JP2021179292A - Air conditioner - Google Patents

Abstract

To provide an air conditioner having a function for performing an appropriate operation.SOLUTION: An air conditioner includes a first detecting section for detecting information related to dust, a second detecting section for detecting information related to vibration, a blowing section for blowing air, a notification section for performing notification, and a control section for controlling to make at least one of the blowing section and the notification section perform a specific operation on the basis of the detection result of the first detecting section. The control section does not control to perform the specific operation based on the detection result of the first detecting section when the information related to the vibration detected by the second detecting section satisfies a prescribed condition.SELECTED DRAWING: Figure 4

Description

The present invention relates to an air conditioner.

For example, Patent Document 1 describes an air conditioner including a dust sensor that detects air pollution and a control unit that performs various controls based on signals from the sensor.

Japanese Unexamined Patent Publication No. 2001-87613

However, in the air conditioner, when vibration is applied from the outside, the dust around the dust sensor is taken into the dust sensor, and the dust sensor outputs the detection signal to the control unit, so that the control unit detects from the dust sensor. There was a risk of performing unnecessary control based on the signal. It is an object of the present invention to provide an air conditioner having a function of performing appropriate control.

The air conditioner of one embodiment of the present invention has a first detection unit that detects information about dust, a second detection unit that detects information about vibration, a blower unit that blows air, a notification unit that performs notification, and a first. 1 A control unit that controls at least one of the ventilation unit and the notification unit to perform a specific operation based on the detection result of the detection unit is provided, and the control unit relates to the vibration detected by the second detection unit. When the information satisfies a predetermined condition, the control for performing the specific operation based on the detection result of the first detection unit is not performed.

It is a perspective view of the air conditioner which concerns on 1st Embodiment. It is a side sectional view of the air conditioner which concerns on 1st Embodiment. It is a block diagram of the control part of the air conditioner which concerns on 1st Embodiment. It is a flow chart of the 1st process in the air conditioner which concerns on 1st Embodiment. It is a flow chart of the 2nd processing in an air conditioner. It is a flow chart of the 3rd processing in an air conditioner.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the drawings, the same or equivalent elements are designated by the same reference numerals, and duplicate description will be omitted.

[First Embodiment]
FIG. 1 is a perspective view of the air conditioner according to the first embodiment. FIG. 2 is a side sectional view of the air conditioner according to the first embodiment. The air conditioner 1 is, for example, an air purifier or an air conditioner (hereinafter referred to as an air conditioner), which removes dust in the air, humidifies the air, or adjusts the temperature and humidity of the air. Including those with functions such as. In the following description, an air purifier will be described as an example.

The air conditioner 1 shown in FIG. 1 has a housing 2 that opens a suction port 3 and outlets 4 and 5. On the back surface of the housing 2, there is a back panel 6 having a suction port 3 for sucking air into the housing 2. The back panel 6 is detachably attached to the back surface of the housing 2 and covers the opening on the back surface of the housing 2. An air outlet 4 is formed in the upper part of the front surface of the housing 2. Further, an outlet 5 is formed on the upper surface of the housing 2. Further, on the upper surface of the housing 2, there are a run / stop button for starting / stopping, a button for selecting various operation modes, a wind direction button for changing the wind direction of the louver, and an air volume button for changing the air volume. It has an operation unit 10 including a humidification button and the like for humidifying.

The operation unit 10 is composed of, for example, at least one of a button, a touch panel, a display panel, and the like, receives a user's instruction operation, and outputs the content of the instruction operation to the control unit 111 (see FIG. 3).

On the upper surface of the housing, for example, a display unit 11 for displaying the degree of dirt, temperature, humidity, etc. in the air in the room is provided.

The notification unit 12 (see FIG. 3) notifies the user, for example, by using the light of a lamp, the sound from a speaker, or the like.

A swingable front louver 20 and a sliding louver 21 for adjusting the wind direction are arranged at the air outlet 4 on the upper front surface and the air outlet 5 on the upper surface.

Inside the housing 2 shown in FIG. 2, an air passage 7 through which air flows from the suction port 3 toward the air outlet 4 on the upper front surface and the air outlet 5 on the upper surface is formed. In the air passage 7, the pre-filter 22, the cleaning unit 23, the deodorizing filter 24, the dust collecting filter 25, the humidifying unit 14, the air outlet unit 13, and the discharging unit 15 are arranged in this order from the suction port 3 toward the air outlet 4 and the air outlet 5. Is provided. The air passage 7 branches on the downstream side of the discharge unit 15 and communicates with the outlet 4 and the outlet 5.

The blower unit 13 includes a fan (not shown) for generating blown air for taking air into the air conditioner, and a fan motor (not shown) for rotating the fan. The blower portion 13 is formed by a centrifugal fan such as a sirocco fan driven by a fan motor, sucks air in the axial direction, and sends out air in the circumferential direction. The blower portion 13 is arranged so that the center of rotation of the fan is closer to the lower part of the deodorizing filter 24 and the dust collecting filter 25.

The pre-filter 22 is for collecting dust (dust) in the passing air by the suction force from the blower unit 13. The pre-filter 22 is formed of a sheet-like mesh such as polypropylene. The pre-filter 22 is provided on the inside of the back panel 6 (the side facing the housing 2) so as to face the suction port 3.

The cleaning unit 23 has a brush unit (not shown) for cleaning the sheet-shaped pre-filter 22 and a drive unit (not shown) for moving the pre-filter 22 to the brush unit.

The deodorizing filter 24 is for deodorizing the air by adsorbing the odorous components in the passing air by the suction force from the blower unit 13. The deodorizing filter 24 is formed in a honeycomb shape, for example, and is housed in an opening provided on the back surface of the housing 2.

The dust collecting filter 25 is provided with dust in the air passing through by the suction force from the blower portion 13, specifically, fine dust or PM2.5 having a particle size smaller than a predetermined particle size (for example, 3 μm). It is for collecting fine particles. The dust collecting filter 25 is made of, for example, a HEPA filter, and a frame material (not shown) is welded by hot melt so as to cover the filter medium (not shown). The dust collecting filter 25 is housed side by side with the deodorizing filter 24 in the opening provided on the back surface of the housing 2.

The humidifying section 14 is for humidifying the passing air by the wind generated by the blowing section 13. The humidifying section 14 includes a water supply tank (not shown) for storing water for humidification, a tray for storing water (not shown), and a humidifying filter (not shown) arranged by immersing the lower part in the water in the tray. It is equipped with. Further, the humidifying unit 14 is provided with a tank detecting unit for detecting the attachment / detachment of the water supply tank and a water level detecting unit for detecting the water level in the tray.

The discharge unit 15 generates discharge products such as electrons, ions, radicals, and ozone in the air by discharging. The discharge unit 15 has a structure that allows it to be attached to and detached from the housing 2, and the control unit 111 electrically detects the state of attachment and detachment from the housing 2. The discharge product (for example, ions) generated by the discharge unit 15 is placed on the wind generated by the blower unit 13 and blown out from the outlet 4 and the outlet 5, respectively. Then, in the air conditioner 1, by driving each of the louvers 20 and 21, the direction of the blown wind is changed, and the wind is sent to a predetermined place.

FIG. 3 is a block diagram of a control unit of the air conditioner according to the first embodiment. The main configuration centering on the control unit 111 of the air conditioner 1 will be described.

The air conditioner 1 includes, for example, a control unit 111, an operation unit 10, a notification unit 12, a blower unit 13, a humidification unit 14, a discharge unit 15, a dust detection unit 112, a seismic detection unit 113, a temperature / humidity detection unit 114, and a memory. A unit 121, a communication unit 122, and the like are included.

The control unit 111 is, for example, a CPU (Central Processing Unit), an MPU (Micro Processor Unit), or the like, and executes various types of information processing according to a program stored in the storage unit 121. The control unit 111 receives each detection information from the various detection units and performs various controls described later.

The dust detection unit 112 is an example of a first detection unit for detecting information about dust. The dust detection unit 112 includes, for example, a light emitting unit that irradiates the dust with light and a light receiving unit that receives the light of the light emitting unit. The dust detection unit 112 irradiates the dust in a predetermined space with light from the light emitting unit, estimates the number of dust by receiving the light at the light receiving unit, and determines the concentration of dust in the air. Obtainable. The dust detection unit 112 outputs the obtained dust concentration to the control unit 111 as dust information.

The seismic detection unit 113 is an example of a second detection unit for detecting information related to vibration. The seismic detection unit 113 is arranged in the lower part of the housing 2, and outputs the detected vibration magnitude information of the housing 2 to the control unit as a vibration signal. In addition to the seismic detection unit 113, the second detection unit may be an acceleration detection unit (not shown) that detects acceleration using a capacitance type element, a piezo resistance type element, or the like. The acceleration detection unit is arranged at the lower part of the housing 2, and outputs the detected acceleration value of the housing to the control unit 111 as information on the magnitude of vibration.

Further, the second detection unit may be an inclination detection unit (not shown) that detects the inclination of the air conditioner 1. The tilt detection unit is configured to accommodate, for example, a Hall element and a magnet provided at the bottom of the spherical magnet so as to attract the spherical magnet by magnetic force in a cylindrical main body. The Hall element detects the magnetic flux density from the spherical magnet, and when the housing 2 is tilted, the spherical magnet moves due to gravity, so that the magnetic flux density detected by the Hall element changes, and the tilt detection unit detects the tilt. can do.

Further, the second detection unit detects the attachment / detachment operation of the component attached to the housing 2 as the one for detecting the information related to the vibration. Specifically, the parts attached to the housing 2 are a back panel 6, a discharge unit 15, a water supply tank (not shown) of the humidification unit 14, and the like. The second detection unit that detects the attachment / detachment operation of the back panel 6 is a magnetic detection unit (not shown) or the like.

The magnetic detection unit is provided on the housing 2 or the like in order to detect the attachment / detachment operation of the back panel 6. The magnetic detection unit has a Hall element arranged on the housing 2 side and detecting the magnetic flux density, and a magnet arranged on the back panel 6 side. In the magnetic detection unit, the Hall element on the housing 2 side detects the magnitude of the magnetic flux density of the magnet on the back panel 6 side in order to detect the state in which the back panel 6 is attached to and detached from the housing 2.

Further, the second detection unit may be one in which the discharge unit 15 is attached to and detached from the housing 2 and the attachment / detachment operation is electrically detected.

Further, the second detection unit includes a tank detection unit that detects the attachment / detachment operation of the water supply tank of the humidification unit 14, or a water level detection unit (not shown) that detects the water level of the water in the tray. For example, the water level detection unit is configured to either use a float for measuring the water level in the tray or a distance measuring sensor for measuring the distance to the water in the tray. Specifically, the water level detecting unit can detect the attachment / detachment operation of the water supply tank of the humidifying unit 14 when the water level returns from the water level below the reference water level to the reference water level. In this way, the state of full water is detected from the state where the water supply tank is empty.

The temperature / humidity detection unit 114 detects the temperature and humidity, and outputs the detected temperature / humidity information to the control unit 111. The temperature / humidity detection unit 114 may be provided with a temperature detection unit and a humidity detection unit, respectively.

The storage unit 121 is, for example, a flash memory, a RAM (Random Access Memory), or the like, and holds a program executed by the control unit 111, detection information from various sensors, and various data. The storage unit 121 also operates as a work memory for the control unit 111.

The communication unit 122 is an interface or the like, and communicates with a mobile phone, a server, or the like via a network.

[Flow of the first processing of the air conditioner]
Next, the flow of the first processing in the air conditioner in this embodiment will be described. FIG. 4 is a flow chart of the first process in the air conditioner according to the first embodiment.

First, in the air conditioner 1, the power of the operation unit 10 is turned on. The control unit 111 executes, for example, an operation process for purifying the air. Specifically, when the control unit 111 executes an operation of purifying the air in the room for a certain period of time, the dust concentration detected by the dust detection unit 112 changes from high to low. The control unit 111 controls the air blower unit 13 so that the air blower amount also changes from large to small based on the change in the concentration information of the dust detection unit 112. Hereinafter, the processing of the control unit 111 will be described in detail.

As shown in FIG. 4, the control unit 111 acquires information on the dust concentration detected by the dust detection unit 112 (S101). Specifically, the dust detection unit 112 detects the dust concentration information and outputs it to the control unit 111. The control unit 111 acquires information on the dust concentration of the dust detection unit 112.

The control unit 111 determines whether the dust concentration information is equal to or higher than a predetermined value, and if it is equal to or higher than a predetermined value, proceeds to S103 (S102, YES). On the other hand, when the dust concentration information is less than a predetermined value, the control unit 111 returns to S101 (S102, NO).

The control unit 111 acquires the vibration information detected by the seismic detection unit 113 provided in the housing 2. Specifically, when the user moves the installation position of the housing 2, vibration is generated in the housing 2, and the vibration sensing detection unit 113 detects the vibration information of the housing 2 and outputs it to the control unit 111. The control unit 111 acquires information including the magnitude of vibration.

The control unit 111 determines whether or not the vibration information is equal to or larger than the predetermined vibration magnitude under a predetermined condition, and if the vibration information is equal to or larger than the predetermined vibration magnitude, the process proceeds to S105 (S104, YES).

The control unit 111 controls so as not to perform a specific operation to be executed when the dust concentration is high, such as an increase in the amount of air blown by the air blower unit 13 (S105).

For example, when the user moves the installation position of the housing 2, the vibration generated during the movement may cause dust to fly up in the housing 2, and the dust concentration detected by the dust detecting unit 112 may temporarily increase. In the present embodiment, if the dust concentration information is equal to or greater than a predetermined value and the vibration information is equal to or greater than a predetermined vibration magnitude (S102, YES, and S104, YES), the housing 2 is moved. It is considered that the dust concentration has temporarily increased, and unnecessary specific operation is omitted (S105). In S105, the specific operation may not be executed for a predetermined time until the temporarily increased dust concentration falls below a predetermined value.

On the other hand, in S104, when the vibration information is less than the predetermined vibration magnitude, the control unit 111 proceeds to S106 (S104, NO).

The control unit 111 performs a specific operation such as an increase in the amount of air blown by the air blower unit 13 (S106). That is, if the dust concentration information is equal to or higher than the predetermined value and the vibration information is less than the predetermined vibration magnitude (S102, YES, and S104, NO), the dust concentration is non-temporarily high. It is regarded as, and a specific operation is executed (S106). Specifically, the control unit 111 operates so as to increase the amount of air blown by the air blower unit 13 and reduce the concentration of dust in the air. Alternatively, the control unit 111 controls to change the lighting of the lamp of the notification unit 12 provided in the front portion of the housing 2 from blue to red.

The specific operation includes at least one of an operation of increasing the amount of air blown by the air blowing unit 13 and an operation of notifying the notification unit 12. The operation of causing the notification unit 12 to notify includes lighting of a lamp or the like of the notification unit 12, a sound from the speaker of the notification unit 12, or an utterance of a predetermined content. As the operation for notifying, for example, the sound of a predetermined buzzer may be output from the speaker, or "clean the air" as the utterance content may be output from the speaker.

Further, the specific operation may be at least one such as displaying an image of the notification unit 12 visually shown to the user, increasing the humidification amount of the humidifying unit 14, and increasing the number of discharges of the discharge unit 15. ..

As described above, the air conditioner 1 includes a dust detection unit 112 (first detection unit) that detects dust-related information, a seismic detection unit 113 (second detection unit) that detects vibration-related information, and an air blower. Based on the detection results of the blower unit 13 that performs the notification, the notification unit 12 that performs the notification, and the dust detection unit 112 (first detection unit), control is performed so that at least one of the ventilation unit 13 and the notification unit 12 performs a specific operation. It includes a control unit 111. Further, when the information regarding the vibration detected by the seismic detection unit 113 (second detection unit) satisfies a predetermined condition, the control unit 111 performs a specific operation based on the detection result of the dust detection unit 112 (first detection unit). It acts so as not to control what is done. Therefore, according to the air conditioner 1, even if the dust detection unit 112 detects the information related to dust, if the seismic detection unit 113 detects the information related to vibration, it is not based on the detection result of the dust detection unit 112. It is possible to realize the effect that the operation can be performed more efficiently without performing the necessary operation.

Further, the air conditioner 1 further includes a housing for accommodating the dust detection unit 112 (first detection unit), the second detection unit, the blower unit 13, and the notification unit 12. The second detection unit detects the attachment / detachment operation of the component attached to the housing 2 as information on vibration. The component attached to the housing 2 includes at least one of the back panel 6, the discharging portion 15, and the humidifying portion 13. Therefore, even if the vibration generated when the component is attached to or detached from the housing 2 winds up dust and reaches the dust detection unit 112, an unnecessary operation is not performed and an effect of more efficient operation is realized. Can be.

Further, in the air conditioner 1, the inclination detection unit (second detection unit) detects the inclination of the air conditioner 1 as information regarding vibration. Therefore, by using the tilt information detected by the tilt detection unit as the information related to vibration, it is possible to realize the effect that the control unit 111 can perform the operation more efficiently without controlling the unnecessary operation.

Further, in the air conditioner 1, the specific operation includes at least one of an operation of increasing the amount of air blown by the air blower unit and an operation of notifying the notification unit. By not performing such a predetermined specific operation, it is possible to control more efficiently and eliminate erroneous transmission to the user.

The second detection unit is not limited to the seismic detection unit 113, and may be a tank detection unit, a water level detection unit, a unit that detects the attachment / detachment operation of parts attached to the housing 2.

[Flow of the second processing of the air conditioner]
Next, the flow of the second processing in the air conditioner will be described. The processing flow of the air conditioner differs only in the processing of S107 and S110 in the processing flow shown in FIG. 5, and will be described with reference to the same figure. Hereinafter, a case where the second detection unit is a magnetic detection unit that detects the removed state and the attached state of the back panel 6 will be described.

For example, when the back panel 6 is removed from the housing 2 and reattached, the magnetic detection unit detects the detached state of the back panel 6 and outputs the detected information (information related to vibration) to the control unit 111.

Further, the control unit 111 does not control the vibration detection unit 112 to perform a specific operation based on the detection result for a predetermined period (for example, between 5 seconds and 10 seconds) after the vibration information satisfies the predetermined condition. ..

The control unit 111 shown in FIG. 5 executes the processes of S101, S102 (YES), and S103 in the same manner as in the above embodiment.

In S110, the control unit 111 determines whether the information detected by the magnetic detection unit satisfies a predetermined condition. Specifically, when the control unit 111 indicates that the information detected by the magnetic detection unit has changed from the removed state of the rear panel 6 to the attached state, the information detected by the magnetic detection unit satisfies a predetermined condition. Judgment (S110, YES). That is, when the back panel 6 is attached to the air conditioner 1, it is determined that a predetermined condition is satisfied. In this case, the process proceeds to S105.

In S105, the control unit 111 controls not to perform a specific operation such as an increase in the amount of air blown by the air blower unit 13.

Next, the control unit 111 determines whether or not a predetermined period during which a specific operation such as an increase in the amount of air blown by the blower unit 13 is not performed has elapsed, and determines that the predetermined period has elapsed (S107, YES). ), Returning to the process of S101. The predetermined period is a waiting time until the temporarily increased dust concentration falls below the predetermined value, for example, 5 to 10 seconds. Specifically, the control unit 111 controls so that the amount of air blown by the air blower unit 13 does not increase until, for example, 5 seconds have elapsed, and when 5 seconds have elapsed, the process returns to the process of S101.

On the other hand, if the control unit 111 determines that the predetermined period has not elapsed, the process returns to S103 (S105, NO).

As described above, the air conditioner 1 detects dust for a predetermined period (for example, between 5 seconds and 10 seconds) after the information regarding the vibration of the rear panel 6 detected by the magnetic detection unit satisfies a predetermined condition. No control is performed to perform a specific operation based on the detection result of the unit 112. Therefore, according to the air conditioner 1, even if the dust detection unit 112 detects the information related to dust, if the magnetic detection unit detects the information related to the attachment / detachment of the rear panel 6, the detection result of the dust detection unit 112 is obtained. It is possible to realize the effect that the operation can be performed more efficiently without performing unnecessary operation based on the above.

The second detection unit is not limited to the magnetic detection unit, but detects the seismic detection unit 113, the tank detection unit, the water level detection unit, the attachment / detachment operation of the parts attached to the housing 2, and the like. You may.

[Third processing flow of air conditioner]
Next, the flow of the third processing in the air conditioner will be described. The processing flow of the air conditioner does not control the control unit to perform a specific operation based on the detection result of the first detection unit until the information on the vibration detected by the second detection unit does not satisfy a predetermined condition. You may. The processing flow of the air conditioner differs only in the processing of S107 in the processing flow shown in FIG. 6, and will be described with reference to the same figure. Hereinafter, a case where the second detection unit is a magnetic detection unit will be described.

In the third processing flow, the control unit 111 increases the amount of air blown by the air blower unit 13 based on the detection result of the dust detection unit 112 until the information on the vibration detected by the magnetic detection unit does not satisfy a predetermined condition. Do not control to perform a specific operation. In other words, while the predetermined condition is satisfied, the control for performing a specific operation is not performed.

The control unit 111 shown in FIG. 6 executes the processes of S101, S102 (YES), S103, S110, and S105 in the same manner as in the above embodiment.

However, in the third processing flow, when the information detected by the magnetic detection unit indicates that the rear panel 6 has been removed, the control unit 111 satisfies the predetermined condition for the information regarding the vibration detected by the magnetic detection unit. (S110, YES). That is, when the back panel 6 is in a state of being removed from the air conditioner 1, it is determined that a predetermined condition is satisfied. In this case, the process proceeds to S105.

In S105, the control unit 111 controls not to perform a specific operation such as an increase in the amount of air blown by the air blower unit 13. After the execution of S105, the control unit 111 executes S111.

In S111, the control unit 111 determines whether the information regarding the vibration detected by the magnetic detection unit does not satisfy a predetermined condition. When the control unit 111 determines that the information regarding the vibration detected by the magnetic detection unit does not satisfy a predetermined condition (S111, YES), the control unit 111 returns the process to S101. The control unit 111 returns the process to S105 while the information regarding the vibration detected by the magnetic detection unit satisfies a predetermined condition (S111, NO).

Specifically, when the information regarding the vibration detected by the magnetic detection unit indicates a state in which the rear panel 6 is still removed, the control unit 111 determines that the information satisfies a predetermined condition (S111, YES). ), Return to S105. When the information about the vibration detected by the magnetic detection unit indicates a state in which the rear panel 6 is attached, the control unit 111 determines that the information does not satisfy a predetermined condition (S111, NO), and processes S101. return.

As a result, when the dust concentration is equal to or higher than a predetermined value (S102, YES), the rear panel 6 is controlled so that the specific operation cannot be executed while the rear panel 6 is removed from the air conditioner 1 (S111, NO, S105). ). After that, when the rear panel 6 is attached to the air conditioner 1, it returns to a state in which a specific operation can be executed (S111, YES, S101). In other words, in the air conditioner 1 having a dust concentration of a predetermined value or more, the state in which the specific operation cannot be executed continues from the time when the back panel 6 is removed until it is attached.

The second detection unit is not limited to the magnetic detection unit, but may be a tank detection unit, a water level detection unit, a unit that detects the attachment / detachment operation of parts attached to the housing 2, and the like.

As described above, in the air conditioner 1, the air conditioner 1 blows the air conditioner 13 based on the detection result of the first detection unit until the information regarding the vibration detected by the second detection unit does not satisfy a predetermined condition. No control is performed to perform a specific operation such as an increase in air volume. Therefore, according to the air conditioner 1, the same effect as that of the above-described embodiment is obtained.

In the above embodiment, when the water level detection unit of the second detection unit detects that the state without water has changed to the state with water, the water level detection unit outputs information with water, that is, information regarding vibration. The output is output, and the control unit 111 can perform the same processing as described above based on the vibration information. Further, the water level detection unit outputs information on the presence of water, that is, information on vibration, and the speed at which the control unit 111 determines information from the dust detection unit is faster than the speed at which the control unit 111 determines vibration information. It may be controlled so as not to perform a specific operation for a period.

The present invention is not limited to the above embodiment, but is replaced with a configuration that is substantially the same as the configuration shown in the above embodiment, a configuration that exhibits the same action and effect, or a configuration that can achieve the same object. You may. Although each process is performed by the control unit of the air conditioner, each process may be performed by another control unit provided in, for example, a server device.

1 air conditioner, 2 housing, 3 suction port, 4 outlet, 5 outlet, 6 back panel, 7 air passage, 10 operation unit, 11 display unit, 12 notification unit, 13 air outlet, 14 humidification unit, 15 Discharge unit, 20, 21 louver, 22 pre-filter, 23 cleaning unit, 24 deodorizing filter, 25 dust collection filter, 111 control unit, 112 dust detection unit, 113 seismic detection unit, 114 temperature / humidity detection unit, 121 storage unit, 122 Communication unit

Claims (7)

The first detector that detects information about dust,
The second detector that detects information about vibration, and
The blower that blows air and the blower
The notification unit that performs notification and
A control unit that controls at least one of the blower unit and the notification unit to perform a specific operation based on the detection result of the first detection unit.
Equipped with
The control unit is an air conditioner that does not control to perform the specific operation based on the detection result of the first detection unit when the information regarding the vibration detected by the second detection unit satisfies a predetermined condition. A housing for accommodating the first detection unit, the second detection unit, the blower, and the notification unit is further provided.
The second detection unit detects the attachment / detachment operation of the component attached to the housing as the information regarding the vibration.
The air conditioner according to claim 1. The second detection unit detects the inclination of the air conditioner as information regarding the vibration.
The air conditioner according to claim 1. The predetermined condition is information corresponding to vibration of a predetermined magnitude or more.
The air conditioner according to any one of claims 1 to 3. The control unit does not control the specific operation based on the detection result of the first detection unit for a predetermined period after the information regarding the vibration detected by the second detection unit satisfies the predetermined condition. ,
The air conditioner according to any one of claims 1 to 4. The control unit does not control to perform the specific operation based on the detection result of the first detection unit until the information regarding the vibration detected by the second detection unit does not satisfy the predetermined condition.
The air conditioner according to any one of claims 1 to 4. The specific operation includes at least one of an operation of increasing the amount of air blown by the air blowing unit and an operation of notifying the notification unit.
The air conditioner according to any one of claims 1 to 6.

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