CN215892598U - Water mist heat exchange air purification temperature and humidity adjusting device - Google Patents

Abstract

The utility model provides a water mist heat exchange air purification temperature and humidity adjusting device which comprises an air optimizing chamber, a heat exchange water supply device, a water atomizing device and a gas-liquid separator, wherein the air optimizing chamber is provided with a water inlet and a water outlet; air optimization room one end is equipped with inlet air channel, and the other end is equipped with the air-out passageway, air optimization room still includes atomizer chamber and gas-liquid separation room, heat transfer water supply installation sets up in the air optimization room outside, heat transfer water supply installation with water atomizer passes through the pipe connection, water atomizer sets up in the atomizer chamber, vapour and liquid separator sets up in the gas-liquid separation room, the atomizer chamber with the gas-liquid separation room is connected. In the water atomization process, the mist water and the air in the atomization chamber generate a heat exchange effect, so that the air temperature is adjusted. The air and the water are separated by the gas-liquid separator to be dehumidified, so that the humidity of the air discharged from the air outlet channel is controlled.

Description

Water mist heat exchange air purification temperature and humidity adjusting device

Technical Field

The utility model relates to the technical field of air purification and heat exchange equipment, in particular to a water mist heat exchange air purification temperature and humidity adjusting device.

Background

Chinese patent publication No. CN 111336617 a discloses a plasma coupled atomized air purification system, which utilizes water atomization process to achieve the effect of purifying air. However, as the humidity of the atomized air is increased, no specific humidity adjusting device is provided, on one hand, the excessive humidity can cause the excessive indoor humidity which is finally supplied with air, and the comfort degree is affected; on the other hand, the ventilation pipeline has overlarge humidity for a long time, so that the inside of the pipeline is easy to go moldy, and finally, the air is subjected to secondary pollution. In addition, if the air supply temperature needs to be adjusted, heat exchange equipment needs to be added continuously, and the complexity of the whole air optimization system is improved.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides the water mist heat exchange air purification temperature and humidity adjusting device, which has the advantages of simultaneously performing air purification, humidity adjustment and temperature adjustment, having compact structure and good air optimization effect and being capable of preventing secondary pollution of air caused by pipeline mildewing due to overlarge humidity.

In order to achieve the purpose, the utility model is realized by the following technical scheme: a water mist heat exchange air purification temperature and humidity adjusting device comprises: the system comprises an air optimization chamber, a heat exchange water supply device, a water atomization device and a gas-liquid separator; air optimization room one end is equipped with inlet air channel, and the other end is equipped with the air-out passageway, air optimization room still includes atomizer chamber and gas-liquid separation room, heat transfer water supply installation sets up in the air optimization room outside, heat transfer water supply installation with water atomizer passes through the pipe connection, water atomizer sets up in the atomizer chamber, vapour and liquid separator sets up in the gas-liquid separation room, the atomizer chamber with the gas-liquid separation room is connected.

Among the above-mentioned device, the air gets into the air from inlet air channel and optimizes the room, gets into the atomizer earlier and atomizes through water atomization plant and purifies, reentrant gas-liquid separation room separates air and water through vapour and liquid separator, dehumidifies to the humidity of air of control follow air-out passageway exhaust, wherein, water atomization plant links to each other with heat transfer water supply installation, and heat transfer water supply installation is used for providing the rivers that suit the temperature for water atomization plant. Therefore, in the water atomization process, the mist water and the air in the atomization chamber generate a heat exchange effect, so that the air temperature is adjusted. Optionally, the water atomization device is an atomization nozzle. The air purification, humidity regulation and temperature regulation are carried out simultaneously, the air purification device has the advantages of compact structure and good air optimization effect, and can prevent secondary pollution of air caused by pipeline mildewing due to overhigh humidity.

Furthermore, the water mist heat exchange air purification temperature and humidity adjusting device comprises a water heat exchanger and a water pump which are arranged in a reservoir. The water heat exchanger can be a set of water heating or refrigerating device, water in the water storage tank is adjusted to a proper temperature, and then the water after heat exchange is supplied to the water atomization device through the water pump.

Further, the water mist heat exchange air purification temperature and humidity adjusting device is characterized in that the gas-liquid separator is a centrifugal gas-liquid separator.

In the above-mentioned device, the gas-liquid separator is a centrifugal gas-liquid separator, and the centrifugal gas-liquid separator is the prior art, and as disclosed in chinese utility model patent CN211384171U, whose publication date is 2020, 9, month and 1, the principle is: the gas-liquid mixture enters the device through the gas inlet pipe, certain pressure is generated through the flow velocity of the gas-liquid mixture, and the pressure acts on blades of the impeller to enable the impeller to rotate to generate centrifugal force; because the density of the gas is different from that of the liquid, the liquid can leave the rotation center due to larger centrifugal force and is attached to the wall surface of the shell, and the liquid is collected downwards and discharged through the discharge pipe; the gas flows to the reflux cover through the impeller and the internal support and is discharged through the gas outlet pipe, so that the effect of separating the gas from the liquid is achieved. Preferably, the humidity can be adjusted by controlling the power of the centrifugal separator by controlling the power of the electric motor using an impeller driven by an electric motor.

Further, the water mist heat exchange air purification temperature and humidity adjusting device is characterized in that an air heat exchanger is arranged in the air optimizing chamber. The air heat exchanger is used for further adjusting the air temperature, the air heat exchanger is connected with a set of liquid circulation modules through pipelines, and heating and/or refrigerating devices are arranged in the liquid circulation modules. The liquid may be water or a refrigerant.

Further, the water mist heat exchange air purification temperature and humidity adjusting device is characterized in that a heat exchange pipeline is arranged in the air heat exchanger, and the heat exchange pipeline is connected with a heat exchange water supply device. Therefore, the functions of the heat exchange water supply device can be fully utilized, and the heat exchange water supply device has the advantages of energy conservation, environmental protection and high integration level.

Further, the water mist heat exchange air purification temperature and humidity adjusting device is characterized in that an air heat exchange chamber is further arranged in the air optimizing chamber, the air heat exchanger is arranged in the air heat exchange chamber, and the air heat exchange chamber is connected with the atomizing chamber and/or the gas-liquid separation chamber through a pipeline. The air heat exchange chamber is separately arranged, and the air heat exchanger is used for exchanging heat for air.

Further, according to the water mist heat exchange air purification temperature and humidity adjusting device, a humidity sensor and/or a temperature sensor are/is arranged in the air outlet channel.

In the above device, preferably, the humidity sensor is electrically connected to the gas-liquid separator controller, and the power of the gas-liquid separator is feedback-controlled by an input signal of the humidity sensor, so as to adjust the humidity. Preferably, the temperature sensor is electrically connected with the water heat exchanger controller, and the power of the water heat exchanger is controlled through the feedback of the input signal of the temperature sensor, so that the temperature is adjusted. Therefore, the temperature and the humidity can be controlled in real time, and the air optimization quality is improved. Optionally, an air speed sensor can be further arranged in the air outlet channel, and the air speed sensor is electrically connected with the air supply device controller. The wind speed at the tail end can be monitored and controlled in real time.

Further, the water mist heat exchange air purification temperature and humidity adjusting device comprises an atomization generating pool and an ultrasonic atomizer. By using the ultrasonic atomization process, negative oxygen ions can be generated, and the air quality is improved.

Furthermore, the water mist heat exchange air purification temperature and humidity adjusting device is characterized in that a heat insulation layer is arranged outside the air optimization chamber. Therefore, the temperature in the air optimization room can be ensured, the heat preservation performance is improved, and the energy consumption loss is reduced. Preferably, the air optimization outdoor layer is attached with a layer of rubber and plastic heat insulation cotton.

Further, a water smoke heat transfer air purification humidifying device that adjusts temperature, be equipped with the delivery port in the atomizer chamber, be equipped with the outlet in the gas-liquid separation room, still include the waste liquid collecting pit, the delivery port with the outlet pass through the pipeline with the waste liquid collecting pit links to each other. The water which is separated from the atomizing chamber and the gas-liquid separation chamber is treated in a centralized way, so that the environmental protection is improved.

The technical scheme shows that the utility model has the following beneficial effects:

1. the utility model provides a water mist heat exchange air purification temperature and humidity adjusting device, wherein air enters an air optimizing chamber from an air inlet channel, enters an atomizing chamber of the atomizing chamber firstly, is atomized and purified through a water atomizing device, then enters a gas-liquid separation chamber, is separated from air and water through a gas-liquid separator, and is dehumidified, so that the humidity of the air discharged from an air outlet channel is controlled, wherein the water atomizing device is connected with a heat exchange water supply device, and the heat exchange water supply device is used for supplying water to the water atomizing device with water flow with proper temperature. Therefore, in the water atomization process, the mist water and the air in the atomization chamber generate a heat exchange effect, so that the air temperature is adjusted. Therefore, the air purification, humidity adjustment and temperature adjustment are carried out simultaneously, the air purification device has the advantages of compact structure and good air optimization effect, and can prevent secondary pollution of air caused by pipeline mildewing due to overhigh humidity.

2. The utility model provides a water mist heat exchange air purification temperature and humidity adjusting device. The function of the heat exchange water supply device is fully utilized, and the heat exchange water supply device has the advantages of energy conservation, environmental protection and high integration level.

3. The utility model provides a water mist heat exchange air purification temperature and humidity adjusting device, wherein a humidity sensor and/or a temperature sensor are/is arranged in an air outlet channel. The humidity sensor is electrically connected with the gas-liquid separator controller, and the power of the gas-liquid separator is controlled through the feedback of an input signal of the humidity sensor, so that the humidity is adjusted. Preferably, the temperature sensor is electrically connected with the water heat exchanger controller, and the power of the water heat exchanger is controlled through the feedback of the input signal of the temperature sensor, so that the temperature is adjusted. The temperature and the humidity can be controlled in real time, and the air optimization quality is improved.

4. The utility model provides a water mist heat exchange air purification temperature and humidity adjusting device. By using the ultrasonic atomization process, negative oxygen ions can be generated, and the air quality is improved.

5. The utility model provides a water mist heat exchange air purification temperature and humidity adjusting device. Therefore, the temperature in the air optimization room is ensured, the heat preservation performance is improved, and the energy consumption loss is reduced.

6. The utility model provides a water mist heat exchange air purification temperature and humidity adjusting device, wherein a water outlet is arranged in an atomizing chamber, a water outlet is arranged in a gas-liquid separation chamber, the device also comprises a waste liquid collecting tank, and the water outlet are connected with the waste liquid collecting tank through a pipeline. Therefore, the water which is separated from the atomizing chamber and the gas-liquid separation chamber is treated in a centralized way, and the environmental protection is improved.

Drawings

FIG. 1 is a schematic structural diagram of a water mist heat exchange air purification temperature and humidity adjustment device with an atomization nozzle as the water mist device of the utility model;

FIG. 2 is a schematic structural diagram of a water mist heat exchange air purification temperature and humidity adjustment device using an ultrasonic atomization process in the water atomization device of the utility model;

FIG. 3 is a schematic structural diagram of a water mist heat exchange air purification temperature and humidity adjustment device with an air heat exchanger arranged in an air heat exchange chamber.

In the figure: 1-an air optimization chamber; 11-air inlet channel; 12-an air outlet channel; 13-an atomization chamber; 14-a gas-liquid separation chamber; 15-air heat exchange chamber; 2-heat exchange water supply device; 21-a water reservoir; 22-water heat exchanger; 23-a water pump; 3-a water atomization device; 31-an atomization generating pool; 32-an ultrasonic atomizer; 4-a gas-liquid separator; 5-an air heat exchanger; 51-a heat exchange conduit; 6-a humidity sensor; 7-a temperature sensor; 8-a waste liquid collecting tank; 131-a water outlet; 141-water outlet.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the utility model and are not to be construed as limiting the utility model.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Example 1

Referring to fig. 1, the water mist heat exchange air purification temperature and humidity adjustment device includes: the air optimizing chamber 1, the heat exchange water supply device 2, the water atomization device 3 and the gas-liquid separator 4. Wherein, the air optimizing chamber 1 is externally provided with a heat preservation layer, and in the embodiment, the outer layer of the air optimizing chamber 1 is attached with a layer of rubber and plastic heat preservation cotton. And, 1 one end in the air optimizing chamber is equipped with inlet air channel 11, and the other end is equipped with air-out passageway 12, air optimizing chamber 1 still includes atomizer chamber 13 and gas-liquid separation room 14, heat transfer water supply installation 2 sets up in the air optimizing chamber 1 outside, heat transfer water supply installation 2 with water atomizer 3 passes through the pipe connection, in this embodiment, water atomizer 3 is atomizer. The water atomization device 3 is provided in the atomization chamber 13, the gas-liquid separator 4 is provided in the gas-liquid separation chamber 14, and the atomization chamber 13 is connected to the gas-liquid separation chamber 14. Wherein, the heat exchange water supply device 2 comprises a water reservoir 21, a water heat exchanger 22 and a water pump 23 are arranged in the water reservoir. The gas-liquid separator 4 is a centrifugal gas-liquid separator. In the embodiment, the centrifugal gas-liquid separator is driven by a motor, and the power is controllable. In addition, a humidity sensor 6 and a temperature sensor 7 are arranged in the air outlet channel 12. The humidity sensor 6 is electrically connected with the controller of the gas-liquid separator 4, and the temperature sensor 7 is electrically connected with the controller of the water heat exchanger 22. In addition, be equipped with delivery port 131 in the atomizer chamber 13, be equipped with outlet 141 in the gas-liquid separation room 14, still include waste liquid collecting tank 8, delivery port 131 with outlet 141 passes through the pipeline with waste liquid collecting tank 8 links to each other.

Further, two air heat exchangers 5 are arranged in the air optimization chamber 1. And a heat exchange pipeline 51 is arranged in the air heat exchanger 5, and the heat exchange pipeline 51 is connected with the heat exchange water supply device 2.

Based on above-mentioned structure, the air is followed inlet air channel 11 and is got into air optimization room 1, and the atomizer atomization chamber 13 that gos into earlier atomizes through water atomizer 3 and purifies, reentrant gas-liquid separation room 14, separates air and water through vapour and liquid separator 4, dehumidifies to the humidity of air of control follow air-out channel 12 exhaust air, wherein, water atomizer 3 links to each other with heat transfer water supply installation 2, and heat transfer water supply installation 2 is used for providing the rivers that suit the temperature for water atomizer 3. Therefore, during the water atomization process, the mist water and the air in the atomization chamber 13 generate a heat exchange effect, thereby adjusting the air temperature. The air purification, humidity regulation and temperature regulation are carried out simultaneously, the air purification device has the advantages of compact structure and good air optimization effect, and can prevent secondary pollution of air caused by pipeline mildewing due to overhigh humidity. The water heat exchanger 22 may be a set of water heating and/or cooling device, which adjusts the temperature of the water in the reservoir 21 to a suitable temperature, and then supplies the water after heat exchange to the water atomization device 3 through the water pump 23. Moreover, the gas-liquid separator is a centrifugal gas-liquid separator, which is a prior art, for example, a centrifugal gas-liquid separator disclosed in the chinese utility model patent CN211384171U, whose publication date is 2020, 9, 1, has the following principle: the gas-liquid mixture enters the device through the gas inlet pipe, certain pressure is generated through the flow velocity of the gas-liquid mixture, and the pressure acts on blades of the impeller to enable the impeller to rotate to generate centrifugal force; because the density of the gas is different from that of the liquid, the liquid can leave the rotation center due to larger centrifugal force and is attached to the wall surface of the shell, and the liquid is collected downwards and discharged through the discharge pipe; the gas flows to the reflux cover through the impeller and the internal support and is discharged through the gas outlet pipe, so that the effect of separating the gas from the liquid is achieved. In the embodiment, an impeller driven by a motor is used, and the power of the centrifugal separator is controlled by controlling the power of the motor, so that the humidity is adjusted. The humidity sensor 6 is electrically connected with the gas-liquid separator 4 controller, and the power of the gas-liquid separator 4 is controlled in a feedback mode through signals input by the humidity sensor 6, so that the humidity is adjusted; the temperature sensor 7 is electrically connected with the water heat exchanger 22 controller, and the power of the water heat exchanger 22 is controlled by the input signal of the temperature sensor 7 in a feedback way, so that the temperature is adjusted. Therefore, the temperature and the humidity can be controlled in real time, and the air optimization quality is improved. In addition, the water outlet 131 and the water outlet 141 are connected with the waste liquid collecting tank 8 through a pipeline, so that water which is separated from the atomizing chamber 13 and the gas-liquid separating chamber 14 is treated in a centralized manner, and the environmental protection performance is improved.

In addition, the air heat exchanger 5 is used for further adjusting the air temperature, the air heat exchanger 5 is connected with the heat exchange water supply device 2, the functions of the heat exchange water supply device 2 are fully utilized, and the air heat exchanger has the advantages of energy conservation, environmental protection and high integration level.

Example 2

Referring to fig. 2, the water mist heat exchange air purification temperature and humidity adjustment device includes: the air optimizing chamber 1, the heat exchange water supply device 2, the water atomization device 3 and the gas-liquid separator 4. Wherein, the air optimizing chamber 1 is externally provided with a heat preservation layer, and in the embodiment, the outer layer of the air optimizing chamber 1 is attached with a layer of rubber and plastic heat preservation cotton. And, 1 one end in the air optimizing chamber is equipped with inlet air channel 11, and the other end is equipped with air-out passageway 12, the air optimizing chamber 1 still includes atomizer chamber 13 and gas-liquid separation room 14, heat transfer water supply installation 2 sets up in the air optimizing chamber 1 outside, heat transfer water supply installation 2 with water atomizer 3 passes through the pipe connection, in this embodiment, water atomizer 3 includes atomizing emergence pond 31 and ultrasonic atomization ware 32. The water atomization device 3 is provided in the atomization chamber 13, the gas-liquid separator 4 is provided in the gas-liquid separation chamber 14, and the atomization chamber 13 is connected to the gas-liquid separation chamber 14. Wherein, the heat exchange water supply device 2 comprises a water reservoir 21, a water heat exchanger 22 and a water pump 23 are arranged in the water reservoir. The gas-liquid separator 4 is a centrifugal gas-liquid separator. In the embodiment, the centrifugal gas-liquid separator is driven by a motor, and the power is controllable. In addition, a humidity sensor 6 and a temperature sensor 7 are arranged in the air outlet channel 12. The humidity sensor 6 is electrically connected with the controller of the gas-liquid separator 4, and the temperature sensor 7 is electrically connected with the controller of the water heat exchanger 22. In addition, be equipped with delivery port 131 in the atomizer chamber 13, be equipped with outlet 141 in the gas-liquid separation room 14, still include waste liquid collecting tank 8, delivery port 131 with outlet 141 passes through the pipeline with waste liquid collecting tank 8 links to each other.

Further, two air heat exchangers 5 are arranged in the air optimization chamber 1. And a heat exchange pipeline 51 is arranged in the air heat exchanger 5, and the heat exchange pipeline 51 is connected with the heat exchange water supply device 2.

Based on the above structure, in the present embodiment, the ultrasonic atomization process is used as compared with the atomization apparatus 3 of embodiment 1, and negative oxygen ions can be generated, thereby further improving the air quality.

Example 3

Referring to fig. 3, the water mist heat exchange air purification temperature and humidity adjustment device includes: the air optimizing chamber 1, the heat exchange water supply device 2, the water atomization device 3 and the gas-liquid separator 4. Wherein, the air optimizing chamber 1 is externally provided with a heat preservation layer, and in the embodiment, the outer layer of the air optimizing chamber 1 is attached with a layer of rubber and plastic heat preservation cotton. And, 1 one end in the air optimizing chamber is equipped with inlet air channel 11, and the other end is equipped with air-out passageway 12, air optimizing chamber 1 still includes atomizer chamber 13 and gas-liquid separation room 14, heat transfer water supply installation 2 sets up in the air optimizing chamber 1 outside, heat transfer water supply installation 2 with water atomizer 3 passes through the pipe connection, in this embodiment, water atomizer 3 is atomizer. The water atomization device 3 is provided in the atomization chamber 13, the gas-liquid separator 4 is provided in the gas-liquid separation chamber 14, and the atomization chamber 13 is connected to the gas-liquid separation chamber 14. Wherein, the heat exchange water supply device 2 comprises a water reservoir 21, a water heat exchanger 22 and a water pump 23 are arranged in the water reservoir. The gas-liquid separator 4 is a centrifugal gas-liquid separator. In the embodiment, the centrifugal gas-liquid separator is driven by a motor, and the power is controllable. In addition, a humidity sensor 6 and a temperature sensor 7 are arranged in the air outlet channel 12. The humidity sensor 6 is electrically connected with the controller of the gas-liquid separator 4, and the temperature sensor 7 is electrically connected with the controller of the water heat exchanger 22. In addition, be equipped with delivery port 131 in the atomizer chamber 13, be equipped with outlet 141 in the gas-liquid separation room 14, still include waste liquid collecting tank 8, delivery port 131 with outlet 141 passes through the pipeline with waste liquid collecting tank 8 links to each other.

Further, two air heat exchangers 5 are arranged in the air optimization chamber 1. And a heat exchange pipeline 51 is arranged in the air heat exchanger 5, and the heat exchange pipeline 51 is connected with the heat exchange water supply device 2. An air heat exchange chamber 15 is further arranged in the air optimization chamber 1, and the air heat exchanger 5 is arranged in the air heat exchange chamber 15. In this embodiment, the air heat exchange chamber 15 is disposed between the atomization chamber 13 and the gas-liquid separation chamber 14, and connected to each other by a pipe.

Based on the above structure, the present embodiment is provided with the air heat exchange chamber 15 separately to separate the atomization and the air heat exchanger 5 from each other.

The technical principles of the present invention have been described above in connection with specific embodiments, which are intended to explain the principles of the present invention and should not be construed as limiting the scope of the present invention in any way. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. The utility model provides a water smoke heat transfer air purification humidifying device that adjusts temperature which characterized in that: comprises an air optimizing chamber (1), a heat exchange water supply device (2), a water atomization device (3) and a gas-liquid separator (4); air optimization room (1) one end is equipped with inlet air channel (11), and the other end is equipped with air-out passageway (12), air optimization room (1) still includes atomizer (13) and gas-liquid separation room (14), heat transfer water supply installation (2) set up in air optimization room (1) outside, heat transfer water supply installation (2) with water atomizer (3) pass through the pipe connection, water atomizer (3) set up in atomizer (13), vapour and liquid separator (4) set up in gas-liquid separation room (14), atomizer (13) with gas-liquid separation room (14) are connected.

2. The water mist heat exchange air purification temperature and humidity adjusting device according to claim 1, characterized in that: the heat exchange water supply device (2) comprises a water storage tank (21) and a water heat exchanger (22) and a water pump (23) are arranged in the water storage tank.

3. The water mist heat exchange air purification temperature and humidity adjusting device according to claim 1, characterized in that: the gas-liquid separator (4) is a centrifugal gas-liquid separator.

4. The water mist heat exchange air purification temperature and humidity adjusting device according to claim 1, characterized in that: an air heat exchanger (5) is arranged in the air optimizing chamber (1).

5. The water mist heat exchange air purification temperature and humidity adjusting device according to claim 4, characterized in that: a heat exchange pipeline (51) is arranged in the air heat exchanger (5), and the heat exchange pipeline (51) is connected with the heat exchange water supply device (2).

6. The water mist heat exchange air purification temperature and humidity adjusting device according to claim 5, characterized in that: an air heat exchange chamber (15) is further arranged in the air optimization chamber (1), the air heat exchanger (5) is arranged in the air heat exchange chamber (15), and the air heat exchange chamber (15) is connected with the atomization chamber (13) and/or the gas-liquid separation chamber (14) through a pipeline.

7. The water mist heat exchange air purification temperature and humidity adjusting device according to any one of claims 1 to 6, characterized in that: and a humidity sensor (6) and/or a temperature sensor (7) are/is arranged in the air outlet channel (12).

8. The water mist heat exchange air purification temperature and humidity adjusting device according to claim 6, characterized in that: the water atomization device (3) comprises an atomization generation pool (31) and an ultrasonic atomizer (32).

9. The water mist heat exchange air purification temperature and humidity adjusting device according to claim 1, characterized in that: and a heat insulation layer is arranged outside the air optimization chamber (1).

10. The water mist heat exchange air purification temperature and humidity adjusting device according to claim 1, characterized in that: be equipped with delivery port (131) in atomizing chamber (13), be equipped with outlet (141) in gas-liquid separation room (14), still include waste liquid collecting pit (8), delivery port (131) with outlet (141) pass through the pipeline with waste liquid collecting pit (8) link to each other.

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