JP2004092966A - Air cleaner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To optimize operation of a ventilation device, suppress waste electric power consumption, and improve air conditioning efficiency by controlling supply of electric power to the ventilation device in accordance with a foul condition or (and) the presence or absence of a person in a room. <P>SOLUTION: An air cleaner is provided with a power supply change-over part 13 switching electric power from the outside for the ventilation device 20 to either of supply and shutting-off conditions, a foulness detection part 11 detecting a degree of foul air in the room, and a control part 12 determining a degree of air foulness by the foulness detection part 11 according to the previously set threshold value and sending a change-over signal for supply and shutting-off to the power supply change-over part 13 based on the results of determination to control the power supply change-over part 13. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an air purifier in which a ventilation function by a ventilation device and an indoor air purification function are linked, and more specifically, a power supply dedicated to a ventilation device is provided, and a degree of contamination of air in a room to be air-purified or (and ) An air purifier that has means for acquiring the occupancy / absence information of a person, controls on / off of a power supply dedicated to the ventilator according to the acquired information, and reduces power consumption by the ventilator and improves air conditioning efficiency. About.
[0002]
[Prior art]
Conventionally, air purifiers installed in rooms such as ordinary homes and offices have a main purpose of removing dust in the room, and some of the gas components can be removed by activated carbon or the like. Nothing removed all harmful components. Therefore, gas components are often removed together with a ventilation device.
[0003]
By the way, in general, some ventilators have a function of optimizing an operation of detecting a dirt of air and performing a ventilating operation, and are expensive. In the case of a ventilator having no function of optimizing the operation, the operation is controlled by a person. In this case, an operation is performed in which the ventilation device is turned off after being in the room until the air in the room is cleaned, or turned off before cleaning.
[0004]
When performing indoor air cleaning only with a ventilation device having an operation optimization function, indoor air is cleaned, but especially in smoking applications, a large amount of dust components will be scattered outside, Environmentally unfavorable. Therefore, the combined use of the air purifier and the ventilation device is optimal.
[0005]
Such an air purifier with a ventilation function is disclosed in, for example, JP-A-2-302539, JP-A-11-23042, and JP-A-2001-248865. Further, as a device for controlling a ventilation device, it is disclosed in, for example, JP-A-5-71779, JP-A-2000-39194, and JP-A-2002-61930.
[0006]
Japanese Patent No. 3180374 discloses an “air purification / ventilation interlocking system” that interlocks an air purifier with a ventilation device. In this publication, particularly, when the dust collecting capability significantly decreases over time, control is performed such that the timing of increasing the air cleaning capability of one or both of the air cleaning device and the ventilation device is advanced.
[0007]
[Problems to be solved by the invention]
However, in the prior art as shown above, first, when turning on / off the ventilation device by a person, the ventilation device is turned off after being in the room until the indoor air is cleaned, Or, it may be cut off before cleaning, and an appropriate operation is not always performed. In particular, if the ventilation device is turned off before cleaning, it may cause contamination in the room. In addition, it is conceivable that the user may forget to turn off the air. In this case, not only unnecessary power consumption of the ventilator but also excessive ventilation may cause a decrease in air conditioning efficiency in summer or winter.
[0008]
In addition, when operating the air purifier in conjunction with the ventilation device, the operation of the air purifier and the ventilation device at the optimal timing, control of the stop is not performed, and the indoor state where the operation of the ventilation device is unnecessary is required. However, since the ventilation device operates extra, wasteful power is consumed, which is uneconomical.
[0009]
The present invention has been made in view of the above, and optimizes the operation of a ventilator by controlling the power supply to the ventilator according to the indoor dirt condition and / or the presence or absence of a person. It is an object of the present invention to reduce the power consumption and improve the air conditioning efficiency.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, in the air purifier according to claim 1, the air purifier is installed in a room to be air-cleaned, and further operates in conjunction with a ventilation device that exhausts outside the room. Power supply switching means for switching between external power supply and cutoff to the ventilator; a dirt degree detecting means for detecting the degree of air dirt in the room; and an air dirt degree set by the dirt degree detecting means in advance. And a control means for controlling the power supply switching means by sending a supply / shutdown switching signal to the power supply switching means based on the determination result.
[0011]
According to the present invention, the power supply to the ventilator is performed when the degree of contamination of the indoor air is determined to be equal to or higher than the predetermined value, and the power supply to the ventilator is shut off during cleaning, so that the indoor air is reduced. It is possible to avoid unnecessary operation of the ventilator that occurs during the period of cleaning, and eliminate waste of ventilation.
[0012]
Further, in the air purifier according to claim 2, the contamination degree detecting means is constituted by a gas sensor, and the control means is configured to control the power supply switching means in accordance with the magnitude of the gas concentration value detected by the gas sensor. To control the power supply switching means.
[0013]
According to this invention, the power supply to the ventilator is performed when the gas concentration in the room is determined to be equal to or higher than the predetermined value, and the power supply to the ventilator is shut off when the room is clean. It is possible to avoid extra operation of the ventilator which occurs during a period in which the gas is cleaned below the allowable gas concentration, and to eliminate waste of the ventilation volume.
[0014]
Further, in the air purifier according to claim 3, the contamination degree detecting means includes a gas sensor for detecting a gas concentration in the room and a smoke sensor for detecting a dust concentration in the room, and the control means includes: Sending a supply / cutoff switching signal to the power supply switching means in accordance with the weighted average value of the gas concentration value detected by the gas sensor and the dust concentration detected by the smoke sensor; Is controlled.
[0015]
According to the present invention, in claim 1, power is supplied to the ventilator when one or both of the indoor gas concentration and the dust concentration are determined to be equal to or greater than a predetermined value, and to the ventilator during cleaning. By shutting off the power supply to the air conditioner, it is possible to avoid unnecessary operation of the ventilator which occurs during the period when the room is cleaned below the permissible gas concentration and / or the dust concentration is below the permissible level, thereby wasting ventilation. Can be eliminated.
[0016]
Further, in the air purifier according to claim 4, in the air purifier installed in the room to be air-cleaned and further operated in conjunction with the ventilator that exhausts the air to the outside, an external power supply to the ventilator is provided. Power supply switching means for switching the power supply to one of supply / shutoff states, a person detection means for detecting the presence / absence of a person in the room, and the person detection means for detecting the presence / absence of a person in the room. Control means for sending a supply / cutoff switching signal to the power supply switching means and controlling the power supply switching means.
[0017]
According to the present invention, power supply to the ventilator is performed when air contamination due to human activity (occupied state) in a room is assumed, and ventilation is performed when human activity is lost and the user is absent. By cutting off the power supply to the device, it is possible to avoid the useless operation of the ventilator which occurs during the absence of a person, and to eliminate the waste of the ventilation volume.
[0018]
Further, in the air purifier according to the fifth aspect, in the air purifier installed in the room to be air-cleaned and further operated in conjunction with the ventilator that exhausts the air to the outside, an external power supply to the ventilator is provided. Power supply switching means for switching the power supply to one of a supply state and a cutoff state; a contamination degree detection means for detecting the degree of air contamination in the room; a person detection means for detecting the presence / absence of a person in the room; The degree of air contamination by the degree detecting means and the detection information of the presence / absence of a person by the person detecting means are input, and a supply / shutoff switching signal is sent to the power switching means in accordance with the input information. Control means for controlling the means.
[0019]
According to the present invention, by operating the ventilation device when air contamination due to human activity in the room is detected, and by stopping the ventilation device when it is assumed that the air contamination is gone, It is possible to avoid useless operation of the ventilator that occurs during the absence period of a person, and eliminate waste of ventilation.
[0020]
Further, in the air purifier according to claim 6, the contamination degree detecting means is constituted by a gas sensor, and the control means is configured to determine a magnitude of a gas concentration value detected by the gas sensor and the human detecting means. A supply / shut-off switching signal is sent to the power switching means in accordance with the information on the presence / absence of the room to control the power switching means.
[0021]
According to the present invention, in claim 5, the ventilator is operated when it is detected that the air is contaminated due to human activity in the room, particularly when the gas concentration is high, and the gas concentration is below the allowable level. In such a case, by stopping the ventilation device, it is possible to avoid unnecessary operation of the ventilation device that occurs during the absence of a person, and to eliminate waste of ventilation.
[0022]
Further, in the air purifier according to claim 7, the degree of contamination detection means includes a gas sensor for detecting a gas concentration in the room and a smoke sensor for detecting a dust concentration in the room, and the control means includes The power supply switching means according to the magnitude of the weighted average of the gas concentration value detected by the gas sensor and the dust concentration detected by the smoke sensor, and information on the presence / absence of the room by the human detection means. A power supply / interruption switching signal is sent to control the power supply switching means.
[0023]
According to the present invention, in claim 6, the ventilator is operated when it is detected that air pollution due to human activity in the room, particularly gas concentration and / or dust concentration is high, and on the other hand, the gas concentration or (And) If it is assumed that the dust concentration is below the allowable level, the ventilation device is stopped, thereby avoiding useless operation of the ventilation device that occurs during the absence of a person and eliminating waste of ventilation. It becomes possible.
[0024]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of an air purifier according to the present invention will be described in detail with reference to the accompanying drawings. Note that this embodiment is an example, and the present invention is not limited to this embodiment.
[0025]
The air purifier of the present invention determines the indoor state related to air cleaning by detecting the degree of indoor air contamination or (and / or) the presence / absence of a person, and according to the determination result, the air purifier. It has a function of appropriately switching the power supply to the ventilator connected to the power supply so that the power can be turned on / off (on / off). Hereinafter, each embodiment will be specifically described.
[0026]
(Embodiment 1)
FIG. 1 is a block diagram showing a configuration of the air purifier 10a according to the first embodiment of the present invention. An air purifier 10a according to the first embodiment detects a degree of contamination of air and outputs a contamination degree signal a, a control unit 12 that executes an air cleaning operation, and a switching signal of the control unit 12. The power supply unit 13 includes a power supply switching unit 13 for switching on / off of the external power supply AC100V according to b, and a ventilator-dedicated power outlet 14 for supplying power to the ventilator 20. Although not shown, the air purifier 10a is installed in a certain room (room such as a general home or office), and is further configured to be exhausted outside by the ventilation device 20.
[0027]
The control unit 12 is constituted by a generally known microcomputer system having a CPU for executing a control program, a ROM in which the control program and various parameters are stored, a RAM used as a working memory during control, and the like. I have.
[0028]
In the above configuration, during the air cleaning operation, the air purifier 10a detects the degree of dirt of air in real time by the dirt detector 11 and inputs the dirt degree signal a to the controller 12. After detecting the degree of indoor air contamination by the contamination detection unit 11, the control unit 12 internally determines whether power supply to the ventilator outlet 14 is to be turned on / off (supply / cut off), and determines the switching signal b. Output to the power switching unit 13. At this time, when the switching signal b is “ON”, the power supply switching unit 13 supplies 100 V AC to the power outlet 14 dedicated to the ventilator. On the other hand, when the switching signal b is “OFF”, the power supply switching unit 13 cuts off the supply of 100 V AC to the power outlet 14 dedicated to the ventilator.
[0029]
An operation example of the first embodiment will be described with reference to a flowchart shown in FIG. First, the control unit 12 detects indoor air contamination from the contamination degree signal a input from the contamination detection unit 11 (step S11). Next, it is determined whether the ventilator-dedicated power outlet 14 is in the “ON” state or the “OFF” state (step S12). When the switching signal of the previous output is “OFF”, the process shifts to the start determination of the ventilator 20 and shifts to the stop determination of the ventilator 20.
[0030]
That is, when the switching signal of the previous output is “ON” in step S12, whether the air contamination degree ≦ the ventilation device stop threshold value is satisfied, that is, whether the contamination degree signal a is equal to or less than the preset ventilation device stop threshold value (Step S14). If it is determined that the contamination signal a is equal to or smaller than the ventilator stop threshold, the power supply of the ventilator 20 is switched off (step S15), and the operation is terminated.
[0031]
On the other hand, if the switching signal of the previous output is “OFF” in step S12, it is further determined whether the degree of air contamination ≧ the ventilation device stop threshold, that is, whether or not the contamination signal a is equal to or greater than the preset ventilation device stop threshold. (Step S16). If it is determined that the contamination signal a is equal to or greater than the ventilator stop threshold, the switching of the power supply to the ventilator 20 is set to “ON” (step S17), and the operation ends. .
[0032]
Therefore, by connecting the ventilator 20 to the power outlet 14 dedicated to the ventilator, the power of the ventilator 20 is turned on and the ventilating operation is performed when the degree of contamination of the air increases, and when the degree of contamination decreases. By shutting off the power supply of the ventilator 20 and stopping it, wasteful power consumption by the ventilator 20 when the air is not contaminated can be suppressed. In addition, since there is no unnecessary ventilation occurring at this time, optimization of the operation of the ventilation device and optimization of the air conditioning efficiency are realized.
[0033]
By the way, as the dirt detection unit 11, for example, indoor CO ₂ , CO, NO ₂ , SO ₂ For example, a gas sensor for detecting a gas concentration is used. That is, gas concentration information is used as the contamination degree signal a. Thereby, when the gas concentration in the room becomes equal to or more than the preset ventilator start threshold, the ventilator 20 is operated, and when the gas concentration becomes equal to or less than the ventilator start threshold, the ventilator 20 is stopped. Wasteful power consumption of the ventilator 20 can be suppressed, and there is no unnecessary ventilation occurring at this time, so that the ventilator 20 can be operated effectively.
[0034]
Further, as shown in FIG. 3, the dirt detection unit 11 may be configured to use both a gas sensor and a smoke sensor. In the figure, reference numeral 21 denotes a gas sensor, reference numeral 22 denotes a smoke sensor, reference numeral 23 denotes a multiplier that multiplies the output value Sg of the gas sensor 21 by a constant m, reference numeral 24 denotes a multiplier that multiplies the output Sd of the smoke sensor 22 by a constant n, Reference numeral 25 denotes an adder for adding the respective outputs.
[0035]
That is, a signal obtained by multiplying the gas concentration signal Sg of the gas sensor 21 and the dust concentration signal Sd of the smoke sensor 22 by constants m and n, respectively, is added to obtain a contamination degree signal a (= m · Sg + n · Sd). At this time, 0 <m, n <1, and by setting m and n so as to satisfy m + n = 1, a weighted average value is obtained. Hereinafter, by performing the control as shown in FIG. 2, optimization of the ventilation device operation and optimization of the air conditioning efficiency are realized.
[0036]
(Embodiment 2)
In the second embodiment, the operation / stop of the ventilator 20 is controlled by the degree of contamination in the room in the first embodiment. However, in the second embodiment, the ventilator is controlled according to the “occupancy” and “absence” of a person. 20 is controlled.
[0037]
FIG. 4 is a block diagram illustrating a configuration of the air purifier 10b according to the second embodiment of the present invention. The air purifier 10b detects the presence of a person instead of the dirt detection unit 11 of the air purifier 10a of the first embodiment (see FIG. 1) described above, and sends the person detection signal c to the control unit 12. A supplying person detecting unit 17 is provided. Since the configuration and operation of the other components are the same as those in the first embodiment, they are denoted by the same reference numerals as those in FIG. 1 and will not be described here. As the human detection unit 17, for example, an optical sensor using an infrared sensor using infrared light is employed.
[0038]
An operation example of the first embodiment will be described with reference to a flowchart shown in FIG. First, the presence or absence of a person is detected by the person detection unit 17 (step S21). The control unit 12 detects whether the person is “occupied” or “absent” from the person detection signal c input from the person detection unit 17 (step S22). Here, when it is determined that the room is "occupied," the switching signal b to the power switching unit 13 is set to "ON" (step S23), and the power is supplied to the ventilator 20 to operate it.
[0039]
On the other hand, if it is determined in step S22 that "absence", stop determination is performed (step S24). This stop determination depends on the specifications of the human detection unit 17, and when the human detection unit 17 detects the movement of a person, it is not detected if there is no movement of the person even when the person is in the room. It is determined to be stopped when the signal continues for a certain period of time.
[0040]
Therefore, the ventilation device 20 according to the second embodiment operates when a person is in the room and stops when the person is absent, so that the operation of the ventilation device 20 can be controlled in an optimal state, and optimization of air conditioning efficiency Is also realized.
[0041]
(Embodiment 3)
In the third embodiment, two components, that is, a dirt detector 11 and a human detector 17 are provided, and these signals are used as input signals of the controller 12. FIG. 6 shows a configuration of an air purifier 10c according to the third embodiment having the above configuration. Since this configuration is a combination of the first and second embodiments, the same reference numerals as those in FIGS. 1 and 4 denote the same components, and a description thereof will be omitted.
[0042]
Next, the operation of the air purifier 10c configured as shown in FIG. 6 will be described with reference to the flowchart shown in FIG. First, the dirt detection unit 11 detects air dirt, and at the same time, detects the presence / absence of a person by the person detection unit 17 (step S31). Subsequently, it is determined whether the state of the power supply for the ventilator is “ON” / “OFF” (step S32). In this case, if the previous switching signal b is “OFF”, it is further determined that a person is detected, that is, whether the person is in the room or not (step S33).
[0043]
Here, if it is determined that the vehicle is occupied, it is further determined whether or not the degree of air contamination ≦ the ventilation device stop threshold, that is, whether or not the contamination signal a is equal to or less than a preset ventilation device stop threshold (step S34). If it is determined that the contamination signal a is equal to or less than the ventilator stop threshold, the switching of the power supply of the ventilator 20 is set to "OFF" (step S35), and the operation ends.
[0044]
On the other hand, if the switching signal of the previous output is “ON” in step S32, the air contamination degree ≧ the ventilation device stop threshold value, that is, whether the contamination degree signal a is equal to or greater than the preset ventilation device stop threshold value Is determined (step S36). If it is determined that the contamination signal a is equal to or greater than the ventilator stop threshold, the switching of the power supply to the ventilator 20 is left "ON" (step S37). This operation ends.
[0045]
Therefore, the ventilator 20 operates when there is dirt in the air when a person is in the room, and stops when it is clean, so that the operation of the ventilator can be optimized and the air conditioning efficiency is optimized. You. In addition, since the ventilator 20 does not operate for ignition, smoke, or the like generated for some reason in the absence, it is possible to operate safely without increasing these states.
[0046]
By the way, the operation shown in FIG. 7 is executed by using a gas sensor for the dirt detection unit 11 of the air purifier 10c shown in FIG. 6 and setting the dirt degree signal a as the gas concentration. As a result, the ventilator 20 operates when the gas concentration is high when a person is in the room and stops when the gas is clean, so that the operation of the ventilator can be optimized and the air conditioning efficiency can be achieved. Since the ventilator 20 does not operate, it can be safely operated without promoting these conditions.
[0047]
Further, a gas sensor 12 and a smoke sensor 13 as shown in FIG. 3 are used for the dirt detection unit 11 of the air purifier 10c shown in FIG. As shown in FIG. 3, the above-described operation shown in FIG. 7 is executed using the weighted average value of the gas concentration and the dust concentration as the contamination degree signal a. As a result, the ventilator 20 operates when there is dirt in the air when a person is in the room and stops when the air is clean, so that the operation of the ventilator is optimized and the air conditioning efficiency is achieved. Since the ventilator 20 does not operate during the period, it can be safely operated without promoting these conditions. In addition, by using a weighted average value of the outputs of the gas sensor 12 and the smoke sensor 13, it is possible to reduce the influence of a sudden change in humidity generated in the gas sensor 12.
[0048]
【The invention's effect】
As described above, according to the air purifier of the present invention (claim 1), power is supplied to the ventilation device when the degree of contamination of the indoor air is determined to be equal to or greater than a predetermined value. By cutting off the power supply to the ventilator, it is possible to avoid unnecessary operation of the ventilator that occurs during the period when the indoor air is being cleaned (ventilation-free engine) and eliminate waste of ventilation. Therefore, the operation of the ventilation device can be optimized, and the air conditioning efficiency can be improved.
[0049]
According to the air purifier according to the present invention (claim 2), in claim 1, power is supplied to the ventilator when the indoor gas concentration is determined to be equal to or higher than a predetermined value. By shutting off the power supply to the device, it is possible to avoid unnecessary operation of the ventilator that occurs during the period when the room is cleaned with the gas concentration below the allowable gas concentration, and it is possible to eliminate the waste of ventilation. In addition, the operation of the ventilation device can be optimized, and the air conditioning efficiency can be improved.
[0050]
Further, according to the air purifier according to the present invention (claim 3), when the value of one or both of the indoor gas concentration and the dust concentration is determined to be equal to or more than a predetermined value in claim 1, By supplying power, while shutting off the power supply to the ventilator during cleaning, the ventilator generated during the period in which the room is cleaned below the allowable gas concentration and / or the dust concentration is below the allowable level The operation of the ventilation device can be optimized, and the efficiency of air conditioning can be improved. In addition, it is possible to reduce output fluctuations caused by a sudden change in humidity specific to some gas sensors.
[0051]
Further, according to the air purifier according to the present invention (claim 4), when it is assumed that air is contaminated due to the activity of a person in the room (in-room state), power is supplied to the ventilator. By cutting off the power supply to the ventilator when the person is no longer active and in the absence state, the wasteful operation of the ventilator that occurs while the person is absent is avoided, and the ventilation volume is not wasted. Therefore, the operation of the ventilation device can be optimized, and the air conditioning efficiency can be improved.
[0052]
Further, according to the air purifier according to the present invention (claim 5), it is assumed that the ventilation device is operated when the contamination of the air due to the activity of the person in the room is detected, and the contamination of the air is eliminated. In this case, the operation of the ventilator is optimized by stopping the ventilator in order to avoid the wasteful operation of the ventilator occurring during the absence of a person and to eliminate the waste of the ventilation volume. And the air conditioning efficiency can be improved. Also, if a fire or smoke is generated while a person is leaving the room, the ventilation device is not operating, and therefore, it is possible to act on the safe side without increasing the scale.
[0053]
Further, according to the air purifier according to the present invention (claim 6), in claim 5, the ventilator is operated when it is detected that the air is dirty, especially the gas concentration is high due to the activity of the person in the room. On the other hand, when it is assumed that the gas concentration becomes below the allowable level, the ventilation device is stopped to avoid unnecessary operation of the ventilation device which occurs during the absence of a person, and eliminate waste of ventilation. Therefore, the operation of the ventilation device can be optimized, and the air conditioning efficiency can be improved. Also, if fire or smoke is generated for any reason when no person is indoors, the ventilation system is not operating, and the flow of indoor air is almost stopped. Can act on the side.
[0054]
According to the air purifier according to the present invention (claim 7), in claim 6, when it is detected that air pollution due to human activity in a room, particularly gas concentration and / or dust concentration is high. Operating the ventilation system on the other hand, and stopping the ventilation system if the gas concentration and / or the dust concentration is assumed to be below the allowable level, thereby reducing the waste of the ventilation system during the absence of persons. Since it is possible to avoid unnecessary operation and eliminate waste of ventilation, the operation of the ventilator can be optimized and the air conditioning efficiency can be improved. In the event that fire or smoke occurs when a person is not indoors, the ventilator is not operating, so that it is possible to act on the safe side without increasing the size of the air flow.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of an air purifier according to a first embodiment of the present invention.
FIG. 2 is a flowchart illustrating an operation of the air purifier according to the first embodiment of the present invention.
FIG. 3 is a block diagram illustrating a configuration in a case where a gas sensor and a smoke sensor are used for a dirt detection unit.
FIG. 4 is a block diagram illustrating a configuration of an air purifier according to a second embodiment of the present invention.
FIG. 5 is a flowchart showing an operation of the air purifier according to the second embodiment of the present invention.
FIG. 6 is a block diagram illustrating a configuration of an air purifier according to a third embodiment of the present invention.
FIG. 7 is a flowchart illustrating an operation of the air purifier according to the third embodiment of the present invention.
[Explanation of symbols]
10a, 10b, 10c Air purifier
11 Dirt detector
12 control unit
13 Power switching unit
14 Power outlet for exclusive use of ventilation equipment
17 Human detection unit
20 Ventilation equipment
21 Gas sensor
22 Smoke sensor

Claims (7)

In an air purifier that is installed in the room to be air-cleaned and that operates in conjunction with a ventilator that exhausts further to the outside,
Power supply switching means for switching external power to the ventilator to one of a supply / interrupt state;
Dirt degree detecting means for detecting the degree of air dirt in the room,
A control for judging the degree of air contamination by the degree of contamination detection means in accordance with a preset threshold value, sending a supply / cutoff switching signal to the power supply switching means based on the determination result, and controlling the power supply switching means. Means,
An air purifier comprising: The contamination degree detecting means is constituted by a gas sensor,
2. The power supply switching unit according to claim 1, wherein the control unit sends a supply / cutoff switching signal to the power supply switching unit in accordance with the magnitude of the gas concentration value detected by the gas sensor. An air purifier according to item 1. The contamination degree detecting means includes a gas sensor that detects a gas concentration in the room and a smoke sensor that detects a dust concentration in the room,
The control means sends a supply / cutoff switching signal to the power supply switching means in accordance with the weighted average value of the gas concentration value detected by the gas sensor and the dust concentration detected by the smoke sensor, The air purifier according to claim 1, wherein the power supply switching unit is controlled. In an air purifier that is installed in the room to be air-cleaned and that operates in conjunction with a ventilator that exhausts further to the outside,
Power supply switching means for switching external power to the ventilator to one of a supply / interrupt state;
A person detecting means for detecting the presence / absence of a person in the room;
Control means for transmitting a supply / shut-off switching signal to the power supply switching means in accordance with the detection information of the presence / absence of a person by the human detection means, and controlling the power supply switching means;
An air purifier comprising: In an air purifier that is installed in the room to be air-cleaned and that operates in conjunction with a ventilator that exhausts further to the outside,
Power supply switching means for switching external power to the ventilator to one of a supply / interrupt state;
Dirt degree detecting means for detecting the degree of air dirt in the room,
A person detecting means for detecting the presence / absence of a person in the room;
The degree of air contamination by the degree of contamination detection means and the detection of presence / absence of a person by the person detection means are input, and a supply / shutoff switching signal is sent to the power supply switching means in accordance with the input information. Control means for controlling power supply switching means;
An air purifier comprising: The contamination degree detecting means is constituted by a gas sensor,
The control means sends a supply / shutdown switching signal to the power supply switching means in accordance with the magnitude of the gas concentration value detected by the gas sensor and the presence / absence information of the human detection means, The air purifier according to claim 5, wherein the means is controlled. The contamination degree detecting means includes a gas sensor that detects a gas concentration in the room and a smoke sensor that detects a dust concentration in the room,
The control unit switches the power supply according to the magnitude of a weighted average value of a gas concentration value detected by the gas sensor and a dust concentration detected by the smoke sensor, and information on presence / absence of a room by the human detection unit. The air purifier according to claim 5, wherein a supply / cutoff switching signal is sent to the means to control the power supply switching means.

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