KR20180025568A - Heat pump refrigerating mechine having hot and cold water generating apparatus - Google Patents

Abstract

The present invention relates to a water-to-water heat pump freezer capable of generating cold and hot water all the year round, which is able to allow a user to get cold water and hot water at the same time. According to the present invention, the water-to-water heat pump freezer comprises: a heat source-side apparatus (200) to use a heat source, which has a relatively low temperature, and to remove heat of condensation of a circulating refrigerant; a heat source-side heat exchanger (202) connected to one side of the heat source-side apparatus (200) to discharge heat of compression of the refrigerant compressed by a compressor (212) towards the heat source-side apparatus (200); a load-side heat exchanger (204) connected to one side of the heat source-side heat exchanger (202) to absorb heat of evaporation by an evaporation of the refrigerant from a load-side apparatus (206); the load-side apparatus (206) connected to one side of the load-side heat exchanger (204) to cool circulating water in the load-side apparatus (206) by an evaporation of the refrigerant circulating in the load-side heat exchanger (204) and to perform a cooling operation indoors; a four-way valve (208) connected to the other side of the load-side heat exchanger (204) to provide a path to allow the refrigerant to flow from the load-side heat exchanger (204) towards a heat exchanger exclusively for generating cold water (210); the heat exchanger exclusively for generating cold water (210) connected to one side of the four-way valve (208) to exchange heat with a low-temperature, low-pressure refrigerant introduced through the four-way valve (208) and to cool circulating water supplied to a cold water generation apparatus, thereby making cold water; and a compressor (212) connected to one side of the heat exchanger exclusively for generating cold water (210) to compress the low-temperature, low-pressure refrigerant introduced and to turn the refrigerant into a high-temperature, high-pressure one.

Description

{HEAT PUMP REFRIGERATING MECHINE HAVING HOT AND COLD WATER GENERATING APPARATUS}

The present invention relates to a heat pump refrigerator, and more particularly to a heat pump refrigerator that obtains cold water from a cold water generating heat exchanger connected to one side of a four-way valve during cooling operation or heating operation, The present invention relates to a water-based heat pump refrigerator capable of generating hot and cold water for four seasons so as to obtain hot water during a cooling operation or a heating operation.

Accordingly, the present invention relates to a water-based heat pump freezer capable of generating cold and hot water for four seasons so as to simultaneously obtain cold water and hot water.

Generally, a heat pump is also referred to as a heat pump device or a heat pump refrigerator.

The patent of the heat pump device is filed in many cases at the Patent Office. Among them, Patent Application No. 10-2014-0124783 filed on Sep. 19, 2014 (entitled " Heat Pump Device with Assisted Heat Exchanger for Combining Evaporator and Condenser The present invention is described in the following claims: "The refrigerant of low temperature and low pressure introduced through the one side passage of the four-way valve 108 from the second heat exchanger 112 is compressed to high temperature and high pressure, (110) to the third heat exchanger (106) through another one of the passages of the first heat exchanger (108), and a refrigerant compressed by the compressor (110) A third heat exchanger (106) serving as an auxiliary heat exchanger for performing heat exchange so as to be primarily condensed by the condensing action of the refrigerant with the circulating water circulated by the circulating pump (202) for the load device from the load device (102) The third heat exchanger A first heat exchanger 104 connected to the second heat exchanger 106 for allowing the refrigerant primarily condensed in the third heat exchanger to perform second heat exchange with the circulating water introduced after the first heat exchange in the third heat exchanger, An expansion valve 116 connected to the first heat exchanger 104 and expanding the refrigerant introduced from the first heat exchanger 104 during a heating operation to a low temperature and low pressure and delivering the refrigerant to the filter dryer 114; A filter dryer 114 connected to the second heat exchanger 112 to remove moisture and foreign substances from the refrigerant flowing from the expansion valve 112 during the heating operation and then send the refrigerant from which the foreign substances have been removed to the second heat exchanger 112, And a second circulating pump (200) circulating the refrigerant from the heat source device (101) provided at a predetermined interval with the refrigerant coming from the filter drier (114) A heat exchanger (112), and a second heat exchange (112) and the compressor (110), one side passage in the refrigerant flow direction during heating operation is connected to the suction side of the second heat exchanger (112) and the compressor (110), and the other side passage is connected to the compressor And a four-way valve 108 connected between the outlet end of the first heat exchanger 110 and the third heat exchanger 106 so that the expansion valve 116 and the filter drier 114 have a bi- And an auxiliary heat exchanger serving as an evaporator and a condenser. " to be.

However, in order to obtain the cold water and the hot water, a separate faucet is connected on the piping route of the load-side heat exchanger and the heat source-side heat exchanger to obtain cold water and hot water as well as a conventional hot water heat pump apparatus having an auxiliary heat exchanger However, in this case, the role of the evaporator and the condenser is reversed depending on the operation conditions of the cooling and heating operation, which is a product characteristic of the heat pump device, and the hot water and the cold water are changed each time, there was.

In order to prevent burning due to high pressure, a circulating water of a predetermined amount or more is required, and the temperature control period of cold water and hot water through the flow rate control is narrowed, because the conventional hot water heat pump apparatus including the evaporator and the auxiliary heat exchanger There has been a problem that limitations arise.

Particularly, in the cold / hot water heat pump apparatus having the evaporator and the auxiliary heat exchanger serving as the condenser, when the cool water and the hot water are directly taken out and used, the circulation water quantity is reduced.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a water-based heat pump chiller capable of generating cold and hot water for four seasons so as to simultaneously obtain cold water and hot water, There is.

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a water-based heat pump refrigerator capable of generating cold and hot water for four seasons,

A heat source device 200 for removing the heat of condensation of the circulating refrigerant by using a relatively low temperature heat source;

A heat source side heat exchanger (202) connected to one side of the heat source side device (200) and discharging the compressed heat of the refrigerant compressed by the compressor (212) to the heat source side device (200);

A load side heat exchanger (204) connected to one side of the heat source side heat exchanger (202) and absorbing the evaporation heat by the evaporation action of the refrigerant from the load side device (206);

The circulation water is cooled in the load side device 206 by the evaporation action of the refrigerant circulating inside the load side heat exchanger 204 connected to one side of the load side heat exchanger 204 and the cooling operation in the room is performed by the cooled cold water A load side device (206)

A four-way valve (208) connected to the other side of the load side heat exchanger (204) and providing a path for allowing the refrigerant to flow from the load side heat exchanger (204) to the cold water generation exclusive heat exchanger (210);

A cold water generating heat exchanger (not shown) which is connected to one side of the four-way valve (208) to cool the circulating water supplied to the cold water generating device through heat exchange with the low temperature low pressure refrigerant flowing through the four- (210);

A compressor 212 connected to one side of the cold water generating exclusive heat exchanger 210 to compress a refrigerant flowing in a low temperature and low pressure state to make a high temperature and a high pressure;

And a hot water generation dedicated heat exchanger 214 connected to one side of the compressor 212 for heating the circulating water circulating through the hot water valve exclusive heat exchanger 214 by the refrigerant that has received the compression heat and turned into a high temperature, .

As described above, the water-based heat pump refrigerator capable of generating the four-season cold / hot water according to the present invention, in any of the cooling operation and the heating operation, And hot water can be obtained through heat exchange between the discharge refrigerant of the high temperature and high pressure compressor 212 and the supply water supplied from the hot water takeout pipe.

When the circulating water is supplied in order to obtain the hot water during the cooling operation, the circulating water supplied increases the condensing action of the refrigerant to increase the energy efficiency. In order to obtain the cold water during the cooling operation or the heating operation, The superheating degree of the cooling cycle is increased to prevent the compressor from being burned by the liquid compression. In particular, during the heating operation, the refrigerant discharge temperature of the discharge compressor is increased to increase the heating capacity at the load side.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a flowchart of a cooling operation in a water-based heat pump refrigerator capable of generating cold and hot water for four seasons according to the present invention;
Fig. 2 is an enlarged view of the main part of Fig. 1,
FIG. 3 is a flowchart of a heating operation in a water-based heat pump refrigerator capable of generating cold and hot water for four seasons according to the present invention,
4 is an enlarged view of the main part of Fig.

Hereinafter, preferred embodiments of a water-based heat pump chiller capable of generating four-season cold / hot water according to the present invention will be described.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a flow diagram of cooling operation in a water-based heat pump refrigerator capable of generating cold and hot water for four seasons according to the present invention, and FIG. 2 is an enlarged view of the main part of FIG.

As shown in Figs. 1 and 2, the flowchart of the cooling operation in the water-based heat pump refrigerator capable of generating the four-season cold /

A heat source device 200 for removing the heat of condensation of the circulating refrigerant by using a relatively low temperature heat source;

A heat source side heat exchanger (202) connected to one side of the heat source side device (200) and discharging the compressed heat of the refrigerant compressed by the compressor (212) to the heat source side device (200);

A load side heat exchanger (204) connected to one side of the heat source side heat exchanger (202) and absorbing the evaporation heat by the evaporation action of the refrigerant from the load side device (206);

The circulation water is cooled in the load side device 206 by the evaporation action of the refrigerant circulating inside the load side heat exchanger 204 connected to one side of the load side heat exchanger 204 and the cooling operation in the room is performed by the cooled cold water A load side device (206)

A four-way valve (208) connected to the other side of the load side heat exchanger (204) and providing a path for allowing the refrigerant to flow from the load side heat exchanger (204) to the cold water generation exclusive heat exchanger (210);

A cold water generating heat exchanger (not shown) which is connected to one side of the four-way valve (208) to cool the circulating water supplied to the cold water generating device through heat exchange with the low temperature low pressure refrigerant flowing through the four- (210);

A compressor 212 connected to one side of the cold water generating exclusive heat exchanger 210 to compress a refrigerant flowing in a low temperature and low pressure state to make a high temperature and a high pressure;

And a hot water generation dedicated heat exchanger 214 connected to one side of the compressor 212 for heating the circulating water circulating through the hot water valve exclusive heat exchanger 214 by the refrigerant that has received the compression heat and turned into a high temperature, .

Reference numeral 300 denotes a filter dryer, and reference numeral 302 denotes an expansion valve.

The cooling operation in the system diagram of the water-based heat pump refrigerator capable of generating the four-season cold / hot water as described above will be described.

First, the heat source side apparatus 200 removes the heat of condensation of the refrigerant in a high-temperature and high-pressure state in the heat source-side heat exchanger 202 by using the heat source of the circulating water inside the heat source device 200 which is relatively low in temperature compared to the condensed refrigerant.

The heat source side heat exchanger 202 is connected to one side of the heat source side device 200 and uses the heat source of the heat source side device 200 to remove the heat of the refrigerant circulating inside the heat source side heat exchanger 202, send.

The filter dryer 300 removes the foreign matter of the refrigerant circulating therein, and then sends the refrigerant from which the foreign substance is removed to the expansion valve 302.

The expansion valve 302 expands the condensed refrigerant in a high-temperature and high-pressure state to a low-temperature and low-pressure state, and then sends it to the load side heat exchanger 204.

The load side heat exchanger 204 removes the heat of the circulating water by the evaporating action of the circulating refrigerant circulating in the circulating water circulating in the load side device 206 and then circulates the evaporated refrigerant through the four- .

The circulation water circulating in the load side device 206 is cooled by the refrigerant evaporating action in the load side heat exchanger 204 and then sent to the room to cool the room.

Then, the four-way valve 208 sends the low-temperature and low-pressure refrigerant to the cold water generating heat exchanger 210 connected to one side

The cold water generating exclusive heat exchanger 210 cools the circulating water circulating through the cold water generating exclusive heat exchanger 210 by the low temperature low pressure refrigerant to produce cold water.

The cold water generating heat exchanger 210 sends low-temperature and low-pressure refrigerant to the compressor 212 connected to one side.

The compressor 212 compresses the refrigerant flowing into the low-temperature low-pressure state to a high-temperature and high-pressure state.

The compressor 212 sends compressed high-temperature and high-pressure refrigerant to the hot water generating heat exchanger 214 connected to one side.

The hot water generating heat exchanger 214 heats the circulating water of the hot water generating dedicated unit by using the compressed heat of the compressed refrigerant flowing into the hot water generating heat exchanger 214 into the hot water and then circulates the hot water through the heat source side heat exchanger 202 ).

FIG. 3 is a flowchart of a heating operation in a water-based heat pump refrigerator capable of generating cold and hot water for four seasons according to the present invention, and FIG. 4 is an enlarged view of the essential part of FIG.

As shown in Figs. 3 to 4, the flowchart of the heating operation in the water-based heat pump refrigerator capable of generating the four-season cold /

A heat source device 200 for supplying evaporation heat to the circulating refrigerant using a heat source having a relatively higher temperature than that of the evaporation refrigerant;

A heat source side heat exchanger (202) connected to one side of the heat source device (200) and receiving evaporation heat by the evaporation action of the refrigerant from the heat source side device (200) to evaporate the refrigerant to maintain a low temperature and low pressure gas state;

A load-side heat exchanger (204) connected to one side of the heat source-side heat exchanger (202) to remove the heat of condensation of the high temperature and high pressure refrigerant by the load side device (206);

A four-way valve (208) connected to the other side of the load side heat exchanger (202) and providing a path for allowing refrigerant to flow from the load side heat exchanger (202) to the cold water generation exclusive heat exchanger (210);

A cold water generating heat exchanger (not shown) which is connected to one side of the four-way valve (208) to cool the circulating water supplied to the cold water generating device through heat exchange with the low temperature low pressure refrigerant flowing through the four- (210);

A compressor 212 connected to one side of the cold water generating exclusive heat exchanger 210 for receiving the heat of evaporation and converting the heat of evaporation into a compressed heat of high temperature and high pressure;

A compressor 212 connected to one side of the cold water generating exclusive heat exchanger 210 to compress a refrigerant flowing in a low temperature and low pressure state to make a high temperature and a high pressure;

And a hot water generation dedicated heat exchanger 214 connected to one side of the compressor 212 for heating the circulating water circulating through the hot water valve exclusive heat exchanger 214 by the refrigerant that has received the compression heat and turned into a high temperature, .

Reference numeral 300 denotes a filter dryer, and reference numeral 302 denotes an expansion valve.

In the heating operation in the system diagram of the water-based heat pump refrigerator capable of generating the four-season cold / hot water as described above,

First, the heat source side apparatus 200 supplies the heat of evaporation to the heat source side heat exchanger 202 by the heat source of the internal circulating water, which is relatively higher in temperature than the evaporation refrigerant in the heat source side heat exchanger 202.

The heat source side heat exchanger 202 is connected to one side of the heat source side device 200 and receives the heat of evaporation from the heat source side device 200 to evaporate the circulating refrigerant in the heat source side heat exchanger 202, The evaporated refrigerant is sent to one side of the four-way valve (208) connected to the other side of the heat source side heat exchanger (202).

The four-way valve (208) sends the low-temperature and low-pressure refrigerant to the cold water generating heat exchanger (210) connected to one side.

The cold water generating exclusive heat exchanger 210 cools the circulating water circulating through the cold water generating exclusive heat exchanger 210 by the low temperature low pressure refrigerant to produce cold water.

The cold water generating heat exchanger 210 sends low-temperature and low-pressure refrigerant to the compressor 212 connected to one side.

The compressor 212 compresses the refrigerant flowing into the low-temperature low-pressure state to a high-temperature and high-pressure state.

The compressor 212 sends compressed high-temperature and high-pressure refrigerant to the hot water generating heat exchanger 214 connected to one side.

The hot water generating heat exchanger 214 heats the circulating water of the hot water generating dedicated unit by using the compressed heat of the compressed refrigerant flowing into the hot water generating heat exchanger 214 into hot water and then supplies the heat to the load side heat exchanger 204 through the other side of the four- Lt; / RTI >

The load side heat exchanger 204 heats the circulating water by the condensing action of the circulating refrigerant circulating in the circulating water circulating in the load side device 206 and then circulates the condensed refrigerant to one side of the expansion valve 308 Lt; / RTI >

The circulating water circulating in the load side device 206 is heated by the refrigerant condensation action in the load side heat exchanger 204 and then sent to the room to heat the room.

The four-way valve 302 expands the high-temperature, high-pressure internal circulating refrigerant condensed by the load side device 206 to bring it into a low-temperature and low-pressure state, and then sends it to the filter dryer 300.

The filter dryer 300 removes the foreign matter of the refrigerant circulating therein, and then sends the refrigerant from which the foreign substances have been removed to the heat source side heat exchanger 202.

The foregoing description of the invention is merely exemplary of the invention and is used for the purpose of illustration only and is not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

200: Heat source side device
202: heat source side heat exchanger
204: Load side heat exchanger
206: Load side device
208: Four-way valve
210: Exclusive heat exchanger for generating cold water
212: compressor
214: Heat exchanger dedicated to generating hot water
300: Filter dryer
302: expansion valve

Claims (4)

A four-way valve (208) connected to the other side of the load side heat exchanger (204) and providing a path for allowing the refrigerant to flow from the load side heat exchanger (204) to the cold water generation exclusive heat exchanger (210);
A cold water generating heat exchanger (not shown) which is connected to one side of the four-way valve (208) to cool the circulating water supplied to the cold water generating device through heat exchange with the low temperature low pressure refrigerant flowing through the four- (210);
A compressor 212 connected to one side of the cold water generating exclusive heat exchanger 210 to compress a refrigerant flowing in a low temperature and low pressure state to make a high temperature and a high pressure;
And a hot water generation dedicated heat exchanger 214 connected to one side of the compressor 212 to heat the circulating water circulating through the hot water valve exclusive heat exchanger 214 by the refrigerant which has received the compression heat and turned into a high temperature, Features a water-based heat pump freezer that can generate cold and hot water for four seasons.
A heat source device 200 for removing the heat of condensation of the circulating refrigerant by using a relatively low temperature heat source;
A heat source side heat exchanger (202) connected to one side of the heat source side device (200) and discharging the compressed heat of the refrigerant compressed by the compressor (212) to the heat source side device (200);
A load side heat exchanger (204) connected to one side of the heat source side heat exchanger (202) and absorbing the evaporation heat by the evaporation action of the refrigerant from the load side device (206);
The circulation water is cooled in the load side device 206 by the evaporation action of the refrigerant circulating inside the load side heat exchanger 204 connected to one side of the load side heat exchanger 204 and the cooling operation in the room is performed by the cooled cold water A load side device (206)
A four-way valve (208) connected to the other side of the load side heat exchanger (204) and providing a path for allowing the refrigerant to flow from the load side heat exchanger (204) to the cold water generation exclusive heat exchanger (210);
A cold water generating heat exchanger (not shown) which is connected to one side of the four-way valve (208) to cool the circulating water supplied to the cold water generating device through heat exchange with the low temperature low pressure refrigerant flowing through the four- (210);
A compressor 212 connected to one side of the cold water generating exclusive heat exchanger 210 to compress a refrigerant flowing in a low temperature and low pressure state to make a high temperature and a high pressure;
And a hot water generation dedicated heat exchanger 214 connected to one side of the compressor 212 to heat the circulating water circulating through the hot water valve exclusive heat exchanger 214 by the refrigerant which has received the compression heat and turned into a high temperature, Features a water-based heat pump freezer that can generate cold and hot water for four seasons.
A four-way valve (208) connected to the other side of the load side heat exchanger (202) and providing a path for allowing the refrigerant to flow from the load side heat exchanger (202) to the cold water generation exclusive heat exchanger (210);
A cold water generating heat exchanger (not shown) which is connected to one side of the four-way valve (208) to cool the circulating water supplied to the cold water generating device through heat exchange with the low temperature low pressure refrigerant flowing through the four- (210);
A compressor 212 connected to one side of the cold water generating exclusive heat exchanger 210 for receiving the heat of evaporation and converting the heat of evaporation into a compressed heat of high temperature and high pressure;
A compressor 212 connected to one side of the cold water generating exclusive heat exchanger 210 to compress a refrigerant flowing in a low temperature and low pressure state to make a high temperature and a high pressure;
And a hot water generation dedicated heat exchanger 214 connected to one side of the compressor 212 to heat the circulating water circulating through the hot water valve exclusive heat exchanger 214 by the refrigerant which has received the compression heat and turned into a high temperature, Features a water-based heat pump freezer that can generate cold and hot water for four seasons.
A heat source device 200 for supplying evaporation heat to the circulating refrigerant using a heat source having a relatively higher temperature than that of the evaporation refrigerant;
A heat source side heat exchanger (202) connected to one side of the heat source device (200) and receiving evaporation heat by the evaporation action of the refrigerant from the heat source side device (200) to evaporate the refrigerant to maintain a low temperature and low pressure gas state;
A load-side heat exchanger (204) connected to one side of the heat source-side heat exchanger (202) to remove the heat of condensation of the high temperature and high pressure refrigerant by the load side device (206);
A four-way valve (208) connected to the other side of the load side heat exchanger (202) and providing a path for allowing refrigerant to flow from the load side heat exchanger (202) to the cold water generation exclusive heat exchanger (210);
A cold water generating heat exchanger (not shown) which is connected to one side of the four-way valve (208) to cool the circulating water supplied to the cold water generating device through heat exchange with the low temperature low pressure refrigerant flowing through the four- (210);
A compressor 212 connected to one side of the cold water generating exclusive heat exchanger 210 for receiving the heat of evaporation and converting the heat of evaporation into a compressed heat of high temperature and high pressure;
A compressor 212 connected to one side of the cold water generating exclusive heat exchanger 210 to compress a refrigerant flowing in a low temperature and low pressure state to make a high temperature and a high pressure;
And a hot water generation dedicated heat exchanger 214 connected to one side of the compressor 212 to heat the circulating water circulating through the hot water valve exclusive heat exchanger 214 by the refrigerant which has received the compression heat and turned into a high temperature, Features a water-based heat pump freezer that can generate cold and hot water for four seasons.

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