JP2008045779A - Air-conditioning control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve or improve dissatisfaction of a person staying in a room and to provide comfortable room temperature environment. <P>SOLUTION: This air-conditioning control system 1 for controlling indoor air-conditioning, comprises a temperature sensor for measuring a temperature of a circumferential space, a plurality of combined sensors 3, respectively having declaration means for declaring hot or cold, and a cotrol means 5 for controllling air-conditioning equipment 2 by processing a plurality of pieces of information on the result of measurement by the temperature sensors of the plurality of combined sensors and declaration information by the declaration means of the plurality of combined sensors. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an air conditioning control system that controls indoor air conditioning.

In recent years, from the viewpoint of reducing the global environment and carbon dioxide (CO ₂ ) emissions, “COOL BIZ” has been actively deployed in countries, local governments, companies, etc., so that the room temperature in summer will be around 28 ° C. More and more, air conditioning equipment is often controlled.
2. Description of the Related Art Conventionally, as a technique for maintaining a room temperature at a predetermined temperature, there is an air conditioning control system that usually measures the temperature of an indoor space with a single temperature sensor and controls air conditioning equipment based on the measurement result information. In this air conditioning control system, the set temperature is set by central monitoring. Further, the current room temperature environment is grasped based on the measurement result information from the temperature sensor to control the air conditioning equipment.

In recent years, an air conditioning control system using a wireless temperature sensor has been proposed. In this air conditioning control system, the set temperature can be set by a wireless temperature sensor. And if preset temperature is set with a wireless temperature sensor, the air-conditioning equipment corresponding to the position of the said wireless temperature sensor will be controlled based on the preset temperature. For this reason, it is possible for the occupant to adjust the set temperature according to his / her own temperature sensation, thereby realizing a room temperature environment comfortable for the occupant (see, for example, Patent Document 1).
JP 2005-16846 A

  However, the former conventional air conditioning control system described above employs a wired system in which a control unit that controls air conditioning equipment and a temperature sensor that measures the temperature of the indoor space to be controlled are connected via a cable. In many cases, in this case, the temperature sensor is often installed on the wall surface of the room end such as a passage. When indoor air conditioning control is performed using a temperature sensor installed on a wall surface, the area where the occupant is actually present may not match the set temperature (usually tends to increase). This is because there may be a temperature difference between the area and the vicinity of the wall surface due to the effects of solar radiation from the windows and the heat generated by the occupants and electrical equipment. For example, in the case of an office or the like, there may be a temperature difference of about 1 to 2 ° C. between the work area where the occupant actually works and the vicinity of the wall surface. Therefore, even if the set temperature of the air conditioning equipment is set to a temperature corresponding to “COOL BIZ” (for example, about 28 ° C.), the actual temperature of the work area becomes higher than the set temperature, and the work area is in the room. May be unsatisfactory room temperature environment.

  In the former conventional air conditioning control system described above, since the temperature sensation actually felt by the occupant is not reflected in the air conditioning control, the room temperature environment may be unsatisfactory for the occupant. For example, the temperature tends to be high in an area where electrical devices are densely packed, and a temperature difference may occur in one control target space. As described above, when there is temperature variation in one control target space, if air conditioning control is performed based on a locally high temperature area (high temperature area), the high temperature area approaches the set temperature and becomes a comfortable room temperature environment. However, the temperature of other areas also decreases, and the area becomes a room temperature environment lower than the set temperature. At this time, if the resident is in another area, the room temperature environment becomes cold and unsatisfactory for the resident. On the other hand, when the air conditioning control is performed based on an area other than the high temperature area, the high temperature area becomes a high temperature room temperature environment. At this time, if the occupant is in a high temperature area, the room temperature environment becomes hot and unsatisfactory for the occupant.

  Further, in the conventional air conditioning control system using the above-described wireless temperature sensor, there is a case where the actual working area temperature becomes too high or too low because there is an individual difference in temperature sense. For example, if the person who operates the wireless temperature sensor is sensitive to heat, the set temperature tends to be set low, and the actual temperature in the work area is an appropriate temperature (for example, about 28 ° C. in a “COOL BIZ” environment). May be lower. On the other hand, if the person who operates the wireless temperature sensor is sensitive to cold, the set temperature tends to be set higher, and the actual working area temperature may be higher than the appropriate temperature. When air conditioning control is performed directly by operating the wireless temperature sensor in this way, the room temperature may become higher or lower than the appropriate temperature due to individual differences in temperature sensation, and for many other people in the room Unsatisfactory room temperature.

  The present invention has been made in consideration of the above-described conventional problems, and an object thereof is to provide an air conditioning control system capable of eliminating or improving dissatisfaction with the occupants and realizing a comfortable room temperature environment. .

  The present invention relates to an air conditioning control system for controlling air conditioning in a room, a temperature sensor that measures the temperature of the surrounding space, and a plurality of composite sensors each having reporting means for reporting that it is hot or cold, and the plurality of sensors. And control means for controlling the air conditioning equipment by respectively processing a plurality of measurement result information respectively measured by each temperature sensor of the composite sensor and reporting information by the reporting means of the plurality of composite sensors. It is said.

  With such a feature, the temperature is measured by a plurality of temperature sensors, so that the current temperature distribution in the space to be controlled is grasped. Moreover, the temperature sense (hot or cold) felt by the occupant himself / herself is reported by the reporting means, so that the temperature sensation of the occupant can be grasped. Then, by controlling the air conditioning equipment by processing the temperature measurement result information and the report information, the control target space becomes an appropriate temperature while taking into account the temperature sensation of the occupant, thereby achieving an appropriate air conditioning control.

  Further, the present invention provides a first mode in which the control means controls the air conditioning equipment using an average value of temperatures respectively measured by all temperature sensors provided in the plurality of composite sensors as an indoor temperature, A second mode in which any one of a plurality of composite sensors is designated, and the air conditioning equipment is controlled using the temperature measured by the temperature sensor of the designated composite sensor as an indoor temperature; and the setting of the air conditioning equipment A third mode for controlling the air conditioning equipment based on the temperature, the average value of the temperatures measured by all the temperature sensors, and the reported location temperature measured by the temperature sensor of the composite sensor declared by the reporting means The mode may be switched to one of the modes.

  Thereby, air conditioning control is performed by selecting an optimum mode corresponding to the control target space from the three modes.

  Further, according to the present invention, when the declaration is made only from any one of the reporting means provided in each of the plurality of composite sensors, and the declaration is hot, the declaration is made. When the reported location temperature measured by the temperature sensor of the combined sensor is equal to or less than the average value of the temperatures measured by all the temperature sensors or less than the set temperature of the air conditioning equipment, the average value is set as the room temperature. When the reported location temperature is higher than the average value and the set temperature, respectively, control means for controlling the air conditioning facility using the reported location temperature as a room temperature may be used.

  As a result, even if it is reported that it is hot, if the temperature of the location where the declaration is made (reported location temperature) is below the average value or below the set temperature, the temperature should be lowered according to the declaration. If it is inappropriate to perform air conditioning control, the declaration is ignored and air conditioning control is performed with an average value. On the other hand, when the reporting location temperature is higher than the average value and the set temperature, it is appropriate to perform air conditioning control so as to lower the temperature according to the reporting, and the air conditioning control is performed at the reporting location temperature. That is, when there is a report, the report is reflected in the air conditioning control only when the report is appropriate.

  Further, in the present invention, the control means declares that a plurality of reporting means out of reporting means respectively provided in the plurality of composite sensors and that all the reports are hot. In this case, the highest temperature among the reported spot temperatures measured by the temperature sensors provided in the plurality of composite sensors to which the declaration is made is equal to or less than the average value of the temperatures measured by all the temperature sensors, or the air conditioning. When the temperature is lower than the set temperature of the equipment, the air conditioning equipment is controlled with the average value as the room temperature. When the highest temperature is higher than the average value and the set temperature, respectively, the highest temperature is set to the room temperature. The air conditioning equipment may be controlled as a temperature.

  As a result, even if it is reported that it is hot from a plurality of locations, the highest temperature among the temperatures (reported location temperature) of the locations where those declarations are made is below the average value or below the set temperature Therefore, it is inappropriate to perform the air conditioning control so as to lower the temperature in accordance with these reports, and the reports are ignored and the air conditioning control is performed with an average value. On the other hand, if the highest reported location temperature is higher than the average and set temperature, it is appropriate to perform air conditioning control so that the temperature is lowered according to the report, and air conditioning control is performed at the highest reported location temperature. Is done. That is, when there are a plurality of reports, the reports are reflected in the air conditioning control only when those reports are appropriate.

  Further, in the present invention, when the control means reports from only one of the reporting means respectively provided in the plurality of composite sensors, and reports that the declaration is cold. When the reported point temperature measured by the temperature sensor of the composite sensor for which the declaration is made is equal to or higher than the average value of the temperatures respectively measured by all the temperature sensors or the set temperature of the air conditioning equipment, the average value The air conditioning equipment is controlled with the indoor temperature as the indoor temperature, and the air temperature equipment is controlled with the indoor temperature as the reporting location when the reported location temperature is lower than the average value and the set temperature, respectively. Good.

  As a result, even if it is reported that it is cold, if the temperature of the location where the declaration is made (reported location temperature) is higher than the average value or set temperature, the temperature should be raised according to the declaration. If it is inappropriate to perform air conditioning control, the declaration is ignored and air conditioning control is performed with an average value. On the other hand, if the reporting location temperature is lower than the average value and the set temperature, it is appropriate to perform air conditioning control so as to increase the temperature in accordance with the reporting, and the air conditioning control is performed at the reporting location temperature. That is, when there is a report, the report is reflected in the air conditioning control only when the report is appropriate.

  Further, in the present invention, the control unit reports that a plurality of reporting units out of the reporting units respectively provided in the plurality of composite sensors and that all the reports are cold. In this case, the lowest temperature among the reported location temperatures measured by the temperature sensors provided in the plurality of composite sensors to which the declaration is made is equal to or higher than the average value of the temperatures measured by all the temperature sensors, or the air conditioning When the temperature is equal to or higher than the set temperature of the equipment, the air conditioning equipment is controlled using the average value as the room temperature. When the lowest temperature is lower than the average value and the set temperature, the lowest temperature is set to the room temperature. The air conditioning equipment may be controlled as a temperature.

  As a result, even if it is reported that it is cold from multiple locations, the lowest temperature among the temperatures (reported location temperatures) of the locations where those declarations are made is above the average value or above the set temperature It is inappropriate to perform the air conditioning control so as to increase the temperature in accordance with those reports, and these reports are ignored and the air conditioning control is performed with an average value. On the other hand, if the lowest reported location temperature is lower than the average value and set temperature, it is appropriate to control the air conditioning so that the temperature is raised according to the report, and the air conditioning control is performed at the lowest reported location temperature. Is done. That is, when there are a plurality of reports, the reports are reflected in the air conditioning control only when those reports are appropriate.

  Further, the present invention provides the control means in the case where there is no report from the reporting means provided in each of the plurality of composite sensors, or in the plurality of reporting means among the reporting means provided in each of the plurality of composite sensors. In addition, when the declaration of hot and the declaration of cold are mixed in the declaration, the average value of the temperatures measured by all the temperature sensors is used as the room temperature. It may control air conditioning equipment.

  As a result, if there is no report, it is judged that the current average value represents the temperature of the space area, air conditioning control is performed with the average value, and there are a mixture of hot and cold reports It is assumed that it is not necessary to perform air conditioning control so as to correct the average value, and these reports are ignored and air conditioning control is performed with the average value.

  In the present invention, the composite sensor is provided with a human sensor that detects that there is a person in the surroundings, and the control means processes the information from the human sensor to control the air conditioning equipment. It may be a thing.

  As a result, the presence / absence of persons and the number of persons at each location in the control target space are grasped, and the air conditioning control is changed according to the information. For example, if there are few people in the space to be controlled or there are no people in the room, stop the operation of the air conditioning equipment or change the temperature setting of the air conditioning equipment. Raise the temperature setting when heating up.

  In the present invention, the composite sensor may include an illuminance sensor that measures ambient illuminance, and the control unit may process information from the illuminance sensor to control the air conditioning equipment. Good.

  Thereby, the illumination intensity in each location in control object space is grasped | ascertained, respectively, and air-conditioning control is changed according to those information. For example, it can be determined that there are occupants in places where the illuminance is high and there are no occupants in places where the illuminance is low. As a result, when it is determined that there are few occupants in the controlled space or when there are no occupants, the operation of the air conditioning equipment is stopped or the temperature setting of the air conditioning equipment is changed. In other words, the temperature setting is increased during cooling, and the temperature setting is decreased during heating.

  In the present invention, the composite sensor may be a wireless sensor that transmits radio waves to a receiving base station connected to the control means.

  Thereby, the composite sensor can be installed in any place in the control target space other than the wall surface. For example, the composite sensor can be arranged on a partition or a desk in a work area where people are actually present.

  In the present invention, the composite sensor may be a wired sensor connected to the control unit via a computer network wired in a room.

  Thereby, the installation location of the composite sensor is not limited to the wall surface, and the composite sensor can be arranged near the wiring of the computer network. In particular, in the case of an office where a computer network is stretched around the control target space, it is possible to install the composite sensor at any place in the control target space.

  According to the air conditioning control system of the present invention, by controlling the air conditioning equipment by processing the temperature measurement result information and the reporting information, the control target space has an appropriate temperature while taking into account the temperature sensation of the occupants. The air conditioning control is performed so that the dissatisfaction with the occupants can be eliminated or improved, and a comfortable room temperature environment can be realized.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of an air conditioning control system according to the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing a configuration of an air conditioning control system 1 according to the present embodiment.
As shown in FIG. 1, an air conditioning control system 1 is a system that controls an air conditioning facility 2 that performs indoor air conditioning, and receives a plurality of wireless composite sensors 3... And radio waves sent from the composite sensors 3. And a control unit 5 (control means) that controls the air conditioning equipment 2 by processing information (signals) from the composite sensors 3... The air conditioning control system 1 includes a wired sensor (not shown) installed on the wall surface.

FIG. 2 is a side view showing the composite sensor 3.
As shown in FIGS. 1 and 2, a plurality of composite sensors 3 are provided for one control target space, and the plurality of composite sensors 3... Are arranged equally or at main points in the control target space. ing. For example, when the room to be controlled is an office, it is arranged on a partition or desk. This composite sensor 3 is a sensor in which a plurality of types of sensors are incorporated, a temperature sensor 6 that measures the temperature of the surrounding space, a human sensor 7 that detects the presence of a person in the surroundings, and an ambient illuminance. And an illuminance sensor 8 that measures the above.

As the temperature sensor 6, the human sensor 7, and the illuminance sensor 8, known sensors can be used, respectively.
For example, a transistor sensor can be used as the temperature sensor 6. Thereby, power consumption can be reduced, and the battery life of the wireless composite sensor 3 can be extended. Further, in order to extend the battery life of the composite sensor 3, it is desirable to make the temperature information transmission interval by the temperature sensor 6 as long as possible. For example, the transmission interval is preferably about 1 minute. As the temperature sensor 6, a thermistor or a temperature resistor can also be used.

As the human sensor 7, for example, an infrared sensor can be used. With this human sensor 7, it is possible to determine whether or not there is an occupant around the composite sensor 3.
For example, a photo IC can be used as the illuminance sensor 8. With this illuminance sensor 8, it is possible to determine whether the lighting fixture is turned on or off, and it is also possible to determine the presence or absence of a person in the room.

  In addition, the composite sensor 3 is provided with a reporting means 9 for reporting that it is hot or cold. Specifically, a button 9a for reporting that it is hot and a button 9b for reporting that it is cold are provided. The above-mentioned button 9a for reporting that it is hot is a button that is pressed to report it when a person near the composite sensor 3 feels hot. The button 9b for reporting that it is cold is a button that is pressed to report it when a person near the composite sensor 3 feels cold. Note that the reporting means 9 may not be a button type as described above, and may be configured to report that it is hot or cold by rotating or moving the knob, for example.

  As shown in FIG. 1, the temperature information measured by the temperature sensor 6, the presence / absence information detected by the human sensor 7, the illuminance information measured by the illuminance sensor 8, and the reporting means 9 The declaration is transmitted to the receiving base station 4 as a digital signal. Since the composite sensors 3 are wireless sensors, the digital signals described above are transmitted to the receiving base station 4 by radio waves.

  The receiving base station 4 receives signals such as temperatures from the plurality of composite sensors 3... And transmits the received signals to the control unit 5. In the present embodiment, only one receiving base station 4 is provided for one control target space. However, in the present invention, a plurality of receiving base stations are provided for one control target space. It may be done.

  The controller 5 includes a wireless sensor server 10 connected to the receiving base station 4, a central monitoring device 11 connected to the wireless sensor server 10, a PLC (Programmable Logic Controller) 12 connected to the central monitoring device 11, The configuration includes a central monitoring device 11 and a DDC (Direct Digital Controller) 13 connected to the PLC 12.

  The wireless sensor server 10 receives signals such as temperatures transmitted from the receiving base station 4, collects signals such as temperatures from the plurality of composite sensors 3, and sends the collected signals to the central monitoring device 11. is there. In the wireless sensor server 10, connection settings with the composite sensors 3... And the reception base station 4 are performed.

  The central monitoring device 11 receives a signal such as a temperature transmitted from the wireless sensor server 10 to monitor the room temperature state of the control target space and sets the set temperature of the air conditioning equipment 2. In the central monitoring device 11, wired / wireless sensor switching is performed by remote control and control mode switching of air conditioning control is performed. Specifically, alternative selection is performed depending on whether the control is performed by the wireless composite sensor 3... Or the control is performed by a wired wall sensor (not shown). When control is performed using a wall sensor (not shown), the same control as known control is performed. That is, the air conditioning equipment 2 is controlled by looking at the difference between the temperature measured by the wall surface sensor and the set temperature. On the other hand, when control by a plurality of composite sensors 3... Is performed, the control mode is switched.

FIG. 3 is a flowchart showing the flow of control mode switching when control is performed by a plurality of composite sensors 3.
As shown in FIG. 3, there are three control modes by the plurality of composite sensors 3. As a first mode, there is a mode in which the air conditioning equipment 2 is controlled using the average value of the temperatures measured by all the temperature sensors 6 provided in each of the plurality of composite sensors 3. Further, as the second mode, any one of the plurality of composite sensors 3 is designated, and the air conditioning equipment 2 is controlled using the temperature measured by the temperature sensor 6 of the designated composite sensor 3 as the room temperature. There is a mode to do. Further, as a third mode, the temperature is measured by the set temperature of the air conditioner 2, the average value of the temperatures measured by all the temperature sensors 6, and the temperature sensor 6 of the composite sensor 3 that is reported by the reporting means 9. There is a mode for controlling the air conditioning equipment 2 based on the reported location temperature.

  In the central monitoring device 11, one of the above three modes is selected and switched manually. Specifically, first, the number of composite sensors 3. At this time, the presence / absence of a room occupant is detected based on information from the human sensor 7 and the illuminance sensor 8, and the area where the room occupant is present with the composite sensor 3 installed in the area where there is no room occupant. It is also possible to grasp the number of the sensors by distinguishing them from the composite sensors 3. Thereafter, it is determined whether or not the temperature measured by each composite sensor 3... Is an abnormal value, and it is determined whether there is any composite sensor 3 showing an abnormal value.

FIG. 4 is a flowchart showing a flow for determining the presence or absence of the composite sensor 3 showing the abnormal value.
As shown in FIG. 4, first, it is determined whether or not the measured temperature is equal to or lower than an arbitrary lower limit value (for example, 0 ° C.). When the measured temperature is equal to or lower than the arbitrary lower limit value, it is determined that the composite sensor 3 has an abnormality. On the contrary, when the measured temperature is not below the arbitrary lower limit value, it is checked whether or not the measured temperature is higher than the arbitrary upper limit value (for example, 50 ° C.). When the measured temperature is equal to or higher than the arbitrary upper limit value, it is determined that the composite sensor 3 is abnormal. On the contrary, when the measured temperature is not higher than the arbitrary upper limit value, it is determined that the composite sensor 3 is normal. That is, when the measured temperature is equal to or lower than the arbitrary lower limit value or higher than the arbitrary upper limit value, the composite sensor 3 is determined to be abnormal, and conversely, the measured temperature is higher than the arbitrary lower limit value and higher than the arbitrary upper limit value. If it is lower, it is determined that the composite sensor 3 is normal.

  When it is determined that the composite sensor 3 is abnormal as described above, as shown in FIG. 3, the composite sensor 3 is excluded from the sensors used for air conditioning control, and the number of composite sensors 3 is re-determined. And the process which judges again whether there exists any composite sensor 3 which shows the abnormal value is performed. On the other hand, when it is determined that the composite sensor 3 is normal as described above, mode switching is performed to determine whether or not the first mode is selected as the control mode. At this time, if the first mode is not selected as the control mode, then mode switching is performed to determine whether or not the second mode is selected as the control mode. At this time, when the second mode is not selected as the control mode, the air conditioning control is performed in the third mode.

As shown in FIG. 1, the PLC 12 receives a signal such as a temperature transmitted from the central monitor 11, processes the signal (information), and outputs the result.
Specifically, as shown in FIG. 3, when the first mode is selected as the control mode, among the composite sensors 3... Disposed in one control target space, the composite sensor showing an abnormal value. The average value TnA of the temperatures measured by the temperature sensors 6 of all the composite sensors 3 of the same system except 3 is calculated, and the average value TnA is output to the DDC 13 as the control room temperature. Note that the above-mentioned complex sensor 3 of the same system means a plurality of complex sensors 3 arranged in one control target space, and a plurality of complex sensors excluding the complex sensor 3 showing an abnormal value. Sensors 3.

FIG. 5 is a flowchart showing a flow of air conditioning control in the second mode.
As shown in FIG. 3, when the second mode is selected as the control mode, one composite sensor 3 is designated from the plurality of composite sensors 3. For example, when there is only one occupant in the control target space, the composite sensor 3 where the occupant is present may be designated. Then, as shown in FIG. 5, the temperature TnP measured by the temperature sensor 6 of the designated composite sensor 3 is selected, the temperature TnP is set as a representative value, and the representative value TnP is output to the DDC 13 as the control room temperature. Perform the process.

6 to 9 are flowcharts showing the flow of air conditioning control in the third mode.
As shown in FIG. 3, when the third mode is selected as the control mode, the following processing is performed.

  First, as shown in FIG. 1, FIG. 2, FIG. 6, it is reported that only one of the reporting means 9 provided in each of the plurality of composite sensors 3 is made and that the report is hot. The reported location temperature TnN measured by the temperature sensor 6 of the composite sensor 3 for which the declaration is made is equal to or lower than the average value TnA of the temperatures measured by all the temperature sensors 6 or air conditioning equipment. When the temperature is equal to or lower than the set temperature SP of 2, the air conditioning equipment 2 is controlled using the average value TnA as the room temperature. On the other hand, it is a case where the declaration is made only from any one of the reporting means 9 provided in each of the plurality of composite sensors 3, and the reporting is a hot one, and the reporting location temperature When TnN is higher than the average value TnA and the set temperature SP, the air conditioning equipment 2 is controlled with the reported location temperature TnN as the room temperature.

  Specifically, first, it is determined whether or not there is only one declaration that the compound sensor 3 in the same system is hot. And when there is only one declaration that it is hot, next, the average value TnA of the temperature measured by the temperature sensor 6 of all the composite sensors 3 of the same system is calculated in the same manner as the above average value TnA, and it is said that it is hot. It is checked whether or not the temperature at which the declaration is made (reported temperature TnN) is equal to or lower than the average value TnA. When the reported location temperature TnN is equal to or lower than the average value TnA, a process of outputting the above-described average value TnA to the DDC 13 as the control room temperature is performed. On the other hand, when the reported location temperature TnN is higher than the average value TnA, it is next determined whether the reported location temperature TnN is higher than the set temperature SP of the air conditioning equipment 2. When the reported location temperature TnN is higher than the set temperature SP, a process of outputting the reported location temperature TnN to the DDC 13 as a control room temperature is performed. On the other hand, when the reported location temperature TnN is equal to or lower than the set temperature SP, a process of outputting the above-described average value TnA as the control room temperature to the DDC 13 is performed.

  In addition, as shown in FIGS. 1, 2 and 7, the report is made only from any one of the reporting means 9 provided in each of the plurality of composite sensors 3... The reported location temperature TnN measured by the temperature sensor 6 of the composite sensor 3 for which the declaration is made is equal to or higher than the average value TnA of the temperatures measured by all the temperature sensors 6 or air conditioning equipment. When the temperature is equal to or higher than the set temperature SP of 2, the air conditioning equipment 2 is controlled using the average value TnA as the room temperature. On the other hand, it is a case where the declaration is made only from any one of the reporting means 9 provided in each of the plurality of composite sensors 3 and the declaration is cold, and the reporting point temperature is When TnN is lower than the average value TnA and the set temperature SP, the air conditioning equipment 2 is controlled with the reported location temperature TnN as the room temperature.

  Specifically, as shown in FIG. 6, it is determined whether or not there is only one declaration that the compound sensor 3 in the same system is hot, and if this is NO (NO), as shown in FIG. In addition, it is determined whether or not there is only one declaration that the compound sensor 3 in the same system is cold. If there is only one declaration that it is cold, then the average value TnA of the temperature measured by the temperature sensors 6 of all the composite sensors 3 of the same system is calculated in the same manner as the average value TnA, and it is said that it is cold. It is checked whether or not the temperature at which the declaration is made (reported temperature TnN) is equal to or lower than the average value TnA. When the reported point temperature TnN is equal to or higher than the average value TnA, a process of outputting the above-described average value TnA as the control room temperature to the DDC 13 is performed. On the other hand, when the reported location temperature TnN is lower than the average value TnA, it is next determined whether the reported location temperature TnN is lower than the set temperature SP of the air conditioning equipment 2. When the reported location temperature TnN is lower than the set temperature SP, a process of outputting the reported location temperature TnN to the DDC 13 as the control room temperature is performed. On the other hand, when the reported location temperature TnN is equal to or higher than the set temperature SP, a process of outputting the above-described average value TnA as the control room temperature to the DDC 13 is performed.

  1, 2, and 8, a plurality of reporting units 9 out of the reporting unit 9 provided in each of the plurality of composite sensors 3... It is a case of reporting that the temperature is hot, and the highest temperature (maximum reported location temperature MAX) among the reported location temperatures respectively measured by the temperature sensors 6 provided in the plurality of composite sensors 3. .TnN) is equal to or lower than the average temperature TnA measured by all the temperature sensors 6, or equal to or lower than the set temperature SP of the air conditioning equipment 2, the air conditioning equipment 2 is controlled using the average value TnA as the room temperature. On the other hand, when a plurality of reporting means 9 out of the reporting means 9 provided for each of the plurality of composite sensors 3 are used, and all of the reports are to be reported as hot, Maximum reported location temperature MAX. When TnN is higher than the average value TnA and the set temperature SP, the highest reported point temperature MAX. The air conditioning equipment 2 is controlled using TnN as the room temperature.

  Specifically, as shown in FIG. 7, it is determined whether or not there is only one declaration that the compound sensor 3 in the same system is cold, and if this is NO (NO), as shown in FIG. In addition, it is determined whether or not there are only two or more reports that the compound sensor 3 in the same system is hot. If there are only two or more declarations that are hot, then the average value TnA of the temperatures measured by the temperature sensors 6 of all the composite sensors 3 of the same system is calculated in the same way as the above-mentioned average value TnA. The highest reported point temperature MAX. It is checked whether or not TnN is equal to or less than the average value TnA. Maximum reported location temperature MAX. When TnN is equal to or less than the average value TnA, a process of outputting the above-described average value TnA as the control room temperature to the DDC 13 is performed. On the other hand, the maximum reported point temperature MAX. If TnN is higher than the average value TnA, then the highest reported point temperature MAX. It is determined whether TnN is higher than the set temperature SP of the air conditioner 2. Maximum reported location temperature MAX. When TnN is higher than the set temperature SP, the maximum reported point temperature MAX. A process of outputting TnN as a control room temperature to the DDC 13 is performed. On the other hand, the maximum reported point temperature MAX. When TnN is equal to or lower than the set temperature SP, a process of outputting the above-described average value TnA as the control room temperature to the DDC 13 is performed.

  Further, as shown in FIGS. 1, 2, and 9, a plurality of reporting means 9 out of the reporting means 9 provided in each of the plurality of composite sensors 3 are used, and all of the reports are made. It is a case of reporting that it is cold, and the lowest temperature (minimum reporting location temperature MIN) among the reporting location temperatures respectively measured by the temperature sensors 6 provided in the plurality of composite sensors 3. .TnN) is equal to or higher than the average temperature TnA measured by all the temperature sensors 6 or equal to or higher than the set temperature SP of the air conditioning equipment 2, the air conditioning equipment 2 is controlled using the average value TnA as the room temperature. On the other hand, when a plurality of reporting means 9 out of the reporting means 9 provided in each of the plurality of composite sensors 3 are used, and all of the declarations report that it is cold, Minimum reporting location temperature MIN. When TnN is lower than the average value TnA and the set temperature SP, the lowest reported point temperature MIN. The air conditioning equipment 2 is controlled using TnN as the room temperature.

  Specifically, as shown in FIG. 8, it is determined whether or not there are only two or more declarations of hotness in the compound sensor 3... In the same system. In this way, it is determined whether or not there are only two or more declarations that the compound sensor 3 in the same system is cold. If there are only two or more declarations of cold, then the average value TnA of the temperatures measured by the temperature sensors 6 of all the composite sensors 3... Of the same system is calculated in the same manner as the average value TnA. The minimum reported point temperature MIN. Which is the lowest value among the temperatures of the plurality of points where the declaration is made. It is checked whether TnN is equal to or higher than the average value TnA. Minimum reporting location temperature MIN. When TnN is equal to or greater than the average value TnA, a process of outputting the above-described average value TnA as the control room temperature to the DDC 13 is performed. On the other hand, the minimum reported location temperature MIN. If TnN is lower than the average value TnA, then the lowest reported point temperature MIN. It is determined whether TnN is lower than the set temperature SP of the air conditioner 2. Minimum reporting location temperature MIN. When TnN is lower than the set temperature SP, the minimum reported point temperature MIN. A process of outputting TnN as a control room temperature to the DDC 13 is performed. On the other hand, the minimum reported location temperature MIN. When TnN is equal to or higher than the set temperature SP, a process of outputting the above-described average value TnA as the control room temperature to the DDC 13 is performed.

  1, 2, and 9, when there is no report from the reporting means 9 provided in each of the plurality of composite sensors 3..., An average value TnA of temperatures measured by all the temperature sensors 6. The air conditioner 2 is controlled using the room temperature. In addition, a plurality of reporting means 9 out of the reporting means 9 provided in each of the plurality of composite sensors 3 are made, and those reporting a hot thing and a cold thing are declared. Are mixed, the air conditioning equipment 2 is controlled using the average temperature TnA measured by all the temperature sensors 6 as the room temperature.

  Specifically, as shown in FIG. 9, it is determined whether or not there are two or more declarations of cold in the composite sensor 3 of the same system, and if this is NO (NO), The average value TnA of the temperature measured by the temperature sensor 6 of the composite sensor 3 is calculated in the same manner as the average value TnA, and the average value TnA is output to the DDC 13 as a control room temperature. That is, it is determined whether or not there are only two or more declarations of cold in the composite sensor 3 of the same system, and if this is NO (NO), if there is no declaration from the reporting means 9, or This is a case where a declaration of hot and a declaration of cold are mixed. In such a case, air conditioning control is performed with an average value TnA.

  When the third mode is selected, the above processing is performed. Note that, when the average value TnA is output to the DDC 13 as the control room temperature as described above, all the reporting point temperatures TnN reported by the reporting unit 9 are reset.

  On the other hand, as described above, the indoor temperature for control output by the PLC 12 is output to the DDC 13 and the set temperature set by the central monitoring device 11 is input from the central monitoring device 11. The DDC 13 controls the air conditioning equipment 2 based on these temperature information. Specifically, the opening degree of the valves of the air conditioning equipment 2 is adjusted by the DDC 13 by looking at the difference between the room temperature value output from the PLC 12 and the set temperature value set by the central monitoring device 11.

  Further, in the control unit 5 described above, not only the temperature information and the reporting information described above, but also information (signals) transmitted from the human sensor 7 incorporated in each composite sensor 3. Is controlled. Specifically, the presence / absence information detected by the human sensor 7 is transmitted to the wireless sensor server 10 via the receiving base station 4, and is transmitted from the wireless sensor server 10 to the central monitoring device 11. Then, when it is confirmed that there is no occupant in the control target space based on the presence / absence information of the occupants from each composite sensor 3..., A signal for stopping the operation of the air conditioner 2 from the central monitoring device 11 to the DDC 13. Sent. At this time, a control means for transmitting a signal for changing the set temperature of the air conditioning equipment 2 from the central monitoring device 11 to the DDC 13 may be used. For example, in the case of cooling, the central monitoring device 11 may newly set a set temperature that is higher than the current set temperature, and send information on the set temperature to the DDC 13, or in the case of heating Alternatively, the central monitoring device 11 may newly set a set temperature that is lower than the current set temperature, and transmit information about the set temperature to the DDC 13. In addition, it is grasped by the human sensor 7 in which part of the space to be controlled that the occupant is present, and based on the information, the place where the occupant is present becomes a preferentially comfortable air-conditioning environment. The air conditioning equipment 2 may be controlled.

  Moreover, in the above-mentioned control part 5, the information (signal) transmitted from the illumination intensity sensor 8 each incorporated in each composite sensor 3 ... is processed, and the air conditioning equipment 2 is controlled. Specifically, the illuminance sensor 8 measures the illuminance at each location, and the measurement result information is transmitted to the wireless sensor server 10 via the receiving base station 4 and transmitted from the wireless sensor server 10 to the central monitoring device 11. The And the presence or absence of the electric equipment currently used and the occupant is grasped | ascertained by the illumination intensity information from each composite sensor 3 .... That is, since light is emitted when an electric device such as a display is used, the illuminance around it increases. In addition, the illuminance is increased by a normal illumination, a display, or the like in a place where the occupant is present. Therefore, the illuminance is measured, and it is possible to determine that an electric device is used in a place where the measured illuminance is high, and that there are people in the room. In this way, when it is confirmed from the illuminance information from each composite sensor 3... That there is no occupant in the control target space, the air conditioner 2 is operated from the central monitoring device 11 to the DDC 13 as described above. A signal to stop or change the set temperature is transmitted.

  According to the air conditioning control system 1 having the above-described configuration, a plurality of composite sensors 3 each having a temperature sensor 6 and a reporting means 9 and a plurality of measurements respectively measured by the temperature sensors 6 of the plurality of composite sensors 3. Since the control unit 5 controls the air conditioning equipment 2 by processing the result information and the reporting information by the reporting means 9 of the plurality of composite sensors 3..., The current temperature distribution in the control target space And the temperature sensation that the occupants themselves felt hot or cold. Then, by controlling the air conditioning equipment 2 by processing the temperature measurement result information and the report information, the control target space becomes an appropriate temperature while taking into account the temperature sensation of the occupants, and the air conditioning control is appropriate. . Thereby, dissatisfaction with the occupants can be eliminated or improved, and a comfortable room temperature environment can be realized.

  In addition, the control unit 5 uses the first mode in which the air conditioning equipment 2 is controlled using the average temperature TnA measured by all the temperature sensors 6 as the room temperature, and the temperature sensor 6 of the designated composite sensor 3. The second mode for controlling the air conditioning equipment 2 using the measured temperature TnP as a representative value of the room temperature, the set temperature SP of the air conditioning equipment 2, the average value TnA of the temperatures measured by all the temperature sensors 6, and the reporting means 9 is reported at the reported location temperature TnN, MAX. TnN, MIN. There is a third mode for controlling the air conditioning equipment 2 based on TnN, and since it is configured to be switched to any one of these three modes, depending on the control target space from among the three modes Air conditioning control is performed by selecting the optimum mode. As a result, air conditioning control becomes more appropriate, and a more comfortable room temperature environment can be realized.

  Further, in the above-described third mode, a declaration is made only from any one of the reporting means 9 provided in each of the plurality of composite sensors 3... And the declaration is hot. In this case, when the reported location temperature TnN is equal to or lower than the average temperature TnA measured by all temperature sensors 6 or equal to or lower than the set temperature SP of the air conditioning equipment 2, the air conditioning equipment 2 is controlled using the average value TnA as the room temperature, When the reported location temperature TnN is higher than the average value TnA and the set temperature SP, respectively, the air conditioning equipment 2 is controlled using the reported location temperature TnN as the room temperature. That is, even when the hot weather is reported, if the reported location temperature TnN is equal to or lower than the average value TnA or the set temperature SP, the air conditioning equipment 2 is controlled so as to lower the temperature according to the report. Is inappropriate. Therefore, the report is not reflected and the air conditioning equipment 2 is controlled at the average value TnA. On the other hand, when the reporting location temperature TnN is higher than the average value TnA and the set temperature SP, it is appropriate to control the air conditioning equipment 2 so as to lower the temperature in accordance with the reporting. Therefore, the air conditioning equipment 2 is controlled at the reporting location temperature TnN.

  Further, in the third mode described above, the declaration is made only from any one of the reporting means 9 provided in each of the plurality of composite sensors 3... And the declaration is cold. In the case, when the reported location temperature TnN is equal to or higher than the average value TnA of the temperature measured by all the temperature sensors 6 or equal to or higher than the set temperature SP of the air conditioning equipment 2, the air conditioning equipment 2 is controlled using the average value TnA as the room temperature, When the reported location temperature TnN is lower than the average value TnA and the set temperature SP, the air conditioning equipment 2 is controlled using the reported location temperature TnN as the room temperature, so that proper air conditioning control is performed. That is, even if it is reported that it is cold, if the reporting location temperature TnN is equal to or higher than the average value TnA or the set temperature SP, the air conditioning equipment 2 is controlled so as to increase the temperature according to the reporting. Is inappropriate. Therefore, the report is not reflected and the air conditioning equipment 2 is controlled at the average value TnA. On the other hand, when the reporting location temperature TnN is lower than the average value TnA and the set temperature SP, it is appropriate to control the air conditioning equipment 2 so as to increase the temperature in accordance with the reporting. Therefore, the air conditioning equipment 2 is controlled at the reporting location temperature TnN.

  Further, in the third mode described above, a plurality of reporting means 9 out of the reporting means 9 provided in each of the plurality of composite sensors 3... Reports that all the reports are hot. The highest reported point temperature MAX. Which is the highest temperature among the reported point temperatures. When TnN is equal to or lower than the average value TnA measured by all temperature sensors 6 or lower than the set temperature SP of the air conditioning equipment 2, the air conditioning equipment 2 is controlled with the average value TnA as the room temperature, and the maximum reported location temperature MAX. When TnN is higher than the average value TnA and the set temperature SP, the highest reported point temperature MAX. Since the air conditioning equipment 2 is controlled using TnN as the room temperature, appropriate air conditioning control is performed. That is, even when the hot weather is reported from a plurality of locations, the highest reported location temperature MAX. When TnN is equal to or lower than the average value TnA or the set temperature SP, it is inappropriate to control the air conditioning equipment 2 so as to lower the temperature according to the report. Therefore, the report is not reflected and the air conditioning equipment 2 is controlled at the average value TnA. On the other hand, the maximum reported point temperature MAX. When TnN is higher than the average value TnA and the set temperature SP, it is appropriate to control the air conditioning equipment 2 so as to lower the temperature in accordance with the declaration. Therefore, the maximum reported point temperature MAX. The air conditioning equipment 2 is controlled by TnN.

  Further, in the third mode described above, a plurality of reporting means 9 out of the reporting means 9 provided in each of the plurality of composite sensors 3... Reports that all the reports are cold. The lowest reported point temperature MIN. Which is the lowest temperature among those reported point temperatures. When TnN is equal to or higher than the average temperature TnA measured by all temperature sensors 6 or equal to or higher than the set temperature SP of the air conditioning equipment 2, the air conditioning equipment 2 is controlled with the average value TnA as the room temperature, and the minimum reported point temperature MIN. When the TnN is lower than the average value TnA and the set temperature SP, the lowest reported point temperature MIN. Since the air conditioning equipment 2 is controlled using TnN as the room temperature, appropriate air conditioning control is performed. In other words, even when a plurality of locations are declared cold, the lowest reported location temperature MIN. When TnN is equal to or higher than the average value TnA or the set temperature SP, it is inappropriate to control the air conditioning equipment 2 so as to increase the temperature according to the report. Therefore, the report is not reflected and the air conditioning equipment 2 is controlled at the average value TnA. On the other hand, the minimum reported location temperature MIN. When TnN is lower than the average value TnA and the set temperature SP, it is appropriate to control the air conditioning equipment 2 so as to raise the temperature in accordance with the declaration. Therefore, the minimum reported location temperature MIN. The air conditioning equipment 2 is controlled by TnN.

  Further, in the above-described third mode, when there is no report from the reporting means 9 provided in each of the plurality of composite sensors 3..., The air conditioning equipment 2 is controlled using the average value TnA of the temperature measured by all the temperature sensors 6 as the room temperature. Therefore, the air conditioning control is appropriate. That is, since it is inappropriate to control the air conditioning equipment 2 so as to raise or lower the temperature until there is no report, the air conditioning equipment 2 is controlled with the average value TnA. Further, in the third mode described above, a plurality of reporting means 9 out of the reporting means 9 provided in each of the plurality of composite sensors 3... Are notified of the fact that they are hot. And the one that reports that it is cold are mixed, and the air conditioning equipment 2 is controlled using the average value TnA of the temperature measured by all temperature sensors as the room temperature. In other words, even when there is a declaration of hotness or a declaration of coldness, if these declarations are mixed, the air conditioning equipment 2 is controlled so as to raise or lower the temperature according to those declarations. Is inappropriate. Therefore, those reports are not reflected and the air conditioning equipment 2 is controlled with the average value TnA.

  Thus, when there is a declaration, the declaration is reflected in the control of the air conditioning equipment 2 only when the declaration is appropriate, so that the air conditioning control is more appropriate and a more comfortable room temperature environment is realized. be able to.

  Further, the composite sensor 3 of the air-conditioning control system 1 having the above-described configuration is provided with a human sensor 7 that detects the presence of a person in the surroundings, and information from the human sensor 7 by the control unit 5. Since the air conditioning equipment 2 is controlled by information processing, the presence / absence of persons and the number of persons at each location in the control target space are grasped, and the air conditioning control is changed according to the information. Thus, energy saving can be achieved by stopping the operation of the air conditioning equipment 2 or changing the set temperature of the air conditioning equipment 2 when there is no occupant.

  In addition, the composite sensor 3 of the air conditioning control system 1 having the above-described configuration is provided with an illuminance sensor 8 that measures ambient illuminance, and information from the illuminance sensor 8 is processed by the control unit 5. Since the air conditioner 2 is configured to be controlled, it is determined whether or not the lighting fixtures are turned on / off from the illuminance distribution in the control target space, and the presence / absence of a person at each location in the determination control target space is grasped. Air conditioning control is changed according to the information. Thus, energy saving can be achieved by stopping the operation of the air conditioning equipment 2 or changing the set temperature of the air conditioning equipment 2 when there is no occupant.

  In the air conditioning control system 1 having the above-described configuration, the composite sensors 3 are wireless sensors that transmit radio waves to the receiving base station 4 connected to the control unit 5. It can also be installed on a partition or desk in a work area where people are actually present. This makes it possible to place the composite sensor 3 in a place where the occupant is actually present, and to measure the temperature of the place where the occupant is present and to control the air conditioning, thereby making the air conditioning environment more comfortable for the occupant. Can be realized.

  As mentioned above, although embodiment of the air-conditioning control system which concerns on this invention was described, this invention is not limited to above-described embodiment, In the range which does not deviate from the meaning, it can change suitably. For example, in the above-described embodiment, the wireless-type composite sensor 3 that transmits information by sending radio waves to the receiving base station 4 is provided. However, the present invention includes a wired-type composite sensor. May be. At this time, the composite sensor and the control unit may be connected by a normal connection line, but the present invention is preferably connected to the control unit via a computer network wired indoors. For example, an IP (Internet Protocol) network can be used as the computer network. In this case, a wired network sensor that can be directly connected to the IP network can be used as the composite sensor. Thus, when the composite sensor is a wired sensor connected to the control unit via a computer network wired in the room, the composite sensor can be arranged in the vicinity of the computer network wiring. In particular, in the case of an office where a computer network is stretched around the control target space, it is possible to install the composite sensor at any place in the control target space. Thereby, even if it does not use a composite sensor as a wireless system, the composite sensor 3 can be arranged at a place where the occupant is actually present, and the air conditioning control is performed by measuring the temperature of the place where the occupant is present. be able to. Therefore, a more comfortable air-conditioning environment can be realized for the occupants.

  In the above-described embodiment, the composite sensor 3 includes the human sensor 7 and the illuminance sensor 8 in addition to the temperature sensor 6 and the reporting unit 9. A composite sensor without the sensor 8 may be used.

  In the above-described embodiment, the control unit 5 (control unit) including the wireless sensor server 10, the central monitoring device 11, the PLC 12, and the DDC 13 is provided. However, the control unit of the air conditioning control system according to the present invention is the above-described control unit. The control means is not limited to the above configuration, and any control means may be used as long as it is a means for processing the measurement result information from the temperature sensor and the reporting information from the reporting means to control the air conditioning equipment.

  In the above-described embodiment, any one of the first, second, and third modes is selected and controlled. However, the present invention is not limited to the three modes, and four modes are possible. The control unit having the above modes may be used, or the control unit having two modes may be used. Furthermore, the control unit may have only one mode. For example, the configuration may be controlled only in the third mode in the above-described embodiment.

  Further, in the control unit 5 according to the above-described embodiment, a process in the case where the declaration is made only from one of the plurality of composite sensors 3... The processing when the declaration is made only from one of the sensors 3 ... and the declaration is cold, and the declaration is made from a plurality of composite sensors 3 ... and all of those declarations are hot. A process in the case of a declaration, a process in a case where a declaration is made from a plurality of compound sensors 3 and all of the declarations are cold, a process in the case of no declaration, a plurality of processes The control is performed by the control means according to the present invention, although the processes are performed when the composite sensor 3... Reports and the reports are mixed between hot and cold. Control to do all of May not be stepped, may be a control means for performing some or one of the process described above, further, it may be a control means for performing processing other than that described above.

  In addition, in the range which does not deviate from the main point of this invention, it is possible to replace suitably the component in above-mentioned embodiment with a well-known component, and you may combine the above-mentioned modification suitably.

It is a block diagram which shows the structure of the air-conditioning control system for describing embodiment of this invention. It is the side view which showed the composite sensor for describing embodiment of this invention. It is the flowchart figure which showed the mode switching flow of the control means for demonstrating embodiment of this invention. It is the flowchart figure which showed the flow which judges the presence or absence of the composite sensor which shows the abnormal value for describing embodiment of this invention. It is the flowchart figure which showed the air-conditioning control flow by the 2nd mode for demonstrating embodiment of this invention. It is the flowchart figure which showed the air-conditioning control flow by the 3rd mode for demonstrating embodiment of this invention. It is the flowchart figure which showed the air-conditioning control flow by the 3rd mode for demonstrating embodiment of this invention. It is the flowchart figure which showed the air-conditioning control flow by the 3rd mode for demonstrating embodiment of this invention. It is the flowchart figure which showed the air-conditioning control flow by the 3rd mode for demonstrating embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Air conditioning control system 2 Air conditioning equipment 3 Composite sensor 5 Control part (control means)
6 Temperature sensor 9 Reporting means

Claims (11)

In an air conditioning control system for controlling indoor air conditioning,
A plurality of composite sensors each having a temperature sensor for measuring the temperature of the surrounding space and a reporting means for reporting whether the temperature is hot or cold;
Control means for controlling the air conditioning equipment by processing each of the plurality of measurement result information respectively measured by the temperature sensors of the plurality of composite sensors and the reporting information by the reporting means of the plurality of composite sensors. An air conditioning control system characterized by that. The air conditioning control system according to claim 1, wherein
The control means includes a first mode for controlling the air conditioning equipment using an average value of temperatures measured by all the temperature sensors respectively provided in the plurality of composite sensors as an indoor temperature, and among the plurality of composite sensors. A second mode in which the air conditioning equipment is controlled using the temperature measured by the temperature sensor of the designated composite sensor as the room temperature, the set temperature of the air conditioning equipment, and all temperature sensors And a third mode for controlling the air conditioning equipment based on the temperature of the reported location measured by the temperature sensor of the composite sensor declared by the reporting means and the average value of the temperatures respectively measured by the reporting means The air conditioning control system can be switched to the mode. The air conditioning control system according to claim 1 or 2,
In the case where the control means is a report made from only one of the reporting means provided in each of the plurality of composite sensors, and the declaration is hot,
When the reported location temperature measured by the temperature sensor of the composite sensor for which the declaration is made is equal to or less than the average value of the temperatures measured by all the temperature sensors or less than the set temperature of the air conditioning equipment, the average value is Control the air conditioning equipment as the room temperature,
When the reported location temperature is higher than the average value and the set temperature, respectively, the air conditioning equipment is controlled using the reported location temperature as a room temperature. In the air conditioning control system according to any one of claims 1 to 3,
In the case where the control means is a report made by a plurality of reporting means among the reporting means provided in each of the plurality of composite sensors, and all of the declarations are to be declared hot,
The highest temperature among the reported location temperatures measured by the temperature sensors provided in the plurality of composite sensors to which the declaration is made is equal to or lower than the average value of the temperatures respectively measured by all the temperature sensors, or of the air conditioning equipment. When the temperature is lower than the set temperature, the air conditioning equipment is controlled with the average value as the room temperature,
When the highest temperature is higher than the average value and the set temperature, respectively, the air conditioning equipment is controlled using the highest temperature as an indoor temperature. In the air-conditioning control system according to any one of claims 1 to 4,
In the case where the control means is a report made only from any one of the reporting means provided in each of the plurality of composite sensors, and the declaration is cold,
When the reported location temperature measured by the temperature sensor of the composite sensor for which the declaration is made is equal to or higher than the average value of the temperatures measured by all the temperature sensors or the set temperature of the air conditioning equipment, the average value is Control the air conditioning equipment as the room temperature,
An air conditioning control system that controls the air conditioning equipment using the reported location temperature as a room temperature when the reported location temperature is lower than the average value and the set temperature, respectively. In the air-conditioning control system according to any one of claims 1 to 5,
In the case where the control means is a report made from a plurality of reporting means among the reporting means provided in each of the plurality of composite sensors, and all of the declarations are to be declared cold,
The lowest temperature among the reported location temperatures measured by the temperature sensors provided in the plurality of composite sensors to which the declaration is made is equal to or higher than the average value of the temperatures measured by all the temperature sensors, or of the air conditioning equipment. When the temperature is equal to or higher than the set temperature, the air conditioning equipment is controlled with the average value as the room temperature,
When the lowest temperature is lower than the average value and the set temperature, respectively, the air conditioning equipment is controlled using the lowest temperature as an indoor temperature. In the air conditioning control system according to any one of claims 1 to 6,
The control means, when there is no report from the reporting means provided for each of the plurality of composite sensors, or is reported from a plurality of reporting means of the reporting means respectively provided for the plurality of composite sensors, and In the case where the declaration of hot and the declaration of cold are mixed in the declaration, the air conditioning equipment is controlled using the average value of the temperatures measured by all the temperature sensors as the room temperature. Air conditioning control system characterized by In the air-conditioning control system according to any one of claims 1 to 7,
The composite sensor is provided with a human sensor that detects the presence of a person in the surrounding area,
The air conditioning control system, wherein the control means controls the air conditioning equipment by processing information from the human sensor. In the air conditioning control system according to any one of claims 1 to 8,
The composite sensor includes an illuminance sensor that measures ambient illuminance,
The said control means processes the information from the said illumination intensity sensor, and controls the said air conditioning equipment, The air conditioning control system characterized by the above-mentioned. The air conditioning control system according to any one of claims 1 to 9,
The air conditioning control system, wherein the composite sensor is a wireless sensor that transmits radio waves to a receiving base station connected to the control means. The air conditioning control system according to any one of claims 1 to 9,
The air conditioning control system, wherein the composite sensor is a wired sensor connected to the control means via a computer network wired in a room.

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