JP5907802B2 - Air conditioning control device, temperature sensor deterioration determination method, and program - Google Patents

Description

  The present invention relates to an air conditioning control device that determines deterioration of a temperature sensor used for air conditioning control in a building, a temperature sensor deterioration determination method, and a program.

  The air conditioner performs air conditioning in a building based on a temperature detected by a temperature sensor installed in a building such as a building. This temperature sensor deteriorates with age and may detect a value different from the actual temperature. If air conditioning control is performed using a value different from the actual temperature as a control value, the interior of the building cannot be appropriately air-conditioned, and as a result, comfort may be impaired and power consumption may increase. Therefore, it is required to calibrate the temperature by specifying a deteriorated temperature sensor.

  For example, in Patent Document 1 below, a fixed resistor having a fixed resistance value is added to a temperature sensor using a variable resistor, and the temperature is calculated based on the difference between the variable resistor and the fixed resistor. An apparatus for canceling a change in resistance value due to aging is disclosed.

  Moreover, in the following Patent Document 2, the fact that there is a correlation between the aging of the air conditioner and the increase in the power consumption, the power consumption immediately after installing the air conditioner, An apparatus for determining the degree of deterioration of an air conditioner using power consumption is disclosed.

  Patent Document 3 below discloses an apparatus that stores offset data in advance and adjusts an error from data detected by a temperature sensor and offset data.

  Patent Document 4 below discloses a device that changes the correction value of the temperature sensor in accordance with the temperature of the outside air.

  Patent Document 5 below discloses an apparatus that changes a correction value of a temperature sensor in accordance with an air conditioning zone.

JP 2007-216867 A Japanese Patent No. 4775338 JP-A-3-177734 JP 2006-258340 A JP 2002-144840 A

  However, in the invention described in Patent Document 1, since it is necessary to add a resistor, a comparison circuit, and the like to the air conditioner, the cost of the air conditioner increases. In the invention described in Patent Document 2, the degree of deterioration of the air conditioner is merely determined based on the power consumption, and the deteriorated temperature sensor cannot be identified. In addition, the inventions described in Patent Documents 3, 4, and 5 described above do not specify a deteriorated temperature sensor.

  An object of the present invention is to provide an air conditioning control device, a temperature sensor deterioration determination method, and a program capable of determining deterioration of a temperature sensor without adding another device to the air conditioner or modifying the air conditioner. Is to provide.

According to the first aspect of the present invention, a plurality of indoor units installed in the building at a time when the temperatures detected by the plurality of temperature sensors installed in the building are assumed to be included in a predetermined range. and control means for blowing operation in the air conditioner for air-conditioning the inside of the building through the air conditioner based on the temperature variation in detected by the plurality of temperature sensors after a predetermined time has elapsed from the start of the blowing operation , possess a degradation determiner means a deterioration of the temperature sensor, wherein the deterioration determination means determines an average value of the temperature detected by the plurality of temperature sensors, the temperature deviates more than a predetermined temperature from the average value Before detecting a temperature sensor that has detected a temperature sensor that has detected a temperature at which the absolute value of the difference from the average value is maximum, has been deteriorated, and has been determined to be deteriorated An average value of temperatures detected by a plurality of temperature sensors is newly obtained, and a temperature sensor that detects a temperature deviating by more than the predetermined temperature from the newly obtained average value, the newly obtained average value and It is determined that the temperature sensor that has detected the temperature at which the absolute value of the difference between the two values is maximum is deteriorated .

Moreover, the invention which concerns on Claim 2 WHEREIN: The time detected that the temperature detected by the several temperature sensor installed in the building is contained in a predetermined range is a plurality of the equipment installed in the building. Control means that causes an air conditioner that air-conditions the inside of the building to perform air blowing operation via an indoor unit, and temperature variations detected by the plurality of temperature sensors after a predetermined time has elapsed since the air conditioner started air blowing operation. Deterioration determining means for determining deterioration of the temperature sensor based on the temperature, the deterioration determining means obtains an average value of the temperatures detected by the plurality of temperature sensors, and deviates from the average value by a predetermined temperature or more. determining that a temperature sensor which detects the temperature has been degraded, the control means, the correction of using the difference between the average value and the detected temperature by the determined temperature sensor is the degradation Was based on the correction temperature, controls the air-conditioning through the indoor unit corresponding to the temperature sensor which is determined to be the deterioration, it is the air conditioning control device according to claim.

Moreover, the invention which concerns on Claim 3 is an air-conditioning control apparatus of Claim 1 , Comprising: The said control means is the temperature detected by the temperature sensor determined to be the said deterioration, and the said average value. Based on the corrected temperature corrected using the difference, air conditioning via the indoor unit corresponding to the temperature sensor determined to be deteriorated is controlled.

The invention according to claim 4 is the air conditioning control apparatus according to claim 2 or claim 3 , wherein the control means calculates the difference obtained when the average value is equal to or higher than a reference temperature. The difference detected when the average value is less than the reference temperature is the second correction value, and the temperature detected by the temperature sensor determined to be deteriorated is the reference value. If the temperature is equal to or higher than the temperature, air conditioning via the indoor unit corresponding to the temperature sensor determined to be deteriorated is controlled based on the first correction temperature corrected using the first correction value. When the temperature detected by the temperature sensor determined to be deteriorated is lower than the reference temperature, the deterioration is performed based on the second correction temperature corrected using the second correction value. Compatible with temperature sensors determined to be That controls the air conditioner through the indoor unit, it is characterized.

The invention according to claim 5 is the air conditioning control device according to any one of claims 1 to 4 , wherein the plurality of indoor units and the plurality of temperature sensors are the same in the building. It is installed in the living room.

Moreover, the invention which concerns on Claim 6 is the air-conditioning control apparatus of Claim 5 , Comprising: The several temperature sensor currently installed in the predetermined distance from the wall of the said living room among these temperature sensors is 1st. A plurality of temperature sensors installed at positions separated from the wall by a predetermined distance from the wall are defined as a second group, and the deterioration determination unit is configured to detect the deterioration of the temperature sensor for each of the first group and the second group. It is an air conditioning control device characterized by judging.
Moreover, the invention which concerns on Claim 7 WHEREIN: The time detected that the temperature detected by the several temperature sensor currently installed in the building is contained in the predetermined range WHEREIN: The several installed in the said building Control means that causes an air conditioner that air-conditions the inside of the building to perform air blowing operation via an indoor unit, and temperature variations detected by the plurality of temperature sensors after a predetermined time has elapsed since the air conditioner started air blowing operation. Degradation determination means for determining degradation of the temperature sensor based on the plurality of indoor units and the plurality of temperature sensors installed in the same room in the building, the plurality of temperature sensors A plurality of temperature sensors installed within a predetermined distance from the wall of the living room are grouped as a first group, and a plurality of temperature sensors installed at positions away from the predetermined distance from the wall are second. And a loop, wherein the deterioration determination means determines the deterioration of the temperature sensor for each of said first and second groups, it is the air conditioning control device according to claim.

Moreover, the invention which concerns on Claim 8 is an air-conditioning control apparatus of Claim 5 , Comprising: The said several temperature sensor is divided into groups according to the height of the installation place in the said living room, The said deterioration determination means is The deterioration of the temperature sensor is determined for each group.
Moreover, the invention which concerns on Claim 9 is the time which is assumed that the temperature detected by the several temperature sensor currently installed in the building is contained in a predetermined range, The several installed in the said building Control means that causes an air conditioner that air-conditions the inside of the building to perform air blowing operation via an indoor unit, and temperature variations detected by the plurality of temperature sensors after a predetermined time has elapsed since the air conditioner started air blowing operation. Deterioration determination means for determining deterioration of the temperature sensor based on the plurality of indoor units and the plurality of temperature sensors are installed in the same room in the building, and installed in the room The air conditioning control device according to claim 1, wherein the plurality of temperature sensors are grouped according to a height of the place, and the deterioration determination unit determines deterioration of the temperature sensor for each group.

The invention according to claim 10 is the air conditioning control device according to any one of claims 1 to 4 , wherein the plurality of indoor units and the plurality of temperature sensors are different in the building. It is installed in the living room.

The invention according to claim 11 is the air conditioning control device according to any one of claims 1 to 10, wherein the deterioration judgment means, before the air conditioner is blowing operation, said plurality The deterioration of the temperature sensor is determined based on the temperature detected by the temperature sensor, and the temperature based on the temperature detected by the plurality of temperature sensors after the predetermined time has elapsed since the air conditioner started the air blowing operation. Deterioration of the sensor is determined, and a temperature sensor determined to be deteriorated at both timings before the air blowing operation and after the air blowing operation is specified as a deteriorated temperature sensor.
The invention according to claim 12 is characterized in that a plurality of temperature sensors installed in the building at a time when temperatures detected by a plurality of temperature sensors installed in the building are assumed to be included in a predetermined range. Control means that causes an air conditioner that air-conditions the inside of the building to perform air blowing operation via an indoor unit, and temperature variations detected by the plurality of temperature sensors after a predetermined time has elapsed since the air conditioner started air blowing operation. Deterioration determining means for determining deterioration of the temperature sensor based on the temperature sensor based on the temperatures detected by the plurality of temperature sensors before the air conditioner performs air blowing operation. The deterioration of the temperature sensor is determined based on the temperatures detected by the plurality of temperature sensors after the predetermined time has elapsed since the air conditioner started the air blowing operation. A temperature sensor is determined to deteriorate at the time of both after the previous and the blowing operation of the blower operation is specified as a temperature sensor that is deteriorated, it is the air conditioning control device according to claim.

The invention according to claim 13 is the air conditioning control device according to any one of claims 1 to 12 , wherein the deterioration determining means determines deterioration of the temperature sensor in a plurality of days, and A temperature sensor determined to be deteriorated in a plurality of days is specified as a deteriorated temperature sensor.

The invention according to claim 14 is the air conditioning control device according to any one of claims 13 claim 1, shows a security state of the information or the building shows the number of people in the building Further comprising an entrance / exit management means for acquiring information, the control means detects the number of people in the building or the presence or absence of lock of the building based on the information acquired by the entrance / exit management means, If the number of people in the building is 0 people, or, if the building is locked, thereby blowing operation in the air conditioner, characterized in that.

The invention according to claim 15 is the air conditioning control device according to any one of claims 1 to 13 , wherein the control means performs a predetermined stop after the air conditioning by the air conditioner is stopped. After the time has elapsed, the air conditioner is operated to blow air.

The invention according to claim 16 is the air conditioning control device according to any one of claims 1 to 15 , wherein the control means includes an intermediate period excluding summer and winter, and the plurality of the plurality of control units. The air conditioner is caused to perform a blowing operation at a time when the temperature detected by the temperature sensor is assumed to be included in the predetermined range.

The invention according to claim 17 is characterized in that a plurality of temperatures installed in the building are estimated at a time when temperatures detected by a plurality of temperature sensors installed in the building are included in a predetermined range. A first step of causing an air conditioner that air-conditions the inside of the building to blow through the indoor unit; and a temperature detected by the plurality of temperature sensors after a predetermined time has elapsed since the air conditioner started the blowing operation. based on the variation, seen including a second step of determining the deterioration of the temperature sensor, and wherein in the second step, the average value of the temperature detected by the plurality of temperature sensors, predetermined from the mean value It is determined that the temperature sensor that has detected a temperature that deviates more than the temperature and has detected the temperature at which the absolute value of the difference from the average value is maximum is deteriorated, and is determined to be deteriorated A temperature sensor that newly calculates an average value of the temperatures detected by the plurality of temperature sensors excluding the temperature sensor, and detects a temperature that deviates from the newly determined average value by the predetermined temperature or more. It is a temperature sensor deterioration determination method, characterized in that it is determined that the temperature sensor that has detected the temperature at which the absolute value of the difference from the obtained average value is maximum is deteriorated .

According to an eighteenth aspect of the present invention, the computer is installed in the building at a time when the temperature detected by the plurality of temperature sensors installed in the building is assumed to be included in the predetermined range. A first step of causing an air conditioner that air-conditions the interior of the building to perform a blowing operation via a plurality of indoor units that are detected by the plurality of temperature sensors after a predetermined time has elapsed since the air conditioner started the blowing operation. A second step of determining deterioration of the temperature sensor based on the variation in temperature, and in the second step, an average value of the temperatures detected by the plurality of temperature sensors is obtained, and the average A temperature sensor that detects a temperature that deviates from a predetermined temperature by more than a predetermined temperature, and determines that the temperature sensor that detects the temperature at which the absolute value of the difference from the average value is maximum is deteriorated, and the deterioration A temperature sensor that newly calculates an average value of the temperatures detected by the plurality of temperature sensors excluding the temperature sensor determined to be, and detects a temperature that is more than the predetermined temperature from the newly determined average value The temperature sensor that detects the temperature at which the absolute value of the difference from the newly obtained average value is maximum is determined to be deteriorated .

  According to the present invention, it is possible to determine the deterioration of the temperature sensor without adding another device to the air conditioner or modifying the air conditioner.

It is a block diagram showing an example of an air-conditioning system concerning an embodiment of the present invention. It is a figure which shows an example of arrangement | positioning of an indoor unit. It is a graph which shows the dispersion | variation in the temperature detected by each temperature sensor. It is a flowchart which shows an example of the operation | movement by the air-conditioning control apparatus which concerns on embodiment of this invention. It is a table | surface which shows the temperature detected by the temperature sensor. It is a figure for demonstrating the method to determine degradation of a temperature sensor.

  FIG. 1 shows an example of an air conditioning control system according to an embodiment of the present invention. The air conditioning control system according to the present embodiment includes an air conditioner 2 including a plurality of indoor units 3A to 3D and an outdoor unit 4, a plurality of temperature sensors 1A to 1D installed in the living room 40, and the outside of the living room 40. The temperature sensor 5 installed, the air-conditioning control part 6, the air-conditioning management part 10, and the log information storage part 20 are comprised. In addition, the air conditioning control system according to the present embodiment may include an entrance / exit management unit 30.

  The living room 40 is a room as an air-conditioning space of a building used by a user, and is, for example, an office room or a meeting room such as an office building. The living room 40 is provided with a door 41 serving as a user entrance. The living room 40 is not limited to one and may have a plurality of rooms.

  The air conditioner 2 is, for example, a multi-type air conditioner for buildings, and air-conditions the space in the living room 40 by performing a blowing operation, a cooling operation, a heating operation, a dehumidifying operation, or the like under the control of the air conditioning control unit 6. As an example, the air conditioner 2 includes a plurality of indoor units 3 </ b> A to 3 </ b> D and an outdoor unit 4. The plurality of indoor units 3A to 3D are installed in the living room 40, send air (wind) into the living room 40 at a set wind speed during the blowing operation, and send cooled air into the living room 40 during the cooling operation, During the heating operation, heated air is sent into the room 40. The outdoor unit 4 is installed outside the living room 40, and is connected to the indoor units 3A to 3D through piping (not shown). The outdoor unit 4 supplies a refrigerant that transmits thermal energy to the indoor units 3A to 3D through a pipe (not shown). A plurality of outdoor units 4 may be installed.

  The plurality of temperature sensors 1 </ b> A to 1 </ b> D are installed in the living room 40, detect the temperature (room temperature) in the living room 40, and output the detected value to the air conditioning control unit 6. For example, temperature sensors 1A to 1D are installed corresponding to the indoor units 3A to 3D, respectively. Specifically, the temperature sensor 1A is installed corresponding to the indoor unit 3A, the temperature sensor 1B is installed corresponding to the indoor unit 3B, the temperature sensor 1C is installed corresponding to the indoor unit 3C, and the indoor unit 3D. Corresponding to the temperature sensor 1D is installed. For example, each temperature sensor 1A-1D may be attached to corresponding indoor unit 3A-3D, and may be installed in the vicinity of corresponding indoor unit 3A-3D. A temperature sensor 5 is installed in the outdoor unit 4. The temperature sensor 5 detects the temperature outside the living room 40 (outdoor temperature) and outputs the detected value to the air conditioning control unit 6. For example, the temperature sensors 1 </ b> A to 1 </ b> D and the temperature sensor 5 detect the temperature at a preset time interval and output the detected value to the air conditioning control unit 6. For example, device identification information (for example, device ID) for identifying each of the temperature sensors 1A to 1D and the temperature sensor 5 is attached to each detection value detected by the temperature sensors 1A to 1D and the temperature sensor 5 to identify the device. A detection value with information attached is output to the air conditioning control unit 6. In addition, you may use the identification information for identifying indoor unit 3A-3D corresponding to temperature sensor 1A-1D as apparatus identification information. In FIG. 1, four temperature sensors 1 </ b> A to 1 </ b> D are installed in the living room 40 as an example, but the number of temperature sensors is not limited to four, and at least three or more temperature sensors are installed in the living room 40. Just do it.

  The air conditioning control unit 6 controls the start and stop of the operation of the air conditioner 2 (the indoor units 3A to 3D and the outdoor unit 4). In addition, the air conditioning control unit 6 controls the operation mode such as the air blowing operation, the cooling operation, the heating operation, or the dehumidifying operation by the air conditioner 2, so that the wind direction, the wind speed, the temperature of the air discharged from the indoor units 3A to 3D, and Control humidity etc. In addition, the air conditioning control unit 6 includes operation log information including the detection value (value indicating the indoor temperature) output from the temperature sensors 1A to 1D and the detection value (value indicating the outdoor temperature) output from the temperature sensor 5. get. For example, the air conditioning control unit 6 may individually control the air conditioning of a plurality of regions in the living room 40 by individually controlling the indoor units 3A to 3D. As an example, the air conditioning control unit 6 controls air conditioning via the indoor units 3A to 3D corresponding to each of the temperature sensors 1A to 1D based on the indoor temperature detected by the temperature sensors 1A to 1D. For example, the air conditioning control unit 6 controls air conditioning via the indoor unit 3A corresponding to the temperature sensor 1A based on the indoor temperature detected by the temperature sensor 1A. For the other indoor units 3B to 3D, air conditioning is controlled based on the room temperature detected by the corresponding temperature sensors 1B to 1D.

  In the example illustrated in FIG. 1, the case where the temperature sensors 1 </ b> A to 1 </ b> D are installed corresponding to the indoor units 3 </ b> A to 3 </ b> D in the same living room 40 has been described. An indoor unit and a temperature sensor may be installed. For example, as shown in FIG. 2, indoor units and temperature sensors may be installed in the respective rooms 40 </ b> A to 40 </ b> D on a plurality of floors (for example, the first floor to the fourth floor) in the same building. For example, one or a plurality of indoor units and one or a plurality of temperature sensors may be installed in each living room. In the example shown in FIG. 2, a plurality of indoor units 3 and one temperature sensor 1 </ b> A (1 </ b> B to 1 </ b> D) are installed in each of the living rooms 40 </ b> A to 40 </ b> D, and the plurality of indoor units 3 installed in each of the living rooms 40 </ b> A to 40 </ b> D. The indoor unit 3 is connected to the outdoor unit 4. In this case, the air-conditioning control unit 6 uses the air conditioners (multiple indoor units) installed in the living rooms 40A to 40D based on the detection values of the temperature sensors 1A to 1D installed in the living rooms 40A to 40D. 3 and the outdoor unit 4) are controlled to control the air conditioning of each room. For example, the air conditioning control unit 6 controls the operation of the air conditioners (the plurality of indoor units 3 and the outdoor units 4) installed in the living room 40A based on the detection value of the temperature sensor 1A installed in the living room 40A. By doing so, the air conditioning in the living room 40A is controlled. For the other rooms 40B to 40D, air conditioning is controlled based on the detection values of the temperature sensors 1B to 1D installed in the rooms. In the example illustrated in FIG. 2, one temperature sensor is installed in each room, but a plurality of temperature sensors may be installed in each room. Moreover, one or a plurality of indoor units and one or a plurality of temperature sensors may be installed in each of a plurality of rooms on the same floor in the same building. In other words, in the present embodiment, a plurality of temperature sensors may be installed in the same building.

  The air conditioning management unit 10 includes a determination control unit 11 and a determination processing unit 12, and identifies a deteriorated temperature sensor among the temperature sensors 1A to 1D. In addition, a log information storage unit 20 is connected to the air conditioning management unit 10. The air conditioning management unit 10 may be installed in the same building as the building where the air conditioner 2 is installed, or installed in another building and connected to the air conditioning control unit 6 via a communication path such as a network. It may be connected. The air conditioning management unit 10 can use the functions of the air conditioning control unit 6 described above by sending a control signal to the air conditioning control unit 6. The air conditioning control device according to the present embodiment includes an air conditioning management unit 10 and a log information storage unit 20, may include an air conditioning control unit 6, and includes an entrance / exit room management unit 30. Also good.

  The determination control unit 11 causes the air conditioner 2 to perform a blowing operation at a specific time in order to determine the deterioration of the temperature sensors 1A to 1D, and the temperature sensor after a predetermined time has elapsed since the air conditioner 2 started the air conditioning operation. The detection value indicating the room temperature detected by 1A to 1D is stored in the log information storage unit 20 as operation log information.

  The determination processing unit 12 determines deterioration of the temperature sensors 1 </ b> A to 1 </ b> D based on operation log information (room temperature) stored in the log information storage unit 20. For example, the determination processing unit 12 determines the deterioration of the temperature sensor based on the variation in the room temperature detected by the temperature sensors 1A to 1D. As an example of the determination based on variation, the determination processing unit 12 obtains an average value of the indoor temperatures detected by the temperature sensors 1A to 1D, and detects a temperature sensor that detects a temperature that deviates from the average value by a predetermined temperature or more. Identify as a sensor.

  Here, the time for executing the deterioration determination will be described. In this embodiment, the deteriorated temperature sensor is specified by using the indoor temperature detected in an environment where the temperature in the living room 40 is uniform. For example, the air blowing operation is performed at a time when the indoor temperature detected by the temperature sensors 1A to 1D is predicted (assumed) to be included in a predetermined range, and the indoor temperature detected after the elapse of the predetermined time from the start of the air blowing operation is used. Thus, the deterioration of the temperature sensor is determined.

  For example, the room temperature in the autumn of an office is almost uniform at dawn (for example, between 5:30 and 7:30) on any day of the week. For example, as a result of installing a temperature sensor at every certain distance (for example, 5 m) in the living room and detecting the indoor temperature of each place, the maximum temperature difference that is the difference between the maximum value and the minimum value of the detected indoor temperature is At dawn becomes relatively smaller than during the daytime or at night (for example, around 10:00 to 22:00), and at dawn, it becomes a predetermined temperature or lower (for example, 1 ° C. or lower). The maximum temperature difference varies greatly depending on the time and day of the week during the day and at night (for example, about 1 ° C to 3.5 ° C), but at dawn, it varies less than during the day and at night depending on the time and day of the week. It becomes almost constant (for example, 1 ° C. or less). Thus, the room temperature at dawn is substantially uniform. At dawn (for example, 5: 30-7: 30), the office is unmanned, and enough time has passed for the room temperature to be uniform from the time when the person leaves the room with the air conditioning in the office turned off. It is thought that. Therefore, it is considered that the room temperature at dawn is almost uniform. Accordingly, by performing the air blowing operation at this dawn timing, the indoor temperature becomes more uniform, and if each temperature sensor is not deteriorated and is normal, the indoor temperature detected by each temperature sensor is within a predetermined range (for example, ± 1 ° C). If the temperature sensor is deteriorated, it is considered that the temperature sensor detects a value outside this predetermined range. Therefore, it deteriorated by performing the air blowing operation at a time when the indoor temperature detected by the plurality of temperature sensors is assumed to be included in the predetermined range, and using the indoor temperature detected after the predetermined time has elapsed from the start of the air blowing operation. It becomes possible to specify the temperature sensor more accurately.

  FIG. 3 shows an example of a change in room temperature detected by a plurality of temperature sensors at dawn (for example, around 7:00). The graph shown in FIG. 3 shows the distribution of room temperature detected by five temperature sensors as an example. Room temperature indicated by graph 100 (black circle), room temperature indicated by graph 110 (white circle), room temperature indicated by graph 120 (black square), room temperature indicated by graph 130 (white square), and graph 140 (black triangle) The indoor temperature indicated by is a temperature detected by a different temperature sensor. In the example shown in FIG. 3, the air blowing operation is started at 7:10. At the start of the air blowing operation (7:10), each room temperature is within a range of about ± 1.5 ° C, and after about 10 minutes have passed since the start of the sending operation (around 7:20). Each room temperature falls within the range of ΔTs (about ± 1.0 ° C.). By performing the air blowing operation in this manner, the room temperature can be made more uniform. Therefore, the deterioration of the temperature sensor is determined based on the room temperature detected after a predetermined time has elapsed since the air blowing operation was started. By doing so, it is possible to determine deterioration more accurately.

  In addition, although the air-conditioning control apparatus (temperature sensor deterioration determination method) according to the present embodiment can be applied throughout the year to determine the deterioration of the temperature sensor, it is possible to determine the deterioration of the temperature sensor in spring (around April to around June) or autumn (9 From around the month to around November), since the room temperature is less affected by the outside air than in the summer and winter seasons, it is preferable to determine the deterioration of the temperature sensor in the intermediate period (spring or autumn season) excluding the summer and winter seasons. In spring and autumn, the amount of solar radiation is relatively smaller than in summer, and since there is less influence of radiative cooling as in winter, it is preferable to determine the deterioration of the temperature sensor in the intermediate period where the influence of outside air is relatively small. .

  The entrance / exit management unit 30 and the reading units 31 and 32 will be described later. The air conditioning system according to the present embodiment may not include the entrance / exit management unit 30 and the reading units 31 and 32.

  Next, an example of the operation of the air conditioning control device according to the present embodiment will be described with reference to the flowchart shown in FIG.

  First, the determination control unit 11 causes the air conditioner 2 to perform a blowing operation at a time (for example, a preset time) in which the indoor temperature detected by the temperature sensors 1A to 1D is predicted to be included in the predetermined range. Air (air) is sent from all the indoor units 3A to 3D into the living room 40 with a preset wind direction and air volume, and the detection values (indoor temperatures) by the temperature sensors 1A to 1D are taken every predetermined time (for example, every 5 minutes) (Ii) Save it in the log information storage unit 20 (S01). For example, in the spring or autumn, the air conditioner 2 is blown for a predetermined time (for example, about 30 minutes) at dawn after a predetermined stop time (for example, about 8 hours) has elapsed since the air conditioning by the air conditioner 2 is stopped. By doing so, wind (air) is sent into the living room 40 from all the indoor units 3A to 3D. As an example, the air blowing operation is performed from 5:30 to 6:00, and the detected value indicating the room temperature detected by the temperature sensors 1A to 1D during that time is stored in the log information storage unit 20.

  Next, the determination processing unit 12 is detected by the temperature sensors 1 </ b> A to 1 </ b> D during a period after the predetermined time has elapsed since the start of the air blowing operation by the air conditioner 2 (for example, after 10 minutes to 30 minutes have elapsed). The average value Tac of the room temperature is obtained for each of the temperature sensors 1A to 1D (S02).

  Here, the processing of the determination processing unit 12 will be described in detail with reference to the table shown in FIG. The table | surface shown in FIG. 5 has shown the indoor temperature which the temperature sensors 1A-1D each detected between time 5: 40-5: 55. As an example, when the air blowing operation is started at time 5:30, the determination processing unit 12 determines the average value of the room temperature detected during the time 5:40 to 5:55 after 10 minutes have elapsed since the air blowing operation start time. Tac is obtained for each of the temperature sensors 1A to 1D. For example, the average value Tac of the room temperature detected between 5:40 and 5:55 by the temperature sensor 1A is 24.3 ° C. Similarly, the average value Tac of the room temperature detected by the temperature sensor 1B is 26.7 ° C., and the average value Tac of the room temperature detected by the temperature sensor 1C is 24.9 ° C., which is detected by the temperature sensor 1D. The average value Tac of the indoor temperature is 25.7 ° C.

  Then, the plurality of temperature sensors are grouped (S03). For example, as shown in FIG. 1, a plurality of temperature sensors 1 </ b> A to 1 </ b> D installed in the same room 40 may be assigned to the same group, or rooms 40 </ b> A to 40 </ b> D on different floors as shown in FIG. 2. However, a plurality of temperature sensors 1A to 1D installed in the same building may be assigned to the same group.

  Next, the determination processing unit 12 obtains an average value Tavg of the average values Tac of the temperature sensors belonging to the same group (S04). For example, as shown in the table of FIG. 5, the determination processing unit 12 includes the average value Tac (24.3 ° C.) of the temperature sensor 1A, the average value Tac (26.7 ° C.) of the temperature sensor 1B, and the average value of the temperature sensor 1C. An average value Tavg (25.4 ° C.) of Tac (24.9 ° C.) and the average value Tac (25.7 ° C.) of the temperature sensor 1D is obtained.

  Then, the determination processing unit 12 determines whether or not the average value Tac of all the temperature sensors is included in the range of the average value Tavg ± d (S05). Note that d may be a value of about 1 ° C., for example.

  When the average value Tac outside the range of the average value Tavg ± d (for example, outside the range of Tavg ± 1 ° C.) exists (S05, Yes), the determination processing unit 12 calculates the absolute difference between the average value Tac and the average value Tavg. The temperature sensor having the maximum value is determined to be deteriorated (S06). For example, as shown in FIG. 6, when the average value Tavg is 25.4 ° C., the average value Tac (24.3 ° C.) of the temperature sensor 1A and the temperature sensor are within the range of 24.4 ° C. to 26.4 ° C. 1B average value Tac (26.7 ° C.) is not included. In the example shown in FIGS. 5 and 6, the absolute value of the difference between the average value Tac (24.3 ° C.) and the average value Tavg (25.4 ° C.) of the temperature sensor 1A is 1.1 ° C., and the temperature sensor 1B The absolute value of the difference between the average value Tac (26.7 ° C.) and the average value Tavg (25.4 ° C.) is 1.3 ° C. Therefore, the determination processing unit 12 determines that the temperature sensor 1B having the maximum absolute value of the difference between the average value Tac and the average value Tavg is a deteriorated temperature sensor, and deteriorates the temperature sensor 1A. It is not determined that the temperature sensor is present. The reason why all temperature sensors whose average value Tac is outside the range of the average value Tavg ± d is not determined to be deteriorated is that the detected value of the deteriorated temperature sensor 1B is included in the calculation of the average value Tavg. This is because the average value Tavg is considered to be high.

  Thereafter, the determination processing unit 12 excludes the temperature sensor determined to be deteriorated from the group (S07), and repeatedly executes the processes of steps S04 to S07.

  When the average value Tac of all temperature sensors belonging to the same group is included in the range of the average value Tavg ± d (S05, No), the determination process ends. That is, when there is no average value Tac outside the range of the average value Tavg ± d (for example, outside the range of Tavg ± 1 ° C.) (S05, No), the determination process ends. On the other hand, when the average value Tac outside the range of the average value Tavg ± d (for example, outside the range of Tavg ± 1 ° C.) exists (S05, Yes), as described above, the determination processing unit 12 calculates the average value Tac and the average It is determined that the temperature sensor having the maximum absolute value of the difference from the value Tavg is deteriorated (S06). Thereafter, the average value Tac of all temperature sensors belonging to the same group is included within the range of the average value Tavg ± d (S05, No), or the remaining temperature sensors belonging to the same group are less than two (S08). , No), the processes of steps S04 to S07 are repeatedly executed.

  And the determination process part 12 preserve | saves the value of the average value Tavg last calculated | required by the process of step S04-S08 in the log information storage part 20 (S09).

  The average value Tavg stored in step S09 is estimated to be the true room temperature of the living room 40. The determination processing unit 12 obtains a difference ΔT between the average value Tac of the temperature sensor determined to be deteriorated and the average value Tavg stored in step S09, and stores log information as a correction value. Stored in the unit 20 (S10). In the example shown in FIGS. 5 and 6, since it is determined that the temperature sensor 1B is deteriorated, the determination processing unit 12 determines the average value Tac (26.7 ° C.) and the average value Tavg (25) of the temperature sensor 1B. .4 ° C.) is stored in the log information storage unit 20 as a correction value.

  When air conditioning is performed via an indoor unit corresponding to a temperature sensor determined to be degraded (hereinafter referred to as “degraded temperature sensor”), the air conditioning control unit 6 uses the difference ΔT to determine the degradation temperature. The indoor temperature detected by the sensor is corrected, and air conditioning via the indoor unit corresponding to the deterioration temperature sensor is controlled based on the corrected temperature (corrected temperature). For example, when the average value Tac of the deterioration temperature sensor is larger than the average value Tavg, the air conditioning control unit 6 subtracts the difference ΔT, which is a correction value, from the room temperature detected by the deterioration temperature sensor, and the temperature obtained by subtraction. Based on (correction temperature), air conditioning via the indoor unit corresponding to the deterioration temperature sensor is controlled. When the average value Tac of the deterioration temperature sensor is smaller than the average value Tavg, the air conditioning control unit 6 adds the difference ΔT, which is a correction value, to the room temperature detected by the deterioration temperature sensor, and the temperature obtained by the addition. (Correction temperature) is used to control air conditioning via the indoor unit corresponding to the deterioration temperature sensor. In the example shown in FIGS. 5 and 6, the air conditioning controller 6 subtracts the difference ΔT (1.3 ° C.), which is a correction value, from the room temperature detected by the temperature sensor 1 </ b> B, and the temperature ( Based on the corrected temperature), air conditioning via the indoor unit 3B corresponding to the temperature sensor 1B is controlled.

  As described above, according to the air conditioning control device according to the present embodiment, the air conditioner 2 is blown at a time when the room temperature detected by the plurality of temperature sensors is predicted to be included in the predetermined range, and then detected. By determining the deterioration of the temperature sensor based on the variation in the indoor temperature, it is possible to accurately determine the deterioration of the temperature sensor without adding another device to the air conditioner 2 or modifying the air conditioner 2. It becomes possible. Moreover, since the temperature sensor which has deteriorated can be specified and the air temperature can be controlled by correcting the temperature detected by the temperature sensor, the labor of calibration by a person can be saved.

  In addition, when performing deterioration determination of a temperature sensor, it is thought that the room temperature of the living room 40 may not become uniform because of the reason that the person was left in the living room 40 or the facility was operating. In this case, it may be determined that the temperature sensor has deteriorated even though the temperature sensor has not deteriorated. Therefore, the deterioration determination process according to the present embodiment may be executed a predetermined number of times in a plurality of days, and a temperature sensor determined to be deteriorated in all the determination processes may be determined as a deteriorated temperature sensor. Thereby, it becomes possible to identify the deteriorated temperature sensor more reliably.

  In addition, there is a case where the detected value of the temperature sensor differs between an environment where the temperature is high and an environment where the temperature is low. For example, it is considered that the temperature sensor detection values are different between summer and winter. Therefore, the determination processing unit 12 stores, in the log information storage unit 20, the difference ΔT obtained when the average value Tavg of the room temperature when the deterioration determination process is performed is equal to or higher than the reference temperature as the first correction value. . Further, the determination processing unit 12 stores, in the log information storage unit 20, the difference ΔT obtained when the average value Tavg of the room temperature when the deterioration determination process is performed is less than the reference temperature as a second correction value. . Then, when the indoor temperature detected by the deterioration temperature sensor is equal to or higher than the reference temperature, the air conditioning control unit 6 corrects the indoor temperature using the first correction value, and corrects the temperature (first correction temperature). Based on the above, the air conditioning via the indoor unit corresponding to the deterioration temperature sensor is controlled. In addition, when the indoor temperature detected by the deterioration temperature sensor is lower than the reference temperature, the air conditioning control unit 6 corrects the indoor temperature using the second correction value, and the corrected temperature (second correction temperature). Based on the above, the air conditioning via the indoor unit corresponding to the deterioration temperature sensor is controlled.

  As an example, the determination processing unit 12 stores the difference ΔT obtained when the average value Tavg is 25 ° C. or more in the log information storage unit 20 as a summer correction value ΔT1 (first correction value). Further, the determination processing unit 12 stores the difference ΔT obtained when the average value Tavg is less than 25 ° C. in the log information storage unit 20 as a winter correction value ΔT2 (second correction value). Then, when the indoor temperature detected by the deterioration temperature sensor is 25 ° C. or higher, the air conditioning control unit 6 corrects the indoor temperature using the summer correction value ΔT1 and corrects the corrected temperature (first corrected temperature). Based on the above, the air conditioning via the indoor unit corresponding to the deterioration temperature sensor is controlled. In addition, when the indoor temperature detected by the deterioration temperature sensor is lower than 25 ° C., the air conditioning control unit 6 corrects the indoor temperature using the winter correction value ΔT2 and corrects the corrected temperature (second corrected temperature). Based on the above, the air conditioning via the indoor unit corresponding to the deterioration temperature sensor is controlled. As described above, the room temperature is corrected using different correction values in the environment in which the temperature is relatively high and the environment in which the temperature is relatively low, and thus based on the correction temperature more suitable for the environment in the living room 40. It becomes possible to control the air conditioning.

  Moreover, you may determine the time which performs a degradation determination process by utilizing the entrance / exit management part 30 shown in FIG. The entrance / exit management unit 30 manages the entrance / exit of the user with respect to the living room 40 and manages the entrance / exit history information of the user. The entrance / exit management unit 30 is connected to the reading units 31 and 32 and an electric lock (not shown) installed on the door 41. The reading units 31 and 32 read storage medium information stored in a storage medium possessed by the user. The reading unit 31 is installed near the door 41 and outside the living room 40. The reading unit 32 is installed in the vicinity of the door 41 and inside the living room 40. The storage medium possessed by the user is, for example, a card or a portable terminal. The storage medium information stored in the storage medium is information (for example, ID) that proves that the user owns the storage medium. The reading units 31 and 32 read storage medium information with or without contact with the storage medium, and output the storage medium information to the entrance / exit management unit 30. Note that the reading units 31 and 32 may read biometric information such as a fingerprint or a vein and output the biometric information to the entrance / exit management unit 30 if it is information that proves that the user is the user. The entrance / exit management unit 30 manages the user's entrance / exit by comparing the storage medium information read by the reading units 31 and 32 with the personal information stored in the entrance / exit management unit 30. Specifically, when the user enters the room, the entrance / exit management unit 30 receives the storage medium information from the reading unit 31 outside the living room 40, and the personal information stored in the storage medium information and the entrance / exit management unit 30. When the information is collated and both match, the electric lock of the door 41 is unlocked, and when both do not match, the user is not allowed to enter the room, and the electric lock of the door 41 remains locked. When the user leaves the room, the room entry / exit management unit 30 receives the storage medium information from the reading unit 32 inside the living room 40 and collates the storage medium information with the personal information stored in the room entry / exit management unit 30. If both match, the electric lock of the door 41 is unlocked. The room entry / exit management unit 30 manages the number of people in the room 40 by managing the user's room entry / exit as described above, and outputs the occupancy number information indicating the number of people in the room 40 to the air conditioning management unit 10. Thereby, the air-conditioning management unit 10 can detect the number of people in the living room 40.

  Further, the entrance / exit management unit 30 may detect the security state of the living room 40 and output information indicating the security state to the air conditioning management unit 10. For example, a device that outputs a security signal to the entrance / exit management unit 30 when the door 41 of the living room 40 is locked, or a security signal that is output to the entrance / exit management unit 30 when the door 41 is locked and a button is pressed. Equipment to be installed is installed in the living room 40. The entrance / exit management unit 30 detects the security state of the living room 40 (a state where the living room 40 is locked) based on the security signal, and outputs information indicating the security state to the air conditioning management unit 10.

  The air-conditioning management unit 10 acquires the number of people in the room 40 or the security status by acquiring information on the number of people in the room or information indicating the security status from the entrance / exit management unit 30 before executing the deterioration determination process. Detect. When the number of people in the room 40 is zero or when the room 40 is in a security state (the room 40 is locked), it is determined that the room 40 is unattended. The deterioration determination process is executed. As described above, before executing the deterioration determination process, it is confirmed whether or not the inside of the living room 40 is actually unattended, and by executing the deterioration determination process when the inside of the living room 40 is unattended, It is possible to improve the accuracy of temperature sensor deterioration determination. In addition, the air-conditioning management unit 10 may determine that the interior of the living room 40 is unmanned when the lighting in the living room 40 is turned off, or if the power consumption in the living room 40 becomes a predetermined value or less. It may be determined that the interior of the living room 40 is unattended.

  Moreover, even if it is the same room, if it is a large room, temperature nonuniformity may arise in the vicinity of the outer wall (perimeter zone) and other places, for example. Therefore, a plurality of temperature sensors installed in the same living room may be divided into different groups depending on the installation position, and deterioration of the temperature sensors may be determined for each group. For example, among a plurality of temperature sensors installed in the same living room 40, a plurality of temperature sensors installed within a predetermined distance (for example, 5 m) from the outer wall of the living room 40 are defined as a first group, and the predetermined distance from the outer wall. A plurality of temperature sensors installed at more distant positions are set as the second group. And the air-conditioning management part 10 determines deterioration of a temperature sensor about each of a 1st group and a 2nd group. In this way, by assigning a plurality of temperature sensors included in the same environment to the same group, it is possible to more accurately determine the deterioration of the temperature sensor.

  Moreover, even if it is the same living room, temperature may change with height. Therefore, the air-conditioning management unit 10 may divide a plurality of temperature sensors into separate groups according to the height of the installation location in the room, and determine the deterioration of the temperature sensors for each group.

  In the above-described embodiment, the case where deterioration is determined for a plurality of temperature sensors has been described. However, one indoor unit and one indoor temperature sensor are installed in the living room, and one outdoor unit is installed outside the living room. When an outdoor unit and one outdoor temperature sensor are installed, deterioration of the indoor temperature sensor may be determined. The outdoor temperature sensor may be installed in the outdoor unit, or may be installed in a place different from the outdoor unit. The air conditioning management unit 10 determines the deterioration of the indoor temperature sensor by using the difference between the indoor temperature detected by the indoor temperature sensor and the outdoor temperature detected by the outdoor temperature sensor (internal / external temperature difference). For example, the air conditioning management unit 10 stores data indicating the internal / external temperature difference (initial internal / external temperature difference) acquired in the initial stage of the operation of the air conditioner in the log information storage unit 20 and is executing the deterioration determination process. The acquired internal / external temperature difference is compared with the initial internal / external temperature difference, and when the internal / external temperature difference is greater than or equal to a predetermined value, it is determined that the indoor temperature sensor has deteriorated. Also in this deterioration determination process, it is preferable to determine the internal / external temperature difference at the beginning of the middle period and determine the deterioration of the indoor temperature sensor based on the internal / external temperature difference. When determining deterioration for one indoor temperature sensor, it is difficult to determine deterioration of the indoor temperature sensor as accurately as the deterioration determination method according to the above-described embodiment. When the temperature is greatly deviated as described above, a failure of the indoor temperature sensor can be detected.

  Note that the determination processing unit 12 performs the deterioration determination process before the air conditioner 2 performs the air blowing operation at the time when the room temperature is predicted to be included in the predetermined range, and further, the predetermined time after the air blowing operation is started. A deterioration determination process may be performed after a lapse of time, and a temperature sensor determined to be deteriorated at both timings before and after the blowing operation may be specified as a deteriorated temperature sensor. As described above, since the room temperature is relatively uniform at dawn even before the blowing operation, the deterioration determination process is performed before the blowing operation, and the blowing operation is further performed. Then, the indoor temperature may be made more uniform, deterioration determination processing may be performed in that state, and the temperature sensor determined to be deteriorated before and after the air blowing operation may be determined as the deteriorated temperature sensor. The environment (conditions) for determining deterioration is different between before and after the blowing operation, and the temperature sensor determined to be deteriorated in a different environment (condition) is likely to be actually deteriorated. it is conceivable that. Therefore, by performing deterioration determination (two-step determination processing) in such a different environment, it is possible to specify a deteriorated temperature sensor with higher accuracy.

  In addition, the air conditioning management unit 10 may perform the deterioration determination process at a time when the difference between the indoor temperature and the outdoor temperature is equal to or less than a predetermined value. For example, the difference between the average value Tavg of the temperatures detected by each of the plurality of temperature sensors 1A to 1D shown in FIG. 1 and the temperature detected by the temperature sensor 5 installed outdoors is equal to or less than a predetermined value. The deterioration determination process may be performed at a time (for example, the smallest time). Since it is assumed that the air in the living room 40 is uniform and hardly affected by the outside air during this time, the deterioration determination process may be performed at this time.

  The air conditioning control device described above includes a processor such as a CPU (not shown). A processor implement | achieves each function of the air-conditioning control part 6, the determination control part 11, and the determination process part 12 by running the program memorize | stored in the memory which is not shown in figure. The program is stored in a storage device such as a hard disk drive (HDD) via a recording medium such as a CD or DVD, or via a communication path such as a network. The program may be stored in advance in a storage device such as a hard disk drive. Functions of the air conditioning control unit 6, the determination control unit 11, and the determination processing unit 12 are read by a program stored in a storage device such as a hard disk drive being read into a memory such as a RAM and executed by a processor such as a CPU. Is realized. The entrance / exit management unit 30 is realized by a processor such as a CPU (not shown) and a program stored in a memory (not shown). For example, the function of the entrance / exit management unit 30 is realized by a program stored in a storage device such as a hard disk drive being read into a memory such as a RAM and executed by a processor such as a CPU.

  1A, 1B, 1C, 1D, 5 Temperature sensor, 2 Air conditioner, 3, 3A, 3B, 3C, 3D Indoor unit, 4 Outdoor unit, 6 Air conditioning control unit, 10 Air conditioning management unit, 11 Judgment control unit, 12 Judgment process Part, 20 log information storage part, 30 entrance / exit management part, 31, 32 reading part, 40, 40A, 40B, 40C, 40D living room, 41 door.

Claims (18)

The building is air-conditioned via a plurality of indoor units installed in the building at a time when the temperature detected by the plurality of temperature sensors installed in the building is assumed to be included in a predetermined range. Control means for causing the air conditioner to perform a blowing operation,
Based on the temperature variation in detected by the plurality of temperature sensors after the air conditioner has elapsed a predetermined time from the start of the blowing operation, and determines the deterioration determination means deterioration of the temperature sensor,
I have a,
The deterioration determination means is a temperature sensor that calculates an average value of the temperatures detected by the plurality of temperature sensors, detects a temperature that deviates from the average value by a predetermined temperature or more, and an absolute value of a difference from the average value is It is determined that the temperature sensor that has detected the maximum temperature is deteriorated, and an average value of the temperatures detected by the plurality of temperature sensors excluding the temperature sensor determined to be deteriorated is newly obtained, A temperature sensor that detects a temperature that deviates from the newly determined average value by more than the predetermined temperature and that detects a temperature at which the absolute value of the difference from the newly determined average value is maximum is deteriorated. It is determined that
An air conditioning control device characterized by that. The building is air-conditioned via a plurality of indoor units installed in the building at a time when the temperature detected by the plurality of temperature sensors installed in the building is assumed to be included in a predetermined range. Control means for causing the air conditioner to perform a blowing operation,
A deterioration determining means for determining deterioration of the temperature sensor based on a variation in temperature detected by the plurality of temperature sensors after a predetermined time has elapsed since the air conditioner started the air blowing operation;
Have
The deterioration determining means determines an average value of the temperature detected by the plurality of temperature sensors, determines the temperature sensor detects a temperature deviating more than the predetermined temperature from the average value is degraded,
The control means is a temperature determined to be deteriorated based on a corrected temperature corrected using a difference between the temperature detected by the temperature sensor determined to be deteriorated and the average value. Control air conditioning through the indoor unit corresponding to the sensor,
An air conditioning control device characterized by that. The air conditioning control device according to claim 1 ,
The control means is a temperature determined to be deteriorated based on a corrected temperature corrected using a difference between the temperature detected by the temperature sensor determined to be deteriorated and the average value. Control air conditioning through the indoor unit corresponding to the sensor,
An air conditioning control device characterized by that. The air conditioning control device according to claim 2 or claim 3 ,
The control means uses the difference obtained when the average value is equal to or higher than a reference temperature as a first correction value, and sets the difference obtained when the average value is lower than the reference temperature as a second correction value. When the temperature detected by the temperature sensor determined as the correction value is equal to or higher than the reference temperature, based on the first correction temperature corrected using the first correction value, When controlling the air conditioning through the indoor unit corresponding to the temperature sensor determined to be deteriorated, and the temperature detected by the temperature sensor determined to be deteriorated is less than the reference temperature, Controlling air conditioning via the indoor unit corresponding to the temperature sensor determined to be deteriorated based on the second correction temperature corrected using the second correction value;
An air conditioning control device characterized by that. It is an air-conditioning control device according to any one of claims 1 to 4 ,
The plurality of indoor units and the plurality of temperature sensors are installed in the same living room in the building,
An air conditioning control device characterized by that. The air conditioning control device according to claim 5 ,
Among the plurality of temperature sensors, a plurality of temperature sensors installed within a predetermined distance from the wall of the living room is a first group, and a plurality of temperature sensors installed at positions away from the predetermined distance from the wall are The second group,
The deterioration determining means determines the deterioration of the temperature sensor for each of the first group and the second group;
An air conditioning control device characterized by that. The building is air-conditioned via a plurality of indoor units installed in the building at a time when the temperature detected by the plurality of temperature sensors installed in the building is assumed to be included in a predetermined range. Control means for causing the air conditioner to perform a blowing operation,
A deterioration determining means for determining deterioration of the temperature sensor based on a variation in temperature detected by the plurality of temperature sensors after a predetermined time has elapsed since the air conditioner started the air blowing operation;
Have
The plurality of indoor units and the plurality of temperature sensors are installed in the same living room in the building,
Among the plurality of temperature sensors, a plurality of temperature sensors installed within a predetermined distance from the wall of the living room is a first group, and a plurality of temperature sensors installed at positions away from the predetermined distance from the wall are The second group,
The deterioration determining means determines the deterioration of the temperature sensor for each of the first group and the second group;
An air conditioning control device characterized by that. The air conditioning control device according to claim 5 ,
Grouping the plurality of temperature sensors according to the height of the installation location in the living room,
The deterioration determination means determines the deterioration of the temperature sensor for each group.
An air conditioning control device characterized by that. The building is air-conditioned via a plurality of indoor units installed in the building at a time when the temperature detected by the plurality of temperature sensors installed in the building is assumed to be included in a predetermined range. Control means for causing the air conditioner to perform a blowing operation,
A deterioration determining means for determining deterioration of the temperature sensor based on a variation in temperature detected by the plurality of temperature sensors after a predetermined time has elapsed since the air conditioner started the air blowing operation;
Have
The plurality of indoor units and the plurality of temperature sensors are installed in the same living room in the building,
Grouping the plurality of temperature sensors according to the height of the installation location in the living room,
The deterioration determination means determines the deterioration of the temperature sensor for each group.
An air conditioning control device characterized by that. It is an air-conditioning control device according to any one of claims 1 to 4 ,
The plurality of indoor units and the plurality of temperature sensors are installed in different living rooms in the building,
An air conditioning control device characterized by that. It is an air-conditioning control device according to any one of claims 1 to 10 ,
The deterioration determining means determines the deterioration of the temperature sensor based on the temperatures detected by the plurality of temperature sensors before the air conditioner performs the air blowing operation, and the predetermined condition after the air conditioner starts the air blowing operation. Determining the deterioration of the temperature sensor based on the temperatures detected by the plurality of temperature sensors after a lapse of time, a temperature sensor determined to be deteriorated at both the timing before the air blowing operation and after the air blowing operation, Identify as a degraded temperature sensor,
An air conditioning control device characterized by that. The building is air-conditioned via a plurality of indoor units installed in the building at a time when the temperature detected by the plurality of temperature sensors installed in the building is assumed to be included in a predetermined range. Control means for causing the air conditioner to perform a blowing operation,
A deterioration determining means for determining deterioration of the temperature sensor based on a variation in temperature detected by the plurality of temperature sensors after a predetermined time has elapsed since the air conditioner started the air blowing operation;
Have
The deterioration determining means determines the deterioration of the temperature sensor based on the temperatures detected by the plurality of temperature sensors before the air conditioner performs the air blowing operation, and the predetermined condition after the air conditioner starts the air blowing operation. Determining the deterioration of the temperature sensor based on the temperatures detected by the plurality of temperature sensors after a lapse of time, a temperature sensor determined to be deteriorated at both the timing before the air blowing operation and after the air blowing operation, Identify as a degraded temperature sensor,
An air conditioning control device characterized by that. The air conditioning control device according to any one of claims 1 to 12 ,
The deterioration determining means determines the deterioration of the temperature sensor in a plurality of days, and specifies the temperature sensor determined to be deteriorated in the plurality of days as a deteriorated temperature sensor.
An air conditioning control device characterized by that. It is an air-conditioning control device according to any one of claims 1 to 13 ,
It further comprises an entrance / exit management means for obtaining information indicating the number of people in the building or information indicating the security status of the building,
The control means detects the number of people in the building or the presence or absence of lock of the building based on the information acquired by the entry / exit management means, and the number of people in the building becomes zero. If there are, or, if the building is locked, thereby blowing operation in the air conditioner,
An air conditioning control device characterized by that. It is an air-conditioning control device according to any one of claims 1 to 13 ,
The control means causes the air conditioner to perform a blowing operation after a predetermined stop time has elapsed since the air conditioner by the air conditioner has stopped.
An air conditioning control device characterized by that. It is an air-conditioning control device according to any one of claims 1 to 15 ,
The control means causes the air conditioner to perform a blowing operation at an intermediate period excluding summer and winter and at a time when the temperature detected by the plurality of temperature sensors is assumed to be included in the predetermined range.
An air conditioning control device characterized by that. The building is air-conditioned via a plurality of indoor units installed in the building at a time when the temperature detected by the plurality of temperature sensors installed in the building is assumed to be included in a predetermined range. A first step of causing the air conditioner to perform a blowing operation;
A second step of determining deterioration of the temperature sensor based on a variation in temperature detected by the plurality of temperature sensors after a predetermined time has elapsed since the air conditioner started the air blowing operation;
Only including,
In the second step, an average value of the temperatures detected by the plurality of temperature sensors is obtained, and a temperature sensor that detects a temperature deviating from the average value by a predetermined temperature or more, and an absolute value of a difference from the average value It is determined that the temperature sensor that has detected the temperature at which the temperature becomes maximum is deteriorated, and an average value of the temperatures detected by the plurality of temperature sensors excluding the temperature sensor determined to be deteriorated is newly obtained. A temperature sensor that detects a temperature that deviates from the newly determined average value by a predetermined temperature or more, and that detects a temperature at which an absolute value of a difference from the newly determined average value is maximum. Judge that it has deteriorated,
A method for determining deterioration of a temperature sensor. On the computer,
The building is air-conditioned via a plurality of indoor units installed in the building at a time when the temperature detected by the plurality of temperature sensors installed in the building is assumed to be included in a predetermined range. A first step of causing the air conditioner to perform a blowing operation;
A second step of determining deterioration of the temperature sensor based on a variation in temperature detected by the plurality of temperature sensors after a predetermined time has elapsed since the air conditioner started the air blowing operation;
Was executed,
In the second step, an average value of the temperatures detected by the plurality of temperature sensors is obtained, and a temperature sensor that detects a temperature deviating from the average value by a predetermined temperature or more, and an absolute value of a difference from the average value It is determined that the temperature sensor that has detected the temperature at which the temperature becomes maximum is deteriorated, and an average value of the temperatures detected by the plurality of temperature sensors excluding the temperature sensor determined to be deteriorated is newly obtained. A temperature sensor that detects a temperature that deviates from the newly determined average value by a predetermined temperature or more, and that detects a temperature at which an absolute value of a difference from the newly determined average value is maximum. Judge that it has deteriorated,
A program characterized by that.

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