CN210532545U - Air purification device and air conditioner - Google Patents

Abstract

The utility model provides an air purification device and air conditioner, concretely relates to air conditioner technical field. The air purification device includes: a plasma reactor; and a purification mechanism, in which are respectively arranged: the mixed closed cavity is communicated with the output end of the plasma reactor and is provided with a dirty air input end; and the dust removal airtight cavity is communicated with the mixed airtight cavity, an electrode mechanism is arranged in the dust removal airtight cavity, the electrode mechanism can be connected with high voltage electricity, and the electrode mechanism is used for adsorbing suspended particles in the dirty air. Compared with the prior art, the method has the advantage that the gas pollutants in the turbid air are removed. And removing suspended particles in the dirty air. Because the main harmful components in the polluted air are suspended particles and gas pollutants, the air quality of the polluted air can meet the purification requirement after the two pollutants are removed.

Description

Air purification device and air conditioner

Technical Field

The utility model relates to an air conditioning technology field particularly, relates to an air purification device and air conditioner.

Background

Along with the continuous improvement of environmental awareness of people, the requirements of people on the household environment are higher and higher, especially the requirements on the air quality in a room are higher and higher, and the air conditioner has a certain air purification effect.

However, the existing air conditioner has poor indoor air purification effect in the air purification process, especially poor purification effect on gas pollutants and suspended particles in the air; in addition, the conventional air conditioner consumes a very large amount of electricity in the process of purifying air.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that the prior air conditioner has poor indoor air purification effect in the air purification process to a certain extent; in addition, the conventional air conditioner has at least one of problems of very large power consumption in the air purification process, and the like.

In order to solve the above problem, the utility model provides an air purification device for the air conditioner, include:

a plasma reactor; and

purification mechanism, be provided with respectively in it:

the mixed closed cavity is communicated with the output end of the plasma reactor and is provided with a dirty air input end; and

the airtight cavity that removes dust, with mix airtight cavity intercommunication, be provided with electrode mechanism in the airtight cavity that removes dust, high-tension electricity can be connected to electrode mechanism, electrode mechanism is arranged in adsorbing the suspended particles in the dirty air.

The utility model discloses utilize plasma reactor independent production to have the clean air of oxidability free radical, at this in-process, interval between two electrodes of plasma reactor does not receive any restriction, consequently can adjust the reasonable interval that can produce a large amount of oxidability free radicals to make the air through plasma reactor carry a large amount of oxidability free radicals, then carry out intensive mixing with dirty air in mixing airtight cavity again, thereby clear away the gaseous pollutant in the muddy air. Then, the characteristic of high-voltage discharge of the electrode mechanism is utilized, so that the suspended particles are charged and adsorbed on the surface of the electrode mechanism, and the suspended particles in the dirty air are removed. Because the main harmful components in the polluted air are suspended particles and gas pollutants, the air quality of the polluted air can meet the purification requirement after the two pollutants are removed.

Further, the inner surface of the dust removal closed cavity is grounded.

The inner surface of the dust removal closed cavity is grounded, and the electrode mechanism is connected with high voltage electricity, so that a huge voltage difference is formed between the dust removal closed cavity and the electrode mechanism, and the rapid electrification of suspended particles is facilitated.

Further, the plasma reactor comprises two electrode parts, the two electrode parts are arranged at intervals, and the size of the interval between the two electrode parts can be adjusted.

The distance between the two electrode parts can be adjusted, so that the distance between the two electrode parts can be adjusted to a reasonable distance capable of generating a large number of oxidizing free radicals, and therefore air passing through the plasma reactor carries a large number of oxidizing free radicals, and then the oxidizing free radicals and dirty air are fully mixed in the mixed closed cavity, and therefore gas pollutants in the dirty air are removed.

Further, the electrode mechanism is arranged at the center or the top of the dust removal closed cavity, the bottom of the dust removal closed cavity is communicated with the dust removal channel, the dust removal channel is provided with a dust removal fan, and the dust removal fan is used for blowing air to the outside of the dust removal channel.

The electrode mechanism is connected with the high-voltage electricity, suspended particles are adsorbed on the surface of the electrode mechanism, the electrode mechanism is arranged at the center or the top of the dust removal closed cavity, and therefore the dust removal fan blows air to the outside of the dust removal channel under the condition that the electrode mechanism is disconnected from the high-voltage electricity, the dust removal closed cavity forms negative pressure, and the suspended particles are removed from the dust removal closed cavity. Preventing the secondary pollution caused by the suspended particles.

Further, the dust removal channel is provided with a baffle, and the baffle can seal the dust removal channel.

The baffle forms the linkage with dust exhausting fan and electrode mechanism through the controller, that is to say, after the outage of electrode mechanism, the baffle opens the dust removal passageway and makes dust exhausting fan work to clear away the suspended particles through dust removal passageway fast. And secondary pollution caused by floating of suspended particles in the dust removal closed cavity is prevented.

Further, the electrode mechanism is of a circular structure.

The contact area of the electrode mechanism and the dirty air is enlarged. Thereby adsorbing more suspended particulate matter.

Furthermore, a plate-shaped part is installed at the communication position of the dust removal closed cavity and the mixed closed cavity, a plurality of through holes are formed in the plate-shaped part, and the plurality of through holes are used for communicating the dust removal closed cavity and the mixed closed cavity.

By the arrangement, the speed of the dirty air entering the dust removal closed cavity is delayed, so that the dirty air and the clean air with the oxidizing free radicals are fully reacted, and gas pollutants are removed.

Further, the purification mechanism further comprises a pressurization sealing cavity, the dust removal sealing cavity and the mixed sealing cavity are sequentially communicated, a pressurization fan is installed in the pressurization sealing cavity, and the pressurization fan is used for blowing air to the indoor unit of the air conditioner.

The air supply pressure of the air conditioner is ensured, after the air is purified, the pressurizing fan can ensure that return air is input into the indoor unit more quickly, and meanwhile, the pressurizing fan can share part of the load of the indoor fan.

Furthermore, a filter screen is installed at the communication position of the pressurization sealing cavity and the dust removal sealing cavity, and the filter screen is used for filtering air flowing to the pressurization sealing cavity from the dust removal sealing cavity.

The filter screen is used for filtering again, the aim of further purifying air is fulfilled, and suspended particles are prevented from entering the room.

Further, the air purification device further comprises a solar power supply device, and the solar power supply device is used for supplying power to the plasma reactor and/or the electrode mechanism.

The solar power supply device is used for supplying power to the plasma reactor and/or the electrode mechanism, so that the energy consumption of the air purification device is reduced.

Further, the air purification device further includes:

the storage battery is used for storing the electric energy generated by the solar power supply device; and

a transformer connected to the battery, the transformer being configured to provide high voltage electricity to the plasma reactor and/or the electrode mechanism.

The mutual matching of the transformer, the storage battery and the solar power supply device is utilized to realize the supply of sufficient high voltage electricity for the plasma reactor and/or the electrode mechanism.

Further, the air purification device further includes:

the storage battery is used for storing the electric energy generated by the solar power supply device;

a power detection device for detecting the power of the storage battery; and

and the controller controls whether the solar power supply device charges the storage battery or not according to the electric quantity of the storage battery.

So set up, realize the automatic charging of battery to the electric energy that rational use solar power unit produced.

Further, the air purification device further includes:

the first air detection sensor is arranged in the mixed closed cavity and at least can detect the content of gas pollutants in the dirty air;

the second air detection sensor is arranged in the dust removal closed cavity and can at least detect the content of suspended particles in the dirty air; and

and the controller is respectively connected with the first air detection sensor, the second air detection sensor, the plasma reactor and the electrode mechanism.

So set up, realize air purification device's full automatization detection and purification, facilitate the use.

Additionally, the utility model also provides an air conditioner, air conditioner including air purification device. The corresponding technical effects achieved by the air conditioner are the same as those of the air cleaning apparatus, and therefore, a description thereof will not be provided.

Drawings

Fig. 1 is a schematic structural view of an air purification apparatus according to an embodiment of the present invention;

fig. 2 is a schematic configuration diagram of a purge mechanism according to an embodiment of the present invention.

Description of reference numerals:

100 plasma reactor, 200 purification mechanism, 210 mixed closed cavity, 211 dirty air input end, 212 first air detection sensor, 213 plate-shaped piece, 220 dust removal closed cavity, 221 electrode mechanism, 222 dust removal channel, 223 baffle, 224 second air detection sensor, 225 filter screen, 226 dust removal fan, 230 pressure sealing cavity, 231 pressure fan, 300 solar power supply device, 301 storage battery, 302 transformer, 303 pressure regulator, 304 electric quantity detection device, 400 indoor unit of air conditioner.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

In the description of the present invention, it should be understood that the terms "upper", "lower", "front", "rear", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

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 at least one such feature.

Referring to fig. 1 and 2, an embodiment of the present invention provides an air purification apparatus for an air conditioner, including: a plasma reactor 100 and a purge mechanism 200. The purification mechanism 200 is provided therein with a mixing airtight chamber 210 and a dust-removing airtight chamber 220, respectively. The mixing closed cavity 210 is communicated with the output end of the plasma reactor 100, and the mixing closed cavity 210 is provided with a dirty air input end 211; the dust removal sealed cavity 220 is communicated with the mixed sealed cavity 210, an electrode mechanism 221 is arranged in the dust removal sealed cavity 220, the electrode mechanism 221 can be connected with high-voltage electricity, and the electrode mechanism 221 is used for adsorbing particulate matters in the dirty air.

When in use, indoor dirty air enters the mixing closed cavity 210 through the dirty air input end 211; meanwhile, after the air enters the plasma reactor 100 at the input end, the oxidizing free radical concentration in the air is greatly increased through the gap between the two electrodes of the plasma reactor 100 under the action of the two electrodes of the plasma reactor 100, especially under the action of high voltage electricity, and then the air containing the oxidizing free radicals is conveyed into the mixing closed cavity 210 from the output end of the plasma reactor 100, so that the air containing the oxidizing free radicals is mixed with the dirty air, and the oxidizing free radicals react with the gaseous pollutants in the dirty air, such as formaldehyde, VOCS (volatile organic compounds), and the like, to be removed. Then, the dirty air enters the dust removal closed cavity 220, the electrode mechanism 221 is connected with the high-voltage power to adsorb suspended particles in the dirty air, wherein the suspended particles comprise suspended particles of PM2.5-PM10, so that the electrode mechanism 221 is continuously connected with the high-voltage power for a period of time to achieve sufficient adsorption of the suspended particles, and the suspended particles and gas pollutants in the dirty air are sufficiently purified.

Note that the two electrodes of the plasma reactor 100 are respectively connected to high voltage.

In addition, the oxidizing radicals include oxidizing active substances such as ozone, and the air purification using the plasma reactor 100 technology is a well-established prior art, and will not be explained in detail herein.

In addition, the plasma reactor 100 has an input end and an output end, and clean air or slightly polluted air can enter the input end of the plasma reactor 100 and be output from the output end after being processed by the plasma reactor 100.

The inventor of the utility model finds that the air purification device of the existing air conditioner can not effectively purify the dirty air because the dirty air enters the air conditioner and passes between two electrodes of the plasma generator, and the gap between the two electrodes of the plasma generator is limited by the air return opening of the air conditioner at the moment, the distance between the two electrodes can not be reduced, otherwise, the air inlet effect of the air conditioner can be influenced; the larger the distance between the electrodes is, the poorer the ionization effect is, and the fewer oxidizing free radicals are generated; and the dirty air only passes through between the two electrodes, so that the dirty air cannot be in sufficient contact with the oxidizing free radicals, and the plasma generator of the conventional air conditioner has poor purification effect on the dirty air.

Based on the above findings of the present invention, the plasma reactor 100 is utilized to independently generate clean air with oxidizing radicals, and in this process, the distance between the two electrodes of the plasma reactor 100 is not limited, so that a reasonable distance capable of generating a large amount of oxidizing radicals can be adjusted, so that the air passing through the plasma reactor 100 carries a large amount of oxidizing radicals, and then the oxidizing radicals and the dirty air are fully mixed in the mixing sealed cavity 210, thereby removing gaseous pollutants in the turbid air. Then, by using the characteristic of high-voltage discharge of the electrode mechanism 221, the suspended particles are charged and adsorbed on the surface of the electrode mechanism 221, so that the suspended particles in the dirty air are removed. Because the main harmful components in the polluted air are suspended particles and gas pollutants, the air quality of the polluted air can meet the purification requirement after the two pollutants are removed.

Referring to fig. 1 and 2, further, the inner surface of the dust-removing sealing chamber 220 is grounded.

The inner surface of the dust removal closed cavity 220 is grounded, and the electrode mechanism 221 is connected with high voltage electricity, so that a huge voltage difference is formed between the dust removal closed cavity 220 and the electrode mechanism 221, and the rapid electrification of suspended particles is facilitated.

Not shown in the drawings, further, the plasma reactor comprises two electrode parts, the two electrode parts are arranged at intervals, and the interval between the two electrode parts can be adjusted.

The distance between the two electrode parts can be adjusted, so that the distance between the two electrode parts can be adjusted to a reasonable distance capable of generating a large number of oxidizing free radicals, and therefore air passing through the plasma reactor carries a large number of oxidizing free radicals, and then the oxidizing free radicals and dirty air are fully mixed in the mixed closed cavity, and therefore gas pollutants in the dirty air are removed.

Referring to fig. 1 and 2, further, the electrode mechanism 221 is disposed at the center or the top of the dust-removing sealed cavity 220, and the bottom of the dust-removing sealed cavity 220 is communicated with the dust-removing channel 222. The dust removing passage 222 is provided with a dust removing fan 226, and the dust removing fan 226 is used for blowing air to the outside of the dust removing passage 222.

When the electrode mechanism 221 is switched on and high voltage is applied, the suspended particles are adsorbed on the surface of the electrode mechanism 221, and the electrode mechanism is disposed at the center or top of the dust-removing sealed cavity 220, so that when the electrode mechanism is switched off and the high voltage is applied, the dust-removing fan 226 blows air to the outside of the dust-removing channel 222, the dust-removing sealed cavity 220 forms negative pressure, and the suspended particles are removed from the dust-removing sealed cavity 220. Preventing the secondary pollution caused by the suspended particles.

Referring to fig. 1 and 2, a baffle 223 is further installed on the dust removal passage 222, and the baffle 223 can close the dust removal passage 222.

The baffle 223 is linked with the dust removing fan 226 and the electrode mechanism 221 through a controller, that is, when the electrode mechanism 221 is powered off, the baffle 223 opens the dust removing channel 222 and enables the dust removing fan 226 to work, so that the suspended particles are rapidly removed through the dust removing channel 222. And secondary pollution caused by floating of suspended particles in the dust removal closed cavity 220 is prevented.

Referring to fig. 1 and 2, further, the electrode mechanism 221 has a circular structure.

The contact area of the electrode mechanism 221 with the dirty air is enlarged. Thereby adsorbing more suspended particulate matter.

Referring to fig. 1 and 2, further, a plate 213 is installed at a communication position of the dust-removing sealed cavity 220 and the hybrid sealed cavity 210, and the plate 213 has a plurality of through holes for communicating the dust-removing sealed cavity 220 and the hybrid sealed cavity 210.

So set up, delay dirty air and get into the airtight cavity 220 speed of dust removal to make dirty air fully react with the clean air who has the oxidizing free radical, thereby clear away gaseous pollutant.

Referring to fig. 1 and 2, further, the air purification apparatus further includes a solar power supply 300, and the solar power supply 300 is used for supplying power to the plasma reactor 100 and/or the electrode mechanism 221.

The solar power supply device 300 is used for supplying power to the plasma reactor 100 and/or the electrode mechanism 221, so that the energy consumption of the air purification device is reduced.

Referring to fig. 1 and 2, further, the air purification apparatus further includes: battery 301 and transformer 302. The storage battery 301 is used for storing electric energy generated by the solar power supply device 300; a transformer 302 is connected to the accumulator 301, and the transformer 302 is used to provide high voltage electricity to the plasma reactor 100 and/or the electrode mechanism 221.

The transformer 302, the storage battery 301 and the solar power supply device 300 are matched with each other to provide sufficient high voltage electricity for the plasma reactor 100 and/or the electrode mechanism 221.

It should be noted that the transformer 302 may be equipped with a voltage regulator 303. For adjusting the corresponding voltage values according to the requirements of the plasma reactor 100 and/or the electrode mechanism 221.

Referring to fig. 1 and 2, further, the air purification apparatus further includes: a battery 301 and a charge detection device 304. The storage battery 301 is used for storing electric energy generated by the solar power supply device 300; the electricity amount detection device 304 is for detecting the electricity amount of the storage battery 301; the controller controls whether the solar power supply device 300 charges the storage battery 301 according to the electric quantity of the storage battery 301.

So set up, realize battery 301's automatic charging to the electric energy that rational use solar power unit 300 produced.

Specifically, the power detection device 304 may be a power sensor, and the controller is configured to control the solar power supply apparatus 300 to charge the storage battery 301 when the power detection device 304 detects that the power of the storage battery 301 is less than 50%, and control the solar power supply apparatus 300 to stop charging the storage battery 301 when the power detection device 304 detects that the power of the storage battery 301 is greater than 70%.

In addition, the controller may control whether the solar power supply device 300 charges the storage battery 301, where the solar power supply device 300 and the storage battery 301 are connected through an electronic control switch, and the controller is connected with the electronic control switch and controls the switch of the electronic control switch, so that the controller controls whether the solar power supply device 300 charges the storage battery 301.

Referring to fig. 1 and 2, further, the air purification apparatus further includes: a first air detection sensor 212, a second air detection sensor 224, and a controller. The first air detection sensor 212 is installed in the mixed closed cavity 210, and the first air detection sensor 212 can at least detect the content of gas pollutants in the dirty air; the second air detection sensor 224 is installed in the dust removal closed cavity 220, and the second air detection sensor 224 can at least detect the content of suspended particulate matters in the dirty air; the controller is connected to the first air detection sensor 212, the second air detection sensor 224, the plasma reactor 100, and the electrode mechanism 221, respectively.

It should be noted that the controller may be connected to the first air detection sensor 212, the electric quantity detection device 304, the second air detection sensor 224, the plasma reactor 100, and the electrode mechanism 221 at the same time.

So set up, realize air purification device's full automatization detection and purification, facilitate the use.

It should be noted that the first air detection sensor 212 and the second air detection sensor 224 can perform real-time air detection; the first air detection sensor 212 and the second air detection sensor 224 may be indoor air quality detectors.

Specifically, it may be set for the controller to operate the plasma reactor 100 when the first air detection sensor 212 detects that the content of the gaseous pollutant in the dirty air is higher than a set value; conversely, when the first air detection sensor 212 detects that the content of gaseous pollutants in the dirty air is below a set value, the controller stops the operation of the plasma reactor 100; similarly, the controller may be set such that when the second air detection sensor 224 detects that the content of the suspended particulate matter in the dirty air is higher than a set value, the controller causes the electrode mechanism 221 to turn on the high voltage electricity; conversely, when the second air detection sensor 224 detects that the content of suspended particulate matter in the dirty air is lower than the set value, the controller turns on the electrode mechanism 221 not to apply the high voltage.

It should be noted that the control of the plasma reactor 100 and the electrode mechanism 221 by the controller may also be realized by the aforementioned "electrically controlled switch", which is common knowledge in the art and will not be explained in detail.

In addition, the utility model discloses another embodiment still provides an air conditioner, and the air conditioner is including aforementioned air purification device. The air conditioner is provided with the air purifying device. The corresponding technical effects achieved by the air conditioner are the same as those of the aforementioned air cleaning apparatus, and therefore, will not be explained herein.

Referring to fig. 1 and 2, further, the cleaning mechanism 200 further includes a pressure-sealed cavity 230, the indoor unit 400 of the air conditioner, the pressure-sealed cavity 230 and the dust-removing sealed cavity 220 are sequentially communicated, a pressure fan 231 is installed in the pressure-sealed cavity 230, and the pressure fan 231 is used for blowing air to the indoor unit 400 of the air conditioner.

The air supply pressure of the air conditioner is ensured, after air purification is finished, the booster fan 231 can ensure that return air is input into the indoor unit more quickly, and meanwhile, the booster fan 231 can share part of the load of the indoor fan.

Referring to fig. 1 and 2, a filter screen 225 is further installed at a communication position between the pressure-tight chamber 230 and the dust-tight chamber 220, and the filter screen 225 is used for filtering air flowing from the dust-tight chamber 220 to the pressure-tight chamber 230.

And the air is filtered again through the filter screen 225, so that the aim of further purifying the air is fulfilled, and suspended particles are prevented from entering the room.

The filter screen 225 is a compact filter screen with 60-100 meshes.

Referring to fig. 1 and 2, further, the dirty air input 211 is connected to the return air inlet of the air conditioner.

And is matched with the indoor unit 400 of the air conditioner to form a complete and independent indoor unit operation mode.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims (15)

1. An air purification apparatus, comprising:

a plasma reactor (100); and

a purification mechanism (200) provided therein with:

the mixed closed cavity (210) is communicated with the output end of the plasma reactor (100), and is provided with a dirty air input end (211); and

the dust removal airtight cavity (220) with mix airtight cavity (210) intercommunication, be provided with electrode mechanism (221) in the dust removal airtight cavity (220), electrode mechanism (221) are used for connecting high-voltage electricity, electrode mechanism (221) are used for adsorbing by mix airtight cavity (210) and get into the suspended particles in the dirty air in the dust removal airtight cavity (220).

2. The air purification apparatus according to claim 1, wherein the inner surface of the dust-proof sealed chamber (220) is grounded.

3. The air purification device according to claim 1, wherein the plasma reactor (100) comprises two electrode portions, the two electrode portions are arranged at intervals, and the interval between the two electrode portions can be adjusted.

4. The air purification device according to claim 1, wherein the electrode mechanism (221) is disposed at the center or at the top of the dust-removing sealed cavity (220), the bottom of the dust-removing sealed cavity (220) is communicated with a dust-removing channel (222), the dust-removing channel (222) is provided with a dust-removing fan (226), and the dust-removing fan (226) is used for blowing air out of the dust-removing channel (222).

5. The air cleaning apparatus according to claim 4, wherein the dust removal passage (222) is installed with an openable and closable shutter (223), and the openable and closable shutter (223) is used to communicate or close the dust removal passage (222) with an outdoor space.

6. Air cleaning device according to claim 1, characterized in that the electrode means (221) is in the form of a disc-like structure.

7. The air purification device according to claim 1, wherein a plate-shaped member (213) is installed at a communication position of the dust-proof sealed cavity (220) and the mixed sealed cavity (210), the plate-shaped member (213) is provided with a plurality of through holes, and the plurality of through holes are used for communicating the dust-proof sealed cavity (220) and the mixed sealed cavity (210).

8. The air purification device according to claim 1, wherein the purification mechanism (200) further comprises a pressurized sealed cavity (230), the dust-removing sealed cavity (220) and the mixing sealed cavity (210) are sequentially communicated, and a pressurized fan (231) is installed in the pressurized sealed cavity (230).

9. The air purification device according to claim 8, wherein a filter screen (225) is installed at a communication position of the pressurization sealed cavity (230) and the dust-removal sealed cavity (220), and the filter screen (225) is used for filtering air flowing to the pressurization sealed cavity (230) from the dust-removal sealed cavity (220).

10. Air cleaning device according to any one of claims 1 to 9, characterized in that it further comprises a solar power supply device (300), said solar power supply device (300) being adapted to power said plasma reactor (100) and/or said electrode means (221).

11. The air purification apparatus according to claim 10, further comprising:

a storage battery (301) for storing the electric energy generated by the solar power supply device (300); and

a transformer (302) connected to the battery (301), the transformer (302) being configured to provide a high voltage to the plasma reactor (100) and/or the electrode arrangement (221).

12. The air purification apparatus according to claim 11, further comprising:

a charge amount detection device (304) for detecting a charge amount of the storage battery (301).

13. The air purification apparatus according to any one of claims 1 to 9, further comprising:

the first air detection sensor (212) is arranged in the mixed closed cavity (210), and the first air detection sensor (212) is used for detecting the content of gas pollutants in the dirty air;

the second air detection sensor (224) is arranged in the dust removal closed cavity (220), and the second air detection sensor (224) is used for detecting the content of suspended particles in the dirty air; and

and a controller connected to the first air detection sensor (212), the second air detection sensor (224), the plasma reactor (100), and the electrode mechanism (221), respectively.

14. An air conditioner characterized in that it comprises an air cleaning device according to any one of claims 1 to 13.

15. Air conditioner according to claim 14, characterized in that the dirty air inlet (211) of the air cleaning device is connected to the return air inlet of the air conditioner, and the booster fan (231) of the air cleaning device is used to blow air to the indoor unit (400) of the air conditioner.

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