JP3928218B2 - Air cleaner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an air purifier that removes odors and airborne dust in the air, and particularly has a humidification function.
[0002]
[Prior art]
Conventional air cleaners include one that charges dust and collects it on a dust collecting plate, one that collects on a fibrous filter, and one that removes odorous components in the air using activated carbon, As an air cleaner with a humidifying function, those described in JP-A-4-48946 have been common. As shown in FIG. 13 and FIG. 14, this air cleaner with a humidifying function has an air purifier 1 in which an air purifier 2 and a humidifier 3 are integrated, and the discharge electrode of the ionizer 5 of the electric dust collector 4. 6 and a counter electrode plate 7, a DC high voltage is applied to cause a corona discharge from the discharge electrode 6 toward the counter electrode plate 7, and dust and other fine particles are charged, and the collector 8 on the downstream side is charged. It is collected by the electrode plate 9. Further, the water supplied from the tank 10 to the water tank 11 is vibrated by the ultrasonic oscillator 12, scattered from the water surface as mist-like fine particles, and clean air containing ozone sent by the blower 14 of the humidifying water sterilizing means 13. Is released into the room air to humidify the room air. The bacteria propagated in the tank 10 enter the aquarium 11 from the tank 10, but are sterilized by ozone in the clean air sent by the blower 14 of the humidifying water sterilizing means 13. It was designed not to be released into the air.
[0003]
[Problems to be solved by the invention]
However, the conventional configuration requires the replacement and cleaning of the collector unit 8, and the maintenance thereof is complicated, and there is a problem that there is almost no deodorizing effect although there is a dust collecting effect. Moreover, since the propagation of bacteria in the tank 10 cannot be prevented, it was not satisfactory in terms of hygiene.
[0004]
On the other hand, air cleaners equipped with activated carbon with deodorizing effect do not function well for all malodorous components, so methods such as mixing impregnated activated carbon corresponding to acidic gas and alkaline gas are adopted, but anyway In any case, when the adsorption capacity is saturated, it must be replaced, and there is a problem that maintenance is complicated and cost is high.
[0005]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the present invention is arranged side by side facing the air suction port and the air suction port, filters the air sucked from the air suction port, and gets wet by dipping. A diaphragm that partially evaporates , a water tank, a blower, and an air outlet, a pair of electrodes provided in the water in the water tank, and an ionic substance in the water freely passing between the electrodes One of the electrodes is connected to the positive side of a DC power source as an anode, the other side of the electrode is connected to the negative side of the DC power source as a cathode, and the filtration and evaporation section includes an upper roller and a lower roller. Two loop filters suspended between the upper and lower rollers, the lower part of one of the loop filters is immersed in the water on the anode side across the diaphragm in the water tank, and the other Loop shape A filter is immersed in water on the cathode side, and the upper roller is an air purifier configured to be connected to a rotation driving means, and a water level sensor that detects a water level in the water tank, and a water level sensor Means for controlling operation and stop of operation of the blower, the rotation driving means and the DC power supply by output; and a water amount shortage display means for displaying when the water level in the water tank is below a predetermined low water level. In addition, when the blower is stopped, the DC voltage is intermittently applied to the anode and the cathode in the water tank, and the rotation driving means is intermittently operated.
[0006]
According to the above invention, since the lower part of the loop filter that is the filtration evaporation part is immersed in the water tank, the loop filter wet with the water in the water tank faces the air suction port by the rotation of the upper and lower rollers. It becomes a wet filter, traps dust in the passing air, dissolves and absorbs malodorous components in the water and purifies the air, and part of the water evaporates from the loop filter to humidify the air. The water in the water tank is electrolyzed by a pair of electrodes, and acidic water and alkaline water are generated across the diaphragm. One loop filter contains acidic water, and the other loop filter contains alkaline water. Thus, since the acidic gas is easily absorbed in alkaline water and the alkaline gas is easily absorbed in acidic water, the performance of removing various malodorous components is improved. In addition, a water level sensor is provided in the aquarium, and when the amount of water is insufficient, the operation of the blower, the rotation drive means and the DC power supply is stopped, and the lack of water indication is performed by the water quantity shortage display means. It can be accurately grasped. Furthermore, even when the blower is stopped, the water in the aquarium is electrolyzed intermittently, and the water in the aquarium can be kept acidic and alkaline, preventing bacteria from growing in the aquarium, and the rotation drive means are also intermittent. Therefore, since the loop filter is also immersed in acidic water or alkaline water, bacterial growth can be prevented.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
The invention according to claim 1 for solving the above-mentioned problem is arranged such that the air suction port and the air suction port face each other, the air sucked from the air suction port is filtered and immersed Provided with a filtration evaporation unit that wets and part of the water evaporates, a water tank, a blower, and an air outlet, a pair of electrodes is provided in the water in the water tank, and ionic substances in the water are free between the electrodes A diaphragm that passes through is provided, and one of the electrodes is connected to a positive side of a DC power source as an anode, and the other side of the electrode is connected to a negative side of the DC power source as a cathode. And a lower roller and two loop-shaped filters suspended between the upper and lower rollers, and the lower part of one of the loop-shaped filters is immersed in the water on the anode side across the diaphragm in the water tank And before the other Loop filter and a position of immersion in water at the cathode side, the upper roller is air cleaner constructed in conjunction with the rotary drive means.
[0008]
And the lower part of the two loop filters suspended between the upper and lower rollers are immersed in the water in the aquarium, rotated in a wet state by the operation of the rotation drive means, and exposed to the air suction port. It becomes a filter, traps dust in the passing air, dissolves and absorbs malodorous components in the water and purifies the air, but the water in the aquarium is electrolyzed, producing acidic water and alkaline water across the diaphragm The loop filter that is one filtration evaporation unit contains acidic water, and the loop filter that is the other filtration evaporation unit contains alkaline water. The acidic gas is easily absorbed by the alkaline water, and the alkaline gas is acidic. Since it is easily absorbed by water, the performance of removing various malodorous components is improved, and a part of the water is evaporated from the filtration and evaporation unit, so that the air can be humidified.
[0009]
The invention described in claim 2 is provided with at least one of a gas sensor for detecting the gas concentration in the room, a particle sensor for detecting the particle concentration, and a humidity sensor for detecting the humidity, and the output of the blower according to the output of the sensor. The air cleaner according to claim 1, further comprising a control unit that controls the rotation speed of the rotation driving unit.
[0010]
The indoor odor component detects the gas concentration with a gas sensor, the indoor dust detects the particle concentration with a particle sensor, and the indoor air humidity detects the humidity with a humidity sensor, depending on the output of each sensor. Because the fan output and the rotation speed of the rotation drive means are controlled, increase the blower output and the rotation speed of the rotation drive means when the odor and dust are in high concentration and humidity is low, and the amount of passing air and loop The amount of water absorption of the filter can be increased to speed up indoor air purification, or the amount of humidification can be increased to improve indoor drying conditions. Conversely, if the odor or dust is low or the humidity is high, the blower By reducing the output and the rotational speed of the rotation driving means, water evaporation loss and power consumption can be saved.
[0011]
Furthermore, the invention described in claim 3 is a water level sensor for detecting the water level in the water tank, a means for controlling the operation and stop of the operation of the blower, the rotation driving means and the DC power source by the output of the water level sensor, The air purifier according to claim 1 or 2, further comprising a water shortage display means for displaying when the water level is below a predetermined low water level.
[0012]
When the amount of water is insufficient, the operation of the blower, the rotation drive unit, and the DC power supply is stopped, and the amount of water is displayed by the water amount shortage display unit.
[0013]
Furthermore, the invention according to claim 4 is the invention according to any one of claims 1 to 3, wherein a DC voltage is intermittently applied to the anode and cathode in the water tank when the blower is stopped, and the rotation driving means is operated intermittently. It is an air cleaner as described in a term.
[0014]
And even when the blower is stopped, the water in the aquarium is electrolyzed intermittently, and the water in the aquarium can be kept acidic and alkaline, so that bacteria can be prevented from breeding in the aquarium, and the rotation drive means is also intermittent. Therefore, since the loop filter is also immersed in acidic water or alkaline water, bacterial growth can be prevented.
[0015]
Furthermore, the invention according to claim 5 is a water quality sensor for detecting dirt in water in the water tank, and water exchange for performing display based on the output of the water quality sensor when the water quality sensor detects dirt of a predetermined high concentration or more. It is an air cleaner of any one of Claim 1 thru | or 4 which has a display means.
[0016]
When the water in the aquarium becomes dirty, the water exchange timing is displayed by the water exchange indication means before the water in the aquarium becomes saturated with the dirt substance collected from the air by the detection by the water quality sensor. Therefore, it is easy to stably collect odors and dust by exchanging with clean water at that time.
[0017]
【Example】
Embodiments of the present invention will be described below with reference to the drawings.
[0018]
Example 1
FIG. 1 is a front sectional view showing the structure of an air cleaner in Embodiment 1 of the present invention. FIG. 2 is a side sectional view showing the configuration of the air cleaner.
[0019]
In the figure, an air suction port 16 is provided on the front surface of the main body 15, and two filtration evaporation units 17 facing the air suction port 16 and facing the air passage are provided. A water tank 18 is provided at the lower part of the main body 15, a fan 19 as a blower and a fan motor 20 for rotating the fan 19 are provided at the upper part of the main body 15, and an air outlet 21 is provided. A pair of electrodes 22 is provided in the water in the water tank 18, one of the electrodes 22 is connected to the positive side of the DC power source 23 to be an anode 22a, and the other side of the electrode 22 is connected to the negative side of the DC power source 23 to be a cathode 22b. The filtration evaporation unit 17 is composed of an upper roller 24, a lower roller 25, and two loop filters 17a and 17b suspended between the upper and lower rollers 24 and 25, one loop being separated by a diaphragm 26 in the water tank. The lower part of the filter 17a is immersed in the water on the anode 22a side, the other looped filter 17b is immersed in the water on the cathode 22b side, and the upper roller 24 is connected to a roller motor 27 which is a rotation driving means. It is configured.
[0020]
Next, the operation and action will be described. When the fan motor 20 is operated, the fan 19 rotates and room air is introduced into the main body 15 from the air suction port 16. Further, when the roller motor 27 which is a rotation driving means is rotated, the upper roller 24 connected is also rotated, the two loop filters 17a and 17b suspended between the lower roller 25 are rotated, and the lower portion is in the water tank 18. Since the water in the water tank 18 is sucked up and wetted, the looped filters 17a and 17b face the air suction port 16 as the filtration evaporation unit 17 and face the air passage, so that the wet filter is obtained. Then, dust in the passing air is captured, malodorous components are dissolved and absorbed in the water to purify the air, and the purified air is discharged from the air outlet 21 into the room by the fan 19. The water in the aquarium 18 is electrolyzed to generate acidic water and alkaline water across the diaphragm 26. One loop filter 17a contains acidic water, and the other loop filter 17b contains alkaline water. The acidic gas is easily absorbed by the alkaline water, and the alkaline gas is easily absorbed by the acidic water. Therefore, the performance of removing various malodorous components is improved, and a part of the water is evaporated from the filtration evaporation unit 17 to remove the air. Can be humidified.
[0021]
(Example 2)
FIG. 3 is a circuit block diagram of an air cleaner according to the second embodiment of the present invention. 4, 5 and 6 are diagrams showing the control of the air cleaner.
[0022]
The difference from the first embodiment is that a gas sensor 28a for detecting the indoor gas concentration, a particle sensor 28b for detecting the particle concentration, and a humidity sensor 28c for detecting the humidity are provided, and the output of the fan motor 20 is output according to the output of each sensor. In order to control, it has the control part 29, the fan motor output control part 30 which controls the rotation speed of the fan motor 20, and the fan motor drive part 31 of the fan motor 20, and also controls the rotation speed of the roller motor 27. A roller motor output control unit 32 and a roller motor drive unit 33 of the roller motor 27 are provided.
[0023]
Note that the same reference numerals as those in the first embodiment denote the same components, and a detailed description thereof will be omitted. Next, the operation and action will be described. When the odor component in the room detects the gas concentration by the gas sensor 28a and the odor gas concentration is high as shown in FIG. 4, the control unit 29 and the fan motor output control unit 30 are used. The fan motor drive unit 31 is operated to increase the output of the fan motor 20, and the rotation speed of the fan 19 is increased to increase the amount of sucked air. Similarly, the roller is controlled via the control unit 29 and the roller motor output control unit 32. The motor drive unit 33 is operated to increase the output of the roller motor 27 to speed up the rotation of the upper roller 24, increase the amount of water absorbed in the water tank 18 of the loop filters 17a and 17b, and increase the gaseous state of the indoor air. Increase the amount of dissolved and absorbed malodorous substances to accelerate indoor air purification. When the odor gas concentration is low, the output of the fan motor 20 and the output of the roller motor 27 are reduced to save water evaporation loss and power consumption. Further, the particle concentration of indoor dust is detected by the particle sensor 28b. When the dust concentration is high as shown in FIG. 5, the fan motor driving unit 31 is operated via the control unit 29 and the fan motor output control unit 30. The output of the fan motor 20 is increased, the rotational speed of the fan 19 is increased to increase the amount of air sucked, and the roller motor drive unit 33 is similarly operated via the control unit 29 and the roller motor output control unit 32 to operate the roller motor. The output of 27 is increased to speed up the rotation of the upper roller 24, the amount of water absorption in the water tank 18 of the loop filters 17a, 17b is increased, and dust is collected on the water absorption surfaces of the loop filters 17a, 17b. Increase the volume to speed up indoor air purification. When the dust concentration is low, the output of the fan motor 20 and the output of the roller motor 27 are reduced to save water evaporation loss and power consumption. Further, the indoor air humidity is detected by the humidity sensor 28c, and when the humidity is low as shown in FIG. 6, the fan motor driving unit 31 is operated via the control unit 29 and the fan motor output control unit 30 to operate the fan. The output of the motor 20 is increased, the rotational speed of the fan 19 is increased, and the amount of air sucked is increased. Similarly, the roller motor drive unit 33 is operated via the control unit 29 and the roller motor output control unit 32 to operate the roller motor 27. Can increase the output of the upper roller 24, speed up the rotation of the upper roller 24, increase the amount of water absorption in the water tank 18 of the loop filters 17a, 17b, and improve the indoor drying state by increasing the amount of humidification, and the humidity is high. In this case, the output of the fan motor 20 and the output of the roller motor 27 can be reduced to save water evaporation loss and power consumption.
[0024]
(Example 3)
FIG. 7 is a circuit block diagram of an air cleaner according to Embodiment 3 of the present invention. FIG. 8 is an operation flowchart of the air cleaner.
[0025]
The difference from the second embodiment is that the water level sensor 34 for detecting the water level in the water tank 18 and the operation of the DC power source 23 of the fan motor drive unit 31 and the roller motor drive unit 33 are controlled by the output of the water level sensor 34. A start / stop control unit 35 that performs the display and a water shortage display unit 36 that displays when the water level in the water tank 18 is equal to or lower than a predetermined low water level.
[0026]
In addition, the same code | symbol as Example 1 and Example 2 is the same structure part, and detailed description is abbreviate | omitted.
[0027]
Next, the operation and action will be described. When the water level in the water tank 18 decreases, the control unit 29 compares the water level with a predetermined low water level in step A1 according to the signal of the water level sensor 34. A signal is sent to the start / stop control unit 35, and the currents to the fan motor drive unit 31, the roller motor drive unit 33, and the DC power source 23 are cut off at step A6, step A7, and step A8, respectively. Water electrolysis by the DC power supply 23 is stopped, and idling is prevented. In step A9, since the water shortage display unit 36 displays the water shortage via the control unit 29, the user can accurately grasp the time for water replacement.
[0028]
Example 4
FIG. 9 is a circuit block diagram of an air cleaner according to Embodiment 4 of the present invention. FIG. 10 is a diagram showing the control of the air cleaner.
[0029]
The difference from the second embodiment is that a roller for intermittently controlling the operation of the DC motor timer 37 and the roller motor 27 for intermittently controlling the application of a DC voltage to the anode 22a and the cathode 22b in the water tank 18 when the fan motor 20 is stopped. The motor timer unit 38 is included.
[0030]
In addition, the same code | symbol as Example 1 and Example 2 is the same structure part, and detailed description is abbreviate | omitted.
[0031]
Next, the operation and action will be described. As shown in FIG. 10, when the fan motor 20 is stopped, the DC power supply timer unit 37 intermittently repeats ON (Tb) and OFF (Ta) when the fan motor 20 is stopped. Water is intermittently electrolyzed and the water in the water tank 18 can be kept acidic and alkaline, so that bacterial growth in the water tank 18 can be prevented. Similarly, the roller motor timer unit 38 intermittently repeats the operation (Td) and the stop (Tc) of the roller motor 27 via the roller motor output control unit 32 and the roller motor drive unit 33, and the loop filter 17a. , 17b absorbs acidic water or alkaline water in the water tank 18, and the loop filters 17a, 17b can also prevent bacterial growth.
[0032]
(Example 5)
FIG. 11 is a circuit block diagram of an air cleaner in Embodiment 5 of the present invention. FIG. 12 is an operation flowchart of the air cleaner.
[0033]
The difference from the third embodiment is that a water quality sensor 39 for detecting the degree of water quality in the water tank 18 is provided in the lower part of the water tank 18, and a water quality dirt display unit 40 is displayed when the water quality in the water tank 18 is large. It is what you have.
[0034]
Note that the same reference numerals as those in the first and fourth embodiments are the same components, and a detailed description thereof will be omitted.
[0035]
Next, the operation and action will be described. As shown in FIG. 12, in step A1, it is detected by the water level sensor 34 that a water level higher than a predetermined low water level set in advance is secured in the water tank 18, and in step A2, step A3 and step A4, the fan motors are respectively detected. 20, the rotor motor 27, and the DC power supply 23 are operated, and the dirt of the room air is collected by the loop filters 17 a and 17 b. The collected dirt is dissolved or mixed in the water in the water tank 18, and the water in the water tank 18 becomes dirty. In step A10, the water quality sensor 39 provided in the lower part of the water tank 18 detects the level of water quality dirt. If the dirt is larger than a preset value, the water quality dirt display unit 40 performs water quality dirt display in step A11, The user can be encouraged to replace the water in the water tank 18, and the air cleaning ability can be maintained by replacing the water with clean water before the dirt in the water in the water tank 18 reaches the saturated concentration.
[0036]
【The invention's effect】
As is clear from the above description, according to the invention of claim 1, the air suction port and the air suction port are arranged side by side so as to face, and the air sucked from the air suction port is filtered. And it is equipped with a filtration evaporation part that gets wet by immersion and a part of the water evaporates, a water tank, a blower, and an air outlet, and a pair of electrodes are provided in the water in the water tank. the membrane pass freely provided, one of the electrodes is connected to the positive side of the DC power source as an anode and the other electrode as a cathode by connecting the minus side of the DC power source, the filtration evaporation portion upper roller and a lower It has two loop-like filters suspended between the roller and the upper and lower rollers, and the lower part of one loop-like filter is immersed in the water on the anode side across the diaphragm in the water tank, and the other loop-like filter Filter the water on the cathode side The upper roller is connected to the rotation drive means, so that the lower part of the two loop filters suspended between the upper and lower rollers is immersed in the water in the water tank, and the rotation drive means operates. It rotates in a wet state and faces the air suction port, so that it becomes a wet filter, traps dust in the passing air, dissolves and absorbs malodorous components in the water, and purifies the air. In particular, the water in the aquarium is electrolyzed, and acidic water and alkaline water are generated across the diaphragm. The loop filter that is one of the filter evaporation units contains acid water, and the loop filter that is the other filter evaporation unit is Since it contains alkaline water, the acidic gas is easily absorbed by the alkaline water, and the alkaline gas is easily absorbed by the acidic water. The part evaporates and the air can be humidified.
[0037]
According to the second aspect of the present invention, at least one of a gas sensor that detects indoor gas concentration, a particle sensor that detects particle concentration, and a humidity sensor that detects humidity is provided, and a blower is provided according to the output of the sensor. Control means for controlling the output of the motor and the rotational speed of the rotation drive means, the gas concentration of the indoor odor component is detected by the gas sensor, the particle concentration of the indoor dust is detected by the particle sensor, and the indoor air Humidity is detected by a humidity sensor, and the fan output and the rotation speed of the rotation drive means are controlled according to the output of each sensor. Therefore, when the odor or dust is high or the humidity is low, the fan output Increasing the rotational speed of the rotary drive means increasing the amount of passing air and the amount of water absorbed by the loop filter to speed up indoor air purification, and increasing the amount of humidification can improve the indoor drying condition. Odor Dust when or if the humidity of the low concentration is high by reducing the rotational speed of the rotary drive means and the blower output, it is possible to achieve savings in power consumption and the evaporation loss of water.
[0038]
According to the invention of claim 3, the water level sensor for detecting the water level in the water tank, the means for controlling the operation and stop of the blower, the rotation driving means and the DC power source by the output of the water level sensor, the water level in the water tank When there is a low water level below the predetermined value, there is a water shortage display means for displaying the water shortage, so when the water quantity is short, the blower, the rotation drive means and the DC power supply are stopped to prevent idling At the same time, by displaying the water shortage, it is possible to accurately notify the time for water replacement.
[0039]
Further, according to the invention of claim 4, since there is means for intermittently applying the DC voltage to the anode and the cathode in the water tank when the blower is stopped, and means for intermittently operating the rotation drive means, Electrolysis of water in the aquarium is intermittently performed even when the blower is stopped, and the water in the aquarium can be kept acidic and alkaline, so that bacterial growth in the aquarium can be prevented, and the rotation drive means is also intermittent. Since it operates, the loop filter is also immersed in acidic water or alkaline water, so that bacterial growth can be prevented and good hygiene can be maintained.
[0040]
According to the invention of claim 5, the water quality sensor for detecting the dirt in the water in the aquarium, and the water exchange display means for displaying by the output of the water quality sensor when the dirt of the water exceeds a predetermined concentration When the water in the aquarium is dirty, the water exchange timing is indicated by the water exchange indication means before the water in the aquarium becomes saturated with the dirt collected from the air by the detection of the water quality sensor. Since it is displayed, it is easy to stably collect odors and dust by exchanging with clean water at that time.
[Brief description of the drawings]
FIG. 1 is a front sectional view showing the structure of an air cleaner according to a first embodiment of the present invention. FIG. 2 is a side sectional view showing the structure of the same air cleaner. FIG. 4 is a diagram showing the control of the air cleaner. FIG. 5 is a diagram showing the control of the air cleaner. FIG. 6 is a diagram showing the control of the air cleaner. FIG. 8 is a circuit block diagram of the air cleaner according to the third embodiment. FIG. 8 is an operation flowchart of the air cleaner. FIG. 9 is a circuit block diagram of the air cleaner according to the fourth embodiment of the present invention. FIG. 11 is a circuit block diagram of an air cleaner according to a fifth embodiment of the present invention. FIG. 12 is an operation flowchart of the air cleaner. FIG. 13 is a configuration diagram of a conventional air cleaner. External view of the air cleaner 【Explanation of symbols】
16 Air suction port 17 Filtration evaporation unit 17a, 17b Loop filter 18 Water tank 19 Fan 20 Fan motor 21 Air outlet 22 Electrode 22a Anode 22b Cathode 23 DC power supply 24 Upper roller 25 Lower roller 26 Separator 27 Roller motor 28a Gas sensor 28b Particle sensor 28c Humidity Sensor 29 Control Unit 30 Fan Motor Output Control Unit 31 Fan Motor Drive Unit 32 Roller Motor Output Control Unit 33 Roller Motor Drive Unit 34 Water Level Sensor 35 Start / Stop Control Unit 36 Water Insufficient Display Unit 37 DC Power Supply Timer Unit 38 Rotor Motor Timer 39 Water quality sensor 40 Water stain display

Claims (5)

An air suction port, a filter evaporating unit that is arranged side by side facing the air suction port, filters the air sucked from the air suction port, and gets wet by immersion and evaporates a part of the water; a water tank; A blower and an air outlet are provided, a pair of electrodes are provided in the water in the water tank, a diaphragm through which ionic substances in the water freely pass is provided between the electrodes, and one of the electrodes is a positive side of a DC power source And the other side of the electrode is connected to the negative side of the DC power source to serve as the cathode, and the filtration and evaporation section has two loops suspended between the upper roller, the lower roller, and the upper and lower rollers. And the lower part of one of the loop filters is immersed in the water on the anode side across the diaphragm in the water tank, and the other loop filter is immersed in the water on the cathode side Do And location, the upper roller is an air cleaner which is constructed by connecting the rotation driving means.   At least one of a gas sensor that detects indoor gas concentration, a particle sensor that detects particle concentration, and a humidity sensor that detects humidity, and controls the output of the blower and the rotational speed of the rotation drive means according to the output of the sensor The air purifier according to claim 1, further comprising a control means for controlling the air cleaner.   A water level sensor for detecting the water level in the aquarium, means for controlling the operation and stop of the operation of the blower, the rotation driving means and the DC power supply by the output of the water level sensor, and the water level in the aquarium is below a predetermined low water level The air purifier according to claim 1 or 2, further comprising a water shortage display means for performing display.   The air cleaner according to any one of claims 1 to 3, wherein a DC voltage is intermittently applied to the anode and cathode in the water tank when the blower is stopped, and the rotation driving means is operated intermittently.   5. A water quality sensor for detecting dirt in water in the aquarium, and a water exchange display means for performing display based on an output of the water quality sensor when the water quality sensor detects dirt of a predetermined high concentration or higher. The air cleaner according to any one of the above.

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