JP2002224205A - Air cleaner and method for controlling air cleaner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air cleaner having an ozone sensor, a smell sensor and a human detecting sensor, and a method for ON/OFF-operation of the air cleaner by combining these sensors. SOLUTION: The air cleaner is provided with the ozone sensor, the smell sensor and the human detecting sensor. The concentration of ozone, the presence or absence of odors and the presence or absence of persons are detected by imparting priority levels to these sensors, by which the air cleaner is operated or stopped and the operating state of the air cleaner is controlled. Accordingly, the air in buildings, rooms, vehicles, etc., can be cleaned more efficiently than by the conventional air cleaners, human errors can be prevented and the curtailment of costs, such as electricity expenses, is made possible as well.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the interior of a building,
The present invention relates to an air purifier for sterilizing and deodorizing air in a vehicle or the like, and a control method of the air purifier.

[0002]

2. Description of the Related Art Conventionally, a method of purifying air by generating ozone in the atmosphere to perform sterilization, deodorization, and the like has been conventionally performed. As a method for generating such ozone, a discharge method using silent discharge or creeping discharge or a photochemical method for generating ozone by irradiating ultraviolet rays are well known.

[0003] By the way, it has been pointed out that although ozone has an extremely excellent sterilizing ability and deodorizing ability, it may adversely affect the human body when it is excessively present in the air. Therefore, the ozone concentration is set to 0.06 ppm or less as an environmental standard, and 0.1 ppm or less within 8 hours as a short-time operation standard.

[0004] As described above, since ozone may have an adverse effect on the human body, air purifiers equipped with an ozone sensor are already on the market. The air purifier equipped with such an ozone sensor stops the air purifier when the ozone concentration exceeds a predetermined set value, and operates again when the ozone concentration falls below the predetermined set value. Has become.

[0005] On the other hand, when air purifiers are used to sterilize and deodorize indoors, there are two cases: when there is no person in the room, and when a person is indoors and temporarily removes body odor or tobacco odor. is there. Conventionally, in the former case, the air purifier is operated when a person leaves the room, and in the latter case, the air purifier is operated when a person enters the room.

[0006]

However, the above-mentioned prior art has the following problems to be solved. In other words, in the method of operating and stopping the air purifier by the ozone sensor, the air purifier may be operated even when a person is not in the room for a long time. May have occurred.

Further, in the method of manually operating and stopping the air purifier when a person enters or leaves a room, the operation is cumbersome, and the operation cannot be performed when necessary, or the operation is not performed when not required. Sometimes occurred.

In the case of deodorizing the room,
It is desirable that the air purifier be activated when the odor is present, and shut off when the odor has disappeared.

In order to solve the above-mentioned problems, the present invention provides an air purifier provided with an ozone sensor, an odor sensor, and a human sensor in the air purifier, and an air purifier by combining those sensors. It is an object of the present invention to provide a method of controlling an air purifier capable of controlling operation and stop.

[0010]

The present invention employs the following structure to solve the above problems. <Configuration 1> An air purifier for purifying air by generating ozone, wherein the air purifier includes an ozone sensor, an odor sensor, and a human sensor.

<Structure 2> The air purifier according to Structure 1, wherein the ozone generation method is of a discharge type.

<Structure 3> The air purifier according to Structure 1, wherein the ozone generation method is a photochemical method.

<Configuration 4> A method for controlling an air purifier for purifying air by generating ozone, wherein the control is performed by combining an ozone sensor, an odor sensor, and a human sensor. Air purifier control method.

<Structure 5> In the combination of the ozone sensor, the odor sensor and the human sensor, one of the sensors is used.
Alternatively, the air purifier control method according to Configuration 4, wherein the air purifier is started and stopped by assigning priorities to two or more sensors.

<Structure 6> The method for controlling an air purifier according to Structure 5, wherein the ozone sensor is given the first priority.

[0016]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a diagram schematically illustrating an embodiment of the present invention. In FIG. 1, reference numeral 1 denotes an air purifier, which is provided with an ozone lamp 2 which emits ultraviolet light to generate ozone. The ozone lamp 2 includes an electrodeless discharge tube 3, and reference numeral 4 denotes an electrode for discharging. In this embodiment, a method of generating ozone by irradiation with ultraviolet light, which is a photochemical method, is shown. However, a method of generating ozone by a discharge method such as silent discharge or creeping discharge is not a problem, and is not particularly limited. .

The air purifier 1 is provided with an ozone sensor 5, an odor sensor 6, and a human sensor 7. These sensors may be provided in the air purifier or may be mounted outside the air purifier. In short, the air purifier detects ozone concentration, presence or absence of odor, and presence / absence of a person. There is no particular limitation as long as it is reflected in the operation state of the machine.

The ozone sensor 5 may be a known sensor such as a method using a metal oxide semiconductor or a method using ultraviolet absorption. Further, as the odor sensor, for example, a sensor that detects a change in electric resistance of a metal oxide semiconductor such as tin dioxide (SnO ₂ ) or zinc oxide (ZnO) can be used. As the human detection sensor, there is a method of detecting weak infrared rays emitted from a human body. In each case, a known sensor can be used,
There is no particular limitation.

Here, a method for controlling an air purifier using a combination of an ozone sensor, an odor sensor, and a human sensor according to the present invention will be described. If the ozone concentration is excessive, it may be harmful to the human body, so the first priority is the ozone sensor, and the ozone sensor enables the air purifier to operate if the ozone concentration in the room is less than a predetermined set value, for example. When the ozone concentration is equal to or higher than a set value, that is, equal to or higher than a concentration that is of concern to the human body, the air purifier is turned off. Then, the priority of the odor sensor or the human sensor is determined, and the switch of the air purifier body is turned on by a combination of these three sensors.
N, turn off.

A specific example will be described below. <Embodiment 1> FIG. 2 is an explanatory diagram showing the ozone concentration, the presence or absence of odor, and the operating state of the air cleaner main body. The ozone sensor is set to the first priority, and the switch of the air purifier can be turned on when the ozone concentration is lower than a predetermined set value. The odor sensor is set to the second priority, and when the odor is detected in the room, the switch of the air purifier is turned on. That is, the air purifier operates when the odor is detected with the ozone concentration being less than the set value, and does not operate when there is no odor. Of course, when the ozone concentration exceeds a predetermined set value, the switch of the air purifier is turned off so as not to operate. This will be described with reference to FIG.

<Embodiment 2> FIG. 3 is an explanatory view showing the ozone concentration, the situation of a person, and the operating state of the air cleaner main body. As shown in FIG. 3, the ozone sensor has the first priority and the human sensor has the second priority. The air purifier is turned on when a person is present in the room when the ozone concentration is less than a predetermined set value, and is turned off when no person is present. When the ozone concentration is equal to or higher than the predetermined set value, the air purifier is not operated in the same manner as in the first embodiment, and is the same in the following embodiments.

<Embodiment 3> FIG. 4 is an explanatory view showing the ozone concentration, the situation of a person, and the operating state of the air cleaner body. As shown in FIG. 4, the ozone sensor has the first priority,
In this embodiment, the air purifier is turned on when the ozone concentration is lower than a predetermined set value and no person is present in the room, and is turned off when a person is present. .

<Embodiment 4> FIG. 5 is an explanatory diagram showing the ozone concentration, the situation of a person, the presence or absence of odor, and the operating state of the air cleaner body. As shown in FIG. 5, the ozone sensor has the first priority, the human sensor has the second priority, and the odor sensor has the third priority. In this embodiment, the air purifier is turned on when the ozone concentration is less than the predetermined set value and no person is present in the room. At that time, the air purifier operates regardless of the presence or absence of the smell. When the ozone concentration is less than the predetermined set value and there is a person in the room, the switch of the air purifier is turned on if an odor is detected by the third priority odor sensor.
So that If there is no person and there is no smell, the air purifier does not operate.

<Embodiment 5> FIG. 6 is an explanatory diagram showing the ozone concentration, the situation of a person, the presence or absence of odor, and the operating state of the air purifier main body. FIG. 6 shows a case where the ozone sensor has the first priority, the human sensor has the second priority, and the odor sensor has the third priority, as in the fourth embodiment. In this case, the air purifier is turned on when a person is present. When the air purifier senses that there is a person in the room, the air purifier operates regardless of whether or not there is a smell. When the ozone concentration is less than the predetermined set value and no person is present in the room, the switch of the air purifier is turned on if an odor is detected by the third priority odor sensor. If no person is present and there is no smell, the air purifier does not operate.

<Embodiment 6> FIG. 7 is an explanatory diagram showing the ozone concentration, the presence or absence of odor, the situation of a person, and the operating state of the air cleaner body. FIG. 7 shows the ozone sensor as the first priority,
This is the case where the odor sensor has the second priority and the human sensor has the third priority. In this embodiment, the air purifier is turned on when the ozone concentration is less than the predetermined set value and an odor is detected in the room. At that time, the air purifier operates regardless of whether or not a person is present in the room. When the ozone concentration is less than the predetermined set value and there is no smell, the air purifier is turned on when no person is present in the room by the third priority person detecting sensor. When there is no smell and a person is present, the air purifier does not operate.

<Embodiment 7> FIG. 8 is an explanatory diagram showing the ozone concentration, the presence or absence of odor, the situation of a person, and the operating state of the air cleaner body. FIG. 8 shows the ozone sensor as the first priority,
In the case where the odor sensor has the second priority and the human detection sensor has the third priority, the air purifier is turned on when the ozone concentration is less than the predetermined set value and the odor is detected in the room.
In this embodiment, when the ozone concentration is less than the predetermined set value and there is no odor, a person is present in the room by the third priority human sensor. At times, the switch of the air purifier is turned on. When there is no smell and no person is present, the air purifier does not operate.

[0028]

As described above, according to the present invention, an air purifier is provided with an ozone sensor, an odor sensor, and a human sensor,
And the operation of the air purifier by combining those sensors,
Since the stop is controlled, air inside the building, inside the room, inside the car, etc. can be purified more efficiently than conventional air purifiers, and human malfunctions can be prevented.
Costs such as electricity bills can be reduced.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating an embodiment of the present invention.

FIG. 2 is an explanatory diagram illustrating an ozone concentration, presence / absence of an odor, and an operation state of an air cleaner main body according to the first embodiment.

FIG. 3 is an explanatory diagram illustrating an ozone concentration, a situation of a person, and an operation state of an air cleaner main body according to a second embodiment.

FIG. 4 is an explanatory diagram illustrating an ozone concentration, a situation of a person, and an operation state of an air cleaner main body according to a third embodiment.

FIG. 5 is an explanatory diagram showing an ozone concentration, a situation of a person, presence / absence of an odor, and an operation state of an air cleaner main body according to a fourth embodiment.

FIG. 6 is an explanatory diagram showing an ozone concentration, a situation of a person, presence or absence of an odor, and an operation state of an air cleaner main body according to a fifth embodiment.

FIG. 7 is an explanatory diagram showing an ozone concentration, presence or absence of an odor, a situation of a person, and an operation state of an air cleaner main body according to a sixth embodiment.

FIG. 8 is an explanatory diagram showing an ozone concentration, presence / absence of an odor, a situation of a person, and an operation state of an air cleaner main body according to a seventh embodiment.

[Explanation of symbols]

 Reference Signs List 1 air purifier 2 ozone lamp 3 electrodeless discharge tube 4 electrode 5 ozone sensor 6 odor sensor 7 human detection sensor

Claims (6)

[Claims] 1. An air purifier for purifying air by generating ozone, wherein the air purifier includes an ozone sensor, an odor sensor, and a human sensor. . 2. The air purifier according to claim 1, wherein the ozone generation method is a discharge type. 3. The air purifier according to claim 1, wherein the ozone generation method is a photochemical method. 4. A method for controlling an air purifier for purifying air by generating ozone, wherein the control is performed by combining an ozone sensor, an odor sensor, and a human sensor. How to control the purifier. 5. In the combination of the ozone sensor, the odor sensor, and the human detection sensor, one or two of each sensor are provided.
5. The control method for an air purifier according to claim 4, wherein the air purifier is started and stopped by assigning a priority to the sensors. 6. The method according to claim 5, wherein the ozone sensor is given the first priority.