JP2017096584A - Air conditioning system and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air conditioning system capable of suitably adjusting a feeling temperature felt by a user.SOLUTION: An air conditioning system 1 includes an input part 10 for receiving temperature change information showing a temperature change in a room 2 from a user 3, a temperature detection part 20 for detecting a room temperature in the room 2, a COconcentration detection part 30 for detecting COconcentration in the room 2, a COconcentration adjustment part 40 for adjusting COin the room 2, and a control part 60 for adjusting a feeling temperature felt by the user 3 by controlling the COconcentration adjustment part 40 on the basis of the room temperature detected by the temperature detection part 20 and the COconcentration detected by the COconcentration detection part 30 when the temperature change information is inputted to the input part 10.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an air conditioning system and a program.

  For indoor air conditioning in general houses or buildings, air conditioning systems such as air conditioners, air conditioners or ventilators ensure indoor comfort and maintain the air environment. . For example, an air conditioner is used to control the air conditioning of an indoor space in order to obtain a room temperature at which a person in the room feels comfortable.

Conventionally, an air conditioning system that controls indoor air conditioning not only according to room temperature but also according to the CO ₂ concentration in the indoor space has been proposed. For example, Patent Literature 1 automatically detects indoor CO ₂ concentration and automatically determines which of heat treatment by an air conditioner and ventilation treatment by a ventilator should be given priority according to the detected CO ₂ concentration. An automatic ventilation system that can provide a comfortable indoor space by selecting is disclosed.

JP 2000-88320 A

  A person has a warm spot and a cold spot in the skin or body, and feels a stimulus to the temperature by the warm spot and the cold spot. A hot spot is a receptor that senses heat (a warm receptor), and a cold spot is a receptor that feels cold (a cold receptor). A human senses a stimulus to temperature as warm or cold by these receptors.

  Warm and cold receptors are known to respond to stimuli other than temperature. For example, a capsaicin stimulus is sensed as a warm sensation in a warm receptor and a menthol stimulus is sensed as a cold sensation in a cold receptor.

CO ₂ (carbon dioxide) is also a stimulating substance for warm sense or cold sense. Since CO ₂ suppresses cold receptors and activates thermo receptors, it can be a factor that makes people feel hot. That is, it is known that CO ₂ has an effect of making a person feel the heat, and the heat evaluation value in the thermal sensation evaluation is high in an environment where the CO ₂ concentration is high even in the subject experiment.

  Air conditioning is controlled by an air conditioning system to eliminate the feeling of heat and cold by humans, but conventional air conditioning systems control air conditioning (ie, temperature control) using only temperature as a trigger. . For example, the room temperature is monitored, and if the room temperature is high, the temperature is controlled to be lowered. Actually, when the user feels hot in daily life, the room temperature is controlled by a method such as lowering the set temperature of the air conditioner.

However, the temperature at which a user feels hot or cold does not necessarily depend on temperature alone. For example, as described above, CO ₂ is also considered to have an effect on the temperature of the human body. For this reason, in the conventional air conditioning system centering on temperature control, the sensible temperature felt by the user cannot always be changed to the sensible temperature that a person feels comfortable.

Further, in the air conditioning system disclosed in Patent Document 1, although depending on the CO ₂ concentration is carried out to control the indoor air conditioning is not intended to regulate the sensory temperature of the user in accordance with the CO ₂ concentration, at room temperature Cannot be appropriately controlled to a temperature at which the user feels comfortable. That is, it is not possible to appropriately adjust the temperature sensed by the user.

  The present invention has been made to solve such a problem, and an object of the present invention is to provide an air conditioning system capable of appropriately adjusting a sensible temperature felt by a user.

In order to achieve the above object, an aspect of an air conditioning system according to the present invention includes an input unit to which temperature change information indicating a temperature change in a room from a user is input, and a temperature detection unit that detects the room temperature in the room. , and CO ₂ concentration detection unit for detecting a CO ₂ concentration of the chamber, a CO ₂ concentration adjusting unit for adjusting the CO ₂ concentrations of the chamber, when the temperature change information to the input unit is inputted, the temperature a control unit for adjusting the sensible temperature which the user feels by controlling the CO ₂ concentration adjusting section on the basis of said CO ₂ concentration detected by the detected by the detection section and the room temperature and the CO ₂ concentration detection unit, the It is an air conditioning system.

  The present invention can also be realized as a program for causing a computer to function as the air conditioning system, or as a computer-readable recording medium storing the program.

  The sensible temperature felt by the user can be adjusted appropriately.

It is a block diagram which shows the structure of the air conditioning system which concerns on Embodiment 1. FIG. It is a flowchart which shows the air-conditioning control method by the air-conditioning system which concerns on Embodiment 1. It is a block diagram which shows the structure of the air conditioning system which concerns on Embodiment 2. FIG. It is a flowchart which shows the air-conditioning control method by the air-conditioning system which concerns on Embodiment 2.

  Embodiments of the present invention will be described below. Note that each of the embodiments described below shows a preferred specific example of the present invention. Therefore, numerical values, components, arrangement positions and connection forms of components, and steps and order of steps shown in the following embodiments are merely examples, and are not intended to limit the present invention. Therefore, among the constituent elements in the following embodiments, constituent elements that are not described in the independent claims showing the highest concept of the present invention are described as optional constituent elements.

  Each figure is a mimetic diagram and is not necessarily illustrated strictly. In each figure, substantially the same configuration is denoted by the same reference numeral, and redundant description is omitted or simplified.

(Embodiment 1)
An air conditioning system 1 according to Embodiment 1 will be described with reference to FIG. FIG. 1 is a block diagram illustrating a configuration of an air conditioning system 1 according to the first embodiment.

As shown in FIG. 1, the air conditioning system 1 is a system that controls air conditioning in a room 2 such as a general house or a building, and includes an input unit 10, a temperature detection unit 20, a CO ₂ concentration detection unit 30, and a CO 2. _{A two-} density adjusting unit 40, a temperature adjusting unit 50, a control unit 60, and a storage unit 70 are provided.

  The input unit 10 receives temperature change information indicating a temperature change in the room 2 from the user 3. That is, the input unit 10 functions as a reception unit that receives temperature change information indicating a temperature change in the room 2 from the user 3.

  For example, when the user 3 in the room 2 feels hot, the user 3 inputs information that feels hot to the air conditioning system 1. Specifically, when the user 3 feels hot and decides to lower the temperature of the room 2, the user 3 inputs temperature change information indicating that the temperature is changed to lower the temperature of the room 2 to the input unit 10. To do. The temperature change information input to the input unit 10 is notified to the control unit 60.

  The input unit 10 is an input device for inputting temperature change information indicating the temperature change of the room 2 from the user 3 to the system, and is an input terminal such as a remote controller, for example. For example, when the user 3 feels hot and decides to lower the temperature of the room 2, the user 3 gives an instruction to lower the set temperature of the temperature adjustment unit 50 as the temperature change information (for example, the set temperature is changed from 28 ° C. to 25 ° C. Change to ° C) on the remote control.

  Note that the input unit 10 is not limited to a remote controller, and may be a communication terminal such as a smartphone owned by the user 3. In this case, the temperature change information is notified to the control unit 60 via this communication terminal. Further, the input unit 10 may be a part of the control unit 60 instead of a separate device from the control unit 60. In this case, the temperature change information is directly input to the control unit 60. Information other than the temperature change information may be input to the input unit 10.

  The temperature detection unit 20 detects the room temperature (temperature data) in the room 2. The temperature detection unit 20 is, for example, a temperature sensor installed in the room 2. The temperature detection unit 20 may be built in a device (for example, the temperature adjustment unit 50) constituting the air conditioning system 1, or may be installed in the room 2 separately from the device constituting the air conditioning system 1. . The room temperature detected by the temperature detection unit 20 is notified to the control unit 60.

The CO ₂ concentration detector 30 detects the CO ₂ concentration (concentration data) in the room 2. The CO ₂ concentration detector 30 is, for example, a CO ₂ concentration sensor. The CO ₂ concentration detection unit 30 may be built in a device (for example, the temperature adjustment unit 50) constituting the air conditioning system 1, or is installed in the room 2 separately from the device constituting the air conditioning system 1. Also good. The control unit 60 is notified of the CO ₂ concentration detected by the CO ₂ concentration detection unit 30.

The acquisition of temperature data by the temperature detection unit 20 and the acquisition of concentration data by the CO ₂ concentration detection unit 30 may basically be performed at all times. However, at least in daily living environments, both the temperature and the CO ₂ concentration are odorous substances. Therefore, it is sufficient to obtain at regular intervals such as 30-second intervals or 1-minute intervals.

CO ₂ concentration adjusting unit 40 adjusts the CO ₂ concentration in the chamber 2. Specifically, the CO ₂ concentration adjusting unit 40 receives an instruction from the control unit 60 and adjusts the CO ₂ concentration in the room 2. CO ₂ concentration adjusting unit 40 may adjust the CO ₂ concentration by increasing or decreasing the absolute amount itself of CO _2, CO by increasing or decreasing the CO ₂ other than the gas contained in the atmosphere (oxygen, etc.) _Two concentrations may be adjusted. In the latter case, the absolute amount of CO ₂ itself does not change, but the CO ₂ concentration relatively increases or decreases.

The CO ₂ concentration adjusting unit 40 is an air conditioner, for example, a ventilation device such as a ventilation fan, a blower fan, an intake fan, or an exhaust fan. In this case, the CO ₂ concentration in the room 2 can be lowered by operating the ventilator to ventilate the air outside and inside the room. Further, the CO ₂ concentration adjusting unit 40 may be a ventilator having a function of generating airflow fluctuations. In this case, the fluctuation control of the airflow in the CO ₂ concentration adjusting unit 40 can be performed by a control instruction from the control unit 60.

Incidentally, CO ₂ concentration adjusting unit 40 is not limited to the ventilator, oxygen generator for generating oxygen in the room 2, or may be a decomposed CO ₂ cracker of CO ₂ in artificial photosynthesis .

  The temperature adjustment unit 50 adjusts the temperature (room temperature) of the room 2. Specifically, the temperature adjustment unit 50 receives an instruction from the control unit 60 and adjusts the temperature of the room 2. The temperature adjustment unit 50 is an air conditioner, for example, an air conditioner such as an air conditioner. The temperature adjustment unit 50 can be set to a predetermined temperature. By changing the set temperature of the temperature adjustment unit 50, the temperature of the room 2 can be raised or lowered.

The control unit 60 receives the temperature change information from the input unit 10 and starts reviewing the air conditioning control of the room 2. In this case, the control unit 60 receives the current CO ₂ concentration and room temperature information from the temperature detection unit 20 and the CO ₂ concentration detection unit 30, and based on the received CO ₂ concentration and room temperature information, what kind of air conditioning control is performed. Determine if is necessary.

For example, when the necessary control is temperature control, the control unit 60 notifies the temperature adjustment unit 50 of a control instruction indicating a change in the set temperature. As a result, the temperature adjustment unit 50 continues the air conditioning control at the changed set temperature. Also, if needed control is the control of the CO ₂ concentration, control unit 60 notifies the control instruction indicating a change of CO ₂ concentration in the CO ₂ concentration adjusting unit 40. Thereby, the CO ₂ concentration adjusting unit 40 continues the air conditioning control so that the changed CO ₂ concentration is obtained.

In the present embodiment, the control unit 60 controls the CO ₂ concentration adjusting unit 40 and the temperature adjusting unit 50 based on the CO ₂ concentration and the room temperature. Specifically, the control unit 60, when the temperature change information is input to the input unit 10, based on the CO ₂ concentration detected at room temperature and CO ₂ concentration detection unit 30 detected by the temperature detection unit 20 CO By controlling the ₂ density adjusting unit 40 or controlling the temperature adjusting unit 50, the temperature experienced by the user 3 is adjusted. That is, the control unit 60 controls the CO ₂ concentration adjusting unit 40 and the temperature adjusting unit 50 in order to adjust the sensible temperature felt by the user 3.

Also, when controlling the CO ₂ concentration adjusting unit 40, the control unit 60 is, for example, the CO ₂ concentration as close to comfort CO ₂ concentrations indicating a predetermined CO ₂ concentration feel the CO ₂ concentration in the room 2 people comfortable The adjustment unit 40 is controlled. Thereby, the sensible temperature felt by the user 3 can be brought close to the sensible temperature at which a person feels comfortable.

Here, a description will be given comfortable CO ₂ concentration. Human sensitivity to the CO ₂ concentration is not high compared with temperature. Also, the influence of CO _{2 on} the human body is not so great as being harmful at least in the range of daily life, but the influence of CO _{2 on} the human body is not completely absent. For example, when the CO ₂ concentration exceeds 1000 ppm (0.1%), there is a knowledge that influence on a respiratory organ, a circulatory organ, etc. starts to appear, and concentration on a specific task decreases. In addition, when the CO ₂ concentration exceeds several to several tens of percent beyond the daily life level, it may be exposed to life risks such as poor physical condition such as tinnitus and headache, consciousness disorder and central nervous system disorder. According to the experiment, it was found that the comfort evaluation is high in an environment where the CO ₂ concentration is low, and the evaluation toward the uncomfortable side increases as the CO ₂ concentration increases. That is, it was found that the CO ₂ concentration has a plurality of threshold values (references) depending on the degree of influence on the human body. For example, the CO ₂ concentration, toward the low concentration of the high concentration, comfortable to the human body (not unpleasant) CO ₂ concentration, harmless CO ₂ concentration in the human body, the CO ₂ concentration that affect the human body slightly, and harmful to the human body It is considered that there are a plurality of threshold values such as a CO ₂ concentration. Therefore, the CO ₂ concentration that is harmless to the human body and is felt as a comfortable air environment is set as a predetermined CO ₂ concentration that makes the user feel comfortable (human body comfortable CO ₂ concentration). In this embodiment, the comfortable CO ₂ concentration is used as a reference. In addition, the CO ₂ concentration is controlled. A reference value (threshold value) of a predetermined CO ₂ concentration that a person feels comfortable is, for example, 800 ppm.

The storage unit 70 stores various information in the air conditioning system 1. For example, the storage unit 70, the detected CO ₂ concentration at room temperature and CO ₂ concentration detector 30 detected by the temperature detection unit 20 is stored. Each time the room temperature and the CO ₂ concentration are detected, these may be stored in the storage unit 70 and accumulated. In this case, the storage unit 70 may acquire and store not only the room temperature and the CO ₂ concentration but also other environmental conditions, and the control content and environment of the air conditioner controlled by the control unit 60 You may memorize | store the user's subjective evaluation result with respect to conditions. In addition, by storing these information stored in the storage unit 70 in a database, air conditioning control suitable for each user can be performed for each user, or air conditioning equipment to be controlled is predicted and air conditioning control is performed. You can.

Further, the storage unit 70 stores a comfortable CO ₂ concentration indicating a predetermined CO ₂ concentration (value) that a person feels comfortable. The storage unit 70 may store a plurality of threshold values (references) according to the degree of influence on the human body as the predetermined CO ₂ concentration.

  The storage unit 70 may store other information, or may store a series of programs necessary for processing performed by the control unit 60.

  Next, an air conditioning control method by the air conditioning system 1 according to the present embodiment will be described with reference to FIG. FIG. 2 is a flowchart showing an air conditioning control method by the air conditioning system 1 according to the first embodiment.

  In the air-conditioning control method in the present embodiment, the cause of the sensible temperature felt by the user 3 in the room 2 is analyzed, and the user 3 automatically controls the air-conditioning equipment in the room 2 appropriately based on the analysis result. The temperature is adjusted to a comfortable level.

  First, as shown in FIG. 2, it is monitored whether or not temperature change information is input to the input unit 10 (S11), and when temperature change information is input to the input unit 10 (Yes in S11). The current temperature in the room 2 (current room temperature) is compared with the set temperature of the temperature adjustment unit 50 (S12).

  Specifically, when the user 3 in the room 2 determines to change the temperature of the room 2 based on the sensible temperature, the user 3 adjusts the temperature in order to adjust the temperature of the room 2 to an appropriate temperature. Temperature change information indicating that the set temperature of the unit 50 is changed is input to the input unit 10.

  For example, when the user 3 feels hot, the user 3 resets the set temperature of the temperature adjustment unit 50 with the remote controller in order to lower the temperature of the room 2. That is, in this case, the temperature change information is information for lowering the temperature of the room 2 when the user 3 feels hot. More specifically, the user 3 tries to lower the set temperature of the temperature adjustment unit 50. Information.

  Note that the temperature change information when the user 3 feels hot is not limited to the information that the user 3 tries to lower the set temperature of the temperature adjustment unit 50, but the feeling that the user 3 feels hot. Information, specifically, information that subjectively indicates the degree of heat felt by the user, such as evaluation of heat feeling or evaluation of thermal sensation, may be used.

  The temperature change information input to the input unit 10 is notified to the control unit 60. Thereby, the control unit 60 determines that the temperature change information is input to the input unit 10 (Yes in S11), and compares the current room temperature with the set temperature of the temperature adjustment unit 50 (S12). For example, the room temperature is detected by the temperature detection unit 20 at regular time intervals and notified to the control unit 60 or stored in the storage unit 70. The current room temperature may be acquired directly from the temperature detection unit 20 or may be acquired via the control unit 60 or the storage unit 70 after being detected by the temperature detection unit 20. The set temperature of the temperature adjustment unit 50 can be acquired from the temperature adjustment unit 50 or the control unit 60.

  As a result of comparing the current room temperature with the set temperature of the temperature adjustment unit 50, when the current room temperature is larger than the set temperature of the temperature adjustment unit 50 (current room temperature> set temperature in S12), the control unit 60 Is controlled (S13). Specifically, the control unit 60 controls the temperature adjustment unit 50 so as to lower the set temperature.

Next, the control unit 60 compares the current CO ₂ concentration with a comfortable CO ₂ concentration indicating a predetermined CO ₂ concentration that a person feels comfortable (S14). CO ₂ concentration, for example, or stored in the constant storage unit 70 or are notified to the control unit 60 is detected by the CO ₂ concentration detector 30 at time intervals. Current CO ₂ concentration may be obtained directly from the CO ₂ concentration detector 30 may be acquired via the control unit 60 or the storage unit 70 after being detected by the CO ₂ concentration detector 30. The comfortable CO ₂ concentration is stored in advance in the storage unit 70 and can be acquired from the storage unit 70.

On the other hand, when the current room temperature is equal to or lower than the set temperature of the temperature adjusting unit 50 as a result of comparing the current room temperature with the set temperature of the temperature adjusting unit 50 (S12, current room temperature ≦ set temperature), the control unit 60 performs temperature adjustment. the parts 50 without control (i.e., without changing the set temperature of the temperature adjusting unit 50) with the comfort CO ₂ concentrations indicating a predetermined CO ₂ concentration by the current CO ₂ concentration and human feel comfortable (S14).

Then, as a result of comparing the current CO ₂ concentrations and comfort CO ₂ concentration, (in S14, the current CO ₂ concentration> comfortable CO ₂ concentration) If the current CO ₂ concentrations greater than comfortable CO ₂ concentration, CO ₂ concentration The adjustment unit 40 is controlled (S15). Specifically, the control unit 60 controls the CO ₂ concentration adjusting unit 40 so as to reduce the CO ₂ concentration in the room 2.

Meanwhile, as a result of comparing the current CO ₂ concentrations and comfort CO ₂ concentration, (in S14, the current CO ₂ concentration ≦ comfortable CO ₂ concentration) If the current CO ₂ concentration is comfortable CO ₂ concentration below the control unit 60 Does not control the CO ₂ concentration adjusting unit 40. That is, the set temperature of the temperature adjustment unit 50 is not changed.

As described above, according to the air conditioning system 1 according to the present embodiment, when the temperature change information indicating the temperature change of the room 2 from the user 3 is input to the input unit 10, the room temperature detected by the temperature detection unit 20 and the CO and adjusting the sensible temperature of the user 3 feel by controlling the CO ₂ concentration adjusting unit 40 on the basis of the CO ₂ concentration detected by _two density detector 30.

As described above, in the present embodiment, attention is paid to the fact that there are two types of causes of the sensible temperature felt by the user 3 in the room 2 (for example, the cause of feeling the heat): room temperature and CO ₂ concentration. The cause of the sensible temperature felt by the user 3 in the room 2 is analyzed, and the air conditioning control of the room 2 is performed by controlling the CO ₂ concentration adjusting unit 40 and the temperature adjusting unit 50 based on the analysis result.

In other words, the heat and cold that people feel does not necessarily depend only on temperature. For example, when the user 3 in the room 2 feels hot, the reason is that the room temperature is high and CO _2. In some cases, the high concentration causes the air-conditioning control in consideration of not only the temperature in the room 2 but also the CO ₂ concentration in the room 2.

Specifically, in the present embodiment, when the user 3 in the room 2 feels hot, it is determined whether the cause of the heat is room temperature or CO ₂ concentration. Air conditioning control based on each cause is performed. For example, when the room temperature is high, air conditioning control is performed so as to lower the room temperature, and when the CO ₂ concentration is high, air conditioning control is performed so as to decrease the CO ₂ concentration.

  Thereby, since the sensible temperature of the user 3 in the air conditioning environment of the room 2 can be optimally adjusted, the sensible temperature felt by the user 3 can be appropriately adjusted. Therefore, the comfort of the user 3 can be improved.

  Moreover, according to the air conditioning system 1 of the present embodiment, comfort can be improved without harming the health of the user 3.

In this regard, the conventional air conditioning control eliminates the feeling of heat felt by people by performing control that lowers the temperature regardless of the cause of the heat. In this case, if the temperature is lowered, the thermal stimulation received by the human body is reduced accordingly, so that the user's feeling of heat is alleviated and the objective can be achieved as a result. However, if it is not necessary to control to lower the temperature, the electric energy is wasted, and even if the problem of the electric power energy is separated, lowering the temperature may cause harm to health due to cooling and fatigue. There is. Therefore, simply not that it lowered the temperature, in particular it means that perception of the actual room temperature or more heat when the CO ₂ concentration is high, lowering the room temperature does not in any way higher There is a possibility.

In contrast, in the present embodiment, as described above, at room temperature or the CO ₂ concentration of the air-conditioning control on the cause of the sensible temperature of the user 3 feels is determined whether the CO ₂ concentration or is at room temperature It is carried out. Thereby, comfort can be improved, without harming the health of the user 3.

Further, in this embodiment, it controls the CO ₂ concentration adjusting unit 40 so as to approach the comforts CO ₂ concentrations indicating a predetermined CO ₂ concentration of CO ₂ concentration in the chamber 2 people feel comfortable.

  As a result, the sensible temperature felt by the user 3 can be easily brought close to the sensible temperature at which a person feels comfortable, so that the sensible temperature felt by the user 3 can be adjusted more appropriately.

Further, in the present embodiment, since the control of the air conditioner required for each of the case where the room temperature is high and the case where the CO ₂ concentration is high is different, the temperature change information feels that the user 3 is hot and the room 2 In the case of the information for lowering the temperature, the current room temperature detected by the temperature detection unit 20, the set temperature of the temperature adjustment unit 50, and the comfortable CO ₂ concentration indicating a predetermined CO ₂ concentration that a person feels comfortable with. The following air conditioning control is performed accordingly.

(I) the current detected by the temperature detection unit 20 room> set temperature of the temperature adjusting unit 50, and, if the current CO ₂ concentration ≦ comfortable CO ₂ concentration detected by the CO ₂ concentration detector 30, the room temperature is The user 3 feels hot because of the high price. Therefore, the control unit 60 controls the temperature adjustment unit 50 so as to lower the set temperature.

(Ii) the set temperature of the current ambient temperature ≦ temperature adjusting unit 50 detected by the temperature detection unit 20, and, if it is the CO ₂ concentration> comfortable CO ₂ concentrations of the current detected by the CO ₂ concentration detector 30, CO _{2 The} user 3 feels hot because of the high concentration. Therefore, the control unit 60 controls the CO ₂ concentration adjusting unit 40 in a direction to reduce the CO ₂ concentration in the room 2.

(Iii) the current detected by the temperature detection unit 20 room> set temperature of the temperature adjusting unit 50, and, if the current CO ₂ concentration> comfortable CO ₂ concentration detected by the CO ₂ concentration detector 30, the room temperature is The user 3 feels hot because of both high and high CO ₂ concentration. Therefore, the control unit 60 controls the temperature adjusting unit 50 so as to lower the set temperature, and controls the CO ₂ concentration adjusting unit 40 in a direction to reduce the CO ₂ concentration in the room 2.

  As described above, when the user 3 feels hot, by performing the air conditioning control as in (i) to (iii), the sensible temperature that the user 3 feels hot can be appropriately lowered.

Further, in this embodiment, CO ₂ concentration adjusting unit 40 may be a ventilation apparatus having a function of generating the fluctuation of the air flow.

  People feel sensitive to changes in stimulation, but if they continue to receive a certain amount of stimulation, they adapt and slow down the response to the stimulation. For this reason, comfort etc. can be improved by giving a change to a stimulus. For example, comfort and productivity can be improved by changing the temperature, comfort can be improved by changing the wind speed and direction, and alpha waves can be increased and comfort can be improved by changing the scent concentration. To do. The same applies to the stimulation of the air blowing by the air conditioner, and the comfort can be improved by giving fluctuations (strongness) to the air flow to be blown and changing the air flow.

Therefore, comfort can be improved by using a ventilator having a function of generating airflow fluctuations as the CO ₂ concentration adjusting unit 40. Thereby, the sensible temperature felt by the user 3 can be adjusted more appropriately.

In the present embodiment, in order to eliminate the heat felt by the user 3, the airflow is derived from the CO ₂ concentration adjusting unit 40 (when the CO ₂ concentration is lowered) and the temperature adjusting unit 50. There are two types: what to do (if the temperature is lowered). For this reason, in order to improve comfort by fluctuations in the airflow, it is preferable to generate fluctuations in the supply airflow from the CO ₂ concentration adjusting unit 40. Furthermore, a control instruction from the control unit 60 regarding the fluctuation control of the CO ₂ concentration adjusting unit 40 is performed so as not to unnaturally switch the air flow when the control of the CO ₂ concentration adjusting unit 40 and the temperature adjusting unit 50 is switched. It is preferable that the same fluctuation control as that of the temperature adjustment unit 50 in the control unit 60 is performed.

Further, the satisfaction degree of the user 3 may be evaluated after the control of the CO ₂ concentration adjusting unit 40 and the temperature adjusting unit 50 is switched. In this case, if the satisfaction level of the user 3 is low, the air-conditioning control may be changed. If the satisfaction level of the user 3 is high, the control unit may store the data in the storage unit 70 as a good control condition or create a database.

(Embodiment 2)
Next, an air conditioning system 1A according to Embodiment 2 will be described with reference to FIG. FIG. 3 is a block diagram showing a configuration of an air conditioning system 1A according to the second embodiment.

  As shown in FIG. 2, the air conditioning system 1 </ b> A according to the second embodiment further includes an outside air temperature detection unit 80 that detects the outside air temperature with respect to the air conditioning system 1 according to the first embodiment.

  The outside air temperature detection unit 80 is, for example, a temperature sensor installed outdoors. The outside air temperature detection unit 80 may be built in a device (for example, an outdoor unit of an air conditioner) that constitutes the air conditioning system 1, or is installed separately from the device that constitutes the air conditioning system 1 outside. Also good. The room temperature detected by the outside air temperature detection unit 80 is notified to the control unit 60.

Similarly to the first embodiment, the control unit 60 receives the temperature change information from the input unit 10 and starts reviewing the air conditioning control of the room 2. In this case, the control unit 60 controls the CO ₂ concentration adjusting unit 40 and the temperature adjusting unit 50 based on not only the CO ₂ concentration and the room temperature but also the outside air temperature notified from the outside air temperature detecting unit 80.

  Hereinafter, a specific air conditioning control method by the air conditioning system 1A according to the present embodiment will be described with reference to FIG. FIG. 4 is a flowchart showing an air conditioning control method by the air conditioning system 1A according to the second embodiment.

In the present embodiment, the outside air temperature is detected by the outside air temperature detection unit 80 at regular intervals, for example, and is notified to the control unit 60 or stored in the storage unit 70, similarly to the room temperature and the CO ₂ concentration. Yes. The current outside air temperature may be acquired directly from the outside air temperature detecting unit 80 or may be acquired via the control unit 60 or the storage unit 70 after being detected by the outside air temperature detecting unit 80.

  Even in the air conditioning control method in the present embodiment, the cause of the sensible temperature felt by the user 3 in the room 2 is analyzed, and the air conditioning equipment in the room 2 is automatically controlled based on the analysis result. In addition, the air conditioner is controlled in consideration of the outside temperature. That is, also in the present embodiment, the air conditioning control shown in FIG.

  For example, in the first embodiment, when the current room temperature is equal to or lower than the set temperature of the temperature adjusting unit 50 as a result of comparing the current room temperature and the set temperature of the temperature adjusting unit 50 (S12, current room temperature ≦ set temperature), the control is performed. The unit 60 does not control the temperature adjustment unit 50. That is, at this time, since the room temperature is not currently high, the operation of lowering the set temperature of the temperature adjustment unit 50 is not performed.

  However, since the room temperature may be expected to increase in the future due to the influence of heat radiation from the outer wall or ceiling surface due to the tendency of the outside temperature, in this embodiment, before the user 3 feels hot, Air conditioning control is performed automatically.

  Specifically, as shown in FIG. 4, the current outside air temperature is compared with the outside air temperature before the predetermined time (S21), and as a result, when the current outside air temperature is larger than the outside air temperature before the predetermined time ( In S21, the current outside air temperature> the outside air temperature before a predetermined time), the control unit 60 controls the temperature adjusting unit 50 (S22). More specifically, the control unit 60 controls the temperature adjustment unit 50 so as to lower the set temperature. On the other hand, when the current outside air temperature is equal to or lower than the outside air temperature before the predetermined time (in S21, the current outside air temperature ≦ the outside air temperature before the predetermined time), the control unit 60 does not control the temperature adjusting unit 50. That is, the set temperature of the temperature adjustment unit 50 is not changed.

Incidentally, it is possible to perform automatic air conditioning control by performing the same operation as the outside air temperature also CO ₂ concentration detected at room temperature and CO ₂ concentration detector 30 detected by the temperature detection unit 20.

  That is, when the current room temperature> the room temperature before the predetermined time, it can be estimated that the room temperature is increasing, so that the temperature adjusting unit is automatically set based on the prediction that the user 3 may feel hot in the future. It is good to adjust the set temperature of 50.

In addition, when the current CO ₂ concentration> the CO ₂ concentration before a predetermined time, it can be estimated that the CO ₂ concentration tends to increase. Therefore, as in the case of the temperature, the user 3 may feel the thickness in the future. You may want to adjust the CO ₂ concentration by automatically CO ₂ concentration adjusting unit 40 based on the prediction that there is.

Further, when the current room temperature ≦ the set temperature of the temperature adjustment unit 50 and the current CO ₂ concentration ≦ the comfortable CO ₂ concentration, the control of the CO ₂ concentration adjustment unit 40 and the temperature adjustment unit 50 is particularly performed in the first embodiment. However, in the present embodiment, by comparing the past room temperature and CO ₂ concentration with the current room temperature and CO ₂ concentration, it is determined whether the room temperature and CO ₂ concentration are increasing or decreasing. Thus, it is possible to perform air conditioning control so that the user 3 does not feel heat.

In addition, the lower limit value or the decrease range of the set temperature of the temperature adjustment unit 50 is determined in advance, and when the set temperature reaches the lower limit value, the set temperature is not further lowered, thereby increasing the outside air temperature. Even when the room temperature is not raised because the heat insulation performance of the building is excellent, it can be avoided that the user 3 feels uncomfortable on the cold side due to being cooled too much. Conversely, when the outside air temperature and the room temperature are decreasing, it is possible to perform control to increase the set temperature of the temperature adjustment unit 50. However, CO ₂ For concentration, CO ₂ concentration does not perform control to switch the particular air-conditioning control if lowered.

  As described above, according to the air conditioning system 1A according to the present embodiment, the air conditioning control similar to that in the first embodiment is performed, so that the sensible temperature felt by the user 3 can be appropriately adjusted.

Further, in this embodiment, provided with an outside air temperature detection unit 80 for detecting an outside air temperature, and controls the air-conditioning equipment in consideration of outside temperature as well as at room temperature and CO ₂ concentration. Specifically, the current room temperature detected by the temperature detection unit 20 ≤ the set temperature of the temperature adjustment unit 50 and the current outside air temperature detected by the outside air temperature detection unit 80> a predetermined time before the outside air temperature detection unit 80 When it is the detected past outside air temperature, the set temperature of the temperature adjustment unit 50 is lowered.

In this way, by obtaining and comparing the current outside air temperature and the past outside air temperature, it can be seen whether the outside air temperature is rising or falling, so whether it will increase or decrease in the future due to the outside air temperature. Can be estimated. Thereby, for example, when the room temperature is expected to rise, the air conditioning control can be automatically performed before the user 3 feels hot. In this case, the CO ₂ concentration adjusting unit 40 and the temperature adjusting unit 50 can be automatically controlled according to the room temperature and the CO ₂ concentration. Therefore, since the air conditioner can be controlled by predicting before the user 3 starts to feel the heat, the sensible temperature of the user 3 can always be maintained at a comfortable temperature.

(Other variations)
Although the air conditioning system according to the present invention has been described based on the embodiment, the present invention is not limited to the above embodiment.

For example, in the above embodiment, the CO ₂ concentration adjusting unit 40 and the temperature adjusting unit 50 are configured as separate air conditioners, but the present invention is not limited to this, and the CO ₂ concentration adjusting unit 40 and the temperature adjusting unit 50 are The same air conditioner may be used. For example, the function of the CO ₂ concentration adjusting unit 40 may be incorporated in the temperature adjusting unit 50 that is an air conditioner.

  Moreover, each apparatus in the air conditioning system of the said embodiment may be connected with a network, and each apparatus may be controlled via the control program of information processing terminals, such as a smart phone or PC.

  In addition, a form obtained by making various modifications conceived by those skilled in the art with respect to the above-mentioned embodiment, or realized by arbitrarily combining the components and functions in the above-described embodiment without departing from the gist of the present invention. Forms to be made are also included in the invention.

  Moreover, in said embodiment, the process of the control part 60 can be performed with a computer. For example, a computer executes each of the above processes by executing a program using hardware resources such as a processor (CPU), a memory, and an input / output circuit. Specifically, each process is executed by the processor obtaining data to be processed from a memory or an input / output circuit or the like and calculating the data, or outputting the calculation result to the memory or the input / output circuit or the like. .

  In the above embodiment, the storage unit 70 is, for example, a main storage device including a volatile storage device such as SRAM or DRAM, or a nonvolatile storage such as a magnetic disk, an optical disk, a magneto-optical disk, or a semiconductor memory. It is composed of an auxiliary storage device composed of devices.

  The program for executing each of the above processes may be recorded on a non-transitory recording medium such as a computer-readable CD-ROM. In this case, the computer reads the program from the non-temporary recording medium and executes the program to execute each process.

1,1A air conditioning system 2 chamber 3 the user 10 input unit 20 temperature detector 30 CO ₂ concentration detection unit 40 CO ₂ concentration adjusting unit 50 temperature adjusting unit 60 control unit 80 outside air temperature detection unit

Claims (7)

An input unit for inputting temperature change information indicating a temperature change in the room from the user;
A temperature detector for detecting the room temperature in the room;
A CO ₂ concentration detector for detecting the CO ₂ concentration in the room;
And CO ₂ concentration adjusting unit for adjusting the CO ₂ concentrations of the chamber,
When the temperature change information to the input unit is inputted, controls the CO ₂ concentration adjusting section on the basis of said CO ₂ concentration detected by the said ambient temperature detected by said temperature detecting unit CO ₂ concentration detection unit And a control unit that adjusts the temperature felt by the user. Wherein the control unit, the air conditioning system according to claim 1 for controlling the CO ₂ concentration adjusting unit so as to approach the comforts CO ₂ concentrations indicating a predetermined CO ₂ concentration of CO ₂ concentration of the indoor people feel comfortable. In addition, a temperature adjustment unit that can set the temperature,
When the temperature change information is information for lowering the temperature of the room because the user feels hot,
The controller is
The temperature detection unit with detected current of said room> the temperature adjustment of the setting temperature and the CO ₂ if the current of the CO ₂ concentration ≦ the comfort CO ₂ concentration detected by the concentration detection unit, the temperature Lower the set temperature of the adjustment unit,
The temperature detection unit with detected current of said room ≦ the temperature adjustment of the setting temperature, and, if it is the CO ₂ the CO ₂ concentration of the current detected by the concentration detection unit> the comfort CO ₂ concentration, the indoor Controlling the CO ₂ concentration adjusting unit in a direction to reduce the CO ₂ concentration of
Wherein the temperature of the current detected by the detection unit the room> the temperature adjustment of the setting temperature and the CO ₂ the CO ₂ concentration of the current detected by the concentration detection unit> If the comfortable CO ₂ concentration, the temperature The air conditioning system according to claim ₂ , wherein the CO ₂ concentration adjusting unit is controlled in a direction to lower the set temperature of the adjusting unit and reduce the CO ₂ concentration in the room. If the user feels hot,
The air conditioning system according to claim 3, wherein the temperature change information is information that the user tries to lower a set temperature of the temperature adjustment unit, or information on a feeling that the user feels hot. It has an outside air temperature detector that detects outside air temperature,
The control unit detects the outside air temperature detected by the temperature detecting unit at the current room temperature ≦ the set temperature of the temperature adjusting unit and the outside air temperature detected by the outside air temperature detecting unit> a predetermined time before The air conditioning system according to any one of claims 1 to 4, wherein when the ambient temperature detected in the past is the outside air temperature, the set temperature of the temperature adjustment unit is lowered. The air-conditioning system according to any one of claims 1 to 4, wherein the CO ₂ concentration adjusting unit is a ventilator having a function of generating airflow fluctuations.   The program for functioning a computer as an air conditioning system of any one of Claims 1-6.

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