage first heat connection pipe connecting an uppermost part of the plurality of diffusers of the multiple heat source heat storage tank and the first heat pump so that the cooling and heating heat exchange medium flows between the upper portion of the multiple heat source heat storage tank and the first heat pump;
an intermediate branch pipe before heat storage connecting the first heat storage connection pipe and the first heat storage connection pipe;
a heat storage middle diffuser connection pipe connecting the heat storage intermediate branch pipe and a central diffuser among the plurality of diffusers;
A second heat storage connection pipe connecting the second heat pump and the lowermost one of the plurality of diffusers of the multiple heat source heat storage tank so that the cooling and heating heat exchange medium flows between the second heat pump and the lower part of the multi-heat source heat storage tank;
A heat storage second heat connection pipe connecting an uppermost part of the plurality of diffusers of the multiple heat source heat storage tank and the second heat pump so that the cooling and heating heat exchange medium flows between the upper portion of the multi-heat source heat storage tank and the second heat pump;
an intermediate branch pipe after heat storage connecting the second heat storage connection pipe and the second heat storage connection pipe; and
A cooling/heating quick response heat source heat pump system comprising: a central part of the middle branch pipe after heat storage and an intermediate diffuser connection pipe after heat storage connecting a central portion of the plurality of diffusers at a central height.

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