JP2015124926A - Air cleaning system and control device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve air cleaning efficiency.SOLUTION: An air cleaning system includes: an air cleaning unit (2) which is operated at first operation strength and at second operation strength which is higher than that selectively; a contamination sensor (5) for detecting contaminants in the air; a human body sensor (6) for detecting a human body; a determination unit (35) for determining whether or not a person enters a room based on the detection result by the human body sensor (6); and an operation control unit (36) for, when a person is determined to have entered the room, changing the operation state of the air cleaning unit (2) from the first operation strength to the second operation strength, and operating the air cleaning unit (2) at the second operation strength for a certain period of time.

Description

  The present invention relates to an air cleaning system and a control device, and more particularly to an air cleaning system including an air cleaning unit operated at a plurality of operating intensities, and a control device for controlling such an air cleaning unit.

  An air cleaning system or apparatus generally includes a dirt sensor that detects contaminants in the air and an air cleaning unit that performs an air cleaning function. The operating strength of the air cleaning unit is changed based on the detection result of the dirt sensor.

  In order to increase the cleaning efficiency of the air cleaning unit, there is also a technique using a human body sensor. In JP 2009-2601 A (Patent Document 1), in an air conditioner equipped with an air cleaning unit, when a person is detected by a human body sensor during patrol operation, the indoor fan is operated at a lower speed than during air conditioning operation. It is disclosed that the detection speed of the dirt sensor is increased by operating at the above.

JP 2009-2601 A

  Generally, the dirt sensor is provided integrally with a main body including an air cleaning unit, or is built in a remote controller. The dirt sensor reacts when the concentration of air pollutants in its vicinity increases. However, the pollutant generation position is not necessarily near the dirt sensor. If contaminants occur far away from the dirt sensor, the detection of dirt is delayed. In such a case, the air cleaning efficiency is lowered.

  The air cleaning unit of Patent Document 1 is controlled so as to send a weak circulating airflow indoors in order to circulate dirty air to the dirt sensor quickly when a person is detected. However, even if a weak circulating airflow is sent into the room, indoor furniture or the like may become a barrier, and dirty air may not reach the dirt sensor immediately.

  On the other hand, in an air purifying unit that is operated at a plurality of operating intensities, for example, it may be possible to increase the cleaning efficiency by performing a strong operation when a person is detected. is there.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide an air cleaning system and a control device capable of improving the air cleaning efficiency.

  Another object of the present invention is to provide an air cleaning system and a control device capable of improving the air cleaning efficiency while considering noise.

  An air cleaning system according to an aspect of the present invention selectively operates at a first operating intensity and a second operating intensity that is higher than the first operating intensity in order to purify air in a room. A cleaning unit, a dirt sensor for detecting contaminants in the air, and a human body sensor for detecting a human body are provided. The air purification system is configured to determine whether a person has entered the room based on the detection result of the human body sensor, and when the determination means determines that a person has entered the room, Operation control means for changing the operation state from the first operation intensity to the second operation intensity and operating the air purifying unit at the second operation intensity for a predetermined time is further provided.

  Preferably, the operation control means operates the air cleaning unit at either the first operation intensity or the second operation intensity based on the detection result by the dirt sensor after a predetermined time has elapsed.

  Alternatively, the air purifying unit is operated at a third operating intensity that is higher than the second operating intensity, and the operation control means is configured to perform the first operation based on the detection result of the dirt sensor after a predetermined time has elapsed. The air cleaning unit may be operated at any one of the operating intensity, the second operating intensity, and the third operating intensity.

  Preferably, the apparatus further includes detection means for detecting the degree of air pollution in the room based on the detection result of the dirt sensor. The operation control means can select a driving intensity higher than the driving intensity when there is a person in the room when there is no person in the room even when the same contamination level is detected by the detecting means. desirable.

  The detecting means detects whether the air pollution level is the first, second, or third level, and the operation control means detects the air pollution level when the second level pollution level is detected by the detecting means. The operating intensity of the cleaning unit may be maximized.

  Preferably, the air cleaning unit is provided on the ceiling of the room.

  An air cleaning system according to another aspect of the present invention includes an air cleaning unit that is selectively operated at a plurality of operating intensities for cleaning air in a room, and a soil for detecting contaminants in the air. Based on the sensor, the human body sensor for detecting the human body, the detection result by the dirt sensor and the detection result by the human body sensor, one of a plurality of driving strengths is selected, and the air cleaning unit is selected at the selected driving strength. Driving control means for driving. When there is no person in the room, the driving control means selects a driving intensity higher than the driving intensity when there is a person in the room.

  In order to clean the air in the room, the control device according to still another aspect of the present invention selectively has an air cleaning unit with a first operating strength and a second operating strength higher than the first operating strength. It is a control device for controlling to drive. The control device determines whether or not a person has entered the room, and if the determination means determines that a person has entered the room, the control device changes the operating state of the air cleaning unit from the first operating intensity to the first. And an operation control means for operating the air purification unit at the second operation intensity for a certain period of time.

  According to the present invention, air cleaning efficiency can be improved.

  In addition, when the operation control means is configured to select a driving intensity higher than the driving intensity when there is a person in the room when there is no person in the room, while considering the noise, The air cleaning efficiency can be improved.

It is a figure which shows notionally the schematic structure of the air purifying system which concerns on embodiment of this invention. It is a figure which shows notionally the position of the air purifying unit in the room of the cleaning object of the air purifying system which concerns on embodiment of this invention. It is a block diagram which shows the function structure of the air purifying system which concerns on embodiment of this invention. It is a flowchart which shows the air purification process which concerns on embodiment of this invention.

  Embodiments of the present invention will be described in detail with reference to the drawings. In the drawings, the same or corresponding parts are denoted by the same reference numerals and description thereof will not be repeated.

<About overview>
First, an outline of an air purification system according to an embodiment of the present invention will be described. Referring to FIGS. 1 and 2, the air cleaning system detects an air cleaning unit 2 for cleaning air in a room 1, a control device 3 for controlling the air cleaning unit 2, and contaminants in the air. The dirt sensor 5 to be included. The dirt sensor 5 detects at least one type of pollutant among a plurality of types of pollutants (dust, odor, water vapor, etc.).

  As shown in FIG. 1, the air cleaning unit 2 is provided, for example, on the ceiling 11 of the room 1. The air purification unit 2 includes an air purification filter 22, a fan 23, and a louver 25. The main body (housing) 20 on which the air cleaning unit 2 is mounted has a suction port 21 and a blowout port 24 on the lower side. The air in the room 1 sucked into the main body 20 from the suction port 21 passes through the air cleaning filter 22, and the cleaned air is blown out from the blowout port 24 into the room 1 by the fan 23.

  The air cleaning unit 2 is selectively operated at a plurality of operating intensities. Specifically, the operation state of the air purification unit 2 is selected from, for example, three levels of operation intensity (that is, weak, medium, strong). In the known operation switching method, the operating state of the air cleaning unit is selected based on the detection result by the dirt sensor 5. That is, “weak” operation is performed when the pollution level is low, and “medium” or “strong” operation is performed when the pollution level is high.

  As shown in FIG. 2, it is assumed that the room 1 includes a dining space 1A and a living space 1B, and the dirt sensor 5 is disposed closer to the dining space 1A. In this case, when there is a person in the living space 1B, the detection of dirt by the dirt sensor 5 is delayed. Then, as in the known operation switching method, even if the operating intensity is increased after the dirt is detected by the dirt sensor 5, the pollutant diffused in the room 1 is once removed (contaminant concentration is lower than a predetermined value). For example) takes about 2 to 4 hours.

  Therefore, in the present embodiment, even when no dirt is detected by the dirt sensor 5, when the person enters the room 1, the operating strength of the air cleaning unit 2 is changed by at least one step and changed for a certain period of time. The air cleaning unit 2 is operated at a later operating intensity. This is because it has been confirmed that the concentration of contaminants in the air in the room 1 increases with human activity. Thereby, before the pollutant diffuses into the room 1, it is possible to remove or reduce dust generated at the start of human activity early.

  The functional configuration and operation of the air cleaning system for performing such processing will be described in detail below.

<About functional configuration>
FIG. 3 is a block diagram showing a functional configuration of the air purification system according to the present embodiment. The air purification system according to the present embodiment further includes an operation panel 4 and a human body sensor 6 in addition to the above configuration.

  The operation panel 4 functions as an operation unit that receives an input of an instruction from the user, and also functions as a display unit that displays an operation state of the air purification unit 2 and the like. As shown in FIG. 1, the operation panel 4 is provided on the wall surface 12 of the room 1, for example. The dirt sensor 5 may be built in the operation panel 4.

  The human body sensor 6 is a human sensor that detects the location of the human body using, for example, infrared rays or radio waves. The human body sensor 6 is attached to the lower part of the main body 20. That is, the human body sensor 6 is arranged on the ceiling 11 side of the room 1. A plurality of human body sensors 6 may be provided in order to be able to detect a human body over a wide range. In the example of FIG. 2, one human body sensor 6 is provided on each of the dining space 1A side and the living space 1B side. Further, the human body sensor 6 may be attached to the ceiling 11 in the vicinity of the main body portion 20.

  The control device 3 is connected to the air cleaning unit 2, the operation panel 4, the dirt sensor 5 and the human body sensor 6 by wire or wirelessly. The control device 3 includes a control unit 31 that performs various calculations and processes, a storage unit 32 that stores various types of data and programs, and a timing unit 33 that performs timing operations. The control unit 31 is realized by an arithmetic processing device such as a CPU (Central Processing Unit). The storage unit 32 stores in advance a program for realizing an air cleaning process described later. The storage unit 32 is realized by a nonvolatile storage device such as a flash memory, for example. The timer 33 is a timer that measures time according to an instruction from the controller 31. Note that the timer 33 may be a clock that always measures the date and time.

  The control unit 31 includes a contamination degree detection unit 34, a determination unit 35, and an operation control unit 36 as its functions. The detection signals from the dirt sensor 5 and the human body sensor 6 are converted into digital signals and then input to the control unit 31.

  The contamination level detection unit 34 detects the contamination level of the air in the room 1 based on the detection result by the dirt sensor 5. The degree of contamination is detected, for example, by comparing the concentration or amount of contaminant with a plurality of predetermined thresholds. Specifically, the contamination level detection unit 34 detects whether the contamination level of the room 1 is a plurality of levels. Typically, the number of levels is the same as the number of operating strengths of the air cleaning unit 2. For example, the contamination degree detection unit 34 detects whether the contamination degree of air is one of levels 1 to 3.

  In addition, when the dirt sensor 5 includes a plurality of sensors that detect different types of contaminants, for example, a plurality of threshold values may be provided for each type. In this case, if any one of the contaminant concentrations exceeds the first threshold, the air pollution level of the room 1 is detected as level 2, and similarly, any one of the contaminant concentrations is the first. If it exceeds the threshold of 2, it may be detected as level 3. Alternatively, the contamination degree detection unit 34 may weight the predetermined contamination (for example, dust) and detect the contamination degree of the air in the room 1.

  The determination unit 35 determines whether or not there is a person in the room 1 based on the detection result by the human body sensor 6. Specifically, the presence / absence of a person in the room 1 is determined based on whether or not a human body is continuously detected by the human body sensor 6 for a predetermined time (for example, 1 minute) or longer. Then, the determination unit 35 determines that a person has entered the room 1 when a person is present from a state where there is no person. On the contrary, it is determined that the person has left the room 1 when the person is present and the person is absent.

  The operation control unit 36 controls the operation of the air cleaning unit 2. Specifically, the operation control unit 36 selects the operation strength (weak, medium, strong) of the air cleaning unit 2 based on the detection result by the contamination degree detection unit 34 and the determination result by the determination unit 35. And the air volume from the blower outlet 24 is adjusted by controlling the drive of the fan 23 according to the selected driving | running intensity | strength. The driving control unit 36 may control the direction of the louver 25 according to the selected driving strength and the position where a person is detected.

  When the determination unit 35 determines that a person has entered the room 1, the operation control unit 36 changes the operation state of the air cleaning unit 2 from strength “weak” to strength “medium”. Then, the air cleaning unit 2 is operated for a certain time (for example, 30 minutes) with the intensity “medium”. After a certain period of time, the operation control unit 36 basically operates the air cleaning unit 2 with an operation intensity corresponding to the contamination level detected by the contamination level detection unit 34. Specifically, if the pollution level is level 1, “weak” operation is performed, if it is level 2, “medium” operation is performed, and if it is level 3, “strong” operation is performed. However, it is desirable that the operation control unit 36 performs “strong” operation equivalent to level 3 when there is no person in the room 1 even if the degree of contamination of the room 1 is level 2.

  In the present embodiment, the functions of the contamination level detection unit 34, the determination unit 35, and the operation control unit 36 are realized by the control unit 31 executing software. At least one of these functions is assumed. One may be realized by hardware.

<About operation>
FIG. 4 is a flowchart showing the air cleaning process in the present embodiment. This air cleaning process is realized by the control unit 31 of the control device 3 reading and executing a program stored in the storage unit 32. The process shown in FIG. 4 is started when, for example, the operation panel 4 is operated by the user and an instruction to start automatic driving is input. The instruction signal for starting the automatic operation is transmitted to the control unit 31 when the power button of the operation panel 4 is turned on, for example.

  Referring to FIG. 4, first, operation control unit 36 performs “weak” operation of air cleaning unit 2 (step S <b> 2). Moreover, the determination part 35 determines whether the person entered the room 1 based on the detection signal from the human body sensor 6 (step S4). Until it is determined that a person has entered the room (NO in step S4), the “weak” operation is continued.

  When it is determined by the determination unit 35 that a person has entered the room (YES in step S4), the operation control unit 36 increases the operation intensity by one step, for example, performs “medium” operation for 30 minutes (step S6). The determination as to whether or not 30 minutes have elapsed is made based on the time signal from the time measuring unit 33. In the present embodiment, even when there is a person in the room 1 before the start of automatic driving, the determination unit 35 enters a person when it is determined that there is a person for the first time after the start of automatic driving. It shall be judged.

  When 30 minutes have elapsed since the start of the “medium” operation, the contamination level detection unit 34 detects the contamination level of the room 1 based on the detection signal from the dirt sensor 5 (step S8). If the air is cleaned and the degree of contamination is level 1 (minimum level), the operation control unit 36 operates the air cleaning unit 2 “weakly”. When level 1 is detected and determination unit 35 determines that there is a person in room 1 (YES in step S10), “weak” operation is performed in step S12. In this case, the contamination level is detected again in step S8. On the other hand, if level 1 is detected and no human body is detected by human sensor 6 and it is determined that there is no person (NO in step S10), the process returns to step S2 to enter the waiting state for entering the room. Is done. This is because the pollution level is usually stable when there is no person in the room 1.

  If level 2 (medium level) is detected as the degree of contamination in step S8, it is also determined here whether or not there is a person in room 1 (step S14). When it is determined that there is a person (YES in step S14), operation control unit 36 operates air cleaning unit 2 "medium" as usual (step S16). On the other hand, when it is determined that there is no person (leaves the room) (NO in step S14), the process proceeds to step S18, and the air cleaning unit 2 is operated “strongly”.

  In step S8, when level 3 (maximum level) is detected as the degree of contamination, the operation control unit 36 operates the air cleaning unit 2 “strongly” regardless of the presence or absence of a person (step S18). After steps S16 and S18, the process returns to step S8 and the above process is repeated. In addition, selection of the driving | running intensity | strength according to a contamination degree is performed every 5 minutes, for example. Thereby, hunting control of the air purification unit 2 can be prevented.

  As described above, in the present embodiment, when a person enters the room, the air cleaning unit 2 is operated “medium” for a certain time regardless of the detection result of the dirt sensor 5. Therefore, even when the pollutant generation position is far from the dirt sensor 5, dust generation associated with human activity can be removed or reduced early and efficiently. Therefore, it is possible to prevent the contaminant from diffusing into the room 1.

  Moreover, since the human body sensor 6 is attached to the main body part 20 provided on the ceiling 11, the presence or absence of a human body in the room 1 can be accurately detected. In order to detect the occurrence of pollutants at an early stage using only the dirt sensor 5, it is necessary to install a plurality of dirt sensors 5 at different locations in the room 1. However, according to the present embodiment, it is possible to remove pollutants at an early stage simply by installing the human body sensor 6 on the main body 20.

  Further, even if contaminants diffuse into the room 1 and, as a result, level 2 (medium level) is detected as the degree of contamination, the operating strength of the air cleaning unit 2 is maximized while no one is present. The Therefore, the contaminant removal rate can be increased. Increasing the air flow with the maximum operating intensity will increase the operating noise. However, in the present embodiment, when the pollution level is level 2, the driving intensity is maximized only when there is no person, so the indoor cleanliness is increased early without causing any trouble in the lives of the residents. be able to.

  It should be noted that the contamination level may be detected by the contamination level detection unit 34 during the 30 minutes of “medium” operation in step S6. In this case, if the detected degree of contamination is level 3, it may be changed from “medium” operation to “strong” operation.

  In the present embodiment, the air cleaning unit 2 is operated “weakly” in the waiting state for entering the room (step S2). However, in the waiting state for entering the room, the operation intensity is determined according to the degree of contamination. Also good. In this case, if the driving strength in the waiting state for entering the room is “medium”, the driving strength may be changed to “strong” when entry is detected. Alternatively, the processing in steps S2 to S6 including the waiting state for entering the room may be omitted.

  In the present embodiment, the operating state of the air cleaning unit 2 is selected from the three levels of operating strengths of “weak”, “medium”, and “strong”. You may select from (1st and 2nd driving | running intensity | strength). Or you may select from the driving | operation intensity | strength of four steps or more.

  In the present embodiment, the air cleaning unit 2 is installed on the ceiling 11, but is not limited, and may be installed on the floor of the room 1, for example. In such a case, by mounting the operation unit and the display unit as the operation panel 4, the dirt sensor 5, and the human body sensor 6 on the main body unit 20 including the air purification unit 2, the air purification system can be separated into a single air. It can also be provided as a cleaner.

  In addition, the air cleaning method of the room 1 according to the air cleaning process shown in FIG. 4 can also be provided as a program. Such a program can be provided by being recorded on an optical medium such as a CD-ROM or a computer-readable non-transitory recording medium such as a memory card. A program can also be provided by downloading via a network.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

  1 room, 1A dining space, 1B living space, 2 air cleaning unit, 3 control device, 4 operation panel, 5 dirt sensor, 6 human body sensor, 11 ceiling, 12 wall surface, 20 main body, 21 suction port, 24 air outlet, 22 air purifying filter, 23 fan, 25 louver, 31 control unit, 32 storage unit, 33 timing unit, 34 pollution degree detection unit, 35 determination unit, 36 operation control unit.

Claims (8)

An air cleaning unit that is operated at a first operating strength and a second operating strength that is higher than the first operating strength to selectively clean the air in the room;
A dirt sensor for detecting pollutants in the air;
A human body sensor for detecting the human body;
Determination means for determining whether a person has entered the room based on a detection result by the human body sensor;
When it is determined by the determination means that a person has entered the room, the operation state of the air cleaning unit is changed from the first operation intensity to the second operation intensity, and the second operation intensity is changed for a certain period of time. And an operation control means for operating the air purification unit with an operation intensity.   The operation control means operates the air purification unit at either the first operation intensity or the second operation intensity based on a detection result by the dirt sensor after the predetermined time has elapsed. The air cleaning system according to claim 1. The air purification unit is operated at a third operating intensity that is higher than the second operating intensity,
After the predetermined time has elapsed, the operation control unit is configured to select one of the first operation intensity, the second operation intensity, and the third operation intensity based on a detection result of the dirt sensor. The air purification system according to claim 1, wherein the air purification unit is operated. Based on the detection result by the dirt sensor, further comprising a detection means for detecting the degree of air pollution in the room,
Even when the same contamination level is detected by the detection means, the operation control means has an operation intensity higher than that when there is a person in the room when there is no person in the room. The air purification system according to claim 2 or 3, which is selected. The detecting means detects whether the air pollution level is the first, second or third level;
The air purification system according to claim 4, wherein the operation control means maximizes the operation intensity of the air purification unit when the second level of contamination is detected by the detection means.   The air purification system according to claim 1, wherein the air purification unit is provided on a ceiling of the room. In order to clean the air in the room, an air cleaning unit that is selectively operated at a plurality of operating intensities, and
A dirt sensor for detecting pollutants in the air;
A human body sensor for detecting the human body;
Selecting one of the plurality of operating intensities based on a detection result by the dirt sensor and a detection result by the human body sensor, and operating control means for operating the air cleaning unit at the selected operating intensity,
The air control system, wherein when there is no person in the room, the operation control means selects an operation intensity higher than an operation intensity when there is a person in the room. In order to clean the air in the room, a control device for selectively controlling the air cleaning unit to operate at a first operating intensity and a second operating intensity that is higher than the first operating intensity. There,
Determining means for determining whether a person has entered the room;
When it is determined by the determination means that a person has entered the room, the operation state of the air cleaning unit is changed from the first operation intensity to the second operation intensity, and the second operation intensity is changed for a certain period of time. A control device comprising operation control means for operating the air purification unit with operation intensity.

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