KR101214892B1 - Constant temperature clean dehumidifier - Google Patents

Abstract

PURPOSE: A dehumidifier is provided to eliminate moisture by cooling a room, and to save power consumption as an electric heater is not necessary. CONSTITUTION: A dehumidifier comprises a first heat exchanger(10), a HEPA filter(90), a compressor(20), second and third heat exchangers, a blower(50), and a controller(60). The controller comprises a plurality of valves and a control module. The control module controls the operation of each valve according to an operation mode. The control module selectively opens and closes the valves in a partial dehumidifying mode and partial cooling mode. The refrigerant discharged from the compressor flows into one of the condensers in the second heat exchanger or third heat exchanger. [Reference numerals] (10) First heat exchanger; (20) Compressor; (30) Second heat exchanger; (40) Third heat exchanger; (50) Blower; (60) Controller; (66) Control module; (AA) Suction air; (BB) Discharge air

Description

Constant Temperature Clean Dehumidifier

The present invention relates to a constant temperature clean dehumidifying apparatus, and more particularly, to a constant temperature clean dehumidifying apparatus capable of removing impurities and moisture in indoor air while cooling a room through a cooling dehumidifying operation.

In general, the higher the humidity in the air, the higher the discomfort index and adversely affect health. In addition, high humidity in the room adversely affects the living environment, such as the growth of mold or harmful insects that like high humidity.

Humidity can be divided into absolute humidity and relative humidity, which mean the absolute amount of water vapor contained in the air, and relative humidity means the amount of water vapor in the atmosphere relative to the amount of saturated steam at the current temperature.

On the other hand, in order to make the indoor air comfortable, it is appropriate to keep the relative humidity at about 40% to 60%. In other words, as the amount of saturated water vapor increases or the amount of water vapor in the air decreases, the relative humidity decreases. However, since the amount of saturated water vapor increases with temperature, the amount of saturated water vapor can be increased by heating the air, thereby reducing the relative humidity. have.

In addition, in order to lower the relative humidity, it is also possible to directly remove the moisture in the air, such as a device that creates a comfortable air by adjusting the relative humidity in a way to directly remove the moisture is called a dehumidifier.

The dehumidifier is mainly used in factories and the like, but nowadays, it is also used in general households. For example, Patent Document 1 discloses a dehumidifier using a desiccant and an electric heater.

However, the conventional dehumidifier is a dry dehumidifier using an electric heater, such as an electric heater, and removes moisture in the air by a heating method, thus causing excessive power consumption due to the operation of the electric heater.

In addition, since the conventional dehumidifying apparatus can perform only a dehumidifying function, there is a problem in that a cooling apparatus must be additionally installed in order to cool the room while dehumidifying.

KR 1005982140000 B1

The present invention has been made to solve the problems described above, and provides a constant temperature clean dehumidification apparatus that can remove impurities and moisture in the indoor air while cooling the room through a cooling dehumidification operation, the object is .

The constant temperature clean dehumidifying apparatus according to an embodiment of the present invention for achieving the above object is a first heat exchanger for dehumidifying the air by condensing moisture in the air while cooling the air through heat exchange with the air using a refrigerant; ; A HEPA filter for sterilizing and purifying harmful air in the air sucked into the first heat exchanger; A compressor for compressing the refrigerant discharged from the first heat exchanger; A second heat exchanger and a third heat exchanger for raising a temperature of air while condensing the refrigerant through heat exchange with air using the refrigerant discharged from the compressor, and transferring the condensed refrigerant to the first heat exchanger; A blower which sucks indoor air and generates wind power so that the sucked indoor air passes through the first heat exchanger and the second heat exchanger in order and flows back into the room; Preferably it comprises a controller for controlling the flow rate of the refrigerant discharged from the compressor flowing to the second heat exchanger and the third heat exchanger.

Here, it is preferable that the said 2nd heat exchanger and the said 3rd heat exchanger are equipped with at least 2 or more condenser, respectively.

In addition, the controller opens and closes a flow path connecting between the outlet side of the compressor and the inlet side of each condenser provided in the second heat exchanger, respectively, and the outlet side of the compressor and each of the condenser provided in the third heat exchanger. A plurality of valves each opening and closing a flow path connecting the inlet sides; It is preferable that the control module for controlling the opening and closing operation of each of the plurality of valves in accordance with the operation mode.

Here, the control module is provided with any one of the condenser provided in the second heat exchanger and the third heat exchanger provided in the second heat exchanger by selectively opening and closing the plurality of valves in the partial dehumidification-partial cooling mode operation. It is preferable to distribute each of them to any one of the condenser.

In the dehumidification-only mode operation, the control module may selectively open and close the plurality of valves to introduce refrigerant discharged from the compressor into only the condenser provided in the second heat exchanger.

In addition, the control module, in the cooling only mode operation, it is preferable to selectively open and close the plurality of valves to introduce the refrigerant discharged from the compressor only into the condenser provided in the third heat exchanger.

According to the constant temperature clean dehumidification apparatus according to the present invention, by removing the impurities and moisture in the indoor air while cooling the room through a cooling dehumidification operation, it is not necessary to equip the heating device, it is possible to perform the dehumidification function by minimizing the power consumption, In addition, there is an effect that can cool the room without installing a separate cooling device.

1 is a block diagram showing the configuration of a constant temperature clean dehumidification apparatus according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the constant temperature dehumidifying apparatus according to a preferred embodiment of the present invention.

1, the constant temperature clean dehumidification apparatus according to an embodiment of the present invention is a first heat exchanger for dehumidifying the ambient air by condensing moisture in the ambient air while cooling the ambient air through heat exchange with the ambient air using the refrigerant 10, a HEPA Filter 90 for sterilizing and purifying harmful air in the air sucked into the first heat exchanger 10, and a compressor for compressing the refrigerant discharged from the first heat exchanger 10. A second to increase the temperature of the ambient air while condensing the refrigerant through heat exchange with the ambient air using the refrigerant discharged from the compressor 20, and to transfer the condensed refrigerant to the first heat exchanger 10. The heat exchanger (30) and the third heat exchanger (40) and the indoor air are sucked and the sucked indoor air passes through the first heat exchanger (10) and the second heat exchanger (30) in order to flow back into the room. Blower 50 for generating wind power, Is discharged from the compressors (20) comprises a second heat exchanger 30 and third heat exchanger 40. The controller 60 for controlling the operation of the constant-temperature clean dehumidifier to control the flow rate of the refrigerant flowing in.

Here, the outlet side of the first heat exchanger 10 and the inlet side of the compressor 20, the outlet side of the compressor 20, and the inlet side of each of the second heat exchanger 30 and the third heat exchanger 40, A flow path for the refrigerant flow is connected to the outlet side of each of the second heat exchanger 30 and the third heat exchanger 40, and the inlet side of the first heat exchanger 10, and the second heat exchanger 30 and the third heat exchanger. A flow path connecting between the outlet side of each of the groups 40 and the inlet side of the first heat exchanger 10 is provided with an expansion mechanism 70 for controlling the flow rate of the refrigerant and for expanding the refrigerant. In this case, an accumulator 80 may be provided in a passage connecting the outlet side of the first heat exchanger 10 and the inlet side of the compressor 20.

Accordingly, the compressor 20, the second heat exchanger 30 / the third heat exchanger 40, the expansion mechanism 70, and the first heat exchanger 10 compress, condensate, and expand the refrigerant flowing along the flow path. By evaporation, a dehumidification / cooling cycle is formed.

Such, The constant temperature clean dehumidifying apparatus according to the present invention may be formed, for example, in a separate or integral type. In the case of a separate type, the first heat exchanger 10, the second heat exchanger 30, and the blower 50 may include an air inlet and an air outlet. The compressor 20, the third heat exchanger 40, the controller 60, and the accumulator 80 may be installed in an outdoor unit. On the other hand, in the case of an integral type, the installation zones of the first heat exchanger 10, the second heat exchanger 30, and the blower 50, in which the air intake port and the air discharge port are formed, the compressor 20, and the third heat exchanger 40 ), The controller 60 and the accumulator 80 are preferably installed in a single case so as to isolate the third heat exchanger 40 can be installed by air or water cooling depending on the conditions.

Furthermore, the constant temperature clean dehumidifying apparatus according to the present invention preferably further comprises a power supply unit for supplying operating power to the compressor 20, the blower 50, the controller 60 and the accumulator 80.

Here, the first heat exchanger 10 is for the flow of the refrigerant discharged from the second heat exchanger 30 or the third heat exchanger 40, or the second heat exchanger 30 and the third heat exchanger 40. It may consist of an evaporator including a plurality of coil pipes.

The first heat exchanger 10 exchanges the refrigerant of the low temperature and low pressure liquid state introduced through the expansion mechanism 70 through the internal coil pipe to exchange heat with air, thereby cooling the air while cooling the refrigerant at low temperature and low pressure gas. Will be converted to state. At this time, the moisture in the air by the heat exchange action of the first heat exchanger 10 is condensed on the surface of the first heat exchanger 10 to generate condensed water, the condensed water generated in this way is Falls along the surface are removed through drains.

In addition, the compressor 20 compresses the refrigerant of the low temperature low pressure gas state discharged from the first heat exchanger 10 to a high pressure.

The second heat exchanger 30 and the third heat exchanger 40 each include at least two condensers in the form of coil tubes. In each condenser 32, 34, 42, 44 provided in the second heat exchanger 30 and the third heat exchanger 40, a refrigerant in a high-temperature, high-pressure gas state discharged from the compressor 20 flows and is in a liquid state. To condense.

The expansion mechanism 70 adjusts the flow rate of the refrigerant flowing from the first heat exchanger 10 to the second heat exchanger 30, and expands the liquid refrigerant flowing from the first heat exchanger 10. This results in a low temperature low pressure liquid state with low temperature and pressure. For example, the expansion mechanism 70 may be formed of an electromagnetic expansion valve or a capillary tube.

On the other hand, the controller 60 opens and closes a flow path connecting between the outlet side of the compressor 20 and the inlet side of each condenser 32, 34 provided in the second heat exchanger 30, respectively. A plurality of valves 61, 62, 63, 64 for opening and closing the flow path connecting between the outlet side and the inlet side of each condenser 42, 44 provided in the third heat exchanger 40, and according to the operation mode It may include a control module 66 for controlling the opening and closing operations of each of the plurality of valves (61, 62, 63, 64).

Here, the control module 66 determines the operation mode of the constant temperature clean dehumidifying apparatus according to the indoor humidity and the room temperature detected by the humidity sensor, the temperature sensor, and the like, and according to the determined operation mode, the plurality of valves 61, By selectively opening and closing 62, 63, and 64, the constant temperature clean dehumidifier is operated in a dehumidification only mode, a cooling only mode, or a partial dehumidification-partial cooling mode.

On the other hand, the control module 66 is the operation mode of the constant temperature clean dehumidifying apparatus selected by the user input through the user interface equipped with input buttons for each operation mode, such as the dehumidification-only mode, the cooling-only mode and the partial dehumidification-partial cooling mode. Thus, by selectively opening and closing the plurality of valves 61, 62, 63, 64, the constant temperature clean dehumidifying apparatus may be operated in a dehumidification only mode, a cooling only mode, or a partial dehumidification-partial cooling mode.

That is, the control module 66 selectively opens and closes the plurality of valves 61, 62, 63, and 64 during the dehumidification-only mode operation of the constant temperature clean dehumidifying device to store the refrigerant discharged from the compressor 20 in the second heat exchanger ( Only the condensers 32 and 34 provided at 30 are introduced, and in the cooling only mode operation of the constant temperature clean / dehumidifying apparatus, the plurality of valves 61, 62, 63, and 64 are selectively opened and closed from the compressor 20. The discharged refrigerant is introduced only into the condensers 42 and 44 provided in the third heat exchanger 40.

In addition, the control module 66 selectively opens and closes the plurality of valves 61, 62, 63, and 64 during the partial dehumidification-partial cooling mode operation of the constant temperature clean dehumidifier to remove the refrigerant discharged from the compressor 20. One of the condensers 32 and 34 provided in the second heat exchanger 30 and one of the condensers 42 and 44 provided in the third heat exchanger 40 are distributed and introduced.

Meanwhile, the HEPA filter 90 is installed at the air inlet side of the first heat exchanger 10 to sterilize and purify the harmful air in the air sucked into the first heat exchanger 10 by the blower 50 to remove it. Supply to one heat exchanger (10).

The constant temperature clean dehumidifying apparatus according to the present invention is not limited to the above-described embodiments, and may be variously modified and implemented within the range permitted by the technical idea of the present invention.

10: first heat exchanger 20: compressor
30: second heat exchanger 32, 34, 42, 44: condenser
40: third heat exchanger 50: blower
60: controller 61, 62, 63, 64: valve
66: control module 70: expansion mechanism
80: Accumulator 90. Hepa Filter

Claims (6)

A first heat exchanger configured to dehumidify the air by condensing moisture in the air while cooling the air through heat exchange with air using a refrigerant;
A HEPA filter for sterilizing and purifying harmful air in the air sucked into the first heat exchanger;
A compressor for compressing the refrigerant discharged from the first heat exchanger;
A second heat exchanger and a third heat exchanger for raising a temperature of air while condensing the refrigerant through heat exchange with air using the refrigerant discharged from the compressor, and transferring the condensed refrigerant to the first heat exchanger;
A blower which sucks indoor air and generates wind power so that the sucked indoor air passes through the first heat exchanger and the second heat exchanger in order and flows back into the room;
It comprises a controller for controlling the flow rate of the refrigerant discharged from the compressor flowing to the second heat exchanger and the third heat exchanger,
The controller,
Opening and closing a flow path connecting between the outlet side of the compressor and the inlet side of each condenser provided in the second heat exchanger, and connecting the outlet side of the compressor and the inlet side of each condenser provided in the third heat exchanger. A plurality of valves for opening and closing the flow paths, respectively;
It includes a control module for controlling the opening and closing operation of each of the plurality of valves in accordance with the operation mode,
The control module,
In the partial dehumidification-partial cooling mode, the plurality of valves are selectively opened and closed to distribute the refrigerant discharged from the compressor to any one of the condenser provided in the second heat exchanger and the condenser provided in the third heat exchanger. Constant temperature clean dehumidifier characterized in that the inlet by.
The method of claim 1,
The second heat exchanger and the third heat exchanger,
A constant temperature clean dehumidifier comprising at least two condensers, respectively.
delete delete The method of claim 1,
The control module,
In the dehumidification-only mode operation, the plurality of valves are selectively opened and closed so that the refrigerant discharged from the compressor flows only into the condenser provided in the second heat exchanger.
6. The method according to claim 1 or 5,
The control module,
In the cooling only mode operation, the plurality of valves by selectively opening and closing the constant temperature clean dehumidifier characterized in that the refrigerant discharged from the compressor flows only into the condenser provided in the third heat exchanger.

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