JP2015090232A - Air conditioning system, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a technology capable of estimating a clothing amount with high accuracy regardless of regions.SOLUTION: An air conditioning system includes: an indoor unit 12 for conditioning air in an air-conditioned space; a clothing amount estimating portion 226 determining a reference value according to a predetermined procedure, estimating the reference value as the clothing amount of a user when the user existing in the air-conditioned space does not change temperature setting of the air-conditioned space, and estimating a value obtained by correcting the reference value on the basis of a temperature set by the user as the clothing amount when the user changes the temperature setting; and a set temperature calculating portion 228 controlling an operation of the indoor unit 12 so that the temperature of the air-conditioned space reaches the temperature set on the basis of a comfort index calculated from a plurality of parameters including the clothing amount estimated by the clothing amount estimating portion 226.

Description

  The present invention relates to an air conditioning system and program for adjusting the temperature of air.

Conventionally, a technology to improve the accuracy of estimating the amount of clothes required for calculating comfort indices such as PMV (Predicted Mean Vote) and SET ^* (Standard new effective temperature) used to save energy in air conditioning systems has been proposed. Has been.
For example, Patent Document 1 describes that the amount of clothes is calculated by substituting the outside temperature into a linear expression that represents the relationship between the outside temperature and the amount of clothes.
Patent Document 2 describes that a value set in advance for each season or weather is used as the amount of clothes.
Patent Document 3 describes that the amount of clothes is approximately obtained by substituting the room temperature into a linear expression representing the relationship between the room temperature and the amount of clothes.

JP 2009-76106 A JP 2010-38472 A JP 2011-69601 A

The actual amount of clothing varies from region to region, for example, because lifestyles vary from region to region. Therefore, in order to realize an air conditioning system that can be supplied to a large number of regions, when calculating the amount of clothing using relational expressions, or when using the amount of clothing determined in advance for each season or weather, Corresponding relational expressions and predetermined values must be prepared. Therefore, it is desirable to have a configuration that can accurately estimate the amount of clothes regardless of the region.
An object of this invention is to provide the air conditioning system and program which can estimate the amount of clothes with high precision irrespective of an area.

  The present invention that achieves the above object is to provide an air conditioner that harmonizes the air in the air-conditioning target space and a reference value according to a predetermined procedure, and allows a user in the air-conditioning target space to adjust the temperature of the air-conditioning target space. When the setting is not changed, the reference value is estimated as the amount of clothes of the user, and when the user changes the temperature setting, the reference value is corrected based on the temperature set by the user. A clothing amount estimating means for estimating the value as the clothing amount, and the temperature of the air-conditioning target space is set based on a comfort index calculated from a plurality of parameters including the clothing amount estimated by the clothing amount estimating means. And an air conditioning system comprising: control means for controlling the operation of the air conditioning means so as to achieve a controlled temperature.

Here, the clothing amount estimation means uses the temperature set by the user as one parameter and the back-calculated value that is the value of the clothing amount when the comfort index is a predetermined value and the reference value. The reference value may be corrected based on the difference.
Moreover, the said clothing amount estimation means is based on the average value of the difference of the said back calculation value in the said some air conditioning means, and the said reference value, when the some air conditioning means exists in the said air-conditioning object space. The reference value may be corrected.
In addition, the reference average radiation temperature is determined according to a predetermined procedure, and when the user has not changed the setting of the temperature of the air-conditioning target space, the reference average radiation temperature is estimated as the average radiation temperature, and the user When the temperature setting is changed, the control means further includes an average radiation temperature estimating means for estimating a value obtained by correcting the reference average radiation temperature based on the temperature set by the user as the average radiation temperature. The average radiation temperature estimated by the average radiation temperature estimation means may be the parameter.

  From another point of view, the present invention sets a reference value in a computer according to a predetermined procedure, and the user who exists in the air conditioning target space does not change the temperature setting of the air conditioning target space. Estimates the reference value as the amount of clothing of the user, and when the user changes the temperature setting, estimates the value obtained by correcting the reference value based on the temperature set by the user as the amount of clothing. And the air that harmonizes the air in the air-conditioning target space so that the temperature of the air-conditioning target space becomes a temperature set based on a comfort index calculated from a plurality of parameters including the estimated clothing amount This is a program for realizing the function of controlling the operation of the harmony means.

  According to the present invention, the amount of clothes can be estimated with high accuracy regardless of the area.

It is a schematic block diagram of the air conditioning system which concerns on this Embodiment. It is a block diagram which shows the function of the air conditioning system which concerns on this Embodiment. It is a flowchart which shows the procedure of the clothing amount estimation process which a clothing amount estimation part performs. It is a flowchart which shows the procedure of the average radiation temperature estimation process which an average radiation temperature estimation part performs.

Embodiments of the present invention will be described below in detail with reference to the accompanying drawings.
FIG. 1 is a schematic configuration diagram of an air conditioning system 1 according to the present embodiment.
FIG. 2 is a block diagram showing functions of the air conditioning system 1 according to the present embodiment.
The air conditioning system 1 according to the present embodiment includes a plurality of air conditioners 10 and a centralized controller 20 that controls the plurality of air conditioners 10. As the air conditioning system 1, it can be illustrated that it is a package air conditioner type air conditioning equipment for buildings such as buildings.

First, the air conditioner 10 will be described.
The air conditioner 10 includes, for example, an outdoor unit 11 installed on the rooftop of a building, a plurality of indoor units 12 installed in each part of the building, a remote controller 13 for setting the indoor unit 12, and the outdoor unit 11. And an outdoor unit 11 connected to the indoor unit 12 and a pipe 14 through which refrigerant circulating to the indoor unit 12 circulates. In FIG. 1, four indoor units 12 are installed inside the ceiling of the first room 101 in the building 100, and four indoor units 12 are installed inside the ceiling of the second room 102 in the building 100. The installed configuration is shown. In the configuration shown in FIG. 1, the four indoor units 12 attached to the first room 101 and the four indoor units 12 attached to the second room 102 are respectively connected via the pipes 14. It is connected to one outdoor unit 11. In addition, the number of the outdoor units 11 and the indoor units 12 illustrated in FIG. 1 is an example, and the number of the indoor units 12 connected to each outdoor unit 11 may be different. The indoor unit 12 may be hung on the wall of the room.

The outdoor unit 11 includes a communication unit 111 that communicates with the centralized controller 20 and the indoor unit 12, and an outdoor unit control unit 112 that controls the operation of the outdoor unit 11.
The communication unit 111 receives an operation control command from the centralized controller 20 or the indoor unit 12.
The outdoor unit control unit 112 includes a CPU, a ROM, a RAM, and the like, and controls the operation of the outdoor unit 11 based on operation control commands received from the centralized controller 20 and the indoor unit 12.

The indoor unit 12 communicates with the temperature controller 121 that detects the temperature of the installation location, the humidity sensor 122 that detects the humidity of the installation location, the remote controller 13 using infrared rays, and the central controller 20 and the outdoor unit 11. A communication unit 123 and an indoor unit control unit 124 that controls the operation of the indoor unit 12 are provided.
The communication unit 123 receives the user set temperature Tu transmitted from the remote controller 13 and is the temperature at which the user has changed the set temperature. In addition, the communication unit 123 transmits the temperature detected by the temperature sensor 121, the humidity detected by the humidity sensor 122, and the received user set temperature Tu to the centralized controller 20 and the outdoor unit 11. Further, the communication unit 123 receives an operation control command from the centralized controller 20 or the outdoor unit 11.
The indoor unit control unit 124 includes a CPU, a ROM, a RAM, and the like, and controls the operation of the indoor unit 12 based on the operation control command received from the centralized controller 20 or the outdoor unit 11.

The remote controller 13 controls an operation of the input unit 131 for inputting room temperature, a display unit 132 configured by a liquid crystal display, a communication unit 133 that communicates with the indoor unit 12 using infrared rays, and the remote controller 13. And a remote control unit 134. The remote control unit 134 has a CPU, ROM, RAM, and the like.
Then, the remote controller 13 transmits a user set temperature Tu, which is a temperature changed by the user via the input unit 131, to the indoor unit 12 via the communication unit 133 under the control of the remote control unit 134.

  Each outdoor unit 11 and each indoor unit 12 includes an outdoor unit control unit 112 and an indoor unit control unit 124, respectively, and control command values and the like are transmitted between the outdoor unit 11, the indoor unit 12, and the centralized controller 20. An air conditioning control network for communication is configured.

  In the air conditioner 10 configured as described above, the centralized controller 20 sets the temperature of the air-conditioning target space such as the target room (the first room 101 or the second room 102) whose temperature is to be adjusted. Operates to temperature. In addition, when the user changes the set temperature via the remote controller 13, the temperature of the air-conditioning target space is set to the user set temperature Tu.

<First Embodiment>
Next, the centralized controller 20 according to the first embodiment will be described.
The centralized controller 20 includes a communication unit 21 that communicates with the air conditioner 10 and a control unit 22 that controls the air conditioner 10.

  The communication unit 21 receives the detected temperature of the temperature sensor 121, the detected humidity of the humidity sensor 122, and the user set temperature Tu transmitted from the indoor unit 12 of the air conditioner 10. In addition, the communication unit 21 transmits an operation control command to the air conditioner 10.

The control unit 22 includes a CPU, a ROM, a RAM, and the like.
The control unit 22 includes a room temperature grasping unit 221 that grasps the temperature (room temperature) of a room (air conditioning target space) whose air temperature is adjusted by the air conditioner 10 and a humidity grasping unit that grasps the humidity of the air conditioning target space. 222, an average radiation temperature estimation unit 223 that estimates the average radiation temperature Tr of the air conditioning target space, and an airflow speed estimation unit 224 that estimates the airflow velocity in the air conditioning target space. Moreover, the control part 22 is provided with the activity amount estimation part 225 which estimates the activity amount of the person who exists in the air conditioning object space, and the clothing amount estimation part 226 which estimates the clothing amount Cl of the person who exists in the air conditioning object space. ing.

The control unit 22 also includes the room temperature grasped by the room temperature grasping unit 221, the humidity grasped by the humidity grasping unit 222, the average radiation temperature Tr estimated by the average radiation temperature estimating unit 223, the airflow velocity estimated by the airflow velocity estimating unit 224, Based on the activity amount estimated by the activity amount estimation unit 225 and the clothing amount Cl estimated by the clothing amount estimation unit 226, a PMV calculation unit that calculates a PMV (Predicted Mean Vote) value as an indoor comfort level (comfort index) 227.
In addition, the control unit 22 uses the PMV value calculated by the PMV calculation unit 227 to calculate a set temperature to be set as the temperature of the air conditioning target space, and the user sets the set temperature via the remote controller 13. A user set temperature grasping unit 229 for grasping the above-described user set temperature Tu when changed.

  The room temperature grasping unit 221 grasps the temperature detected by the temperature sensor 121 provided in the indoor unit 12 as the room temperature of the room in which the indoor unit 12 is disposed. When there are a plurality of indoor units 12 in the same room, the room temperature grasping unit 221 may grasp the average value of the temperatures detected by the temperature sensors 121 provided in the plurality of indoor units 12 as the room temperature, or specify The temperature detected by the temperature sensor 121 provided in the indoor unit 12 may be grasped as the room temperature.

  The humidity grasping unit 222 grasps the humidity detected by the humidity sensor 122 provided in the indoor unit 12 as the humidity of the room in which the indoor unit 12 is arranged. When there are a plurality of indoor units 12 in the same room, the humidity grasping unit 222 may grasp the average value of the humidity detected by the humidity sensor 122 provided in the plurality of indoor units 12 as the humidity. The detected value of the humidity sensor 122 provided in the indoor unit 12 may be grasped as humidity.

The average radiation temperature estimation unit 223 can exemplify estimating the room temperature grasped by the room temperature grasping unit 221 as the average radiation temperature Tr. Alternatively, a radiation sensor may be provided in the air-conditioning target space, and the average radiation temperature estimation unit 223 may estimate the average radiation temperature Tr in the room based on the detection value of the radiation sensor attached to the room.
The airflow velocity estimation unit 224 can exemplify reading the airflow information stored in advance in the storage area and estimating the airflow velocity. Alternatively, an airflow sensor may be provided in the air conditioning target space, and the airflow velocity estimation unit 224 may estimate the airflow velocity in the room based on the detection value of the airflow sensor attached to the room.

The activity amount estimation unit 225 can exemplify estimating the activity amount by the magnitude of the output value of the activity amount sensor using infrared rays, for example. For example, an activity amount sensor that can generate a pulse when a room is divided with infrared rays, etc., and a person crosses the divided area by moving, etc., and the amount of activity is detected by the number of pulses in a certain period. The activity amount estimation unit 225 is provided in the air conditioning target space, and estimates the activity amount based on the output value from the activity amount sensor.
The clothing amount estimation unit 226 will be described in detail later.

  The PMV calculation unit 227 uses the arithmetic expression described in the international standard ISO-7730 defined by the International Organization for Standardization (ISO), which is stored in a storage area such as a ROM in advance, as a PMV value. Is calculated. That is, the PMV calculation unit 227 includes the room temperature grasped by the room temperature grasping unit 221, the humidity grasped by the humidity grasping unit 222, the average radiation temperature estimated by the average radiation temperature estimation unit 223, the airflow velocity estimated by the airflow velocity estimation unit 224, The PMV value is calculated based on the six parameters of the activity amount estimated by the activity amount estimation unit 225 and the clothing amount Cl estimated by the clothing amount estimation unit 226 and the arithmetic expression stored in advance.

The set temperature calculation unit 228 acquires the PMV value calculated by the PMV calculation unit 227, and uses this PMV value and an arithmetic expression stored in advance in a storage area such as a ROM to set the set temperature of the air conditioning target space. Is calculated. And the preset temperature calculation part 228 controls the air conditioner 10 according to the calculated preset temperature, and adjusts the room temperature of air-conditioning object space. That is, the set temperature calculation unit 228 functions as a control unit that controls the operation of the air conditioner 10 so that the temperature is set based on the PMV value calculated by the PMV calculation unit 227.
The user set temperature grasping unit 229 obtains the user set temperature Tu by acquiring the user set temperature Tu from the indoor unit 12 of the air conditioner 10.

Next, the clothing amount estimation unit 226 will be described in detail.
[First embodiment]
The clothing amount estimation unit 226 performs a clothing amount estimation process described below to estimate the clothing amount Cl.
First, the clothing amount estimation unit 226 calculates a reference clothing amount Cb based on the following equation (1).
Cb = f1 (T1) + Oo + Os + Ow (1)
Here, T1 is the room temperature grasped by the room temperature grasping unit 221.
f1 (t) is a function for calculating a base clothing amount serving as a base for the reference clothing amount Cb from room temperature t.
Oo is a correction value based on the outside air temperature, Os is a correction value based on the season, and Ow is a correction value based on the weather. The clothing amount estimation unit 226 can exemplify using the temperature sensor, RTC (Real Time Clock), and a pyranometer provided in the centralized controller 20 to grasp the outside air temperature, season, and weather.

For example, the clothing amount estimation unit 226 substitutes the detected outside air temperature into a control map or a calculation formula indicating the correspondence between the correction value Oo and the outside air temperature, which is created based on an empirical rule and stored in the ROM in advance. Thus, the correction value Oo is calculated. In addition, the clothing amount estimation unit 226, for example, sets the season of the air conditioning target day in a control map or a calculation formula indicating the correspondence between the correction value Os and the season, which is previously created based on an empirical rule and stored in the ROM. By substituting, the correction value Os is calculated. In addition, the clothing amount estimation unit 226, for example, sets the weather on the air-conditioning target day on the control map or the calculation formula indicating the correspondence between the correction value Ow and the weather, which is previously created based on an empirical rule and stored in the ROM. The correction value Ow is calculated by substituting.
Further, f1 (t) can be exemplified as an expression created in advance based on an empirical rule.

After calculating the reference clothing amount Cb, the clothing amount estimation unit 226 determines whether or not the set temperature has been changed by the user. This is a process of determining whether or not the user set temperature grasping unit 229 has grasped the user set temperature Tu. When the user set temperature Tu is grasped, it is determined that the set temperature has been changed by the user. And when changed, based on the user setting temperature Tu grasped by the user setting temperature grasping unit 229 and the following equation (2), the reverse calculation clothing amount Ci is calculated.
Ci = f2 (Tu) (2)
Here, f2 (t) is a function for calculating the reverse clothing amount Ci from the user set temperature Tu.

  When calculating the reverse calculation amount Ci based on the formula (2), the clothing amount estimation unit 226 sets the PMV value to, for example, zero, the user set temperature Tu, the humidity grasped by the humidity grasping unit 222, and the average radiation temperature estimation unit 223. Are used as parameters, the average radiation temperature estimated by, the air velocity estimated by the air velocity estimation unit 224 and the activity estimated by the activity estimation unit 225. It should be noted that the humidity grasped by the humidity grasping unit 222, the average radiation temperature estimated by the average radiation temperature estimation unit 223, the airflow velocity estimated by the airflow velocity estimation unit 224, and the activity amount estimated by the activity amount estimation unit 225 are used as parameters. It can be exemplified that the PMV value used to calculate the room temperature currently set by the set temperature calculation unit 228 is the same as the parameter used by the PMV calculation unit 227 to calculate. Alternatively, the current value may be used. Further, the PMV value may be other value instead of zero.

Thereafter, the clothing amount estimation unit 226 calculates a clothing amount difference Cd (= Ci−Cb), which is a difference between the reference clothing amount Cb and the reverse calculation clothing amount Ci.
Thereafter, the clothing amount estimation unit 226 sets the average value of the clothing amount differences Cd in the plurality of indoor units 12 provided in the same room as the clothing amount correction value Oc in this room. That is, the clothing amount correction value Oc is a value calculated based on the following equation (3).
Oc = Total value of clothing amount difference Cd in a plurality of indoor units 12 provided in the same room / n (3)
n is the number of indoor units 12 provided in the same room.
For example, in calculating the clothing amount correction value Oc in the first room 101, the clothing amount estimation unit 226 calculates the clothing amount difference Cd of each of the four indoor units 12 attached to the first room 101. (When the set temperature is not changed by the user, Cd = zero is calculated), and these are summed and divided by four.

Then, the clothing amount estimation unit 226 estimates a value obtained by adding the clothing amount correction value Oc to the reference clothing amount Cb as the clothing amount Cl (Cl = Cb + Oc).
On the other hand, if the set temperature has not been changed by the user, the clothing amount estimation unit 226 estimates the reference clothing amount Cb as the clothing amount Cl (Cl = Cb).

Next, the procedure of the clothing amount estimation process performed by the clothing amount estimation unit 226 will be described using a flowchart.
FIG. 3 is a flowchart showing the procedure of the clothing amount estimation process performed by the clothing amount estimation unit 226. The clothing amount estimation unit 226 repeatedly executes this clothing amount estimation process for each predetermined period.

  First, the clothing amount estimation unit 226 calculates a reference clothing amount Cb based on the above-described equation (1) (step (hereinafter, simply referred to as “S”) 101). Thereafter, it is determined whether or not the set temperature has been changed by the user (S102). If the set temperature has not been changed by the user (No in S102), the reference clothing amount Cb is estimated as the clothing amount Cl (Cl = Cb) (S103).

  On the other hand, if the set temperature has been changed by the user (Yes in S102), the backward calculation amount Ci is calculated based on the user set temperature Tu grasped by the user set temperature grasping unit 229 and the above-described equation (2) ( S104). Thereafter, the clothing amount estimation unit 226 calculates a clothing amount difference Cd that is a difference between the reference clothing amount Cb calculated in S101 and the reverse operation clothing amount Ci calculated in S104 (S105). Then, the clothing amount estimation unit 226 calculates the clothing amount correction value Oc based on the above-described equation (3) (S106). Then, the clothing amount estimation unit 226 estimates a value obtained by adding the clothing amount correction value Oc calculated in S106 to the reference clothing amount Cb calculated in S101 as the clothing amount Cl (Cl = Cb + Oc) (S107). .

  According to the air conditioning system 1 according to the present embodiment described above, the clothing amount estimation unit 226 performs this clothing amount estimation process, so that areas such as regions where clothing customs are different and whether or not there is a duty to wear clothing, etc. Since the clothing amount correction value Oc corresponding to the characteristics of the indoor environment is calculated and used, the clothing amount Cl can be estimated with high accuracy. That is, the clothing amount estimation unit 226 performs the clothing amount estimation process, so that the error of the clothing amount Cl due to the difference in the clothing amount characteristics depending on the regional characteristics or the characteristics of the indoor environment can be automatically corrected. As a result, the PMV calculation unit 227 can calculate the PMV value with high accuracy, and the set temperature calculation unit 228 sets the temperature at which both user comfort and energy saving can be achieved.

Once the clothing amount correction value Oc is calculated, the clothing amount correction value Oc may be taken into account when calculating the reference clothing amount Cb thereafter. That is, instead of calculating the reference clothing amount Cb based on the above-described equation (1), the reference clothing amount Cb may be calculated using the following equation (1) ′.
Cb = f1 (T1) + Oo + Os + Ow + Oc (1) ′
Thereby, since the reference clothing amount Cb is calculated with high accuracy, it is considered that the user has less chance to change the set temperature via the remote controller 13. As a result, it is possible to realize air conditioning that can achieve both user comfort and energy saving without the user's operation via the remote controller 13.

[Second Embodiment]
In the first embodiment described above, once the clothing amount correction value Oc is calculated, the same clothing amount correction value is used when estimating the clothing amount Cl for determining the set temperature of the indoor unit 12 attached to the same room. Although Oc is used, it is not particularly limited to such an embodiment. The clothing amount estimation unit 226 according to the second embodiment calculates the clothing amount correction value Oc for each arbitrarily divided room temperature range, and uses the clothing amount correction value Oc according to the room temperature in the first embodiment. It differs from the clothing amount estimation part 226 which concerns.

The clothing amount estimation unit 226 according to the second embodiment calculates an average value of the clothing amount difference Cd in the indoor units 12 corresponding to the same room temperature among the plurality of indoor units 12 provided in the same room. The clothing amount correction value Oc in the same room temperature segment. For example, the temperature detected by the temperature sensors 121 provided in the two indoor units 12 out of the four indoor units 12 attached to the first room 101 is a temperature of 25 ° C. or higher and lower than 26 ° C. When the temperature detected by the temperature sensors 121 provided in the two indoor units 12 is a temperature of 26 ° C. or higher and lower than 27 ° C., a clothing amount correction value Oc1 corresponding to a room temperature of 25 ° C. or higher and lower than 26 ° C., 26 A clothing amount correction value Oc2 corresponding to a room temperature not lower than 27 ° C. is calculated.
Oc1 = (Total value of clothing amount difference Cd in the indoor unit 12 having a temperature of 25 ° C. or more and less than 26 ° C. among the indoor units 12 attached to the first room 101) / 2
Oc2 = (Total value of clothing amount difference Cd in the indoor unit 12 having a temperature detected by the temperature sensor 121 of 26 ° C. or higher and lower than 27 ° C./2 of the indoor units 12 attached to the first room 101)

  And the clothing amount estimation part 226 calculates the clothing amount Cl of the indoor unit 12 whose temperature detected by the temperature sensor 121 is 25 ° C. or more and less than 26 ° C. among the indoor units 12 attached to the first room 101. A value obtained by adding the clothing amount correction value Oc1 to the reference clothing amount Cb is estimated (Cl = Cb + Oc1). Similarly, among the indoor units 12 attached to the first room 101, the clothing amount Cl of the indoor unit 12 whose temperature detected by the temperature sensor 121 is 26 ° C. or higher and lower than 27 ° C. is applied to the reference clothing amount Cb. A value obtained by adding the amount correction value Oc2 is estimated (Cl = Cb + Oc2).

  In this way, by calculating the clothing amount correction value Oc for each room temperature range that is arbitrarily divided, the characteristics of the clothing amount that varies depending on the room temperature can be taken into account, so that the clothing amount Cl can be estimated with higher accuracy and more comfortable. The accuracy of sex evaluation is improved. Therefore, the energy saving effect can be expanded.

[Third embodiment]
The clothing amount estimation unit 226 according to the third embodiment stores a clothing amount correction value Oc for each outside air temperature range that is arbitrarily divided, and uses the clothing amount correction value Oc according to the outside air temperature to store the clothing amount Cl. Is different from the clothing amount estimation unit 226 according to the first embodiment.
That is, the clothing amount estimation unit 226 according to the third embodiment associates the clothing amount correction value Oc with the outside air temperature when the clothing amount correction value Oc is calculated (which may be an arbitrarily divided outside air temperature range). And remember. Then, when calculating the reference clothing amount Cb using the above-described equation (1) ′, the clothing amount estimation unit 226 uses the clothing amount correction value Oc corresponding to the outside air temperature at that time.

  Thus, by calculating and storing the clothing amount correction value Oc for each outside air temperature (an outside air temperature range that is arbitrarily divided), the characteristics of the clothing amount that varies depending on the outside air temperature can be considered. It is possible to estimate with higher accuracy, and the accuracy of comfort evaluation is further improved. Therefore, the energy saving effect can be expanded.

[Fourth embodiment]
The clothing amount estimation unit 226 according to the fourth embodiment stores a clothing amount correction value Oc for each date or season, and estimates the clothing amount Cl using the clothing amount correction value Oc corresponding to the date or season. The point is different from the clothing amount estimation unit 226 according to the first embodiment.
That is, the clothing amount estimation unit 226 according to the fourth embodiment stores the clothing amount correction value Oc and the date or season when the clothing amount correction value Oc is calculated in association with each other. The clothing amount estimation unit 226 uses the clothing amount correction value Oc corresponding to the date or season at the time of calculating the reference clothing amount Cb using the above-described equation (1) ′.

  In this way, by calculating and storing the clothing amount correction value Oc for each date or season, it is possible to consider the characteristics of the clothing amount that varies depending on the date or season, so that the clothing amount Cl can be estimated with higher accuracy. This improves the accuracy of comfort evaluation. Therefore, the energy saving effect can be expanded.

[Fifth embodiment]
The clothing amount estimation unit 226 according to the fifth embodiment stores a clothing amount correction value Oc for each weather such as fine weather, cloudy weather, and rainy weather, and uses the clothing amount correction value Oc according to the weather to apply the clothing amount Cl. Is different from the clothing amount estimation unit 226 according to the first embodiment.
That is, the clothing amount estimation unit 226 according to the fifth embodiment stores the clothing amount correction value Oc in association with the weather when the clothing amount correction value Oc is calculated. Then, when calculating the reference clothing amount Cb using the above-described equation (1) ′, the clothing amount estimating unit 226 uses the clothing amount correction value Oc corresponding to the weather at that time.

  In this way, by calculating and storing the clothing amount correction value Oc for each weather, it is possible to consider the characteristics of the clothing amount that varies depending on the weather, so that the clothing amount Cl can be estimated with higher accuracy and more comfortable. The accuracy of sex evaluation is improved. Therefore, the energy saving effect can be expanded.

<Second Embodiment>
Next, the centralized controller 20 according to the second embodiment will be described.
The centralized controller 20 according to the second embodiment is different from the centralized controller 20 according to the first embodiment in the average radiation temperature estimation unit 223.
Hereinafter, the average radiation temperature estimation unit 223 of the centralized controller 20 according to the second embodiment will be described.

[First embodiment]
The average radiation temperature estimation unit 223 according to the first embodiment performs an average radiation temperature estimation process described below to estimate the average radiation temperature Tr.
The average radiation temperature estimation unit 223 first sets a reference average radiation temperature Tb. This process is a process of setting the room temperature grasped by the room temperature grasping unit 221 as the reference average radiation temperature Tb.

Thereafter, the average radiation temperature estimation unit 223 determines whether or not the set temperature has been changed by the user. This is a process of determining whether or not the user set temperature grasping unit 229 has grasped the user set temperature Tu. When the user set temperature Tu is grasped, it is determined that the set temperature has been changed by the user. And when it changes, the back calculation average radiation temperature Ti is calculated based on the user setting temperature Tu which the user setting temperature grasping part 229 grasped, and the following formulas (4).
Ti = f3 (Tu) (4)
Here, f3 (t) is a function for calculating the reverse calculation average radiation temperature Ti from the user set temperature Tu.

  The average radiant temperature estimating unit 223 sets the PMV value to, for example, zero when calculating the back-calculated average radiant temperature Ti based on the equation (4), and the humidity and airflow velocity estimating unit grasped by the user set temperature Tu and the humidity grasping unit 222. The airflow velocity estimated by 224, the activity amount estimated by the activity amount estimation unit 225, and the clothing amount Cl estimated by the clothing amount estimation unit 226 are used as parameters. It should be noted that the humidity that is grasped by the humidity grasping unit 222, the airflow velocity that is estimated by the airflow velocity estimation unit 224, and the activity amount that is estimated by the activity amount estimation unit 225, which are used as parameters, are the room temperature currently set by the set temperature calculation unit 228. It can be exemplified that the PMV value used to calculate the value is the same as the parameter used by the PMV calculation unit 227 to calculate. Alternatively, the current value may be used. As the clothing amount Cl estimated by the clothing amount estimation unit 226, the latest value estimated by the method described in the section of the first embodiment described above is used. Further, the PMV value may be other value instead of zero.

Thereafter, the average radiation temperature estimation unit 223 calculates an average radiation temperature difference Td (= Ti−Tb) that is a difference between the reference average radiation temperature Tb and the reverse calculation average radiation temperature Ti.
Thereafter, the average radiation temperature estimation unit 223 sets the average radiation temperature difference Td as the average radiation temperature correction value Or in the indoor unit 12.

Then, the average radiation temperature estimation unit 223 estimates a value obtained by adding the average radiation temperature correction value Or to the reference average radiation temperature Tb as the average radiation temperature Tr (Tr = Tb + Or).
On the other hand, when the set temperature is not changed by the user, the average radiation temperature estimation unit 223 estimates the reference average radiation temperature Tb as the average radiation temperature Tr (Tr = Tb).

Next, the procedure of the average radiation temperature estimation process performed by the average radiation temperature estimation unit 223 will be described using a flowchart.
FIG. 4 is a flowchart showing the procedure of the average radiation temperature estimation process performed by the average radiation temperature estimation unit 223. The average radiation temperature estimation unit 223 repeatedly executes this average radiation temperature estimation process every predetermined period.

  The average radiation temperature estimation unit 223 first sets a reference average radiation temperature Tb (S201). Thereafter, it is determined whether or not the set temperature has been changed by the user (S202). If the set temperature has not been changed by the user (No in S202), the reference average radiation temperature Tb is estimated as the average radiation temperature Tr (Tr = Tb) (S203).

  On the other hand, when the set temperature has been changed by the user (Yes in S202), the back-calculated average radiation temperature Ti is calculated based on the user set temperature Tu grasped by the user set temperature grasping unit 229 and the above-described equation (4). (S204). Thereafter, the average radiation temperature estimation unit 223 calculates an average radiation temperature difference Td that is a difference between the reference average radiation temperature Tb calculated in S201 and the reverse calculation average radiation temperature Ti calculated in S204 (S205). Then, the average radiation temperature estimation unit 223 sets the average radiation temperature difference Td calculated in S205 as the average radiation temperature correction value Or (S206). Then, the average radiation temperature estimation unit 223 estimates a value obtained by adding the average radiation temperature correction value Or calculated in S206 to the reference average radiation temperature Tb calculated in S201 as an average radiation temperature Tr (Tr = Tb + Or). (S207).

  According to the air conditioning system 1 according to the present embodiment described above, the average radiation temperature estimation unit 223 performs this average radiation temperature estimation process, so that the average radiation temperature correction value according to the difference in the installation position of the indoor unit 12. Since Or is calculated and used, the average radiation temperature Tr can be estimated with high accuracy. That is, the average radiation temperature estimation unit 223 performs the average radiation temperature estimation process, so that the characteristics of the installation position of the indoor unit 12 in the room, for example, the distance between the indoor unit 12 and the window, the size of the window, and the like. The error of the average radiation temperature Tr due to the difference in the installation positions of the indoor units can be automatically corrected. As a result, the PMV calculation unit 227 can calculate the PMV value with high accuracy, and the set temperature calculation unit 228 sets the temperature at which both user comfort and energy saving can be achieved.

Once the average radiation temperature correction value Or is calculated, the average radiation temperature correction value Or may be taken into account when calculating the average radiation temperature Tr thereafter. That is, when setting the reference average radiation temperature Tb, instead of setting the room temperature grasped by the room temperature grasping unit 221 as the reference average radiation temperature Tb, the reference average radiation temperature Tb is expressed using the following equation (5). Should be calculated.
Tb = Room temperature grasped by the room temperature grasping unit 221 + Or (5)
Thereby, since the reference average radiation temperature Tb is set with high accuracy, it is considered that the user has less chance to change the set temperature via the remote controller 13. As a result, it is possible to realize air conditioning that can achieve both user comfort and energy saving without the user's operation via the remote controller 13.

[Second Embodiment]
The average radiation temperature estimation unit 223 according to the second embodiment stores an average radiation temperature correction value Or for each difference between the outside air temperature and the room temperature (the range of the difference between the outside air temperature and the room temperature arbitrarily divided). The point that estimates the average radiation temperature Tr using the average radiation temperature correction value Or according to the difference between the outside air temperature and the room temperature is different from the average radiation temperature estimation unit 223 according to the first embodiment.
That is, the average radiation temperature estimation unit 223 according to the second embodiment calculates the average radiation temperature correction value Or and the difference between the outside air temperature and the room temperature when the average radiation temperature correction value Or is calculated (an arbitrarily divided outside temperature). The range of the difference between the temperature and the room temperature) is stored in association with each other. Then, when calculating the reference average radiation temperature Tb using the above-described equation (5), the average radiation temperature estimation unit 223 calculates the average radiation temperature correction value Or corresponding to the difference between the outside air temperature and the room temperature at that time. Use.

  Thus, by calculating and storing the average radiation temperature correction value Or for each difference between the outside air temperature and the room temperature, it is possible to consider the characteristics of the mean radiation temperature Tr that varies depending on the outside air temperature. It is possible to estimate with higher accuracy, and the accuracy of comfort evaluation is further improved. Therefore, the energy saving effect can be expanded.

[Third embodiment]
The average radiant temperature estimation unit 223 according to the third embodiment stores an average radiant temperature correction value Or for each weather such as fine weather, cloudy weather, and rainy weather, and uses the average radiant temperature correction value Or according to the weather. The point which estimates average radiation temperature Tr differs from the average radiation temperature estimation part 223 which concerns on a 1st Example.
That is, the average radiation temperature estimation unit 223 according to the third embodiment stores the average radiation temperature correction value Or and the weather when the average radiation temperature correction value Or is calculated in association with each other. Then, the average radiation temperature estimation unit 223 uses the average radiation temperature correction value Or corresponding to the weather at that time when calculating the reference average radiation temperature Tb using the above-described equation (5).

  Thus, by calculating and storing the average radiation temperature correction value Or for each weather, it is possible to consider the characteristics of the average radiation temperature Tr that varies depending on the weather, so that the average radiation temperature Tr can be estimated with higher accuracy. This improves the accuracy of comfort evaluation. Therefore, the energy saving effect can be expanded.

In the first embodiment and the second embodiment described above, PMV is used as an index of indoor comfort, but the comfort index is not limited to PMV. For example, other comfort indices such as SET ^* may be used.
In the first embodiment and the second embodiment described above, the control unit 22 of the centralized controller 20 that controls the plurality of air conditioners 10 determines that the temperature of the air-conditioning target space is the clothing amount Cl or the average radiation temperature Tr. It functions as a control means for controlling the operation of the indoor unit 12 as an example of the air conditioning means so as to have a temperature set based on a comfort index calculated from a plurality of parameters including. However, the outdoor unit control unit 112 of the outdoor unit 11 and the indoor unit control unit 124 of the indoor unit 12 may perform this function.

<Description of the program>
The processing performed by the centralized controller 20 according to the first embodiment and the second embodiment described above is prepared as a program such as application software, for example.
Therefore, the processing performed by the centralized controller 20 determines the reference value in the computer according to a predetermined procedure, and if the user existing in the air conditioning target space has not changed the temperature setting of the air conditioning target space, When the reference value is estimated as the user's clothing amount Cl and the user changes the temperature setting, a value obtained by correcting the reference value based on the temperature set by the user is estimated as the clothing amount Cl. Air that harmonizes the air in the air-conditioning target space so that the function and the temperature of the air-conditioning target space become a temperature set based on a comfort index calculated from a plurality of parameters including the estimated clothing amount Cl It can also be understood as a program for realizing the function of controlling the operation of the conditioner 10 (the outdoor unit 11 and the indoor unit 12).

  The program for realizing the first embodiment and the second embodiment can be provided not only by communication means but also stored in a recording medium such as a CD-ROM.

DESCRIPTION OF SYMBOLS 1 ... Air conditioning system, 10 ... Air conditioner, 11 ... Outdoor unit, 12 ... Indoor unit, 13 ... Remote control, 20 ... Central controller, 21 ... Communication part, 22 ... Control part, 223 ... Average radiation temperature estimation part, 226 ... Clothing amount estimation unit, 227 ... PMV calculation unit, 228 ... set temperature calculation unit, 229 ... user set temperature grasping unit

Claims (5)

Air conditioning means for harmonizing the air in the air-conditioned space;
A reference value is determined according to a predetermined procedure, and when the user existing in the air-conditioning target space has not changed the setting of the temperature of the air-conditioning target space, the reference value is estimated as the user's clothing amount, When the user changes the temperature setting, a clothing amount estimation unit that estimates a value obtained by correcting the reference value based on the temperature set by the user as the clothing amount;
The operation of the air conditioning means is controlled so that the temperature of the air-conditioning target space becomes a temperature set based on a comfort index calculated from a plurality of parameters including the clothing amount estimated by the clothing amount estimating means. Control means to
An air conditioning system comprising: The clothing amount estimation means uses the temperature set by the user as one parameter and sets the difference between the back-calculated value, which is the value of the clothing amount when the comfort index is a predetermined value, and the reference value. The air conditioning system according to claim 1, wherein the reference value is corrected based on the air conditioning system. When there are a plurality of air conditioning units in the air-conditioning target space, the clothing amount estimation unit is configured to determine the reference based on an average value of the difference between the back-calculated value and the reference value in the plurality of air conditioning units. The air conditioning system according to claim 2, wherein the value is corrected. When the reference average radiation temperature is determined according to a predetermined procedure and the user has not changed the setting of the temperature of the air-conditioning target space, the reference average radiation temperature is estimated as the average radiation temperature, and the user In the case of changing the setting of the above, it further comprises an average radiation temperature estimating means for estimating a value obtained by correcting the reference average radiation temperature based on the temperature set by the user as the average radiation temperature,
The air conditioning system according to any one of claims 1 to 3, wherein the control unit uses the average radiation temperature estimated by the average radiation temperature estimation unit as the parameter. On the computer,
In addition to determining a reference value according to a predetermined procedure, if the user existing in the air-conditioning target space has not changed the temperature setting of the air-conditioning target space, the reference value is estimated as the user's clothing amount, When the user changes the temperature setting, a function for estimating the clothing amount as a value obtained by correcting the reference value based on the temperature set by the user;
Actuation of air conditioning means for conditioning the air in the air-conditioning target space so that the temperature of the air-conditioning target space becomes a temperature set based on a comfort index calculated from a plurality of parameters including the estimated amount of clothing The ability to control
A program to realize

Images