JPH09137989A - Air conditioning method and device - Google Patents

Abstract

(57) [Abstract] [Problem] To achieve optimum air conditioning for each individual. SOLUTION: An air conditioner 1, a control unit 2 for controlling an air conditioning operation of the air conditioner 1, and a human body for obtaining biometric information of an individual and supplying this biometric information to the control unit 2 together with personal identification information. And a biological information detection unit 4 attached to the wrist,
The control unit 2 stores biological information, and changes the control condition set for controlling the air conditioner 1 according to the stored biological information to perform an air conditioning operation.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioning method and an apparatus therefor, and more particularly to a method and an apparatus for air conditioning suitable for an individual in an air conditioning space.

[0002]

2. Description of the Related Art Conventionally, as an air conditioner, a temperature sensor detects the temperature of an air conditioning space, a difference between this temperature and a preset appropriate temperature is calculated, and the calculated temperature difference causes an air conditioner to operate. The one that sets the control condition is widely adopted. Here, as the preset suitable temperature, a temperature at which it is estimated that an average individual will feel comfortable is adopted. The temperature sensor is provided, for example, at one location in the air conditioning space, and the temperature detected by the temperature sensor represents the temperature of the air conditioning space.

If such an air conditioner is adopted, the temperature of the air-conditioned space (the temperature detected by the temperature sensor)
The air conditioning operation is performed so that the temperature is at a temperature at which the average individual would feel comfortable.

[0004]

However, in reality, the temperature at which the user feels comfortable varies greatly depending on the individual, and there is the possibility that comfortable air conditioning may not always be achieved. There is. In addition, even for a specific individual, the temperature at which they feel comfortable differs greatly when they are at rest and immediately after exercising, so even in this case, comfortable air conditioning is not necessarily performed. there is a possibility.

Further, there is no guarantee that the atmosphere in which the temperature is detected by the temperature sensor is in the vicinity of the individual, and there is a high possibility that the atmosphere is generally far from the individual, and moreover, the entire air conditioning space is present. Since it is unlikely that the ranges are at the same temperature, there is a possibility that comfortable air conditioning is not necessarily performed in this respect as well.

Taking these points into consideration, the frequency of the electroencephalogram is classified into a plurality of levels, the environmental condition of the room is set according to each classification, and the electroencephalogram of the individual is detected to determine which class the frequency is based on. It has been proposed that the air conditioner is operated according to the determination result (Japanese Patent Application Laid-Open No. HEI 2-
(See Japanese Patent No. 75846). However, the sensor for measuring brain waves is large, and it is strongly restrained on the human body when it is worn. Has the disadvantage of not being able to feel comfortable.

Also, the head has long hair, short hair,
Since there are significant variations in the size and shape of the head as well as in the shaved head, it is almost impossible to make the sensor wearing uniform without increasing the constraint on the head. Due to the fact that the states cannot be made uniform, the measurement state of the electroencephalogram greatly varies, and the measurement accuracy deteriorates. As a result,
The air conditioner cannot be controlled accurately.

Further, there is no guarantee that the atmosphere in which the temperature is detected by the temperature sensor is in the vicinity of the individual, and it is generally highly likely that the location is far from the individual, and moreover, the entire air conditioning space. Since it is unlikely that the ranges are at the same temperature, there is a possibility that comfortable air conditioning is not necessarily performed in this respect as well.

[0009]

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and an air conditioning method capable of performing proper air conditioning according to the condition of an individual without increasing the restraint on the human body. The purpose is to provide the device.

[0010]

According to a first aspect of the present invention, there is provided an air conditioning method, wherein a biological information detecting section is attached to a wrist of a human body to obtain biological information, and the biological information is sent to a control section of an air conditioner together with personal identification information. The biometric information is supplied and stored in the control unit in association with the personal identification information, and the control condition set for controlling the air conditioner is changed by the stored biometric information to perform the air conditioning operation. Is the way.

In the air conditioning method according to a second aspect of the present invention, the living body information detecting unit also obtains the atmosphere information in the vicinity of the human body, and the control unit sets the control condition set for controlling the air conditioner in the atmosphere information and storage. This is a method of performing an air conditioning operation by changing the biological information stored. Claim 3
The air conditioner of the present invention includes an air conditioner, a control unit for controlling the air conditioning operation of the air conditioner, a wrist unit of a human body for obtaining biometric information of an individual and supplying this biometric information to the control unit together with personal identification information. And a biological information detection unit mounted on the air conditioner, wherein the control unit stores the biological information and changes the control condition set for controlling the air conditioner by the stored biological information. This is to make a harmony operation.

In the air conditioner according to a fourth aspect of the present invention, the control unit sets, as the control unit, control conditions for controlling the air conditioner in accordance with environmental conditions of the air-conditioned space, and the control is performed based on stored biological information. The one that changes the conditions is adopted. The air conditioner according to a fifth aspect of the present invention employs biometric information containing at least the temperature of the human body.

In the air conditioner according to a sixth aspect of the present invention, as the biological information detecting unit, a unit that also obtains the atmosphere information around the human body is adopted, and as the control unit, the control set for controlling the air conditioner is adopted. The condition is changed according to the atmosphere information and the stored biological information to perform the air conditioning operation.

[0014]

According to the air conditioning method of claim 1, the biological information detecting section is attached to the wrist of the human body to obtain biological information, and the biological information together with the personal identification information is supplied to the control section of the air conditioner for control. The biometric information is stored in the section in association with the personal identification information, and the control condition set for controlling the air conditioner is changed by the stored biometric information to perform the air conditioning operation. The air conditioning operation can be performed in accordance with the individual condition grasped by the biometric information, and more comfortable air conditioning can be achieved than the conventional air conditioning.

According to the air conditioning method of the second aspect, the biological information detecting unit also obtains the atmosphere information in the vicinity of the human body, and the control unit sets the control conditions set for controlling the air conditioner as the atmosphere information and Since the air conditioning operation is performed by changing the stored biological information, the air conditioning operation can be performed in accordance with the state of the individual and the state of the surrounding atmosphere, and a more comfortable air conditioning is achieved. be able to.

According to the air conditioner of the third aspect, the biometric information detecting section mounted on the wrist of the human body obtains the biometric information of the individual and supplies the biometric information to the control section together with the personal identification information. The unit can store biological information and change the control condition set for controlling the air conditioner by the stored biological information to perform the air conditioning operation. Therefore, the air conditioning operation can be performed in accordance with the state of the individual grasped by the biological information, and more comfortable air conditioning can be achieved than the conventional air conditioning.

In the air conditioner of claim 4, the control unit sets the control condition for controlling the air conditioner in accordance with the environmental condition of the air-conditioned space, and the stored biological information is used. Since the one that changes the control condition is adopted, the air conditioning operation can be performed in accordance with the state of the individual and the state of the atmosphere, and more comfortable air conditioning can be achieved.

According to the air conditioner of the fifth aspect, since the biological information including at least the temperature of the human body is adopted, the same operation as that of the third or fourth aspect can be achieved. In the air conditioner according to claim 6, as the biological information detection unit, a device that also obtains atmosphere information near the human body is adopted, and as the control unit, control conditions set for controlling the air conditioner. Since the one that changes the air condition information and the stored biological information to perform the air conditioning operation is adopted, it is possible to perform the air conditioning operation according to the state of the individual and the state of the surrounding atmosphere, A more comfortable air conditioning can be achieved.

[0019]

Embodiments of the present invention will be described below in detail with reference to the accompanying drawings. FIG. 1 is a block diagram showing an embodiment of the air conditioner of the present invention. This air conditioner sets an air conditioner 1, a control unit 2 that controls the air conditioner operation of the air conditioner 1, and control conditions (target temperature, air flow rate, etc.) for the air conditioner operation. The remote controller 3 to be supplied to the control unit 2 and the biometric information detection unit to detect the biometric information by mounting it on the wrist of the human body as shown in FIG. 4 and.

Here, since the air conditioner 1 and the remote controller 3 are conventionally known, detailed description thereof will be omitted. The air conditioner 1 is a conventionally known air conditioner that performs an air conditioning operation based on a measurement value by a sensor incorporated therein, an instruction signal from the remote controller 3, and the like.
Is a conventionally known one for setting the target temperature, the air volume, and the like.

The biological information detecting section 4 is mounted so as to surround the wrist of the human body, and is a belt-shaped member 4a.
A sensor 4b for detecting biometric information is attached at a predetermined position. A user identification switch (dip switch or the like) 4c for setting personal information is provided. Further, a wearing state detecting unit 4d for detecting that the biological information detecting unit 4 is worn on the wrist of the human body is provided. Further, there is provided a transmitter 4e for transmitting the biometric information detected by the sensor 4b, the personal information, and the wearing state detection signal to the controller. It is preferable that the biometric information detection unit 4 includes not only a sensor 4b that detects biometric information but also a sensor that detects the state of the atmosphere near the human body. It should be noted that part of the sensor 4b can also serve as the mounting state detection unit 4d.

Here, as the sensor 4b for detecting biological information, a thermistor for detecting body surface temperature and deep body temperature, a microphone for detecting heart rate, a pressure sensor, a load cell, a pressure sensor for detecting respiration rate, and a skin blood flow rate. Or infrared sensor to detect radiation, sphygmomanometer to detect blood pressure, pressure sensor, load cell, myoelectric potential system to detect activity, three-dimensional acceleration sensor, capacitance plethysmometer to detect changes in infrared absorption rate of capillaries A pulse oximeter for detecting oxygen saturation of arterial blood can be exemplified. As a sensor for detecting the state of the atmosphere, a thermistor for detecting a temperature near the body surface, a humidity sensor for detecting a humidity near the body surface, a body surface Examples thereof include a wind speed sensor that detects the wind speed of the above, a gas sensor that detects the concentrations of O ₂ , CO, CO _{2 and the} like near the body surface. Further, the amount of perspiration and the amount of evaporation of sweat may be detected from the skin resistance and the saturated vapor pressure.

A pressure sensor, for example, can be used as the mounting state detector 4d. The user identification switch 4c for setting personal information is, for example, a dip switch, and data indicating an individual is set by a manual operation. The control unit 2 receives the information transmitted from the remote controller 3 and the biometric information detection unit 4 as a receiving unit 2a, the personal information memory 2b for storing personal information, and the setting conditions transmitted from the remote controller 3 as input. Control condition output unit 2c that outputs a general control condition, a current state detection unit 2d that detects the current state of the individual from the biometric information transmitted from the biometric information detection unit 4 and the personal information in the personal information memory 2b, Based on the current state detected by the current information detection unit 2d and the personal information in the personal information memory 2b, the control condition output unit 2
control condition correction unit 2 for correcting the control condition output from c
e and a correction stop unit 2f that stops the operation of the control condition correction unit 2e on condition that the biological information detection unit 4 is not attached to the human body.

As the personal information stored in the personal information memory 2b, for example, when the deep body temperature is adopted as the personal information, as shown in FIG. 3, the average deep body temperature for each time zone of the day is shown. Changes and changes in average core body temperature by month, and average core body temperature without such division and current core body temperature are adopted. It should be noted that this personal information is measured in advance and obtained based on the measurement result. Then, the personal information memory 2b sets an average correction condition (for example, the target temperature is set to be lower than the standard control condition by 1 ° C. lower than the standard control condition) obtained from the past history of condition setting by the remote controller 3 of the relevant individual. Condition) is also stored.

The current state detector 2d, for example, calculates the difference between the current core body temperature and the average core body temperature in the corresponding time zone, and / or the difference between the core body temperature and the average core body temperature without classification. calculate. Here, the former is used to set a long-term set point (which indicates a physiologically optimal room temperature environment for an individual), and the latter is used to set a short-term set point.

The control condition correction unit 2e corrects the standard control condition based on the average correction condition stored in the personal information memory 2b and the current state detected by the current state detection unit 2d. That is, the average correction condition is increased or decreased according to the current state, and the standard control condition is corrected by the increased or decreased correction condition. The correction stop unit 2
When the biological information detection unit 4 is not attached to the wrist of the human body, the function f stops the correction by the control condition correction unit 2e and causes the air conditioner 1 to be supplied with the standard control conditions as they are.

FIG. 4 is a flow chart for explaining the operation of the biological information detecting section 4. Only the wearing state detection unit 4d is operated in step SP1, and it is determined in step SP2 whether the biological information detection unit 4 is worn on the wrist of the human body. Then, when it is determined that the biological information detection unit is not attached to the wrist, an attachment OFF signal indicating that the biological information detection unit is not attached to the wrist is transmitted to the control unit 2 and the process of Step SP1 is performed again. . On the contrary, if it is determined in step SP2 that the biological information detection unit 4 is attached to the wrist, step SP
In step 4, a mounting ON signal indicating that the device is mounted is transmitted to the control unit 2, all sensors of the biological information detection unit 4 are operated to detect biological information in step SP5, and all the detected biological information in step SP6. The biological information is transmitted to the control unit 2, and the determination at step SP2 is performed again.

Therefore, the biological information detecting section 4 sends a mounting OFF signal to the control section 2 when it is not mounted on the wrist and, conversely, when it is mounted on the wrist, mounting O is detected.
After transmitting the N signal to the control unit 2, all the sensors are operated to detect the biometric information and, if applicable, the environmental information near the living body and transmit it to the control unit 2. FIG. 5 is a flowchart explaining the operation of the control unit 2.

In step SP1, the instruction signal from the remote controller 3 is received, in step SP2, the measurement value by the sensor built in the air conditioner is obtained, and in step S
In P3, the mounting state detection signal from the biological information detecting unit 4 is received, and in step SP4 it is determined whether the mounting state detection signal is the mounting ON signal or the mounting OFF signal.

When the mounting detection signal is the mounting OFF signal, the conventionally known air conditioning operation is performed without considering the biological information from the biological information detecting section 4 in step SP5, and the process of step SP1 is performed again. To do. On the contrary, when the mounting detection signal is the mounting ON signal, the set point is estimated in step SP6, the air conditioner 1 is controlled to perform the air conditioning operation based on the set point in step SP7, and step SP is again performed.
1 is performed.

Therefore, when the biological information detecting section 4 is not attached to the living body, the conventionally known air conditioning operation is performed without considering the biological information, but the biological information detecting section 4 is attached to the biological body. In this case, the air conditioning operation can be performed in consideration of biological information, and in consideration of individual differences,
Alternatively, even the same individual can perform an air conditioning operation in consideration of a change in physical condition and the like to achieve optimum air conditioning for the individual. As is clear from the above, it is not necessary for each individual to manually set the setting condition for the air conditioning operation, and the operability can be significantly improved.

[0032]

According to the first aspect of the present invention, the air conditioning operation can be performed in accordance with the state of the individual grasped by the biological information, and more comfortable air conditioning can be achieved than the conventional air conditioning. There is a unique effect. The invention of claim 2 has a unique effect that the air conditioning operation can be performed in accordance with the state of the individual and the state of the atmosphere in the vicinity, and a more comfortable air conditioning can be achieved.

The invention of claim 3 is peculiar in that the air conditioning operation can be performed in accordance with the state of the individual grasped by the biological information, and more comfortable air conditioning can be achieved than the conventional air conditioning. Produce the effect of. The invention according to claim 4 has a unique effect that the air conditioning operation can be performed according to the condition of the individual and the atmosphere, and that more comfortable air conditioning can be achieved.

The invention of claim 5 has the same effect as that of claim 3 or 4. The invention according to claim 6 has a unique effect that the air conditioning operation can be performed in accordance with the state of the individual and the state of the atmosphere in the vicinity, and a more comfortable air conditioning can be achieved.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of an air conditioner of the present invention.

FIG. 2 is a perspective view schematically showing a configuration of a biological information detection unit.

FIG. 3 is a diagram showing an example of personal information.

FIG. 4 is a flowchart illustrating an operation of a biological information detection unit.

FIG. 5 is a flowchart illustrating an operation of a control unit.

[Explanation of symbols]

 1 Air conditioner 2 Control unit 4 Biological information detection unit

Claims (6)

[Claims] 1. A biometric information detection unit (4) is attached to a wrist of a human body to obtain biometric information, and the biometric information is supplied together with personal identification information to a control unit (2) of an air conditioner (1) for control. The biological information is stored in the section (2) in association with the personal identification information, and the control condition set for controlling the air conditioner (1) is changed by the stored biological information to perform the air conditioning operation. An air conditioning method characterized by being performed. 2. The biological information detecting unit (4) also obtains atmosphere information near the human body, and the control unit (2) sets the control conditions set for controlling the air conditioner (1) as atmosphere information. The air conditioning method according to claim 1, wherein the air conditioning operation is performed by changing the stored biological information. 3. An air conditioner (1) and an air conditioner (1)
(2) for controlling the air conditioning operation of the human body, and a biometric information detector mounted on the wrist of the human body to obtain the biometric information of the individual and supply the biometric information to the control section (2) together with the personal identification information. (4), the control unit (2) stores biometric information, and changes the control condition set for controlling the air conditioner (1) according to the stored biometric information. An air conditioner that performs an air conditioning operation. 4. The control unit (2) sets a control condition for controlling the air conditioner (1) in accordance with an environmental condition of the air-conditioned space, and stores the control condition based on stored biological information. The air conditioner according to claim 3, wherein the air conditioner is changed. 5. The air conditioner according to claim 3, wherein the biological information includes at least the temperature of the human body. 6. The biological information detecting section (4) also obtains atmospheric information near the human body, and the control section (2).
Is to change the control condition set for controlling the air conditioner (1) according to the atmosphere information and the stored biological information to perform the air conditioning operation. The air conditioner according to any one of claims.