KR101209335B1 - Air cooling and heating apparatus - Google Patents

Abstract

PURPOSE: An air cooling and heating device is provided to reduce cooling and heating energy by not requiring a dehumidifier and a humidifier. CONSTITUTION: An air cooling and heating device is composed of a main body(10), filters(20), heat exchange tubes(30), a water supply unit, a heat medium supply unit, and a controller. The filters are installed in the air inlets(13) of the main body. The heat exchange tubes are installed on the outer surfaces of the filters. The water supply unit supplies water from a water tank to the filters. The heat medium supply unit selectively supplies low-temperature or high-temperature heat media to the heat exchange tubes. The controller controls the water supply unit and the heat medium supply unit. When the device is in an air cooling mode, water is supplied from the water tank to the heat exchange tubes. When the device is in an air heating mode, heat media is supplied from the heat medium supply unit to the filters.

Description

Air cooling and heating apparatus

The present invention relates to a cold and hot air fan, and more particularly, to a cold and hot air fan for dehumidifying the outside air to vaporize, cool, or heat and discharge cold or warm air into the room.

Generally, evaporative coolers (hereinafter referred to as 'cold fans') and warm air fans are used as indoor cold and hot air devices that can save energy. The cold air is evaporatively cooled as air passes through a filter soaked in water. It is a device for supplying cold air to the room, the hot air heater is a device for heating the air is indirectly heated while passing the air between the device is installed the electric heating heater.

Among these, the air blower has a problem in that the high humidity of the outside air decreases the evaporation efficiency and the evaporation cooling efficiency greatly decreases. This problem is solved by installing a dehumidifier to dehumidify the outside air and supply the dehumidified air to the cold air.

On the contrary, since the warm air heater is indirectly heated through an electric heating element, moisture in the air is removed, and as a result, too dry air is discharged into the room. This problem is solved by installing a separate humidifier in the room. .

As such, the conventional cold air heater and the warm air heater affect the humidity in the outside air and the humidity in the air discharged into the room. Therefore, separate household appliances such as a dehumidifier and a humidifier must be used together. There is also the hassle.

The present invention has been made to solve the problems of the prior art as described above, can be used by integrating the cold air and hot air in one device, it is possible to maintain the proper vaporization cooling efficiency without using a dehumidifier or a humidifier separately, At the same time, there is a purpose to provide a cold and hot air fan that can maintain the humidity of the air discharged into the room.

An object of the present invention as described above is a cold air blower, the inner space is provided with a water tank at the bottom, the air inlet through which the outside air is introduced into the inner space, and the air outlet through which the air introduced into the inner space is discharged to the outside, respectively A formed body; A filter installed at the air inlet; A heat exchange tube installed on an outer surface of the filter; A water supply device for supplying water from the tank to the filter; A heat medium supply unit for selectively supplying a low or high temperature heat medium supplied to the heat exchange tube; It is achieved by configuring a controller for controlling the operation of the water supply device and the heat medium supply portion.

At this time, the heat medium supply unit may be provided with a first flow path connected to the water tank, the water stored in the water tank is supplied to the heat exchange tube through the first flow path when operating as a cold air.

In addition, the heat medium supply unit is provided with a heating device, and a second flow path for connecting the heating device and the heat exchange tube is provided, and when operating a heat blower by heating the heat medium through the heating device to the heat exchange tube along the second flow path It can be carried out by supplying.

The controller controls the heat medium supply unit when operating as a cold air to supply water stored in the tank as a heat medium to the heat exchange tube to dehumidify moisture in the outside air to the outer surface of the heat exchange tube to dehumidify the air. The device is controlled to evaporate cooling while passing through the filter soaked in water, and when operating with a hot air blower, the filter is kept dry and the water is supplied to the heat exchange tube by heating the water through the heat medium supply unit to indirect heat exchange. Can be implemented to control.

At this time, the controller may be controlled to humidify the air discharged into the room by controlling the operation of the water supply device when operating as a hot air fan.

And condensation water condensation on the outer surface of the heat exchange tube when operating as a cold air can be carried out to be recovered into the tank.

According to the present invention, since a cold and hot air fan is implemented as a single device, there is no hassle of installing each device separately, and when the cold air is operated, the air is cooled by dehumidifying the outside air to improve the vaporization cooling efficiency. Humidity is adequately humidified, so pleasant air is supplied to the room.

And since the dehumidifier and the humidifier are not used separately, the heating and cooling energy is saved.

1 is a perspective view showing an embodiment of a cold air blower according to the present invention;
Fig. 2 is a sectional view of Fig. 1,
3 is a configuration diagram of a cold air blower according to the present invention,
4 is a configuration diagram showing an example of an operation of a cold air fan according to the present invention;
5 is a configuration diagram showing an example of the operation of the warm air fan according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a cold and hot air fan, which is large, as shown in Figure 1, the main body 10, the filter 20, the heat exchange tube 30, the water supply device 40, the heat medium supply unit 50 and the controller 60 ).

The main body 10 is a rectangular box for discharging air that is cooled or heated by the outside air introduced into the room, and the main body 10 has a lower portion as shown in FIGS. 1 and 2. An internal space 12 in which a water tank 11 is provided, an air inlet 13 through which external air flows into the internal space 12, and an air discharge port 14 through which air introduced into the internal space 12 is discharged to the outside. ) Are formed respectively.

At this time, the air inlet 13 is preferably formed on the side of the main body 10 so that a relatively large amount of outside air can be introduced into the main body 10.

In addition, a fan 15 for sucking and discharging outside air through the air inlet 13 is installed at the air discharge port 14 side of the main body 10, and the air discharge port 14 is connected to a duct (not shown) to the room. Cooled or heated air is discharged to the room.

Each filter 20 installed at the air inlet 13 is water-supplied and wetted by the water supply device 40 to be described later, and vaporized and cooled while the outside air passes through the filter 20 soaked in water. In addition, it serves to humidify the appropriate moisture in the heated air.

In addition, as foreign substances in the outside air are adsorbed to the filter 20 in the process of passing through the filter 20 soaked in water, relatively clean air may be supplied to the room.

The heat exchange tube 30 installed outside the filter 20 has a flow path through which a heat medium can pass, and water of low temperature or high temperature is supplied to the inside by a heat medium supply unit 50 to be described later.

At this time, when low-temperature water (heat medium) is supplied into the heat exchange tube 30, the moisture in the outside air is introduced into the main body 10 while the outside air is in contact with the outer surface of the heat exchange tube 30. 30) When the water is condensed and dehumidified on the outer surface and hot water (heat medium) is supplied, the outside air is heated.

The water supply device 40 for supplying water stored in the water tank 11 of the main body 10 to the filter 20 is largely provided with a flow path 41 connecting the filter 20 and the water tank 11 and the water tank 11. It includes a pump 42 is installed and connected to the flow path (41).

When the water in the water tank 11 is supplied to the filter 20 through the water supply device 40, the filter 20 is soaked in water, and the outside air passing through the filter 20 is vaporized, cooled, or heated dry air. Is humidified.

The heat medium supply unit 50 for selectively supplying low temperature or high temperature water to the heat medium supplied to the heat exchange tube 30 has a first flow path 51 connected to the water tank 11 and a heat medium. A heating device 52 for heating; A second flow path 51B connecting the heating device 52 and the heat exchange tube 30 is provided, wherein the heat medium may be implemented by selecting any one of various kinds for easy implementation by those skilled in the art. For example, it may be hot water heated by a boiler using a refrigerant gas used in a refrigeration cycle, a natural gas or a fossil fuel, a high temperature steam of a steam boiler, and in addition to exchanging water or air with waste heat or waste hot water of a factory. It may be carried out by supplying heated water or air to the heat exchange tube (30).

The heat medium supply unit 50 is the water stored in the water tank 11 is supplied to the heat exchange tube 30 through the first flow passage (51A) when the present invention operates as a cold air blower, the heating device 52 when operating as a hot air blower Water is heated and supplied to the heat exchange tube 30 along the second flow path 51B.

At this time, the first flow path 51 is not directly connected to the water tank 11, but is directly connected to the water pipe or the ground water pipe so that relatively low temperature water is directly supplied to the heat exchange tube 30 through the first flow path 51A. The tap water or ground water passing through the heat exchange tube 30 may be stored in the water tank 11 inside the main body 10 to be reused as the filter 20.

And the condensation water collected in the lower portion of the heat exchange tube 30 when controlled by the cold air may be configured to be collected in the water tank 11 by using a separate flow path, wherein the temperature of the condensation water is the temperature of the water stored in the water tank (11) It becomes relatively low temperature, and as a result, there is an effect of lowering the temperature of the water stored in the water tank 11, and thus the temperature of the water supplied to the filter 20 is lowered because the temperature of the water in the water tank 11 is lowered so that the vaporization cooling performance In addition, the present invention further improves the vaporization cooling performance because the dry air dehumidified by passing through the heat exchange tube 30 passes through the filter 20.

The controller 60 that controls the operation of the water supply device 40 and the heat medium supply unit 50 is installed inside the main body 10 and operated by electric energy such as a fan 15, a pump 42, and a heating device 52. It also controls the operation of), and may be implemented to display information such as the temperature of the cold and warm air and the operating time, it is preferable that the automatic control mode, manual control mode and timer setting and the like can be implemented.

The cold and hot air fan of the present invention configured as described above operates the cold and hot air fans by changing the control of the controller 60 according to the winter and summer seasons. Hereinafter, the method of operating the present invention as the cold and hot air fans will be described. The heat medium supply unit 50 will be described as using the water stored in the water tank 11 as a heat medium.

<When the cooler is in operation>

In summer, it is operated as a cold air blower, which controls the heat medium supply unit 50 through the controller 60 to supply water stored in the water tank 11 to the heat exchange tube 30 as shown in FIG. 4.

As the low temperature water passes through the heat exchange tube 30, the temperature of the heat exchange tube 30 is maintained at a temperature lower than the outside air temperature, and moisture in the outside air passing between them is transferred to the outer surface of the heat exchange tube 30. As moisture condenses, the outside air is dehumidified.

The dehumidified air passes through the filter 20 installed downstream of the heat exchange tube 30. At this time, the water supply device 40 is operated to supply the water stored in the water tank 11 to the filter 20. The wet air is dehumidified sufficiently. As a result, the dehumidified dry air is evaporated and cooled in the course of passing through the filter 20 to form a cold air of low temperature.

The low-temperature cold air generated in this way is discharged into the room along the air discharge port 14 by the operation of the fan 15.

<When the fan is operating>

In winter, it is operated with a warm air fan, and for this purpose, as shown in FIG. 5, the operation of the water supply device 40 is stopped and the surface of the filter 20 is kept dry and heated through the heat medium supply part 50. High temperature water (heat medium) is supplied to the heat exchange tube 30 to heat the heat exchange tube 30.

The low-temperature outdoor air passing between the heated heat exchange tubes 30 generates warm air through heat exchange, and the warm air passes through the filter 20 as it is and then indoors through the air outlet 14 by the operation of the fan 15. Discharged.

At this time, the water supply device 40 is a user can control the controller 60 manually or automatically controlled according to the humidity set by the timer setting or the humidity sensor to repeat the operation and stop for a certain time, in this case the filter 20 An appropriate amount of moisture is maintained to humidify the heated air passing through the filter 20, resulting in comfortable air that is relatively hotter than the outside air and maintains proper humidity.
Meanwhile, in the present invention, another filter 20 and the heat exchange tube 30 in front of or behind the filter 20 and the heat exchange tube 30 for the purpose of increasing the effects of the filter 20 and the heat exchange tube 30 respectively. ) May further be installed so that air passes through the heat exchange tube 30 and the filter 20 in turn, and then passes through the heat exchange tube 30 and the filter 20 again.

As described above, the present invention implements the cold air heater and the warm air fan as one device, thereby reducing installation space and cost, and performing dehumidification and humidification according to the selection of the cold and hot air modes, thereby providing more comfortable air to the room.

10: body 11: water tank
12: Interior 13: Air inlet
14: air outlet 15: fan
20: filter 30: heat exchange tube
40: water supply device 41: flow path
42: pump 50: heat medium supply unit
51A: Euro 1 51B: Euro 2
52: heating device 60: controller

Claims (6)

An inner space 12 provided with a water tank 11 at a lower portion, an air inlet 13 through which external air flows into the inner space 12, and air in which air introduced into the inner space 12 is discharged to the outside A main body 10 each having a discharge port 14 formed therein;
A filter 20 installed at the air inlet 13;
A heat exchange tube (30) installed on an outer surface of the filter (20);
A water supply device 40 for supplying water from the water tank 11 to the filter 20;
A heat medium supply unit (50) for selectively supplying a low or high temperature heat medium supplied to the heat exchange tube (30);
It includes a controller 60 for controlling the operation of the water supply device 40 and the heat medium supply unit 50,
The controller 60 controls the heat medium supply unit 50 when operating as a cold air to supply the water stored in the water tank 11 as the heat medium to the heat exchange tube 30 so that the moisture in the outside air is transferred to the heat exchange tube 30. Dehumidified by condensation on an outer surface, and the dehumidified air is controlled to be vaporized and cooled while passing through the filter (20) soaked in water by the water supply device (40); The filter 20 is maintained in a dry state when operating with a warm air heater, and the heating medium is heated through the heat medium supply unit 50 to be supplied to the heat exchange tube 30 to control indirect heat exchange with the outside air and at the same time, a manual control of the user. Alternatively, the hot and cold fan is characterized in that the water supply device 40 controls the heated air passing through the filter 20 to be humidified by repeating the operation and stopping for a predetermined time according to the humidity detected by the timer setting or the humidity sensor. .
The method according to claim 1,
The heat medium supply unit 50 is provided with a first flow path 51A connected to the water tank 11,
Cold air blower characterized in that the water stored in the water tank (11) through the first flow path (51A) is used as the heat medium of the heat medium supply unit (50) when operating as a cold air.
The method according to claim 1,
The heating medium supply unit 50 is provided with a heating device 52, the second flow path (51B) for connecting the heating device 52 and the heat exchange tube 30 is provided,
The hot and cold fan, characterized in that the heating medium is heated through the heating device (52) when supplied to the heat exchange tube (30) along the second flow path (51B).
delete The method according to claim 1,
The controller 60 controls the operation of the water supply device 40 when operating as a warm air fan to control the humidification of the air discharged into the room.
The method according to claim 1,
Condensation water condensation on the outer surface of the heat exchange tube (30) when operating as a cold air cooler, characterized in that recovered in the water tank (11).

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