JP2021173490A - Air cleaner and air cleaning system - Google Patents

Abstract

To provide an air cleaner which can remove dust effectively, and to provide an air cleaning system.SOLUTION: An air cleaner 10 includes a fan 14 and a control unit 19. The fan 14 suctions air into a housing 11 and blows air to the outside of the housing 11. The control unit 19 controls an operation level of the fan 14. The control unit 19 recognizes whether a human enters a predetermined space. The control unit 19 determines whether to cause the air cleaner 10 to perform a large air volume operation in which the operation level of the fan 14 is higher than a predetermined operation level on the basis of the result of recognition.SELECTED DRAWING: Figure 1

Description

The present invention relates to an air purifier and an air purifying system.

The air purifier described in Patent Document 1 includes a motion sensor, an illuminance sensor, a first determination unit, a second determination unit, and a control unit. Based on the detection signal from the motion sensor, the first determination unit is in a state where there are no people in the air cleaning target room, a state where there are people in the air cleaning target room and there is little movement, and a person in the air cleaning target room. It is determined which of the states where there is a lot of movements. The second determination unit determines whether the air cleaning target room is in a bright state or the air cleaning target room is in a dark state based on the detection signal from the illuminance sensor. The control unit controls the operation of the air cleaning function by using the determination results of the first determination unit and the second determination unit.

When the air purifier determines that a person has entered the room to be cleaned based on the detection signal from the motion sensor, the amount of air emitted from the air purifier is determined from the viewpoint of reducing the noise of the air purifier. Techniques for weakening are known.

International Publication No. 2018/190003

However, when a person returns home and enters the air cleaning target room with dust such as pollen attached to the person's clothing, a large amount of dust is mixed in the air cleaning target room. As a result, if the air volume of the air purifier is weakened, it may not be possible to effectively remove the dust in the room subject to air purification.

An object of the present invention is to provide an air purifier capable of effectively removing dust and an air purifying system.

According to the first aspect of the present application, the air purifier purifies the air. The air purifier includes a blower unit, a control unit, and a recognition unit. The blower sucks air into the housing and blows it out of the housing. The control unit controls the operation level of the blower unit. The recognition unit recognizes whether or not a person has entered the predetermined space. Based on the recognition result of the recognition unit, the control unit determines whether or not to cause the air purifier to perform a large air volume operation that raises the operation level to be higher than a predetermined operation level.

According to the second aspect of the present application, the air purifying system includes the air purifier, a server, and a mobile terminal. The server can communicate with the air purifier. The mobile terminal can communicate with the server. The mobile terminal transmits the position information of the mobile terminal to the air purifier via the server. The recognition unit of the air purifier recognizes whether or not a person has entered the predetermined space based on the position information of the mobile terminal.

According to the third aspect of the present application, the air purifying system includes the air purifier, a server, and a mobile terminal. The server can communicate with the air purifier. The mobile terminal can communicate with the server. The mobile terminal transmits the position information of the mobile terminal to the server. The server has a determination unit and a communication unit. The determination unit determines whether or not a person has entered the predetermined space based on the position information received from the mobile terminal. The communication unit transmits judgment information indicating the judgment result of the judgment unit to the air purifier. The recognition unit of the air purifier recognizes whether or not a person has entered the predetermined space based on the determination information from the server.

According to the fourth aspect of the present application, the air purifying system includes the air purifier, a server, and a mobile terminal. The server can communicate with the air purifier. The mobile terminal can communicate with the server. The mobile terminal has a determination unit and a communication unit. The determination unit determines whether or not a person has entered the predetermined space based on the position information of the mobile terminal. The communication unit transmits judgment information indicating the judgment result of the judgment unit to the server. The server transmits the determination information received from the mobile terminal to the air purifier. The recognition unit of the air purifier recognizes whether or not a person has entered the predetermined space based on the determination information from the server.

According to the present invention, dust can be effectively removed.

It is a schematic diagram which shows the structure of the air purification system which concerns on 1st Embodiment of this invention. It is a schematic diagram which shows the air purifier. It is a block diagram which shows the structure of an air purifier. It is a perspective view which shows the air purifier operating in the removal mode. It is a perspective view which shows the air purifier operating in a dust collection mode. It is a flow chart which shows the 1st operation of an air purifier. It is a flow chart which shows the 1st operation of an air purifier. It is a flow chart which shows the 2nd operation of an air purifier. It is a flow chart which shows the 3rd operation of an air purifier. It is a flow chart which shows the 4th operation of an air purifier. It is a flow chart which shows the 4th operation of an air purifier. It is a flow chart which shows the 5th operation of an air purifier. It is a flow chart which shows the 6th operation of an air purifier. It is a flow chart which shows the 6th operation of an air purifier.

An embodiment of the present invention will be described with reference to the drawings. In the drawings, the same or corresponding parts are designated by the same reference numerals and the description is not repeated.

[First Embodiment]
The air purifying system 100 according to the first embodiment of the present invention will be described with reference to FIG. FIG. 1 is a schematic view showing the configuration of the air purification system 100 according to the first embodiment of the present invention.

As shown in FIG. 1, the air purifying system 100 includes an air purifier 10, a server 20, and a mobile terminal 30.

The air purifier 10 is installed in a predetermined space such as a room.

The server 20 includes a storage unit 21, a communication unit 22, and a control unit 23.

The storage unit 21 includes a main storage device (for example, a semiconductor memory) such as a ROM (Read Only Memory) and a RAM (Random Access Memory), and may further include an auxiliary storage device (for example, a hard disk drive). The storage unit 21 stores various computer programs executed by the control unit 23.

The management table is stored in the storage unit 21. The management table includes information in which the user ID information of the mobile terminal 30 and the ID information of the air purifier 10 are associated with each other. The management table is created on the server 20 by performing a pairing operation between the mobile terminal 30 and the air purifier 10, for example.

The communication unit 22 communicates with the air purifier 10 and the mobile terminal 30 via the network network N. The communication unit 22 includes, for example, a communication module such as a LAN board. The control unit 23 includes processors such as a CPU (Central Processing Unit) and an MPU (Micro Processing Unit). The control unit 23 controls each element of the server 20 by executing the computer program stored in the storage unit 21.

The mobile terminal 30 is a portable terminal such as a smartphone and a tablet PC (Personal Computer), for example. An application for operating the air purifier 10 is installed in the mobile terminal 30. The mobile terminal 30 includes a storage unit 31, a communication unit 32, a control unit 33, and a GPS module 34. The storage unit 31 includes a main storage device such as a ROM and a RAM, and may further include an auxiliary storage device. The storage unit 31 stores various computer programs executed by the control unit 33. The storage unit 31 stores the user ID information. The communication unit 32 communicates with the server 20 via the network network N. The communication unit 32 includes, for example, a communication module such as a LAN board. The control unit 33 includes a processor such as a CPU and an MPU. The control unit 33 controls each element of the mobile terminal 30 by executing a computer program stored in the storage unit 31.

The GPS module 34 of the mobile terminal 30 receives radio waves from a GPS (Global Positioning System) satellite, and calculates the position information (information indicating latitude and longitude) of the mobile terminal 30 from the received radio waves. The position information of the mobile terminal 30 calculated by the GPS module 34 is transmitted to the server 20 via the network network N. At this time, the user ID information is transmitted to the server 20 together with the location information of the mobile terminal 30. Then, the server 20 selects the air purifier 10 associated with the user ID information in the management table as the transmission destination of the location information of the mobile terminal 30. Then, the server 20 transmits the position information of the mobile terminal 30 to the air purifier 10. As a result, the air purifier 10 acquires the position information of the mobile terminal 30.

Next, the air purifier 10 will be described with reference to FIGS. 2 and 3. FIG. 2 is a schematic view showing the air purifier 10. FIG. 3 is a block diagram showing the configuration of the air purifier 10.

As shown in FIG. 2, the air purifier 10 includes a housing 11, a filter 13, a fan 14, a supply unit 15, and a louver 16.

The housing 11 is a hollow member. An air passage 12 is formed inside the housing 11. An intake port 12a, a first exhaust port 12b, and a second exhaust port 12c are formed on the outer surface of the housing 11. Each of the intake port 12a, the first exhaust port 12b, and the second exhaust port 12c communicates the air passage 12 with the outside of the housing 11.

The filter 13 captures dust. The filter 13 is installed in the air passage 12. The filter 13 includes, for example, a HEPA filter. The filter 13 may further have a function as a deodorizing filter.

The fan 14 creates an air flow. The fan 14 sucks air into the housing 11 and blows it out of the housing 11. The fan 14 is installed in the air passage 12. When the fan 14 rotates, the air outside the housing 11 flows into the air passage 12 through the intake port 12a, and then the outside of the housing 11 passes through the first exhaust port 12b and the second exhaust port 12c. Is released to. The fan 14 is an example of a blower unit of the present invention.

The supply unit 15 supplies ions into the air (in the air flowing through the supply unit 15). As a result, air containing ions is released to the outside of the housing 11. The supply unit 15 is installed in the air passage 12. The supply unit 15 includes, for example, a discharge electrode. When the discharge electrode discharges, oxygen and moisture in the air are charged and ionized, and the ions are released. The ion supplied from the supply unit 15 may be either a positive ion or a negative ion, or may be both a positive ion and a negative ion. In the first embodiment, the supply unit 15 generates ions having a function of removing static electricity, such as plasma cluster ions (registered trademark). The supply unit 15 may have a configuration for generating an active species (for example, charged particles) described later.

The louver 16 controls the direction of the wind emitted from the air purifier 10. The louver 16 is attached to the shaft member 16a. The shaft member 16a is rotatably supported by the housing 11. The louver 16 rotates about the shaft member 16a.

As shown in FIG. 3, the air purifier 10 includes a first drive unit 14a, a power supply unit 15a, a second drive unit 16b, a communication unit 17, a storage unit 18, a control unit 19, and a motion sensor. Further provided with a sensor S.

The first drive unit 14a rotates the fan 14. The first drive unit 14a includes, for example, a motor. The power supply unit 15a supplies power to the supply unit 15 to release ions from the supply unit 15. The power supply unit 15a includes, for example, a power supply circuit. The second drive unit 16b rotates the louver 16. The second drive unit 16b includes, for example, a motor. The motor constituting the second drive unit 16b and the motor constituting the first drive unit 14a may be the same motor or may be separate motors.

The communication unit 17 communicates with the mobile terminal 30 via the network network N and the server 20. The communication unit 17 includes, for example, a communication module such as a LAN board. The communication unit 17 may communicate with the mobile terminal 30 by communicating with the indoor wireless access point via a wireless LAN (local area network). In this case, the communication unit 17 uses WiFi (registered trademark) as an example of the communication standard. A communication standard such as Bluetooth (registered trademark) may be used instead of WiFi (registered trademark). WiFi® and Bluetooth® belong to the wireless LAN standard.

Further, the communication unit 17 is connected to a weather information server (not shown) that provides weather information via the network network N. The communication unit 17 acquires weather information related to dust in a predetermined area from the weather information server. The predetermined area indicates the area to which the installation location of the air purifier 10 belongs. Meteorological information regarding dust includes information indicating the amount of dust (pollen and / or PM2.5, etc.) scattered in the air.

The communication unit 17 is an example of the acquisition unit of the present invention.

The motion sensor S detects the movement of a person in a predetermined space in which the air purifier 10 is installed. The motion sensor S detects the movement of a person using, for example, infrared rays. In the first embodiment, the motion sensor S is installed in the housing 11. The motion sensor S may be installed outside the housing 11.

The storage unit 18 includes a main storage device such as a ROM and a RAM, and may further include an auxiliary storage device. The storage unit 18 stores various computer programs executed by the control unit 19.

The storage unit 18 stores in advance installation location information indicating the installation location of the air purifier 10. The installation location information of the air purifier 10 may be input to the air purifier 10 by, for example, providing a GPS module in the air purifier 10 and receiving radio waves from GPS satellites. good. Further, the installation location information of the air purifier 10 may be configured so that the user inputs the information to the air purifier 10 from an operation unit (operation button, remote controller, etc.) provided on the air purifier 10.

The control unit 19 includes a CPU and a processor such as an MPU. The control unit 19 controls each element of the air purifier 10 by executing a computer program stored in the storage unit 18. The control unit 19 controls the rotation speed of the fan 14 by operating the first drive unit 14a, controls the operation of the supply unit 15 by operating the power supply unit 15a, and controls the second drive unit 16b. The rotation angle of the louver 16 is controlled by operating it. Further, the control unit 19 controls the operation level of the fan 14 by controlling the rotation speed of the fan 14.

Next, the operation mode of the air purifier 10 will be described with reference to FIGS. 2, 4 and 5. The operation mode of the air purifier 10 includes a removal mode and a dust collection mode. FIG. 4 is a perspective view showing the air purifier 10 operating in the removal mode. FIG. 5 is a perspective view showing an air purifier 10 operating in the dust collection mode.

As shown in FIGS. 2 and 4, the removal mode is a mode for removing dust adhering to a person. Dust adhering to a person includes not only dust adhering directly to a person but also dust adhering to clothing worn by a person. Removing dust not only removes dust from people and / or clothing worn by people, but also suppresses dust activity (eg, turning harmful dust into harmless substances). Is also included.

In the first embodiment, when the air purifier 10 operates in the removal mode, the air purifier 10 is worn by a person and / or a person by releasing ions from the supply unit 15 and removing static electricity by the ions. Remove dust from your clothing.

When the air purifier 10 operates in the removal mode, the rotation angle of the louver 16 is controlled so that the first exhaust port 12b opens and air is discharged from the first exhaust port 12b to the front side of the air purifier 10. .. Further, when the air purifier 10 operates in the removal mode, ions are supplied from the supply unit 15. As a result, air containing ions is discharged from the first exhaust port 12b to the front side of the air purifier 10. As a result, the person who has entered the predetermined space (the person who has entered the room) is exposed to air containing ions, and the dust adhering to the person can be easily dropped.

As shown in FIGS. 2 and 5, the dust collection mode is a mode for the air purifier 10 to collect dust. When the air purifier 10 operates in the dust collection mode, the rotation angle of the louver 16 is controlled so that the first exhaust port 12b is closed, and air is discharged from the second exhaust port 12c to the upper side of the air purifier 10. As a result, the air discharged from the air purifier 10 can be effectively circulated along the ceiling, walls, and floor of the predetermined space and then flowed into the intake port 12a, so that the air can be collected by the air purifier 10. Dust treatment can be performed effectively. When the air purifier 10 operates in the dust collection mode, ions may not be supplied from the supply unit 15, or ions may be supplied.

Next, the first operation of the air purifier 10 will be described with reference to FIGS. 1 to 7. 6 and 7 are flow charts showing the first operation of the air purifier 10. The first operation is started from a state in which the control unit 19 of the air purifier 10 recognizes that there is no person in the predetermined space.

As shown in FIGS. 1 to 3 and 6, in step S11, the control unit 19 of the air purifier 10 recognizes whether or not a person has entered the predetermined space.

An example of a procedure in which the control unit 19 recognizes whether or not a person has entered the predetermined space will be described.

The control unit 19 acquires the position information of the mobile terminal 30 from the server 20 in real time. Then, the control unit 19 calculates the distance between the mobile terminal 30 and the air purifier 10 based on the position information of the mobile terminal 30 and the installation location information of the air purifier 10. Then, when the calculated distance between the mobile terminal 30 and the air purifier 10 is equal to or less than a predetermined threshold value, the control unit 19 determines that a person has entered the predetermined space. As a result, the control unit 19 recognizes that a person has entered the predetermined space. On the other hand, if the calculated distance between the mobile terminal 30 and the air purifier 10 does not fall below a predetermined threshold value, the control unit 19 determines that no person is in the predetermined space. As a result, the control unit 19 recognizes that no person is in the predetermined space. The control unit 19 is an example of the recognition unit of the present invention.

The control unit 19 recognizes that a person has entered the predetermined space when the mobile terminal 30 is wirelessly connected to the air purifier 10 by WiFi (registered trademark), Bluetooth (registered trademark), etc., and the mobile terminal When 30 is not connected to the air purifier 10 by short-range wireless connection, it may be recognized that no person is in the predetermined space.

Further, the control unit 19 recognizes that a person has entered the predetermined space when the motion sensor S detects the movement of the person, and when the motion sensor S does not detect the movement of the person, the control unit 19 enters the predetermined space. You may recognize that is not included.

When the control unit 19 recognizes that a person has entered the predetermined space (Yes in step S11), the process shifts to step S12. If the control unit 19 does not recognize that a person has entered the predetermined space (No in step S11), the process shown in step S11 is repeated.

In step S12, the communication unit 17 acquires weather information regarding dust in a predetermined area (the area to which the installation location of the air purifier 10 belongs).

In step S13, the control unit 19 confirms whether or not the weather information acquired in step S12 indicates that the dust is equal to or higher than a predetermined reference. Being above a predetermined standard is expressed in weather information at multiple levels, for example, the amount of dust is "low", "slightly high", "high", and "very high". In this case, it indicates that the acquired weather information is at a level higher than a predetermined standard (for example, a level higher than "slightly high").

When the control unit 19 confirms in the weather information that the dust is equal to or higher than the predetermined reference (Yes in step S13), the process proceeds to step S14. When the control unit 19 confirms in the weather information that the dust is not equal to or higher than the predetermined standard (No in step S13), the process ends.

In step S14, the control unit 19 controls the fan 14 to start the large air volume operation by the air purifier 10. The large air volume operation is a process of rotating the fan 14 at a speed equal to or higher than a predetermined rotation speed so that the air volume per unit time discharged from the air purifier 10 is larger than the predetermined air volume. That is, the large air volume operation indicates that the operating level of the fan 14 is made higher than a predetermined operating level.

The control unit 19 functions as a timer. When the control unit 19 starts the large air volume operation, the control unit 19 starts counting the operation time of the large air volume operation.

In step S15, the control unit 19 controls the supply unit 15 and the louver 16 to switch the operation mode of the air purifier 10 to the removal mode (see FIG. 4). As a result, a large amount of air containing ions is discharged from the first exhaust port 12b to the front side of the air purifier 10. As a result, the dust adhering to the person can be effectively removed by the static electricity removing effect of the ions.

In step S16, the control unit 19 determines whether or not the predetermined operation time has elapsed.

The predetermined operation time is a time for causing the air purifier 10 to perform a large air volume operation. In the first embodiment, the predetermined operation time is a predetermined fixed time.

The control unit 19 may determine the predetermined operation time based on the weather information acquired in step S13. In this case, the length of the predetermined operation time is changed according to the content of the weather information. In this case, for example, the control unit 19 determines the predetermined operation time so that the higher the level of the amount of dust indicated by the weather information, the longer the predetermined operation time.

When the control unit 19 determines that the predetermined operation time has elapsed (Yes in step S16), the process proceeds to step S21 (see FIG. 7). If the control unit 19 determines that the predetermined operation time has not elapsed (No in step S16), the process proceeds to step S17.

In step S17, the control unit 19 determines whether or not the first predetermined time has elapsed. The first predetermined time is the time for operating the air purifier 10 in the removal mode. The first predetermined time is predetermined.

When the control unit 19 determines that the first predetermined time has elapsed (Yes in step S17), the process proceeds to step S18 shown in FIG. 7.

If the control unit 19 determines that the first predetermined time has not elapsed (No in step S17), the process proceeds to step S16. As a result, the air purifier 10 continues the operation of performing the large air volume operation in the removal mode.

As shown in FIGS. 1 to 3 and 7, in step S18, the control unit 19 controls the louver 16 to switch the operation mode of the air purifier 10 to the dust collection mode (see FIG. 5). As a result, a large amount of air is discharged from the second exhaust port 12c to the upper side of the air purifier 10, circulates in a predetermined space, and then supplied to the filter 13 from the intake port 12a of the air purifier 10. At this time, the dust dropped from the person in step S15 is carried by a large amount of wind, is supplied to the filter 13, and is captured by the filter 13. As a result, the dust that a person has brought into a predetermined space from the outside can be effectively removed by the air purifier 10. As a result, dust can be effectively removed.

In step S19, the control unit 19 determines whether or not the predetermined operation time has elapsed. When the control unit 19 determines that the predetermined operation time has elapsed (Yes in step S19), the process shifts to step S21. If the control unit 19 determines that the predetermined operation time has not elapsed (No in step S19), the process proceeds to step S20.

In step S20, the control unit 19 determines whether or not the second predetermined time has elapsed. The second predetermined time is the time for operating the air purifier 10 in the dust collection mode. The second predetermined time is predetermined.

When the control unit 19 determines that the second predetermined time has elapsed (Yes in step S20), the process proceeds to step S15 shown in FIG.

If the control unit 19 determines that the second predetermined time has not elapsed (No in step S20), the process proceeds to step S19. As a result, the air purifier 10 continues the operation of performing the large air volume operation in the dust collecting mode.

In step S21, the control unit 19 ends the large air volume operation by the air purifier 10. As a result, the process ends.

As described above with reference to FIGS. 1 to 7, the control unit 19 is based on the recognition result of whether or not a person has entered the predetermined space (see step S11) and the weather information (step S13). (See), it is determined whether or not the air purifier 10 is to be operated with a large air volume. Then, when the control unit 19 recognizes that a person has entered the predetermined space and the weather information indicates that the dust is equal to or higher than the predetermined standard, the air purifier 10 is made to perform a large air volume operation. As a result, when a person enters the predetermined space, the dust adhering to the person can be effectively removed by the large air volume operation of the air purifier 10.

Further, when the air purifier 10 is operated with a large air volume, the control unit 19 performs a removal process for operating the air purifier 10 in the removal mode and a dust collection process for operating the air purifier 10 in the dust collection mode. Repeat alternately. As a result, the dust collected from the person can be collected by the air purifier 10 in the dust collecting mode before the dust dropped from the person adheres to the floor surface in the removing mode. As a result, the air purifier 10 can effectively collect dust.

[Second Embodiment]
Next, the second operation of the air purifier 10 according to the second embodiment of the present invention will be described with reference to FIGS. 1 to 5 and 8. FIG. 8 is a flow chart showing the second operation of the air purifier 10.

In the second embodiment, the supply unit 15 (see FIG. 2) generates an active species that suppresses the activity of harmful dust such as pollen. Then, the supply unit 15 supplies the generated active species into the air (in the air flowing through the supply unit 15). As a result, air containing the active species is released to the outside of the housing 11. In the second embodiment, the supply unit 15 generates, for example, OH radicals generated by applying a high voltage to water in the air or fine particle ions containing OH radicals as active species. The supply unit 15 may generate active species by performing streamer discharge.

In the second embodiment, the air purifier 10 suppresses the activity of harmful dust by releasing active species when operating in the removal mode (see FIG. 4).

Hereinafter, the second operation of the air purifier 10 will be described.

As shown in FIGS. 1 to 5 and 8, the processes shown in steps S11 to S14 are performed. When the large air volume operation is started (step S14), the process shifts to step S15a.

In step S15a, the control unit 19 controls the supply unit 15 and the louver 16 to switch the operation mode of the air purifier 10 to the removal mode (see FIG. 4). As a result, a large amount of wind including the active species is discharged from the first exhaust port 12b. As a result, the active species can effectively suppress the activity of harmful dust brought into a predetermined space by a person from the outside.

In step S16, the control unit 19 determines whether or not the predetermined operation time has elapsed. When the control unit 19 determines that the predetermined operation time has elapsed (Yes in step S16), the process shifts to step S21.

If the control unit 19 determines that the predetermined operation time has not elapsed (No in step S16), the process shown in step S16 is repeated. As a result, the air purifier 10 continues the operation of performing the large air volume operation in the removal mode.

In step S21, the control unit 19 ends the large air volume operation by the air purifier 10. As a result, the process ends.

As described above, as described with reference to FIGS. 1 to 5 and 8, in the second operation, in the removal mode (see step S15a in FIG. 8), the activity of harmful dust is suppressed by the active species. It is not necessary to operate the air purifier 10 in the dust collection mode (see step S18 in FIG. 7) as in the first operation. As a result, the processing content of the second operation can be simply configured.

[Third Embodiment]
Next, the third operation of the air purifier 10 according to the third embodiment of the present invention will be described with reference to FIGS. 1 to 5 and 9. FIG. 9 is a flow chart showing a third operation of the air purifier 10.

The third operation has a processing content that can be executed even if the air purifier 10 has a simple configuration such that the supply unit 15 is not provided.

As shown in FIGS. 1 to 5 and 9, the processes shown in steps S11 to S14 are performed. When the large air volume operation is started (step S14), the process shifts to step S18.

In step S18, the control unit 19 switches the operation mode of the air purifier 10 to the dust collection mode (see FIG. 5). As a result, a large amount of air is discharged from the second exhaust port 12c, and then circulates in the predetermined space and is supplied to the filter 13. As a result, the dust brought into the predetermined space by a person from the outside is carried by a large amount of wind and captured by the filter 13.

In step S19, the control unit 19 determines whether or not the predetermined operation time has elapsed. When the control unit 19 determines that the predetermined operation time has elapsed (Yes in step S19), the process shifts to step S21.

If the control unit 19 determines that the predetermined operation time has not elapsed (No in step S19), the process shown in step S19 is repeated. As a result, the air purifier 10 continues the operation of performing the large air volume operation in the dust collecting mode.

In step S21, the control unit 19 ends the large air volume operation by the air purifier 10. As a result, the process ends.

[Fourth Embodiment]
Next, the fourth operation of the air purifier 10 according to the fourth embodiment of the present invention will be described with reference to FIGS. 1 to 5, 10 and 11. 10 and 11 are flow charts showing a fourth operation of the air purifier 10.

In the fourth operation, the supply unit 15 of the air purifier 10 disposes of ions having a function of removing static electricity, such as plasma cluster ions (registered trademark), as in the first operation (see FIGS. 6 and 7). Although it is generated, it differs from the first operation in that the motion sensor S is used. Hereinafter, the fourth operation will be mainly described as being different from the first operation.

As shown in FIGS. 1 to 5 and 10, the processes shown in steps S11 to S17 are performed.

In step S17, when the control unit 19 determines that the first predetermined time has elapsed (Yes in step S17), the process proceeds to step S18 shown in FIG. If the control unit 19 does not determine that the first predetermined time has elapsed (No in step S17), the process proceeds to step S17a.

In step S17a, the control unit 19 determines whether or not the movement of a person is detected by the motion sensor S.

When the control unit 19 determines that the motion of a person is detected by the motion sensor S (Yes in step S17a), the process proceeds to step S18. As a result, in step S18 shown in FIG. 11, the operation mode of the air purifier 10 is switched from the removal mode to the dust collection mode. Then, the processes shown in steps S19 to S21 are performed.

If the control unit 19 does not determine that the motion of a person is detected by the motion sensor S (No in step S17a), the process proceeds to step S16. As a result, the air purifier 10 continues the operation of performing the large air volume operation in the removal mode.

As described above with reference to FIGS. 1 to 5, 10 and 11, while the air purifier 10 is operating in the removal mode, the control unit 19 is based on the detection result of the motion sensor S. , It is determined whether or not the operation mode of the air purifier 10 is switched to the dust collection mode. Then, when the motion of a person is detected by the motion sensor S, the control unit 19 switches the operation mode of the air purifier 10 to the dust collection mode. As a result, when the dust flies in the predetermined space due to the movement of a person, the operation mode of the air purifier 10 can be switched to the dust collection mode, so that the dust can be effectively collected by the air purifier 10.

[Fifth Embodiment]
Next, the fifth operation of the air purifier 10 according to the fifth embodiment of the present invention will be described with reference to FIGS. 1 to 5 and 12. FIG. 12 is a flow chart showing a fifth operation of the air purifier 10.

In the fifth operation, the supply unit 15 of the air purifier 10 generates an active species that suppresses the activity of harmful dust, as in the second operation (see FIG. 8), but is used by the motion sensor S. The point is different from the second operation. Hereinafter, the fifth operation will be mainly described as being different from the second operation.

As shown in FIGS. 1 to 5 and 12, the processes shown in steps S11 to S16 are performed.

In step S16, when the control unit 19 determines that the predetermined operation time has elapsed (Yes in step S16), the process shifts to step S21. If the control unit 19 determines that the predetermined operation time has not elapsed (No in step S16), the process shifts to step S17a.

In step S17a, the control unit 19 determines whether or not the movement of a person is detected by the motion sensor S.

When the control unit 19 determines that the motion of a person is detected by the motion sensor S (Yes in step S17a), the process proceeds to step S18. As a result, in step S18, the operation mode of the air purifier 10 is switched from the removal mode to the dust collection mode. Then, the processes shown in steps S19 to S21 are performed.

If the control unit 19 does not determine that the motion of a person is detected by the motion sensor S (No in step S17a), the process proceeds to step S16. As a result, the air purifier 10 continues the operation of performing the large air volume operation in the removal mode.

[Sixth Embodiment]
Next, the sixth operation of the air purifier 10 according to the sixth embodiment of the present invention will be described with reference to FIGS. 1 to 5, 13 and 14. 13 and 14 are flow charts showing the sixth operation of the air purifier 10.

The sixth operation is a modification of the first operation shown in FIGS. 6 and 7. In the first operation, when the predetermined operation time elapses, the large air volume operation is terminated (see step S16 in FIG. 6, step S19 in FIG. 7, and step S21). On the other hand, in the sixth operation, when the predetermined number of sets is completed, the large air volume operation is ended (see steps S20a and S21 in FIG. 14). The description of the predetermined number of sets will be described later.

Hereinafter, the sixth operation will be mainly described as being different from the first operation.

As shown in FIGS. 1 to 5, 13 and 14, the processes shown in steps S11 to S15 are performed. When the operation mode of the air purifier 10 is switched to the removal mode (see FIG. 4) (step S15), the process shifts to step S17. Then, the processes shown in steps S17 to S18 are performed. When the operation mode of the air purifier 10 is switched to the dust collection mode (see FIG. 5) (step S18), the process shifts to step S20. In step S20, when the control unit 19 determines that the second predetermined time has elapsed (Yes in step S20), the process shifts to step S20a. On the other hand, if the control unit 19 determines that the second predetermined time has not elapsed (No in step S20), the process shown in step S20 is repeated. As a result, the air purifier 10 continues the operation of performing the large air volume operation in the dust collecting mode.

In step S20a, the control unit 19 determines whether or not the predetermined number of sets has been completed.

The predetermined number of sets is a target value of the number of sets of the processing group composed of the removal process of operating the air purifier 10 in the removal mode and the dust collection process of operating in the dust collection mode. The number of sets is increased by one each time a series of processes shown in steps S15, S17, S18, and S20 shown in FIGS. 13 and 14 are performed. In the sixth embodiment, the predetermined number of sets is a predetermined constant value.

The control unit 19 may determine a predetermined number of sets based on the weather information acquired in step S13. In this case, the predetermined number of sets is changed according to the content of the weather information. In this case, for example, the control unit 19 determines the predetermined number of sets so that the higher the level of the amount of dust indicated in the weather information, the larger the predetermined number of sets.

When the control unit 19 determines that the predetermined number of sets has been completed (Yes in step S20a), the process proceeds to step S21. When the control unit 19 determines that the predetermined number of sets has not been completed (No in step S20a), the process proceeds to step S15 shown in FIG.

In step S21, the control unit 19 ends the large air volume operation by the air purifier 10. As a result, the process ends.

In the fourth operation shown in FIGS. 10 and 11, as in the sixth operation, the large air volume operation may be terminated when the predetermined number of sets is completed.

The embodiments of the present invention have been described above with reference to the drawings (FIGS. 1 to 14). However, the present invention is not limited to the above-described embodiment, and can be implemented in various aspects without departing from the gist of the present invention (for example, (1) to (7)). In addition, various inventions can be formed by appropriately combining the plurality of components disclosed in the above embodiments. For example, some components may be removed from all the components shown in the embodiments. In order to make the drawings easier to understand, each component is schematically shown, and the number of each component shown may differ from the actual one due to the convenience of drawing. Further, each component shown in the above embodiment is an example, and is not particularly limited, and various modifications can be made without substantially deviating from the effect of the present invention.

(1) In the removal mode shown in FIG. 4, the direction of the wind emitted from the air purifier 10 does not have to be the direction shown in FIG. 4 (front side and upper side with respect to the air purifier 10), and is particularly limited. Not done. Further, in the dust collection mode shown in FIG. 5, the direction of the wind discharged from the air purifier 10 does not have to be the direction shown in FIG. 5 (upper side with respect to the air purifier 10), and is not particularly limited.

(2) In the first to sixth operations shown in FIGS. 6 to 14, steps S12 and S13 are performed before the process shown in step S11 (the process of recognizing whether or not a person has entered the predetermined space). The following processing (processing for confirming whether or not the dust is indicated to be equal to or higher than a predetermined standard in the weather information) may be performed.

(3) In the first to sixth operations shown in FIGS. 6 to 14, the processes shown in steps S12 and S13 may not be performed. That is, among the flag related to the entry of a person into the predetermined space and the fluff related to the weather information set as the flag for causing the air purifier 10 to perform the large air volume operation in the first operation to the sixth operation. Therefore, the flag related to weather information may be omitted.

In this case, the control unit 19 determines whether or not the air purifier 10 is to be operated with a large air volume based on the recognition result (see step S11) of whether or not a person has entered the predetermined space. Then, in step S11, when the control unit 19 recognizes that a person has entered the predetermined space (Yes in step S11), the process shifts to step S14, and the air purifier 10 performs a large air volume operation. If the control unit 19 does not recognize that a person has entered the predetermined space (No in step S11), the process ends. As a result, the processing contents of the first operation to the sixth operation can be simply configured.

(4) The air purifier 10 may be provided with a humidifying function so as to humidify the air in a predetermined space when the air purifier 10 operates with a large air volume. As a result, when pollen is contained in the dust, the allergic reaction of the human body to the pollen can be reduced, and the influence of the pollen on the human body can be suppressed by accelerating the fall of the pollen floating in the air. It should be noted that the user may operate the operation unit of the air purifier 10 to select whether or not to humidify the air purifier 10. Further, in order to remove pollen that has fallen on the floor surface, the server 20 may send a notification recommending cleaning of the floor surface to the mobile terminal 30.

(5) The air cleaning system 100 may be further equipped with a robot vacuum cleaner capable of communicating with the server 20. Hereinafter, the procedure in which the server 20 controls the operation of the robot vacuum cleaner will be described.

When the control unit 23 of the server 20 determines that there is no person in the predetermined space based on the detection result of the motion sensor S or the position information of the mobile terminal 30, the communication unit 22 of the server 20 becomes a robot vacuum cleaner. Send a control signal. Then, when the robot vacuum cleaner receives the control signal, it cleans the predetermined space. As a result, it is possible to remove the dust adhering to the floor surface of the predetermined space by the robot vacuum cleaner at the timing when there is no person in the predetermined space.

(6) In the first operation to the sixth operation shown in FIGS. 6 to 14, in step S11, the control unit 19 of the air purifier 10 determines whether or not a person has entered the predetermined space. However, the present invention is not limited to this. In step S11 of the first operation to the sixth operation, the control unit 23 of the server 20 may determine whether or not a person has entered the predetermined space.

The configuration of the server 20 will be described.

The storage unit 21 of the server 20 stores information on the installation location of the air purifier 10 in advance. In the storage unit 21, for example, the user transmits the installation location information of the air purifier 10 to the server 20 by using an external terminal such as a smartphone and a PC, so that the installation location of the air purifier 10 is provided. Information is stored. After the air purifier 10 acquires the installation location information of the own unit using the GPS module provided in the own unit, the acquired installation location information is transmitted to the server 20 to send the acquired installation location information to the storage unit 21. 10 installation location information may be stored.

An example of a procedure in which the control unit 23 of the server 20 determines whether or not a person has entered the predetermined space will be described. The control unit 23 is an example of the determination unit of the present invention.

First, the communication unit 22 of the server 20 receives the position information of the mobile terminal 30 from the mobile terminal 30. Next, the control unit 23 of the server 20 determines whether or not a person has entered the predetermined space based on the position information received from the mobile terminal 30. For example, the control unit 23 of the server 20 calculates the distance between the mobile terminal 30 and the air purifier 10 based on the position information received from the mobile terminal 30 and the air purifier position information stored in the storage unit 21. do. Then, when the calculated distance between the mobile terminal 30 and the air purifier 10 is equal to or less than a predetermined threshold value, the control unit 23 determines that a person has entered the predetermined space. On the other hand, if the calculated distance between the mobile terminal 30 and the air purifier 10 does not fall below a predetermined threshold value, the control unit 23 determines that no person is in the predetermined space.

Next, the control unit 23 of the server 20 controls the communication unit 22 so that the server 20 transmits the determination information indicating the determination result of whether or not a person has entered the predetermined space to the air purifier 10. .. As a result, the judgment information is transmitted from the server 20 to the air purifier 10. Next, the control unit 19 of the air purifier 10 recognizes whether or not a person has entered the predetermined space based on the judgment information from the server 20. That is, when the control unit 23 of the server 20 determines that a person has entered the predetermined space, the control unit 19 of the air purifier 10 recognizes that the person has entered the predetermined space. On the other hand, when the control unit 23 of the server 20 determines that no person is in the predetermined space, the control unit 19 of the air purifier 10 recognizes that no person is in the predetermined space.

(7) In step S11 of the first operation to the sixth operation, the control unit 33 of the mobile terminal 30 may determine whether or not a person has entered the predetermined space. Hereinafter, the configuration of the mobile terminal 30 will be described.

The storage unit 31 of the mobile terminal 30 stores information on the installation location of the air purifier 10 in advance. In the storage unit 31, for example, when the user operates the operation unit of the mobile terminal 30, the installation location information of the air purifier 10 is stored. After the air purifier 10 acquires the installation location information of the own unit using the GPS module provided in the own unit, the acquired installation location information is transmitted to the mobile terminal 30 via the server 20. Information on the installation location of the air purifier 10 may be stored in the storage unit 31.

An example of a procedure in which the control unit 33 of the mobile terminal 30 determines whether or not a person has entered the predetermined space will be described. The control unit 33 is an example of the determination unit of the present invention.

First, the control unit 33 of the mobile terminal 30 acquires the position information of the mobile terminal 30 from the GPS module 34. Next, the control unit 33 of the mobile terminal 30 determines whether or not a person has entered the predetermined space based on the position information acquired from the GPS module 34. For example, the control unit 33 of the mobile terminal 30 determines the distance between the mobile terminal 30 and the air purifier 10 based on the position information acquired from the GPS module 34 and the air purifier position information stored in the storage unit 31. calculate. Then, when the calculated distance between the mobile terminal 30 and the air purifier 10 is equal to or less than a predetermined threshold value, the control unit 33 determines that a person has entered the predetermined space. On the other hand, when the calculated distance between the mobile terminal 30 and the air purifier 10 does not fall below a predetermined threshold value, the control unit 33 determines that no person is in the predetermined space.

Next, the control unit 33 of the mobile terminal 30 communicates so that the judgment information indicating the judgment result of whether or not a person has entered the predetermined space is transmitted from the mobile terminal 30 to the air purifier 10 via the server 20. The unit 32 is controlled. As a result, the determination information is transmitted from the mobile terminal 30 to the air purifier 10 via the server 20.

The present invention can be used in the fields of air purifiers and air purification systems.

10 Air purifier 14 Fan 19 Control unit (recognition unit)
20 Server 30 Mobile terminal 100 Air purification system

Claims (14)

An air purifier that purifies the air
A blower that sucks air into the housing and blows it out of the housing,
A control unit that controls the operation level of the blower unit,
It is equipped with a recognition unit that recognizes whether or not a person has entered a predetermined space.
The control unit determines whether or not to cause the air purifier to perform a large air volume operation for raising the operation level to a predetermined operation level based on the recognition result of the recognition unit. The air purifier according to claim 1, wherein when the recognition unit recognizes that a person has entered the predetermined space, the control unit causes the air purifier to perform the large air volume operation. It also has an acquisition department that acquires weather information on dust in the specified area.
The air purifier according to claim 1, wherein the control unit further determines whether or not to cause the air purifier to perform the large air volume operation based on the weather information acquired by the acquisition unit. When the recognition unit recognizes that a person has entered the predetermined space and the weather information acquired by the acquisition unit indicates that the dust is equal to or higher than a predetermined reference, the control unit cleans the air. The air purifier according to claim 3, wherein the machine is made to perform the large air volume operation. The operation mode of the air purifier is set to
A removal mode for removing dust adhering to humans,
The air purifier according to any one of claims 1 to 4, wherein the air purifier includes a dust collecting mode for collecting dust. The control unit includes a removal process for operating the air purifier in the removal mode and a dust collection process for operating the air purifier in the dust collection mode when the air purifier is operated with the large air volume. The air purifier according to claim 5, wherein the above is alternately repeated. The air purifier according to claim 5, wherein the control unit operates the air purifier in the removal mode when the air purifier is operated with the large air volume. Further equipped with a motion sensor that detects the movement of a person in the predetermined space,
While the air purifier is operating in the removal mode, the control unit determines whether or not to switch the operation mode of the air purifier to the dust collection mode based on the detection result of the motion sensor. The air purifier according to claim 6 or 7. The operation mode of the air purifier includes a dust collection mode for the air purifier to collect dust.
The air purifier according to any one of claims 1 to 4, wherein the control unit operates the air purifier in the dust collection mode when the air purifier is operated with the large air volume. .. The air purification according to any one of claims 1 to 9, wherein the control unit determines a time for causing the air purifier to perform the large air volume operation based on weather information regarding dust in a predetermined area. Machine. The air purifier according to claim 6, wherein the control unit determines a target value of a set number of treatment groups including the removal treatment and the dust collection treatment based on weather information regarding dust in a predetermined area. .. The air purifier according to any one of claims 1 to 11.
A server that can communicate with the air purifier,
It is equipped with a mobile terminal capable of communicating with the server.
The mobile terminal transmits the position information of the mobile terminal to the air purifier via the server.
The recognition unit of the air purifier is an air purification system that recognizes whether or not a person has entered the predetermined space based on the position information of the mobile terminal. The air purifier according to any one of claims 1 to 11.
A server that can communicate with the air purifier,
It is equipped with a mobile terminal capable of communicating with the server.
The mobile terminal transmits the position information of the mobile terminal to the server, and the mobile terminal transmits the position information of the mobile terminal to the server.
The server
Based on the position information received from the mobile terminal, a determination unit that determines whether or not a person has entered the predetermined space, and a determination unit.
It has a communication unit that transmits judgment information indicating the judgment result of the judgment unit to the air purifier.
The recognition unit of the air purifier is an air purification system that recognizes whether or not a person has entered the predetermined space based on the determination information from the server. The air purifier according to any one of claims 1 to 11.
A server that can communicate with the air purifier,
It is equipped with a mobile terminal capable of communicating with the server.
The mobile terminal
Based on the position information of the mobile terminal, a determination unit that determines whether or not a person has entered the predetermined space, and a determination unit.
It has a communication unit that transmits judgment information indicating the judgment result of the judgment unit to the server.
The server transmits the determination information received from the mobile terminal to the air purifier.
The recognition unit of the air purifier is an air purification system that recognizes whether or not a person has entered the predetermined space based on the determination information from the server.

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