KR20070087542A - Cooling equipment using as the heat pump for water cooled - Google Patents

Abstract

A cooling device using a water cooled heat pump is provided to obtain hot water in a first water cooled heat exchanger and cool air in a second water cooled heat exchanger, and to reduce costs for boiler purchase and construction by including the first water cooled heat exchanger and the second air cooled heat exchanger. A cooling device using a water cooled heat pump comprises a heat pump(10). The heat pump is installed so that a compressor(13), a first water cooled heat exchanger(11), an expansion valve(14) and a second water cooled heat exchanger(12) are connected to each other so as to form one cycle, and connected to a four-way valve(15) for converting flow direction of a refrigerant suctioned into the compressor and discharged from the compressor. The first heat water cooled exchanger has a water cooled cooling through a water supply pipe path(21) supplied from a water supply source(20), and is arranged so that the water supply pipe path is reached to a hot water use place. A cooling duct(31) is connected and installed in the second air cooled heat exchanger so that cooling air heat-exchanged in the second air cooled heat exchanger is reached to a compartment(30).

Description

Cooling equipment using as the heat pump for water cooled}

The present invention relates to a cooling device using a water-cooled heat pump, and more particularly, to a water-cooled type by providing a first heat exchanger in a water-cooled manner and a second heat exchanger in an air-cooled manner in a conventional heat pump. Since the first heat exchanger can obtain hot water and the second heat exchanger can obtain cold air, the cooling device uses a water-cooled heat pump that can use hot water without a separate boiler while cooling in summer using the same.

In general, a building is equipped with a cooling device and a heating device for living in a pleasant atmosphere throughout the four seasons, and a cooling and heating device for cooling and heating as needed by using a heat pump integrating them together. Developed.

Among these cooling and heating devices, both the air conditioner and the air conditioner are condensed and liquefied by forcibly circulating the refrigerant, and then expanded and vaporized to obtain a comfortable indoor environment by lowering the temperature inside the room to a predetermined temperature with the heat of vaporization. Doing. This cooling cycle is configured to circulate in the order of condenser-expansion valve-evaporator-compressor after suction compression by the compressor. However, the heat pump capable of both cooling and heating has a difference in that a four-way valve is further added to change the flow direction of the refrigerant discharged from the compressor.

In such a cooling device, only the cold air cooled by taking hot air from the evaporator to take heat away is used for cooling, and the hot air generated by cooling the refrigerant in the condenser is released as it is. There was a problem that due to the large energy loss.

In addition, general households, as well as accommodations including large buildings need hot water for showering or bathing in the summer, and thus, the boiler has to be operated in the summer to increase the loss of oil or electrical energy.

The present invention has been researched and developed in order to solve the conventional problems as described above, the object is to provide the first heat exchanger in the water-cooled (water) type and the second heat exchanger in the conventional heat pump (air) Since the hot water can be obtained from the water-cooled first heat exchanger and the cold air can be obtained from the second heat exchanger, it is possible to use hot water without a separate boiler while cooling it in the summer using it, thereby pursuing effective energy utilization. It is to provide a cooling device using a water-cooled heat pump to reduce the cost of boiler purchase and construction.

In addition, another object of the present invention is to provide a control damper in the cooling duct between the second heat exchanger and the compartment space, or to control the amount of air flowing into the compartment space by adding an external discharge duct provided with another control damper It is possible to control the temperature of the compartment space, open the external discharge duct side and block the cooling duct to provide a cooling device using a water-cooled heat pump to enable the production of hot water even in the winter without the need for cold air.

The cooling device using a water-cooled heat pump according to the present invention for achieving the above object is connected to the compressor, the first heat exchanger, the expansion valve and the second heat exchanger to form one cycle of the refrigerant sucked into the compressor discharged The heat pump is provided with a four-way valve connected to switch the flow direction, the first heat exchanger of the heat pump is provided in a water-cooled type to cool through the water supply line from the water supply source until the water supply line to the hot water use place The second heat exchanger is provided with a cooling duct connected to the cold air heat exchanged in the second heat exchanger until the compartment space.

In the cooling device using a water-cooled heat pump according to the present invention, the cooling duct may be provided with a control damper for controlling the temperature of the compartment space by adjusting the amount of air flowing into the compartment space.

In addition, in the cooling device using a water-cooled heat pump according to the present invention, the cooling duct is provided with an external discharge duct branched from the previous position of the control damper, the heat exchange air heat exchanged by the second heat exchanger in the external discharge duct is discharged to the outside Another control damper is provided to control the amount of discharge.

In the cooling device using a water-cooled heat pump according to the present invention, the second heat exchanger is characterized in that the ventilation induction duct is connected so that the air sucked for heat exchange is sucked from the compartment space.

In the cooling apparatus using a water-cooled heat pump according to the present invention, the second heat exchanger is installed in a machine room, a boiler room, a substation room, etc., which generate a lot of heat to facilitate heat recovery by heat exchange.

As described in detail above, according to the cooling apparatus using the water-cooled heat pump according to the present invention, by providing a first heat exchanger in a water-cooled manner and a second heat exchanger in an ordinary heat pump, Since hot water can be obtained from the water-cooled first heat exchanger and cold air can be obtained from the second heat exchanger, the hot water can be used without a separate boiler while cooling in the summer. It has the effect of reducing the purchase and construction costs.

In another aspect, the present invention provides a partition space chamber by providing a control damper in the cooling duct between the second heat exchanger and the compartment space, or by adding an external discharge duct provided with another control damper therein. It is possible to control the temperature, and the external discharge duct side can be opened and cooling duct can be blocked has the effect that it can be useful because it is possible to produce hot water even in winter without cold air.

Hereinafter, a cooling device using a water-cooled heat pump according to the present invention will be described in detail based on the accompanying drawings.

1 is a configuration diagram schematically showing a cooling apparatus using a water-cooled heat pump according to an embodiment of the present invention.

As shown in the figure, the heat pump 10 is connected to the compressor 13, the first heat exchanger 11, the expansion valve 14 and the second heat exchanger 12 to form a cycle, the compressor A four-way valve 15 for switching the flow direction of the refrigerant sucked into and discharged from (13) is provided.

The first heat exchanger (11) is a condenser for condensing a high-pressure gas refrigerant into a liquid, and the first heat exchanger (11) is provided with a water-cooling type for cooling through a water supply line (21) supplied from a water supply source (20). The water supply line 21 is provided to the hot water use place 22.

The second heat exchanger 12 is an evaporator that exchanges heat with vaporization heat required as the refrigerant condensed in the first heat exchanger 11 is expanded through the expansion valve 14 and then vaporized, which is the second heat exchanger. When the refrigerant vaporized in (12) absorbs vaporization heat, cold air is obtained by taking heat away from the outside air sucked by the blowing fan 12a of the second heat exchanger 12.

The cooling duct 31 is provided between the second heat exchanger 12 and the compartment space 30 so as to cool by supplying cold air obtained from the second heat exchanger 12 to the compartment space 30. The cooling duct 31 is provided with a control damper 32 for adjusting the amount of cold air supplied to the compartment space 30.

In the cooling apparatus using the water-cooled heat pump according to the present invention configured as described above, the four-way valve 15 is selected to cool the heat pump 10 in the summer. At this time, the four-way valve 15 is connected so that the refrigerant is supplied from the compressor 13 to the first heat exchanger 11 through the four-way valve 15, so that the refrigerant is the compressor (13) → four-way valve (15) → first The cycle circulates from the first heat exchanger 11 to the expansion valve 14 to the second heat exchanger 12 to the compressor 13.

In more detail, the refrigerant is compressed by the compressor 13 and compressed at a high temperature and high pressure, and then heat is emitted from the first heat exchanger 11 that functions as a condenser, and the first heat exchanger 11 The refrigerant that has dissipated heat becomes low temperature low pressure in the second heat exchanger 12 functioning as an evaporator via the expansion valve 14 and absorbs external heat and then enters the compressor 13 through the four-way valve 15. After the compressor 13 is compressed to high temperature and high pressure again, it is continuously supplied to the first heat exchanger 11, thereby circulating in one cycle.

At this time, when the temperature of the second heat exchanger 12 is lower than the set temperature, the blower fan 12a installed in the second heat exchanger 12 is operated and the outside air is sucked in, and the outside air is sucked into the second heat exchanger 12. The heat of vaporization of the refrigerant vaporized in the second heat exchanger (12) during the passage of the cooling air becomes cold. Cooling air is supplied to the compartment space 30 through the cooling duct 31 to cool the air by taking heat away from the air and cooling the air, and by operating the control damper 32 of the cooling duct 31 By adjusting the amount of cold air, the temperature of the compartment space 30 can be controlled as desired by the user.

In this way, while the heat pump 10 is selected to be cooled and continuously operated, the refrigerant, which has become a high temperature and high pressure by the compressor 13, needs to dissipate sufficiently while passing through the first heat exchanger 11 to condense.

In other words, since cold water is continuously supplied from the water supply source 20 to the first heat exchanger 11 through the water supply line 21, the first heat exchanger 11 is sufficiently cooled and condensed, and as a result, the first heat exchanger 11 Cold water in the water supply line 21 is warmed while passing through the heat exchanger 11 to obtain warm hot water. Therefore, it is possible to obtain hot water necessary for a shower or a bath with the waste heat discarded by the first heat exchanger 11 during the cooling operation by using the heat pump 10 in the summer.

As described above, in the present invention, since the first heat exchanger 11 is water-cooled and the second heat exchanger 12 is air-cooled in the heat pump, the first heat exchanger is water-cooled. In (11), since hot water can be obtained and cold air can be obtained in the second heat exchanger 12, the hot water can be used without a separate boiler while cooling in the summer using this.

In particular, the main purpose of the installation of a cooling device using a water-cooled heat pump of the present invention is to obtain a hot water in the first heat exchanger 11, the second heat exchanger 12, the machine room, the boiler room, It can be installed in a compartment space 30, such as a substation room. If the second heat exchanger 12 is installed in the compartment space 30 in this way, the waste heat in the compartment space 30 can be recovered and cooled.

Figure 2 is a schematic diagram showing a cooling apparatus using a water-cooled heat pump of another embodiment according to the present invention. Here, since the configuration of the heat pump 10 is the same as in FIG. 1, a detailed description thereof will be omitted. However, the heat exchange air heat exchanged through the second heat exchanger 12 to the external discharge duct 33 is provided with an external discharge duct 33 branched from a position before the control damper 32 of the cooling duct 31. Another control damper 34 is provided to control the discharge amount discharged to the outside.

The cooling device using a water-cooled heat pump according to another embodiment of the present invention configured as described above can adjust the control damper 32 of the cooling duct 31 when cooling in the summer, so that the second heat exchanger 12 It is possible to adjust the amount of cold air supplied to the compartment space 30 through the cooling duct (31).

In addition, as described above, hot water may be usefully used in spring and autumn as well as especially in winter, whereas cold air generated in the second heat exchanger 12 is not required, so that the damper 32 of the cooling duct 31 is used. ) And by opening the control damper 34 of the external discharge duct 33 can prevent cold air from entering the room.

Therefore, as well as the control damper 32 in the cooling duct 31 between the second heat exchanger 12 and the compartment space 30, the external discharge duct 33 is provided with another control damper 34. By adjusting the amount of air introduced into the compartment space 30 is possible to control the temperature of the compartment space 30, the external discharge duct 33 side can be opened and the cooling duct 31 can block the cold air Hot water production is possible even during the winter season.

Figure 3 is a schematic diagram showing a cooling apparatus using a water-cooled heat pump of another embodiment according to the present invention. Here, the same configuration as in the other embodiment of FIG. 2 except that the ventilation induction duct 35 is connected to the second heat exchanger 12 so that the air sucked for heat exchange is sucked from the compartment space 30.

 The cooling device using a water-cooled heat pump according to another embodiment of the present invention configured as described above has a compartment space 30 to be cooled through a ventilation guide duct 35 when the second heat exchanger 12 is operated during cooling. Since the air is sucked in and cooled, the cooling effect can be obtained more efficiently as well as the ventilation in the compartment space 30.

The present invention can be usefully used in a water-cooled heat pump that can obtain hot water while cooling in summer, and a cooling device using the same.

1 is a schematic view showing a cooling apparatus using a water-cooled heat pump according to an embodiment of the present invention;

Figure 2 is a schematic view showing a cooling apparatus using a water-cooled heat pump of another embodiment according to the present invention,

Figure 3 is a schematic diagram showing a cooling apparatus using a water-cooled heat pump of another embodiment according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: heat pump 11: the first heat exchanger

12: second heat exchanger 12a: blowing fan

13: compressor 14: expansion valve

15: four-way valve 20: water supply

21: water supply line 23: hot water use

30: compartment space 31: air conditioning duct

32, 34: control damper 33: external discharge duct

35: ventilation guide

Claims (5)

The compressor, the first heat exchanger, the expansion valve and the second heat exchanger is installed to form a cycle, the heat pump is provided with a four-way valve for switching the flow direction of the refrigerant suctioned and discharged into the compressor, The first heat exchanger of the heat pump is provided in a water-cooled manner to cool through a water supply line supplied from a water supply source, and the water supply line is provided to a place where hot water is used, and the second heat exchanger includes cold air heat exchanged in the second heat exchanger. Cooling device using a water-cooled heat pump, characterized in that the cooling duct is connected to the compartment space chamber. The method of claim 1, The cooling duct is a cooling device using a water-cooled heat pump, characterized in that the control damper for adjusting the temperature of the compartment space by adjusting the amount of air flowing into the compartment space chamber. The method according to claim 1 or 2, The cooling duct is provided with an external discharge duct branched from the previous position of the control damper and another control damper is provided for controlling the discharge amount of the heat exchange air heat exchanged in the second heat exchanger to the outside in the external discharge duct. Cooling device using water-cooled heat pump. The method of claim 3, The second heat exchanger is a cooling device using a water-cooled heat pump, characterized in that the ventilation induction duct is connected to suck the air sucked for the heat exchange from the compartment compartment. The method of claim 1, The second heat exchanger is a cooling device using a water-cooled heat pump, characterized in that installed in the machine room, boiler room, substation room with a lot of heat to facilitate heat recovery.

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