JP2004251573A - Air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an air conditioner, set to a temperature pleasant to a user so that the individual user can comfortably get along. <P>SOLUTION: The optimum temperature to an individual is set according to the previously measured individual amount of metabolism and the current skin temperature. The individual amount of metabolism is derived from the environmental temperature and the skin temperature in the condition of staying in a thermally neutral temperature space for designated time such as one hour. The thermally neutral condition corresponds to the range not requiring to regulate the blood flow. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

【００２１】
従って、現在の放熱量が予め計測しておいた産熱量（事前処理の産熱量）よりも多ければ、より多く放熱しようとしているので、「暑く」感じる状態であると推定できる。このため、このときには、空調の設定温度を下げるようにしている。また、現在の放熱量が予め計測しておいた産熱量（事前処理の産熱量）よりも少なければ、体内に多くの熱を貯めようとしているので、「寒く」感じる状態であると推定できる。このため、このときには、空調の設定温度を上げるようにしている。
【００２２】
次に図３と図４とを使用して、この空気調和機の制御方法を説明する。まず、図３にように、事前処理を行って個人の産熱量を予測する。すなわち、ステップＳ１で、日時や食事の時間等の産熱量に関する個人の情報を制御手段１９に入力する。次に、ステップＳ２に移行して、雰囲気温度（環境温度）が分っている部屋にその個人が入って、所定長時間（例えば、１時間程度）椅子に座る等のように安静にする。すなわち、熱的中立の温度空間に長時間滞在するようにする。その後、ステップＳ３へ移行して、種々の部位での皮膚温を計測（測定）し、安定した所の皮膚温を決定する。そして、ステップＳ４で、この決定した所での皮膚温と、上記雰囲気温度（環境温度）とから産熱量を、上記数１の演算式を使用して予測する。予測後に、ステップＳ５のように、この時の熱感（暑い／寒い）を個人に申告してもらって、これを参考値とする。そして、予測した産熱量を記憶手段１６にて記憶する。
【００２３】
そして、図４に示す本処理では、まず、ステップＳ６において、上記記憶手段１６に産熱量が記憶された個人が常時皮膚温を計測できる部屋（この空気調和機の室内機２が設置された部屋）に入室する。そこで、ステップＳ７のように、雰囲気温度（環境温度であって、室温）と、皮膚温（上記事前処理で計測した所の皮膚温）とを計測する。次にステップＳ８へ移行して、現在の放熱量を、皮膚温と雰囲気温度とから、α（Ｔ１−Ｔ２）の演算式を使用して推定し、この現在の放熱量と、事前処理の産熱量とを比較する。
【００２４】
ステップＳ８で、現在の放熱量が事前処理の産熱量よりも多ければ、より多く放熱しようとしているので、「暑く」感じることになるので、ステップＳ９へ移行して、空調の設定温度を下げる。また、ステップＳ８で、現在の放熱量が事前処理の産熱量よりも少なければ、体内に多くの熱を貯めようとしているので、「寒く」感じることになるので、ステップＳ１０へ移行して、空調の設定温度を上げる。この場合、上記参考値を考慮して、設定温度の上げ下げを制御するようにすれば、個人に対応する温度設定を一層高精度に行うことができる。
【００２５】
このように、この空気調和機によれば、本来のその人の快適と感じる代謝量（上記実施の形態では産熱量）を知ることで、「暑い」や「寒い」と感じる前に、快適な皮膚温に近づいたところから設定温度を快適な温度に変更することができる。すなわち、事前処理の産熱量が入力されている人は、この空気調和機の室内機２が設置された部屋に入って空調運転を行った場合や、この空気調和機にて空調運転されている部屋に入った場合において、この室内がこの人にとっての快適温度になるように自動的に設定されるので、「暑い」や「寒い」をあまり感じることなく、快適に過ごすことができる。また、「暑い」や「寒い」を感じないので、この「暑い」や「寒い」を感じることによって生じる体温調節（血流量の調整）によるストレスの発生を防止することができる。
【００２６】
以上にこの発明の空気調和機及び空気調和機の具体的な実施の形態について説明したが、この発明は上記実施の形態に限定されるものではなく、この発明の範囲内で種々変更して実施することが可能である。例えば、熱的中立の温度空間に入る時間としては、１時間に限るものではなく、代謝量を推定（計測）することができる範囲において任意に設定できる。また、上記においては、熱的中立の温度空間に滞在した状態で個人の代謝量を推定しているが、複数の環境温度において、環境温度と皮膚温との関係を求め、これらに基づいて個人の代謝量を推定するようにしてもよい。さらに、個人の代謝量は、季節や日差等により相違するので、これらを考慮した補正を行って代謝量を求めるようにするのが好ましい。また、季節によって着衣量が変化するので、データとして使用する現在の皮膚温を、この着衣量の変化を考慮して補正するようにするのが好ましい。なお、空気調和機として、湿度を調整する湿調ユニットとを備えたものであってもよい。
【００２７】
【発明の効果】
請求項１の空気調和機によれば、この空気調和機を利用する人にとって快適と感じる温度に設定することができ、「暑い」や「寒い」をあまり感じることなく快適に過ごすことができる。また、検出器としては、皮膚温を検出するセンサと、環境温度を検出するセンサとでよく、しかも、簡単な演算にて設定温度を決定することができるので、低コストにて、このような快適に過ごせる空気調和機を提供することができる。さらに、予め計測しておいた個人の代謝量と現在の皮膚温と現在の環境温度から温度を設定するので、個人差、性差、日差、季節差などの変化があっても、これらの変化に対応して、温度調節を行うことができる。また、寒く感じたり、暖かく感じたりした場合、体温調整のために血流量を調整する必要があるので、この調整のためにストレスを生じさせるが、この空気調和機では、「暑い」や「寒い」をあまり感じないので、このようなストレスを生じさせない。
【００２８】
請求項２の空気調和機によれば、計測される代謝量の信頼性は高く、これに基づいて設定される温度は、各個人にとっては確実に快適温度となる。しかも、簡単な演算にて代謝量を推定できる利点もある。
【図面の簡単な説明】
【図１】この発明の空気調和機の実施の形態を示す制御部ブロック図である。
【図２】上記空気調和機の簡略構成図である。
【図３】上記空気調和機の事前処理を示すフローチャート図である。
【図４】上記空気調和機の本処理を示すフローチャート図である。
【図５】「暑い」や「寒い」を感じる仕組みの説明図である。
【符号の説明】
１７ 環境温度検出手段
１８ 皮膚温検出手段[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an air conditioner.
[0002]
[Prior art]
Generally, an air conditioner (air conditioning system) is made for the purpose of making the indoor temperature comfortable, and the indoor temperature can be set arbitrarily. However, when the outside air is hot in summer, etc., when entering the room from the outside and performing the cooling operation with the air conditioner, it is cool and comfortable at first, but the cooling operation is performed at the same temperature setting. If you continue, you will feel cold. Also, if you enter a room that has been cooled in advance, you may feel cold. This is because the skin temperature is higher than the comfortable skin temperature when entering the room from a hot outside, and the temperature is lower than the comfortable skin temperature of the person when it feels cold when exposed to the cooling air. Because it is. That is, there is a skin temperature at which a person feels comfortable. Furthermore, the temperature at which the user feels comfortable varies depending on individual differences and the amount of clothes. Even if the room is at the same temperature, some people feel hot or cold. Therefore, a private room air-conditioning method that takes into account the metabolic rate of the occupants has been proposed (Patent Document 1).
[0003]
This private room air conditioning method estimates the occupant's metabolic rate from the occupant's skin temperature and room temperature, determines a comfortable temperature range from the estimated metabolic rate and the skin temperature, and sets the comfortable temperature range. How to drive.
[0004]
[Patent Document 1]
Japanese Patent No. 256726 (page 2-3, FIG. 2)
[0005]
[Problems to be solved by the invention]
By the way, as shown in FIG. 5, a person performs an activity, a part of which is consumed as work, and the rest is turned into heat. For example, the activity of running is translated into the task of traveling and fever. By radiating this heat from the skin, the body temperature can be kept constant. At this time, the amount of heat radiation is adjusted by adjusting the blood flow on the skin surface according to the environmental temperature. For example, when the blood flow rate is reduced, the temperature of the skin surface decreases and the amount of heat radiation decreases, so that a large amount of heat can be stored in the body. Even so, when the heat is not enough, tremors may occur, or exercise may be used to increase the amount of heat produced. Further, when the blood flow rate is increased, the temperature of the skin surface rises and the amount of heat radiation increases, so that heat can be released from the body.
[0006]
The amount of heat produced during normal times varies from person to person. For this reason, when the metabolic rate and the skin temperature are evaluated as in Patent Document 1, whether the skin temperature is to be lowered to reduce the heat release amount, or the skin temperature is increased to increase the heat release amount There is no telling exactly what it is, and it is not possible to judge whether it is cold, hot or comfortable for the individual.
[0007]
SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional drawbacks, and an object of the present invention is to set a temperature at which a user feels comfortable, and to provide an air in which a user can spend comfortably. To provide a harmony machine.
[0008]
[Means for Solving the Problems]
Therefore, the air conditioner according to claim 1 is characterized in that the optimum temperature setting for the individual is performed based on the metabolic amount of the individual, the current skin temperature, and the current environmental temperature measured in advance.
[0009]
According to the air conditioner of the first aspect, since the metabolic rate of the individual is measured in advance, the skin temperature (skin temperature) that the person originally feels comfortable can be grasped. Further, for example, in a resting state such as sitting at a desk and reading a book, the skin temperature shows a certain value at a certain environmental temperature, so that the amount of heat dissipated from the environmental temperature and the skin temperature can be estimated. If the skin temperature is balanced, this calorie is considered to be the calorific value of this person. For this reason, when the skin temperature at a certain time is higher than the above-mentioned balanced skin temperature (skin temperature that feels comfortable), it is presumed that the user feels "hot" in this state because more heat is being radiated. In addition, it is possible to perform the operation of lowering the set temperature to obtain a comfortable temperature according to the individual. Also, if the skin temperature at a certain time is lower than the above-balanced skin temperature (skin temperature that feels comfortable), the amount of heat released will be reduced to store more heat in the body. It is presumed that the user feels "cold", and a driving operation for increasing the set temperature can be performed to achieve a comfortable temperature according to the individual.
[0010]
An air conditioner according to a second aspect is characterized in that the metabolic rate of the individual is derived from the environmental temperature and the skin temperature when the individual stays in the thermal neutral temperature space for a predetermined time or more.
[0011]
According to the air conditioner of the second aspect, by staying in the thermal neutral temperature space for a predetermined time or more, a stable state without adjusting the blood flow on the skin surface is obtained. Therefore, in this state, the reliability of the metabolic rate derived from the environmental temperature and the skin temperature is high.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, specific embodiments of the air conditioner of the present invention will be described in detail with reference to the drawings. FIG. 2 shows a simplified block diagram of the air conditioner. The air conditioner includes an outdoor unit 1 and an indoor unit 2. On the outdoor unit 1 side, a compressor 3, a four-way switching valve 4, An outdoor heat exchanger 5, an expansion valve 6, and the like are arranged, and an indoor heat exchanger 7 is arranged on the indoor unit 2 side.
[0013]
Specifically, the discharge pipe 8 of the compressor 3 is connected to one primary port of the four-way switching valve 4, and the suction pipe 9 of the compressor 3 is connected to the other primary port of the four-way switching valve 4. One of the secondary ports of the four-way switching valve 4 is connected to the outdoor heat exchanger 5 via the refrigerant pipe 10, and the outdoor heat exchanger 5 is connected to the outdoor expansion valve 6 via the refrigerant pipe 11. The outdoor expansion valve 6 is connected to the indoor heat exchanger 7 via the refrigerant pipe 12, and the indoor heat exchanger 7 is connected to the other secondary port of the four-way switching valve 4 by the refrigerant pipe 13.
[0014]
In the air conditioner configured as described above, when performing the cooling operation, the outdoor expansion valve 6 is set to the control (adjustment) opening degree, and the four-way switching valve 4 is switched to the state shown by the solid line in FIG. The compressor 3 is driven in this state. Thereby, the refrigerant discharged from the compressor 3 passes through the outdoor heat exchanger 5, is decompressed and expanded by the expansion valve 6, passes through the indoor heat exchanger 7, and is returned to the compressor 3. At this time, the outdoor heat exchanger 5 functions as a condenser, and the indoor heat exchanger 7 functions as an evaporator, thereby performing indoor cooling. At this time, the set temperature (cooling temperature) can be changed (adjusted) by the control means 19 (see FIG. 1).
[0015]
In the heating operation, the expansion valve 6 is set to the control (adjustment) opening, and the four-way switching valve 14 is switched to the state shown by the broken line in FIG. The compressor 3 is driven in this state. Thereby, the refrigerant discharged from the compressor 3 passes through the indoor heat exchanger 7, is decompressed and expanded by the expansion valve 6, passes through the outdoor heat exchanger 5, and is returned to the compressor 3. At this time, the indoor heat exchanger 7 functions as a condenser, and the outdoor heat exchanger 5 functions as an evaporator, so that heated (warmed) air is blown into the room. At this time, the set temperature (heating temperature) can be changed (adjusted) by the control means 19 (see FIG. 1).
[0016]
And this air conditioner is provided with the control part (controller) 15 shown in FIG. The control unit (controller) 15 includes a storage unit 16 that stores an individual's metabolic rate measured in advance, an environmental temperature detection unit 17 that detects an environmental temperature (room temperature), and an individual's skin temperature (skin temperature). And a control unit 19 to which the data (temperature) detected by each of the detection units 17 and 18 is input. The control means 19 and the like can be constituted by a microcomputer or the like, and the environmental temperature detecting means 17 can be constituted by a temperature thermistor attached to the indoor unit 2 or the like. Further, the skin temperature detecting means 18 can be constituted by various temperature-sensitive sensors using a thermistor, infrared rays or the like. At this time, a contact type that contacts the skin or a non-contact type that does not contact the skin may be used.
[0017]
By the way, a person performs an activity, a part of which is consumed as work, and the rest turns into heat. That is, a person (human) moderately releases metabolic heat in the body to the external environment to maintain thermal equilibrium, and maintains body temperature (deep body temperature) at approximately 37 ° C. at rest. A part of the metabolic rate (calorific value per unit time) is used for performing mechanical work. The amount of heat produced by humans (the amount of heat produced in the body) is not always constant, and varies depending on morning and night, before and after meals, at rest and during activities, and the like. It is possible to measure the amount of heat produced under these conditions in advance. For example, in a resting state, such as reading a book while sitting at a desk, the skin temperature shows a certain value at a certain environmental temperature. Therefore, the amount of heat dissipated can be estimated from the environmental temperature and the skin temperature. Assuming that the skin temperature is balanced, this calorie is considered to be the calorific value of this person.
[0018]
Therefore, by measuring the physiological information of the individual under such conditions in advance, if the skin temperature at a certain time is higher than the balanced skin temperature, it is trying to release more heat, In this state, it is presumed that the user feels "hot", and the user can drive the vehicle to a lower temperature to achieve a comfortable temperature suitable for the individual. Also, if the skin temperature at a certain time is lower than the above-balanced skin temperature, it will try to store more heat in the body by lowering the amount of heat released, so in this state you may feel `` cold '' It is possible to perform the operation of estimating and raising the temperature to obtain a comfortable temperature according to the individual.
[0019]
Therefore, in this air conditioner, control is performed so that the optimum temperature is set based on the previously measured individual metabolic rate, the current skin temperature, and the current environmental temperature. That is, the current heat radiation amount is estimated from the current skin temperature and the current environmental temperature, and the current heat radiation amount and the previously measured personal heat production (in a resting state when not working, A comparison is made between this ambient temperature at a certain ambient temperature and the amount of heat dissipated estimated from the skin temperature. In this case, the current heat radiation amount can be obtained by α (T1−T2). Here, α is a proportionality constant, T1 is a skin temperature, and T2 is an environmental temperature. Further, the metabolic rate M when L is 0 in the following equation 1 becomes the calorific value of an individual measured in advance, and differs for each individual. That is, this L is the heat load of the human body (the amount of heat stored in the body) and represents the virtual deviation from the thermal neutral state in terms of the amount of heat. When this value is 0, the heat stored in the human body and heat radiation to the environment And the body temperature is maintained at a constant temperature. Here, the thermal neutrality is a state (range) where the blood flow does not need to be adjusted.
[0020]
(Equation 1)

[0021]
Therefore, if the current heat release amount is larger than the previously measured heat generation amount (heat generation amount in the pre-processing), it is estimated that the user feels "hot" because more heat is to be released. Therefore, at this time, the set temperature of the air conditioner is reduced. If the current amount of heat radiation is smaller than the amount of heat generated beforehand (the amount of heat generated in the pre-processing), it is estimated that the user feels "cold" because he or she is trying to store more heat in the body. Therefore, at this time, the set temperature of the air conditioner is raised.
[0022]
Next, a control method of the air conditioner will be described with reference to FIGS. First, as shown in FIG. 3, the amount of heat produced by an individual is predicted by performing pre-processing. That is, in step S <b> 1, personal information relating to the amount of heat generated, such as date and time and meal time, is input to the control unit 19. Next, the process proceeds to step S2, where the individual enters a room where the ambient temperature (environmental temperature) is known and sits down, for example, sitting in a chair for a predetermined long time (for example, about one hour). In other words, the user stays in the thermal neutral temperature space for a long time. Thereafter, the process proceeds to step S3, in which the skin temperature at various parts is measured (measured), and the skin temperature at a stable place is determined. Then, in step S4, the amount of heat production is predicted from the skin temperature at the determined location and the above-mentioned ambient temperature (environmental temperature) using the above-described equation (1). After the prediction, as in step S5, the individual is notified of the feeling of heat (hot / cold) at this time, and this is used as a reference value. Then, the predicted heat production amount is stored in the storage unit 16.
[0023]
In the present process shown in FIG. 4, first, in step S6, a room in which the amount of heat produced is stored in the storage means 16 and in which the individual can always measure skin temperature (the room where the indoor unit 2 of this air conditioner is installed) ). Thus, as in step S7, the ambient temperature (environmental temperature, which is room temperature) and the skin temperature (the skin temperature at the place measured in the pre-processing) are measured. Next, the process proceeds to step S8, in which the current heat radiation amount is estimated from the skin temperature and the ambient temperature by using an arithmetic expression of α (T1-T2), and the current heat radiation amount and the production amount of the pre-processing are calculated. Compare with calorie.
[0024]
In step S8, if the current amount of heat radiation is larger than the amount of heat produced in the pre-processing, more heat is being radiated, and the user feels "hot". Therefore, the process proceeds to step S9 to lower the set temperature of the air conditioning. If it is determined in step S8 that the current amount of heat radiation is smaller than the amount of heat generated in the pre-processing, a lot of heat is to be stored in the body, and the user feels "cold". Raise the set temperature. In this case, if the raising and lowering of the set temperature is controlled in consideration of the reference value, the temperature setting corresponding to the individual can be performed with higher accuracy.
[0025]
As described above, according to this air conditioner, by knowing the metabolic amount (heat generation amount in the above-described embodiment) that the person naturally feels comfortable, the person can feel comfortable before feeling "hot" or "cold". The set temperature can be changed to a comfortable temperature from a point near the skin temperature. In other words, the person to whom the amount of heat generated in the pre-processing is input enters the room where the indoor unit 2 of the air conditioner is installed and performs the air conditioning operation, or the air conditioning operation is performed by the air conditioner. When the user enters the room, the room is automatically set to have a comfortable temperature for the person, so that the user can spend comfortably without feeling "hot" or "cold". In addition, since the user does not feel "hot" or "cold", it is possible to prevent the occurrence of stress due to body temperature adjustment (adjustment of blood flow) caused by feeling "hot" or "cold".
[0026]
The specific embodiments of the air conditioner and the air conditioner according to the present invention have been described above. However, the present invention is not limited to the above embodiments, and various modifications may be made within the scope of the present invention. It is possible to do. For example, the time to enter the thermal neutral temperature space is not limited to one hour, and can be set arbitrarily within a range where the metabolic rate can be estimated (measured). Further, in the above, the metabolic rate of an individual is estimated while staying in a thermal neutral temperature space, but the relationship between the environmental temperature and the skin temperature is determined at a plurality of environmental temperatures, and the individual is determined based on these. May be estimated. Furthermore, since the metabolic rate of an individual varies depending on the season, day difference, and the like, it is preferable to calculate the metabolic rate by performing correction taking these factors into consideration. Further, since the amount of clothing changes according to the season, it is preferable to correct the current skin temperature used as data in consideration of the change in the amount of clothing. The air conditioner may be provided with a humidity control unit for adjusting humidity.
[0027]
【The invention's effect】
According to the air conditioner of the first aspect, it is possible to set a temperature at which a person who uses the air conditioner feels comfortable, and to spend comfortably without feeling "hot" or "cold". Further, as the detector, a sensor for detecting the skin temperature and a sensor for detecting the environmental temperature may be used, and the set temperature can be determined by a simple calculation. An air conditioner that can be spent comfortably can be provided. Furthermore, since the temperature is set from the previously measured individual metabolic rate, the current skin temperature and the current environmental temperature, even if there are changes such as individual differences, gender differences, day differences, seasonal differences, etc. The temperature can be adjusted in accordance with. In addition, when the person feels cold or warm, it is necessary to adjust the blood flow to adjust the body temperature, which causes stress.However, with this air conditioner, "hot" or "cold" ”So that such stress is not caused.
[0028]
According to the air conditioner of the second aspect, the reliability of the measured metabolic rate is high, and the temperature set based on this is a comfortable temperature for each individual. Moreover, there is an advantage that the metabolic rate can be estimated by a simple calculation.
[Brief description of the drawings]
FIG. 1 is a control block diagram showing an embodiment of an air conditioner of the present invention.
FIG. 2 is a simplified configuration diagram of the air conditioner.
FIG. 3 is a flowchart showing a preliminary process of the air conditioner.
FIG. 4 is a flowchart showing a main process of the air conditioner.
FIG. 5 is an explanatory diagram of a mechanism for feeling “hot” or “cold”.
[Explanation of symbols]
17 Environmental temperature detecting means 18 Skin temperature detecting means

Claims (2)

An air conditioner characterized in that an optimal temperature setting for an individual is performed based on the individual's metabolic rate, the current skin temperature, and the current environmental temperature measured in advance. 2. The air conditioner according to claim 1, wherein the metabolic rate of the individual is derived from the environmental temperature and the skin temperature when the individual stays in the thermal neutral temperature space for a predetermined time or more.

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