KR101992056B1 - Multifunctional air conditioner - Google Patents

Abstract

The present invention provides a multifunctional indoor air conditioner, comprising: an air purification module sucking indoor air and filtering harmful substances in air; a cooling and heating module controlling temperature of the indoor air; a humidity control module formed to provide moisture or suck moisture in the air so that humidity of the air can be adjusted in a predetermined range; and an auxiliary power module configured to convert heat energy generated while the air conditioner is operated into electric energy and secure auxiliary power for operating the air conditioner.

Description

{MULTIFUNCTIONAL AIR CONDITIONER}

The present invention relates to an indoor air conditioner having various functions, and more particularly, to an indoor air conditioner having functions of fine dust removal, temperature control, humidification or dehumidification of air in a series of flows, The present invention relates to a multifunctional indoor air conditioner capable of generating power according to a predetermined condition, thereby preventing unexpected situations such as an external power being cut off.

An air conditioner is a device that keeps indoor air in a pleasant state, and is often called a cooling device. Such an air conditioner adjusts a certain space to a suitable temperature, humidity and air flow distribution for human activity and at the same time removes dust and the like in the air. Particularly recently, the demand for multi-use air conditioners has been increasing due to the increase of fine dust and heat.

Regarding air purifying technology, Korean Patent No. 10-0789555 entitled 'Air Purifying Air Conditioning Apparatus and Air Purifying Air Conditioning Method' (hereinafter referred to as 'Patent Document 1') saves heat energy required for humidification, And simultaneously removing the soluble gas impurity component present in the air to be treated.

Patent Document 1 discloses a humidity control apparatus for controlling the temperature of air to a predetermined temperature and an air flow rate control apparatus for controlling the amount of processing air to perform such a function. The cooling dehumidification purifying section is constituted by a coil, The cooling water is cooled and dehumidified by cold water in the air washer by the cold water, and at the time of performing cooling and dehumidification, secondary removal is performed by condensation occurring on the surface of the coil, and based on the temperature of the air to be treated, And the control of the cold water supplied to the coil by the humidity control device based on the humidity of the air to be treated is performed as a control performed independently of the room temperature control device by the air flow rate control device.

Thus, in Patent Document 1, an attempt is made to process humidity and other elements in the flow of the desired air, rather than controlling only one parameter, e.g., temperature.

However, in the structure of Patent Document 1, it is impossible to solve (super) removal of fine dust and the like, temperature control, humidification and dehumidification at one time, and means for supporting power used in a series of processing There is a problem in that there is no method that can cope with an unexpected situation such as a power failure due to a large power consumption.

Regarding the indoor pollutant removal technology, Korean Patent Registration No. 10-0528119 'Air Purification Device' (hereinafter referred to as 'Patent Document 2') bypasses sensible heat and latent heat to raise outdoor air temperature And minimizes the temperature difference of the indoor and outdoor air by lowering the indoor air temperature during the low season, thereby preventing the sudden change of the temperature, and recovering the heat energy for cooling and heating, thereby minimizing the waste of heat energy.

In order to perform such a function, in Patent Document 2, during the process of ventilating indoor / outdoor air by the air supply and exhaust fan, heat energy for cooling and heating is recovered from the indoor air discharged to the outside, and heat exchange for filtering harmful substances part; An introduction air purifying unit for increasing the cleanliness and comfort of the air by sequentially passing introduced air passing through the total heat exchanging unit in the order of a photocatalyst, a humidifier, and a heater; An intake and exhaust duct provided with a flow path for exhausting polluted air, a branch duct which branches from the intake and exhaust duct and communicates with a plurality of zones, and a branch duct which is provided at an end of the branch duct, A diffuser for diffusing air, an intake and exhaust unit having an air distributor in which a plurality of air flow holes are formed between intake and exhaust ducts and branch ducts, and the like.

In this way, Patent Document 2 discloses technical ideas for controlling the air quality and temperature of the room to realize energy saving.

However, in the structure of Patent Document 2, the air filtering, the temperature control, the humidification and the dehumidification can not be solved at once in one flow, and the saving of the temperature also has a problem that the thermal efficiency is lowered only by using the indoor / outdoor temperature difference.

Regarding the temperature and humidity control technology, Korean Patent Registration No. 10-1499572 entitled 'Air conditioning system for controlling temperature and humidity, cleaning and drying' (hereinafter referred to as 'Patent Document 3' The temperature of the incoming air can be controlled by utilizing a simple technical configuration.

Patent Document 3 discloses a louver that uniformizes the wind direction of the incoming air to realize such a function; A nozzle for spraying particulate water into the space at the side of the louver; An eliminator for preventing the water of the fine particles from being discharged to the outside while permitting inflow and outflow of air from the side of the nozzle and passing only clean air; A blower for sucking air from the side of the eliminator; And a water treatment facility installed at one side of the drainage area formed at the lower end of the elevator.

Patent Document 3 proposes an improved technology than the prior art in that the function of the cleaner is similar to that of controlling the humidity of the air and the temperature control function is provided. However, since humidification and dehumidification are not separated in the humidity control portion, As in Patent Document 1, there is no means for assisting the power used in a series of processing, so there is no power consumption and there is no way to cope with an unexpected situation such as a power failure Is still present.

Therefore, it is possible to carry out various functions such as fine dust removal, temperature control, humidification or dehumidification in a series of flows, and a technique for saving or reusing the power used for performing these functions .

Korean Patent No. 10-0789555 Korean Patent No. 10-0528119 Korean Patent No. 10-1499572

The multifunctional indoor air conditioner according to the present invention has been developed in order to solve the above-mentioned problems of the prior art, and presents the following problems to be solved.

First, we want to provide an air conditioner that can solve air filtering, temperature control, humidification and dehumidification in a single flow at a time.

Second, we try to produce auxiliary power for driving the air conditioner by using waste heat generated during device operation.

The solution of the present invention is not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

The multifunctional indoor air conditioner according to the present invention has the following problems in order to solve the above problems.

The multifunctional indoor air conditioner according to the present invention comprises an air purifying module for filtering indoor air and filtering harmful substances in the air, an air conditioning module for controlling the temperature of the indoor air, and a water purifier for adjusting the humidity of the air to a predetermined range. And an auxiliary power module formed to absorb the moisture in the air and to secure the auxiliary power for driving the apparatus by converting thermal energy generated during operation of the apparatus into electric energy .

The auxiliary power module of the multifunctional indoor air conditioner according to the present invention includes a thermally conductive member for absorbing heat generated when the modules are driven and a seeback effect and a peltier effect of the thermally conductive member connected to the thermally conductive member, effect to generate auxiliary power.

The humidity control module of the multifunctional indoor air conditioner according to the present invention includes: a humidification unit that receives water from the outside and injects water from the upper part to the lower part; and a dehumidifying unit And a control unit.

The cooling / heating module of the multifunctional indoor air conditioner according to the present invention includes a plurality of microtubules extending long in the direction of air flow, and a cooling pipe is disposed between the microtubules to absorb heat of air passing through the microtubule Or to transfer heat to the air passing through the microtubule.

The humidifying means of the multifunctional indoor air conditioner according to the present invention includes a water tank in which the sprayed water is stored, and the cooling water pipe is connected to the water tank and conveys heat received from the cooling / heating module to stored water And a part of the thermal conductor of the auxiliary power module is disposed inside the water tank, so that the waste heat generated in the apparatus is utilized for the production of auxiliary power.

The humidifying means of the multifunctional indoor air conditioner according to the present invention includes a plurality of water injection nozzles, and the water injection nozzle adjusts the spray angle based on the difference between the humidity of the present air and the target humidity, And the density is changed.

The plurality of water injection nozzles of the multifunctional indoor air conditioner according to the present invention are arranged so as to be laterally symmetrical with respect to an imaginary center line extending up and down, And one of the water jet nozzles to be disposed is formed to paired water to jet the water toward the same target point.

The water injection nozzle disposed on the left side of the multifunctional indoor air conditioner according to the present invention includes the a1 nozzle, the a2 nozzle and the a3 nozzle sequentially arranged from the center portion, and the water injection nozzle disposed on the right side sequentially Wherein the a1 nozzle and the b2 nozzle inject water toward the first target point (p1) disposed on the center line, and the a2 nozzle and the b3 nozzle are disposed on the center line of the b1 nozzle, the b2 nozzle and the b3 nozzle, is formed so as to inject water toward the second target point (p2) disposed at a position higher than the first target point (p1).

The multifunctional indoor air conditioner according to the present invention further includes a case surrounding the cooling / heating module, wherein a heat conductor is formed on the inner surface of the case and an insulator is formed on the outer surface of the case to prevent heat inside the heating / Is formed.

The multifunctional indoor air conditioner according to the present invention is characterized in that the air purifying module, the cooling / heating module, and the humidity control module are arranged in a tunnel form stacked on each other so that the room air has temperature, humidity, and cleanliness set by the user .

The multifunctional indoor air conditioner according to the present invention having the above-described configuration provides the following effects.

First, unlike the conventional method of individually improving the temperature, humidity and cleanliness of the room air in purifying the indoor air, the room air itself is purified, thereby providing a more pleasant indoor air environment to the people.

Second, since only one air conditioner is operated without using any separate outdoor unit in cleaning indoor air, it is possible to minimize the causes of resource waste and environmental pollution caused by the use of outdoor unit and the use of many devices have.

Third, by using auxiliary power generation module, not only efficiency of energy use is enhanced, but also indoor air environment can be created for a certain period of time in unexpected situations such as external power cutoff.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

1 is a conceptual diagram of a multifunctional indoor air conditioner according to an embodiment of the present invention.
2 is a conceptual diagram of an auxiliary power generation module according to an embodiment of the present invention.
FIG. 3A is a cross-sectional view of a cooling / heating module according to an embodiment of the present invention.
3B is a side cross-sectional view of the cooling / heating module shown in FIG. 3A.
4 is a conceptual diagram of an air conditioning module according to another embodiment of the present invention.
5 is a conceptual diagram of a humidifying means according to an embodiment of the present invention.
6 is a conceptual diagram for explaining a driving mechanism of a water injection nozzle according to an embodiment of the present invention.
7 is a conceptual diagram of dehumidifying means according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings. In the present specification, the same or similar reference numerals are given to different embodiments in the same or similar configurations. As used herein, the singular forms "a", "an" and "the" include plural referents unless the context clearly dictates otherwise.

In addition, the suffix "module" and " part "for constituent elements used in the following description are given or mixed in consideration of ease of specification, and do not have their own meaning or role.

1 is a conceptual diagram of a multifunctional indoor air conditioner 10 according to an embodiment of the present invention.

Referring to FIG. 1, the multifunctional indoor air conditioner 10 may include a plurality of tunnels 100 having different functions. The tunnels 100 may be formed so that the air introduced into the apparatus sequentially passes one over the other, as shown in FIG.

More specifically, the indoor air conditioner 10 according to the present invention includes modules for performing an air cleaning function, a cooling / heating function, a humidifying function and a dehumidifying function, and each module can be disposed in a different tunnel.

The first tunnel 110 is equipped with an air purification module, and can perform the function of cleaning the air by sucking indoor air.

The air purification module may include a plurality of different types of filters. For example, the air purification module includes a pre-filter 111 for primarily filtering large dust particles floating in the air, a HEPA filter 112 for filtering minute dust particles smaller than the particles filtered by the pre- , A deodorizing filter 113 for removing harmful gas such as toluene to remove odors that may occur in the room and making the air more pleasant, and the like.

In addition, a blower may be disposed at one end of the first tunnel 110 so that the purified air can easily proceed to the second tunnel 120.

The second tunnel 120 is equipped with the cooling / heating module 121 to cool / heat the cleaned air to perform the cooling / heating function.

The cooling / heating module 121 effectively cools or heats the clean air delivered from the first tunnel 110. A heat absorbing material is applied to the cooling / heating module 121 so that endothermic or exothermic reaction can be continuously generated in the tunnel.

1, a cooling / heating module of a micro tube 121b type is illustrated. However, the cooling / heating module of the present invention can be implemented in various forms, and the structure of a conventional cooling / heating module is introduced, It is possible.

The fan 120 may be disposed at one end of the second tunnel 120 so that the air that has been cooled can be easily advanced to the third tunnel 130.

The third tunnel 130 is equipped with a humidity control module to perform humidification or dehumidification of moisture in the air.

The humidity control module may include a humidifying unit 131 that receives water from the outside and injects water from the upper part to a lower part, and a dehumidifying unit 132 that is configured to absorb moisture in the air.

The humidifying means 131 includes a plurality of water jet nozzles, and the water jet nozzles are formed to be capable of jetting water in the form of water streams, water falls, mist, or the like.

Only one of the humidifying means 131 and the dehumidifying means 132 can be selectively used, and the humidifying means 131 and the dehumidifying means 132 can be set to be driven to be mutually organic. For example, the humidifying means 131 can control the humidity in a large range and the dehumidifying means 132 can be driven to control the humidity in the fine range. More specifically, the humidifying means 131 generates a humidity similar to the target humidity by adjusting the water injection amount and the spraying angle. When the humidity of the air becomes close to the target humidity, the dehumidifying means 132 is driven to absorb the moisture in the humidified air to correct the minute humidity difference.

In addition, according to another embodiment of the present invention, the third tunnel 130 may further include a switching module 133 for adding a perfume to the air. In one embodiment, the evolving module 133 may include a perfume permeable porous plate. When the user adjusts the degree of the fragrance, the porous plate rotates to adjust the contact area with the air passing through the third tunnel 130.

In addition, the tuning module 133 may be formed to be driven with the humidity control module. For example, if the humidity regulated in the humidity control module is high, the contact area of the porous plate with the air can be narrowed, and if the humidity regulated in the humidity control module is low, the contact area with the air can be widened.

The dehumidifying means 132 and the porous plate may be in the form of a rotating plate as shown in FIG. 7, or may be formed in a blind form that can be lifted up or down.

A fan unit 134 may be disposed at one end of the third tunnel 130 for discharging air that has been cooled and heated to the outside of the apparatus.

The air conditioner 10 according to an embodiment of the present invention may further include a water supply module 210 for supplying water required for the humidifying unit 131. [ The water supply module 210 may include a water purification device. In addition, the air conditioner 10 may include a wastewater storage module 220 that functions to store and discharge wastewater.

In addition, the air conditioner 10 may include an auxiliary power module 230 that converts electric energy generated during driving the apparatus of the air conditioner 10 into electric energy to generate auxiliary electric power. The auxiliary power module 230 may include an electrically rechargeable battery (a battery), a plurality of thermoelectric elements, and a thermal conductor that will replace the power at the time of external power interruption.

In addition, the air conditioner 10 may include a control unit (not shown) for driving the respective modules. The control unit can control each module to be independently driven or to control the organic driving between the modules.

2 is a conceptual diagram of an auxiliary power generation module according to an embodiment of the present invention.

Referring to FIG. 2, the auxiliary power module 230 may include a thermally conductive element that absorbs heat generated when the apparatus of the air conditioner 10 is driven, a seeback effect of the thermally conductive element connected to the thermally conductive element, The peltier effect can be used to generate auxiliary power.

As shown, the wastewater storage module 220 includes a water tank for storing the water used in the humidifying means 131. Water absorbs the heat inside the device during the humidification process and the temperature rises.

According to another embodiment of the present invention, a cooling pipe 121a, which absorbs heat in the cooling / heating means, is connected adjacent to the water tank so as to transfer the heat absorbed during cooling to the water stored in the water tank, Can be absorbed from the water stored in the water tank.

As shown, a portion of the first thermal conductor 410 of the auxiliary power module 230 is disposed within the water tank to utilize the waste heat of the stored water for auxiliary power production. The first thermoelectric element 410 is in contact with the first thermoelectric element 411 and the first thermoelectric element 411 is arranged in contact with the second thermoelectric conductor 420. Accordingly, power is generated in the first thermoelectric element 411 by the temperature difference in the process of transferring the heat of the first thermoelectric conductor 410 to the second thermoelectric conductor 420. As shown, this structure is enclosed by a heat insulating case to increase thermal efficiency.

The second thermoconductor 420 is in contact with the second thermoelectric element 421 and the second thermoelectric element 421 is disposed in contact with the third thermoelectric conductor 430. The heat generated by the second thermoelectric element 420 is transferred to the third thermoelectric conductor 430 through the second thermoelectric element 421, As shown, this structure is enclosed by a heat insulating case to increase thermal efficiency.

The third thermoelectric conductor 430 is in contact with the third thermoelectric element 431 and the third thermoelectric element 431 is in contact with the fourth thermoelectric conductor 440 and the fourth thermo conductor 440 is in contact with the fourth thermoelectric element 441, And the fourth thermoelectric element 441 is disposed so as to be in contact with the fifth heat conductor 450.

The fifth heat conductor 450 may be connected to the cooling pipe 121a of the cooling / heating module 121.

According to this structure, power generated by the temperature difference can be produced in the process that the heat held by the first heat conductor 410 and the fifth heat conductor 450 is transmitted to the thermoelectric elements and the heat conductors connecting the heat.

3 to 4 are embodiments of the air conditioning module 121 that can be applied to the present invention.

3A is a cross-sectional view of a cooling / heating module 121 according to an embodiment of the present invention, FIG. 3B is a side cross-sectional view of the cooling / heating module 121 shown in FIG. 3A, Air conditioning module 121 according to another embodiment of the present invention.

3A and 3B, the cooling / heating module 121 includes a plurality of microtubules 121b extended in the direction of air flow, and a cooling pipe 121a is disposed between the microtubules 121b Is configured to absorb heat of air passing through the microtubule (121b) or to transfer heat to air passing through the microtubule (121b).

Passes through the long microtubule 121b, increases the speed of the air, and increases the surface area, thereby facilitating absorption or release of heat. A cooling pipe 121a is disposed between the microtubules 121b to absorb the heat of the air passing through the microtubule 121b or to provide heat to the air.

Referring to FIG. 4, the cooling / heating module 121 may include a plurality of cooling / heating members 121c in a prism shape. The cooling / heating members 121c may be arranged in a zigzag manner so that air flows around the inside of the cooling / heating module 121.

As shown, since the cooling / heating members 121c are provided with a plurality of protrusions, the air passing through the cooling / heating module 121 generates an intermediate intermediate vortex. At this time, since the cooling pipe 121a is connected to the cooling and heating members 121c, the air having a large contact area absorbs or discharges heat more efficiently.

FIG. 5 is a conceptual diagram of a humidifying means 131 according to an embodiment of the present invention, and FIG. 6 is a conceptual diagram illustrating a driving mechanism of a water injection nozzle according to an embodiment of the present invention.

5, the humidifying means 131 includes a plurality of water injection nozzles, and the water injection nozzle is formed to be capable of spraying water in the form of a water stream, a waterfall, a mist, or the like. The humidifying means 131 generates a humidity similar to the target humidity by adjusting the water injection amount and the spraying angle.

In FIG. 5, six water injection modules 131a to 131f are arranged symmetrically for convenience of explanation.

The water injection nozzle adjusts the injection angle based on the difference between the current humidity and the target humidity to change the water flow density in the air passage area.

For example, FIG. 5 (a) shows a case where the water jet nozzle injects water perpendicularly to the bottom when the difference between the humidity of the present air and the target humidity is small. In FIG. 5 (b) When the difference between the humidity of the air and the target humidity is large, the water jetting nozzle is inclined so as to form an angle with the floor to spray the water.

More specifically, in FIG. 5 (b), the water injection nozzles disposed on the left side in the center portion are inclined to the right to spray water, and the water injection nozzles disposed on the right side in the center portion are inclined to the left to spray water, Cross each other.

Referring to FIGS. 5 (a) and 5 (b), it can be seen that the water flow density in the air flow space A is changed by such driving.

That is, in (a), the water streams are parallel to each other, but in (b), the water streams intersect with each other, and thus the contact area between the air and the water stream in the air flow space A increases.

6 is a conceptual diagram for explaining a driving mechanism of a water injection nozzle according to an embodiment of the present invention. More specifically, FIG. 6 illustrates a water spray nozzle driving method for maximizing the humidification efficiency.

According to Fig. 6, the plurality of water injection nozzles are arranged to be laterally symmetrical with respect to a virtual center line extending vertically. That is, the a1 to a6 nozzles are arranged sequentially from the imaginary center line to the left side, and the b1 to b6 nozzles are arranged from the imaginary center line to the right side. The nozzles may be independently driven by a control unit.

Any one of the water spray nozzles disposed on the left side of the center line and the water spray nozzles disposed on the right side may be formed to paired water to spray water toward the same target point.

For example, the first target point p1, the second target point p2, the third target point p3, and the like may be sequentially formed on the imaginary center line from the bottom. A pair of left and right water jet nozzles are formed to jet water toward a specific target point.

More specifically, the a1 nozzle and the b2 nozzle can inject water toward the first target point p1, and the a2 nozzle and the b3 nozzle can inject water toward the second target point p2. As the water jet nozzles disposed at different distances from the center are paired to spray the water to the target point, the water stream becomes asymmetric and it becomes possible to maximize the water flow density of the air flow space A by the asymmetric water stream.

7 is a conceptual diagram of the dehumidifying means 132 according to an embodiment of the present invention.

Referring to FIG. 7, the dehumidifying means 132 may be a paper filter or a paper filter for humidity control.

The dehumidifying means 132 may be in the form of a plurality of rotary plates as shown or may be formed in a blind shape that can be raised or lowered vertically.

To control humidity, each turntable can be driven independently.

For example, when there is no need to absorb moisture, all the rotating plates are opened as shown in (A), and all the rotating plates can be closed when moisture is absorbed.

For fine dehumidification, the neighboring turntable can rotate at a certain angle in the opposite direction as in (b).

In addition, the rotary plate can be driven in association with the deflection module 133. For example, when the tuning module 133 is located at the top of the third tunnel 130 (or when the blinds of the tuning module 133 are lifted up), the turntable rotates as in (C) It is possible to reduce the aroma added to the air.

According to the embodiments of the present invention described above, unlike the conventional method of individually improving the temperature, humidity, and cleanliness of the air in purifying the indoor air, the indoor air itself is cleaned, In order to purify indoor air, only one air conditioner is operated without using a separate outdoor unit. Therefore, it is necessary to use the outdoor unit and to prevent the waste of resources and environmental pollution Can be minimized. In addition, it is possible to enhance the efficiency of energy use by using the auxiliary power generation module, and to provide a comfortable indoor air environment for a certain period of time even in unexpected situations such as an external power cutoff.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

10: Multifunctional air conditioner 100: Tunnels
110: first tunnel 120: second tunnel
121: cooling / heating module 121a: cooling pipe
121b: microtubule 121c: heating / cooling member
130: Third tunnel 131: Humidifying means
132: dehumidifying means 133:
220: wastewater storage module 230: auxiliary power module

Claims (10)

An air purification module for sucking indoor air to filter harmful substances in the air;
An air conditioning module for controlling the temperature of the indoor air;
A humidity control module configured to apply moisture or absorb moisture in the air so that the humidity of the air can be adjusted to a predetermined range; And
And an auxiliary power module formed to convert thermal energy generated during operation of the apparatus into electric energy to secure auxiliary power for driving the apparatus,
The auxiliary power module includes:
An auxiliary power is generated using a seeback effect and a peltier effect of a heat conductor for absorbing heat generated when the modules are driven and a thermoelectric element connected to the heat conductor,
The humidity control module includes:
A humidifying means for supplying water from the outside and spraying water from the upper portion to the lower portion; And
And a dehumidifying means formed of a paper filter or a water filter for absorbing moisture in the air,
Wherein the humidifying means includes a plurality of water injection nozzles,
The water injection nozzle adjusts the spray angle based on the difference between the current humidity and the target humidity to change the water flow density in the air passage area,
Wherein the plurality of water injection nozzles are arranged so as to be laterally symmetrical with respect to an imaginary center line extending vertically,
Wherein any one of the water jet nozzles disposed on the left side of the center line and the water jet nozzles disposed on the right side are formed in pairs to jet water toward the same target point,
The water injection nozzle disposed on the left side includes a1 nozzle, a2 nozzle and a3 nozzle sequentially arranged from the center portion, and the water injection nozzle disposed on the right side includes a b1 nozzle, a b2 nozzle and a b3 nozzle / RTI >
The a1 nozzle and the b2 nozzle inject water toward the first target point p1 disposed on the center line, and the a2 nozzle and the b3 nozzle are located at a second target point p2 located at a position higher than the first target point p1 on the center line And the water is sprayed toward the indoor unit.
delete delete The method according to claim 1,
The heating /
A plurality of microtubules extending in the direction of travel of the air, wherein a cooling pipe is disposed between the microtubules to absorb heat of air passing through the microtubules or to transfer heat to air passing through microtubules Air conditioner.
5. The method of claim 4,
Wherein the humidifying means includes a water tank in which the sprayed water is stored, and the cooling pipe is formed to transfer the heat transferred from the cooling / heating module to the stored water as it passes adjacent to the water tank, Wherein a part of the conductor is disposed inside the water tank to utilize the waste heat generated in the apparatus for the production of auxiliary electric power.
delete delete delete The method according to claim 1,
And a case surrounding the cooling / heating module,
Wherein a heat conductor is formed on an inner surface of the case and an insulator is formed on an outer surface of the case so that heat inside the heating and cooling module is not emitted to the outside.
The method according to claim 1,
Wherein the air purifying module, the cooling / heating module, and the humidity control module are disposed in a stacked tunnel form so that the indoor air has temperature, humidity, and cleanliness predetermined by the user.

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