JP2020180744A - Air conditioning management server, air conditioning management method and air conditioning management program - Google Patents

Abstract

To provide an air conditioning management server that creates an air conditioning environment that is comfortable for a user.SOLUTION: An air conditioning management server 101 includes: an evaluation acquisition unit 110 for acquiring a temperature evaluation that is input by each of the users of multiple user terminals arranged in a space of which temperature is managed by an air conditioner from each of the multiple user terminals; and a comfortable temperature zone setting unit 120 for setting a comfortable temperature zone on the basis of the temperature evaluation.SELECTED DRAWING: Figure 4

Description

The present invention relates to an air conditioning management server, an air conditioning management method, and an air conditioning management program.

When managing air conditioning in a space such as an office, it is preferable that the environment is comfortable for the people (users) in the space. By reflecting the user's requirements for the environment, management may be performed to create a comfortable environment. Patent Document 1 describes an environmental equipment control system for creating a comfortable environment by reflecting the demands of users in the space without increasing the number of sensors in the space and increasing the burden on the administrator. There is.

Japanese Patent No. 4487550

When air-conditioning management is performed by directly associating the user's request with the equipment setting, the air-conditioning device setting changes from moment to moment until the optimum value that satisfies the user's request for the air-conditioning environment is obtained. .. Changes in the settings of the air conditioner may induce new demands from the user. In that case, the stability of the air-conditioning environment is lowered by performing the air-conditioning management again. In that case, it may take time to control the air-conditioning environment so as to be comfortable for the user. Therefore, during that time, it may not be possible to provide a comfortable environment for the user.

Therefore, an object of the present invention is to provide an air conditioning management server that creates a comfortable air conditioning environment for the user.

The air-conditioning management server according to one aspect of the present invention acquires a temperature evaluation input by each user of a plurality of computers arranged in a space where the temperature is controlled by the air-conditioning equipment from each of the plurality of computers. It includes an acquisition unit and a comfortable temperature zone setting unit that sets a comfortable temperature zone based on the temperature evaluation.

According to this aspect, the air conditioning management server acquires the temperature evaluation from the user in the space by the evaluation acquisition unit, and sets the comfortable temperature zone based on the temperature evaluation. The air conditioner controls the air conditioner so that the air temperature in the space is located within the comfortable temperature zone. By having the air conditioner control the air conditioning based on the comfortable temperature zone set by reflecting the temperature evaluation from a plurality of users, it is possible to create a comfortable air conditioning environment for the user.

In the above aspect, the temperature evaluation may include a first temperature evaluation performed when it is hot and a second temperature evaluation performed when it is cold.

In the above aspect, the comfortable temperature zone setting unit may set the comfortable temperature zone based on the number of first temperature evaluations and the number of second temperature evaluations.

In the above aspect, the evaluation acquisition unit sets the comfortable temperature zone based on the number of first temperature evaluations and the number of second temperature evaluations acquired at predetermined first time intervals, and the evaluation acquisition unit sets the comfortable temperature zone at the first time interval. Comfortable temperature zones may be set at longer second time intervals.

In the above aspect, when the number of the first temperature evaluation is larger than the number of the second temperature evaluation, the comfortable temperature zone setting unit lowers the maximum value of the comfortable temperature zone, and the number of the first temperature evaluation is the second. If the number is less than the number of temperature evaluations, the comfortable temperature zone may be set so as to raise the minimum value of the comfortable temperature zone.

In the above aspect, the comfortable temperature zone setting unit may set the comfortable temperature zone so that the zone width, which is the difference between the maximum value and the minimum value, is within the range of the predetermined upper limit value and lower limit value.

In the above embodiment, the comfortable temperature zone setting unit reduces the minimum value by the same amount as the decrease amount of the maximum value when lowering the maximum value, and increases the maximum value by the same amount as the increase amount of the minimum value when increasing the minimum value. As such, the comfortable temperature zone may be set.

In the above embodiment, the temperature information acquisition unit that acquires the terminal temperature information including the CPU temperature of each of the plurality of computers from each of the plurality of computers, and the temperature around each of the plurality of computers based on the terminal temperature information. A temperature estimation unit for calculating an estimated temperature, which is an estimated value, may be further provided.

In the above aspect, the terminal temperature information may include the type of computer CPU and the computer CPU usage rate.

In the above aspect, a sensor information acquisition unit for acquiring the measured air temperature by a temperature sensor provided in the space is further provided, and the comfortable temperature zone setting unit is a comfortable temperature zone based on the estimated air temperature, the measured air temperature, and the temperature evaluation. May be set.

In the above aspect, the temperature estimation unit further includes a storage unit for storing the machine-learned temperature estimation model using the terminal temperature information and the measured value of the air temperature when the terminal temperature information is acquired as teacher data. The estimated temperature may be calculated by the temperature estimation model.

In the above aspect, the temperature information acquisition unit acquires the startup time elapsed since the computer is started, and the temperature estimation unit calculates the estimated temperature by the terminal temperature information and the temperature estimation model defined in advance as a function of time. You may.

In the above embodiment, a space map screen is displayed on the computer screen, and information on the user's position, estimated temperature, and temperature evaluation by a user different from the user are superimposed and displayed on the map screen. May be further prepared.

In the above aspect, the other person evaluation display unit may display the temperature evaluation by the user on the map screen corresponding to the position of a different user.

In the above embodiment, a map screen of the space is displayed on the computer screen of the manager of the air conditioner, and information on the estimated temperature, temperature evaluation by a plurality of users, and each of the air conditioner can manage the temperature on the map screen. A management screen display unit that displays a range on top of each other may be further provided.

In the above aspect, the management screen display unit may display the temperature evaluation by the plurality of users on the map screen corresponding to the respective positions of the plurality of users.

In the air-conditioning management method according to one aspect of the present invention, the air-conditioning management server evaluates the temperature input by each user of a plurality of computers arranged in a space where the temperature is controlled by the air-conditioning equipment. It includes an evaluation acquisition step acquired from each and a comfortable temperature zone setting step for setting a comfortable temperature zone based on the temperature evaluation.

In the air-conditioning management program according to one aspect of the present invention, the temperature evaluation input by each user of a plurality of computers arranged in a space where the temperature is controlled by the air-conditioning equipment is applied to the air-conditioning management server. The evaluation acquisition unit acquired from each and the comfortable temperature zone setting unit that sets the comfortable temperature zone based on the temperature evaluation are realized.

According to the present invention, it is possible to provide an air conditioning management server that creates a comfortable air conditioning environment for the user.

It is a block diagram of the system which used the air-conditioning management server which concerns on this embodiment. It is a top view of the space where air conditioning management is performed in an embodiment. It is a figure which shows an example of a comfortable temperature zone. It is a block diagram of the air conditioning management server which concerns on this embodiment. It is a sequence diagram of the system using the air conditioning management server which concerns on this embodiment. It is a figure which shows the correlation between the air temperature in a space, and the CPU temperature of a computer. It is a flowchart of calculation of the estimated temperature by the temperature estimation model. This is an example of a temperature estimation model used to calculate the estimated temperature. This is another example of a temperature estimation model used to calculate the estimated temperature. It is a flowchart of calculation of the estimated temperature by the temperature estimation model. It is a figure explaining the air-conditioning management by the air-conditioning management server which concerns on this embodiment. It is a figure explaining the air-conditioning management by the air-conditioning management server which concerns on this embodiment. It is a flowchart explaining the setting of the comfortable temperature zone by the air-conditioning management server which concerns on this embodiment. It is a figure which shows an example of the input screen of the temperature evaluation by a user. It is a figure explaining the air-conditioning management by the air-conditioning management server which concerns on this embodiment. It is a flowchart explaining another example of setting of a comfortable temperature zone by an air conditioning management server which concerns on this embodiment. It is a figure explaining another example of the air-conditioning management by the air-conditioning management server which concerns on this embodiment. It is a flowchart of a process which displays information such as an estimated temperature on a user terminal. This is an example of a screen that displays information such as an estimated temperature on a user terminal. It is a flowchart of the process which displays the information such as the estimated temperature on the terminal of the manager of an air conditioner. This is an example of a screen that displays information such as the estimated temperature on the terminal of the manager of the air conditioner.

Preferred embodiments of the present invention will be described with reference to the accompanying drawings. (In addition, in each figure, those having the same reference numerals have the same or similar configurations.)

FIG. 1 shows a configuration diagram of an air conditioning management system 10 using the air conditioning management server 101 according to the present embodiment. The air conditioning management system 10 includes an air conditioning management server 101, a user terminal 201, an administrator terminal 202, an air conditioning device 301, and a temperature sensor 401.

The air conditioning management server 101 can communicate with the user terminal 201, the administrator terminal 202, and the air temperature sensor 401 via the network N. The user terminal 201 and the administrator terminal 202 are, for example, desktop personal computers. Alternatively, it may be a portable computer such as a notebook personal computer or a tablet terminal.

As shown in FIG. 2, a plurality of user terminals 201 are arranged inside the space S. The user U of each user terminal 201 uses the user terminal 201.

The air conditioner 301 is a device for managing the air conditioning of the space S. The ranges A1, A2, and A3 in which the air conditioner 301 can control the air temperature are shown, respectively. The air conditioner 301 manages the air conditioning in the respective ranges A1, A2, and A3. The air conditioner 301 may be composed of one device or a plurality of devices.

A plurality of air temperature sensors 401 are arranged inside the space S. The air temperature sensor 401 can measure the air temperature around the air temperature sensor 401.

In this embodiment, the management of air conditioning is performed based on the comfortable temperature zone CZ. The comfortable temperature zone CZ will be described with reference to FIG. The comfortable temperature zone CZ is a temperature region in which the user U in the space S feels that the temperature environment of the surrounding environment is comfortable. FIG. 3 shows the transition of the reference value of the comfortable temperature zone CZ over the year.

The reference value of the comfortable temperature zone CZ has a maximum value Tmax and a minimum value Tmin. The maximum value Tmax and the minimum value Tmin are set to values suitable for each period throughout the year. For example, the maximum value Tmax and the minimum value Tmin in August in summer are higher than the maximum value Tmax and the minimum value Tmin in February in winter.

The air conditioner 301 is controlled so that the air temperature in the space S is located in the comfortable temperature zone CZ. The control of the air conditioner 301 will be described later.

The air conditioning management server 101 according to the present embodiment will be described with reference to the block diagram of FIG. The air conditioning management server 101 includes an evaluation acquisition unit 110, a comfortable temperature zone setting unit 120, a temperature information acquisition unit 130, a sensor information acquisition unit 140, a temperature estimation unit 150, a storage unit 160, an input screen display unit 170, and another person's evaluation display unit. It has 180 and a management screen display unit 190. Each part shown in FIG. 4 can be realized, for example, by using a storage area such as a memory in the air conditioning management server 101 or by executing a program stored in the storage area by a processor.

The evaluation acquisition unit 110 acquires the temperature evaluation by the user U in the space S by a procedure described later. The comfortable temperature zone setting unit 120 sets the comfortable temperature zone CZ based on the reference value of the comfortable temperature zone CZ for each period recorded in the temperature evaluation or the storage unit 160 acquired by the evaluation acquisition unit 110.

The temperature information acquisition unit 130 acquires the terminal temperature information of each user terminal 201 from each user terminal 201. The terminal temperature information is, for example, information regarding the CPU temperature. The information regarding the CPU temperature includes information such as the maximum CPU temperature. The sensor information acquisition unit 140 acquires the measured air temperature measured by the air temperature sensor 401 from the air temperature sensor 401 arranged in the space S.

The air temperature estimation unit 150 estimates the ambient temperature of each user U in the space S based on the terminal temperature information or the measured air temperature. The method of estimating the temperature will be described later.

The storage unit 160 stores information on the reference value of the comfort temperature zone CZ, information used for estimating the temperature by the temperature estimation unit 150, and map information of the space S.

The input screen display unit 170 generates a screen for inputting the temperature evaluation by the user U and displays it on each screen of the user terminal 201.

The other user evaluation display unit 180 displays the position of each user U, the temperature at each point, and the temperature evaluation by the other user U on the screen of each user terminal 201.

The management screen display unit 190 displays information used for managing the air conditioner 301 on the screen of the administrator terminal 202.

The air conditioning management for the range A1 by the air conditioning management system 10 will be described. The outline will be described with reference to the sequence diagram of FIG. Here, a case based on the information from the two user terminals 201 arranged in the range A1 will be described. The number of user terminals 201 may be more than two, or may be one.

In step S101, the air conditioning management server 101 sets the initial value of the comfortable temperature zone CZ. In step S102, the initial value of the comfortable temperature zone CZ is transmitted from the air conditioning management server 101 to the administrator terminal 202.

In step S103, the set temperature Tset of the air conditioning device 301 set based on the comfortable temperature zone CZ is transmitted from the administrator terminal 202 to the air conditioning management server 101. The set temperature Tset is stored in the storage unit 160 of the air conditioning management server 101.

In steps S104 and S105, the respective terminal temperature information is transmitted from the two user terminals 201 to the air conditioning management server 101.

In step S106, the air conditioning management server 101 estimates the estimated air temperature Ta based on the respective terminal temperature information. The estimated air temperature Ta is used as the air temperature in range A1. In step S107, the estimated temperature Ta is transmitted from the air conditioning management server 101 to the administrator terminal 202.

In steps S108 and S109, the air conditioning management server 101 transmits input screen information including the set temperature Tset to each of the user terminals 201.

In steps S110 and S111, the air conditioning management server 101 acquires the air conditioning evaluation from each of the user terminals 201.

In step S112, the air conditioning management server 101 aggregates the air conditioning evaluations. In step S113, the air conditioning management server 101 sets the comfortable temperature zone CZ changed based on the air conditioning evaluation.

In step S114, the changed comfortable temperature zone CZ is transmitted from the air conditioning management server 101 to the administrator terminal 202. After that, the air conditioning management system 10 repeats the processes from step S103 to step S114 to perform air conditioning management.

In step S101, the air conditioning management server 101 sets the initial value of the comfortable temperature zone CZ when the comfortable temperature zone setting unit 120 acquires the information of the reference value of the comfortable temperature zone CZ stored in the storage unit 160 and each time. This is done by setting an appropriate initial value for.

The set temperature Tset is set by the administrator based on the information regarding the comfortable temperature zone CZ. The administrator transmits the set temperature Tset to the air conditioner 301 using an external device such as a remote controller. When the air conditioner 301 is connected to the network N, the administrator may be able to transmit the set temperature Tset to the air conditioner 301 via the network N.

The air conditioning device 301 performs air conditioning control so that the air temperature in the area A approaches the set temperature Tset. A known method can be used for air conditioning control based on the set temperature Tset by the air conditioning device 301.

With reference to FIGS. 6 to 9, the estimation of the estimated air temperature Ta by the air temperature estimation unit 150 in the air conditioning management server 101 will be described.

The estimated air temperature Ta is calculated based on the correlation between the maximum CPU temperature and the air temperature in the user terminal 201. FIG. 6 shows an example of the correlation. The horizontal axis of FIG. 6 is the air temperature around the user U who uses the user terminal 201, and the vertical axis is the maximum CPU temperature of the computer. FIG. 6 is a scatter plot showing the ambient air temperature of the user U and the corresponding maximum CPU temperature. In this scatter plot, the correlation between the ambient air temperature and the maximum CPU temperature can be obtained by performing regression analysis.

In FIG. 6, the regression line obtained as a result of obtaining the correlation between the ambient temperature and the maximum CPU temperature by a simple regression analysis using the ambient temperature of the user U as the objective variable and the maximum CPU temperature as the explanatory variable is a straight line L. Shown as. The temperature around the user U can be calculated from the maximum CPU temperature by the straight line L.

Further, in the regression analysis, terminal temperature information other than the CPU temperature and the measured air temperature from the sensor information acquisition unit 140 may be added as explanatory variables, and multiple regression analysis may be performed with the temperature around the user U as the objective variable. The terminal temperature information includes, for example, the CPU type and the CPU usage rate in addition to the CPU temperature.

In both the simple regression analysis and the multiple regression analysis, the storage unit 160 uses the terminal temperature information and the measured value of the ambient temperature of the user U when the terminal temperature information is acquired as teacher data for machine learning. The temperature estimation model is stored.

The estimation of the ambient temperature of the user U is performed according to the flowchart shown in FIG. In step S201, the temperature information acquisition unit 130 acquires terminal temperature information including the CPU temperature, CPU type, and CPU usage rate from the user terminal 201.

In step S202, the temperature estimation unit 150 determines whether or not to use the simple regression model by the simple regression analysis as the temperature estimation model.

If an affirmative decision is made in step S202, in step S213, the temperature estimation unit 150 has been machine-learned using the actually measured values of the CPU temperature and the temperature around the user U when the CPU temperature is acquired as teacher data. Select a temperature estimation model.

If a negative determination is made in step S202, in step S223, the temperature estimation unit 150 when the CPU temperature, CPU type, CPU usage rate and measured temperature and CPU temperature, CPU type, CPU usage rate and measured temperature are acquired. A machine-learned trained temperature estimation model is selected using the measured value of the ambient temperature of the user U as training data.

In step S204, the air temperature estimation unit 150 estimates the ambient temperature of each user U from the selected air temperature estimation model.

In step S205, the air temperature estimation unit 150 determines whether or not to use the measured air temperature in estimating the estimated air temperature Ta.

If a positive determination is made in step S205, the sensor information acquisition unit 140 acquires the measured air temperature from the air temperature sensor 401 in step S216.

In step S217, the air temperature estimation unit 150 estimates the estimated air temperature Ta as the average value of the ambient air temperature and the measured air temperature of each user U.

If a negative determination is made in step S205, in step S227, the air temperature estimation unit 150 estimates the estimated air temperature Ta as the average value of the ambient air temperature of each user U.

The temperature estimation unit 150 may use a predetermined temperature estimation model instead of using the machine-learned temperature estimation model. FIG. 8 shows the relationship between the startup time elapsed since the user terminal 201 was started and the CPU temperature. FIG. 9 shows the relationship between the CPU usage rate and the CPU temperature. Based on these relationships, the CPU temperature can be calculated from the startup time and CPU usage. By further adding the CPU type information, the calculation accuracy of the CPU temperature can be improved.

The ambient temperature of each user U is estimated by applying the relationship between the CPU temperature calculated based on the model shown in FIGS. 8 and 9 and the ambient temperature of the user U to the pre-defined model. it can.

FIG. 10 shows a flowchart of estimation of the estimated temperature Ta by a predetermined temperature estimation model. In step S301, the temperature information acquisition unit 130 acquires the CPU type, the CPU usage rate, and the time from the start of the terminal from the user terminal 201. In step S302, the temperature information acquisition unit 130 acquires the correction value for each terminal stored in advance in the storage unit 160 from the storage unit 160.

In step S303, the air temperature estimation unit 150 estimates the ambient temperature of each user U as a function of the CPU type, the CPU usage rate, the startup time, and the correction value for each terminal.

In step S304, the air temperature estimation unit 150 estimates the estimated air temperature Ta as the average value of the ambient air temperature of each user U.

Similar to the process shown in the flowchart of FIG. 7, the measured air temperature may be used in estimating the estimated air temperature Ta.

The set temperature Tset of the air conditioner 301 is set via the administrator terminal 202 based on the estimated air temperature Ta calculated by the air temperature estimation unit 150 described above by the air temperature estimation model.

The setting of the set temperature Tset of the air conditioner based on the estimated air temperature Ta will be described with reference to FIGS. 11 and 12.

In FIG. 11, the fluctuation of the estimated temperature Ta is shown by a white circle, and the change of the set temperature Tset is shown by a black circle. The horizontal axis is time and the vertical axis is temperature. In FIG. 11, the estimated temperature Ta is maintained in the comfortable temperature zone CZ. At this time, the administrator does not change the set temperature Tset. The air conditioner 301 controls the estimated temperature Ta so as to be located near the median Tc of the comfortable temperature zone according to the set temperature Tset.

FIG. 12 shows the fluctuation of the estimated temperature Ta and the change of the set temperature Tset from the state where the estimated temperature Ta is larger than the maximum value Tmax of the comfortable temperature zone CZ to the state where the estimated temperature Ta is in the comfortable temperature zone CZ.

In the initial state, the estimated temperature Ta is above the comfortable temperature zone CZ, which is a hot condition for the user U. Therefore, the administrator appropriately reduces the set temperature Tset. By appropriately reducing the set temperature Tset, the air conditioner 301 controls the estimated temperature Ta to be located near the median Tc of the comfortable temperature zone CZ.

Next, a method of setting the comfortable temperature zone CZ by the air conditioning management server 101 will be described. The air conditioning management server 101 sets the comfortable temperature zone CZ by performing the process shown in the flowchart of FIG.

In step S401, the evaluation acquisition unit 110 transmits the evaluation screen information necessary for displaying the evaluation screen 510 as shown in FIG. 14 to each user terminal 201. The evaluation screen 510 has an ambient temperature column 511, an air conditioner set temperature column 512, an evaluation button 513, 514, a terminal temperature information display column 515, and a remarks column 516. The evaluation screen 510 may be displayed by, for example, a dedicated application installed on the user terminal 201, or may be displayed by a general-purpose application such as a web browser.

The evaluation acquisition unit 110 includes an estimated temperature Ta estimated by the temperature estimation unit 150, a set temperature Tset of the air conditioner stored in the storage unit 160, a CPU temperature, a CPU type, and a CPU usage rate acquired by the temperature information acquisition unit 130. Remarks Information is transmitted to the user terminal 201.

In the user terminal 201, the estimated air temperature Ta is displayed in the ambient air temperature column 511, and the set temperature Tset is displayed in the air conditioner set temperature column 512.

Each user U can know the ambient air temperature by referring to the ambient air temperature column 511. Each user U can know the set temperature of the air conditioner by referring to the air conditioner set temperature column 512.

The word "hot" is displayed on the evaluation button 513. The word "cold" is displayed on the evaluation button 514. When each user U selects or does not select the evaluation button 513 or the evaluation button 514, the temperature evaluation by the user U is performed.

If the user U feels hot, the user U selects the evaluation button 513. If the user U feels cold, the user U selects the evaluation button 514. The user terminal 201 holds selection information that the evaluation button 513 or the evaluation button 514 is selected. Further, when neither of the evaluation buttons 513 and 414 is selected, it means that the user U has no request for the temperature. Even in this case, the user terminal 201 holds the selection information that the button is not selected.

The CPU temperature, CPU type, and CPU usage rate are displayed in the terminal temperature information display field 515. In the remarks column 516, a message from the administrator is displayed as remarks information.

The CPU temperature, CPU type, and CPU usage rate may be displayed as information directly acquired by the user terminal 201 without going through the air conditioning management server 101.

In step S402, the evaluation acquisition unit 110 refers to the selection information by the evaluation button 513 and the evaluation button 514 on the user terminal 201, and acquires the temperature evaluation by each user U.

In step S403, the evaluation acquisition unit 110 calculates the number of “hot” cases Nh and the number of “cold” cases Nc selected in each user terminal 201, respectively.

In step S404, the evaluation acquisition unit 110 acquires the required number Nth of the user's evaluation stored in advance in the storage unit 160. The required number Nth is used to determine whether or not a sufficient number of users are evaluating the temperature with respect to the number of users U. By using the required number Nth, it is possible to suppress the change of the comfortable temperature zone CZ by a small number of temperature evaluations.

In step S405, the evaluation acquisition unit 110 acquires the maximum value Tmax and the minimum value Tmin of the comfortable temperature zone CZ from the comfortable temperature zone setting unit 120.

In step S416, the evaluation acquisition unit 110 determines whether or not the number Nh of "hot" is larger than the number Nc of "cold" and the number Nh of "hot" is larger than the required number Nth.

If a positive judgment is made in step S416, it means that the number of users U who think that it is hot is large and a considerable number of users U feel that it is hot when the temperature evaluation of each user U is decided by majority.

If a positive judgment is made in step S416, the comfortable temperature zone setting unit 120 calculates the zone change amount ΔT1 of the comfortable temperature zone CZ in step S417.

In step S418, the comfortable temperature zone setting unit 120 sets a value obtained by subtracting the zone change amount ΔT1 from the minimum value Tmin as a new minimum value Tmin. Further, a value obtained by subtracting the zone change amount ΔT1 from the maximum value Tmax is set as a new maximum value Tmax.

If a negative judgment is made in step S416, the evaluation acquisition unit 110 determines in step S426 whether the number Nc of "cold" is larger than the number Nh of "hot" and the number Nh of "cold" is larger than the required number Nth. Judge whether or not.

If an affirmative judgment is made in step S426, it means that the number of users U who think that it is cold is large and a considerable number of users U feel cold when the temperature evaluation of each user U is decided by majority.

If a positive judgment is made in step S426, the comfortable temperature zone setting unit 120 calculates the zone change amount ΔT2 of the comfortable temperature zone CZ in step S427.

In step S428, the comfortable temperature zone setting unit 120 sets a value obtained by adding the zone change amount ΔT2 to the minimum value Tmin as a new minimum value Tmin. Further, a value obtained by adding the zone change amount ΔT2 to the maximum value Tmax is set as a new maximum value Tmax.

If a negative determination is made in step S426, the comfortable temperature zone setting unit 120 does not change the maximum value Tmax and the minimum value Tmin. That is, the same state of the comfortable temperature zone CZ is set again.

FIG. 15 shows an example of the setting process of the comfortable temperature zone CZ by the comfortable temperature zone setting unit 120. Here, for the sake of explanation, it is assumed that the estimated temperature Ta is kept at the median Tc of the comfortable temperature zone CZ in an ideal situation. In reality, the estimated temperature Ta fluctuates over time.

In FIG. 15, first, the processing shown in FIG. 13 is performed by the air conditioning management server 101 at each time interval T1. It is assumed that the evaluation acquisition unit 110 makes an affirmative decision in step S416 in the process at time C1. At this time, the comfortable temperature zone setting unit 120 shifts the comfortable temperature zone CZ downward by the zone change amount ΔT1.

When the comfortable temperature zone CZ is thus changed based on the number of air temperature evaluations, the air conditioning management server 101 performs the process shown in FIG. 13 at a time interval T2 longer than the time interval T1. Here, the processing in the case of the time interval T2 is performed so as not to shift the comfortable temperature zone CZ.

It is assumed that the evaluation acquisition unit 110 makes an affirmative judgment in step S416 at the time C2 after the time C1. At this time, the comfortable temperature zone setting unit 120 further shifts the comfortable temperature zone CZ downward by the zone change amount ΔT1. The zone change amount ΔT1 in this case may be a different value or the same value as in the case at time C1.

It is assumed that the evaluation acquisition unit 110 makes an affirmative judgment in step S426 at the time C3 after the time C2. At this time, the comfortable temperature zone setting unit 120 shifts the comfortable temperature zone CZ upward by the zone change amount ΔT2.

The comfortable temperature zone CZ may be set by the comfortable temperature zone setting unit 120 by the process according to the flowchart shown in FIG. Steps S501 to S505 are the same as steps S401 to S405.

In step S506, the comfortable temperature zone setting unit 120 acquires the upper limit value Tth1 and the lower limit value Tth2 of the width of the comfortable temperature zone stored in advance in the storage unit 160.

Steps S517, S518, S527, and S528 are similar to steps S416, S417, S426, and S427. When a negative determination is made in step S527, it is the same as in step S426.

In step S519, the comfortable temperature zone setting unit 120 sets a value obtained by subtracting the zone change amount ΔT1 from the maximum value Tmax as a new maximum value Tmax. In step S529, the comfortable temperature zone setting unit 120 sets a value obtained by adding the zone change amount ΔT2 to the minimum value Tmin as a new minimum value Tmin.

In step S510, the comfortable temperature zone setting unit 120 calculates the zone width Tw of the comfortable temperature zone from the difference between the maximum value Tmax and the minimum value Tmin.

In step S5111, the comfortable temperature zone setting unit 120 determines whether or not the zone width Tw is larger than the upper limit value Tth1. If a positive determination is made in step S5111, the comfortable temperature zone setting unit 120 sets a value obtained by subtracting the zone change amount ΔT1 from the minimum value Tmin as a new minimum value Tmin.

If a negative determination is made in step S5112, the comfortable temperature zone setting unit 120 determines in step S5211 whether or not the zone width Tw is smaller than the lower limit value Tth2. When affirmatively determined in step S5211, the comfortable temperature zone setting unit 120 sets a value obtained by adding the zone change amount ΔT2 to the maximum value Tmax as a new maximum value Tmax. If a negative determination is made in step S5211, the process ends.

FIG. 17 shows another example of the setting process of the comfortable temperature zone CZ by the comfortable temperature zone setting unit 120. The fluctuation of the estimated temperature Ta is assumed in the same manner as in FIG. For example, at time C4, it is assumed that the evaluation acquisition unit 110 makes an affirmative decision in step S517.

At this time, the comfortable temperature zone setting unit 120 further shifts the maximum value Tmax downward by the zone change amount ΔT1. It is assumed that the zone width Tw of the comfortable temperature zone CZ changed by the shift of the maximum value Tmax is smaller than the upper limit value Tth1 and larger than the lower limit value Tth2. At this time, the minimum value Tmin remains unchanged.

At time C5, it is assumed that the evaluation acquisition unit 110 makes an affirmative decision in step S517. At this time, the comfortable temperature zone setting unit 120 further shifts the maximum value Tmax downward by the zone change amount ΔT1.

It is assumed that the zone width Tw is smaller than the lower limit value Tth2. At this time, the comfortable temperature zone setting unit 120 shifts the minimum value Tmin downward by the zone change amount ΔT1.

At time C6, it is assumed that the evaluation acquisition unit 110 makes an affirmative judgment in step S527. At this time, the comfortable temperature zone setting unit 120 shifts the maximum value Tmax upward by the zone change amount ΔT2. It is assumed that the zone width Tw is smaller than the upper limit value Tth1 and larger than the lower limit value Tth2. At this time, the minimum value Tmin remains unchanged.

The zone change amounts ΔT1 and ΔT2 in steps S5111 and S5212 may be different from the previously set zone change amounts. That is, it suffices if the maximum value Tmax or the minimum value Tmin can be changed within the range satisfying the conditions of the upper limit value Tth1 and the lower limit value Tth2.

By setting the comfortable temperature zone CZ by the temperature evaluation from the user U as shown in FIG. 16 or FIG. 17, it becomes possible to provide a comfortable air-conditioning environment that more reflects the request of the user U.

The air conditioning management server 101 can cause the user terminal 201 or the administrator terminal 202 to display a screen for transmitting the temperature evaluation. A case of displaying a screen for transmitting the temperature evaluation to a user terminal 201 will be described with reference to FIGS. 18 and 19.

FIG. 18 is a flowchart of processing by the air conditioning management server 101. In step S601, the other person evaluation display unit 180 acquires the map information of the space S stored in the storage unit 160.

In step S602, the other person evaluation display unit 180 acquires the position of the user U in the space S as the position of the user terminal 201. In step S603, the other person evaluation display unit 180 acquires information on the estimated temperature Ta in each region in the space from the temperature estimation unit 150.

In step S604, the other person evaluation display unit 180 acquires the position information of another user. In step S605, the other person evaluation display unit 180 acquires the temperature evaluation by another user from the evaluation acquisition unit 110.

In step S606, the other person evaluation display unit 180 displays the map screen 181 on the screen of the user terminal 201 by superimposing the position of the user U, the information on the estimated temperature Ta, and the temperature evaluation by the other user.

An example of the map screen 181 is shown in FIG. In FIG. 19, by arranging the temperature evaluation near the position of the other user, the position of the other user and the temperature evaluation are displayed correspondingly.

A case of displaying a screen for transmitting the temperature evaluation to the administrator terminal 202 will be described with reference to FIGS. 20 and 21.

FIG. 20 is a flowchart of processing by the air conditioning management server 101. In step S701, the management screen display unit 190 acquires the map information of the space S stored in the storage unit 160. In step S702, the management screen display unit 190 acquires the position of the user U in the space S as the position of each user terminal 201. In step S703, the management screen display unit 190 acquires the ambient temperature of each user U in each region in the space from the air temperature estimation unit 150.

In step S704, the management screen display unit 190 acquires the temperature evaluation by each user from the evaluation acquisition unit 110.

In step S705, the management screen display unit 190 displays a map screen 191 on the screen of the administrator terminal 202, information on the estimated temperature Ta, temperature evaluation by each user, and a range in which each of the air conditioner 301 can manage the temperature. Are superimposed and displayed.

An example of the map screen 191 is shown in FIG. In FIG. 21, by arranging the temperature evaluation by the user near the position of the user, the position of the user and the temperature evaluation are displayed correspondingly.

The map screen 181 and the map screen 191 may display the temperature evaluation in a table format, for example. Further, as the information regarding the estimated air temperature Ta, the ambient air temperature of each user U used for estimating the estimated air temperature Ta may be used as it is, or the estimated air temperature Ta may be used.

The present embodiment has been described above. The air-conditioning management server 101 according to the present embodiment evaluates the temperature input by each user U of the plurality of user terminals 201 arranged in the space S whose temperature is controlled by the air-conditioning equipment 301. It is provided with an evaluation acquisition unit 110 acquired from each of the above, and a comfortable temperature zone setting unit 120 for setting a comfortable temperature zone CZ based on the temperature evaluation.

The air-conditioning management server 101 acquires the temperature evaluation from the user U in the space S by the evaluation acquisition unit 110, and sets the comfortable temperature zone CZ based on the temperature evaluation. The air conditioner 301 performs air conditioning control so that the air temperature in the space is located within the comfortable temperature zone CZ. By causing the air conditioning device 301 to perform air conditioning control based on the comfortable temperature zone CZ, it is possible to create a comfortable air conditioning environment for each user U.

In the air conditioning management server 101, the air temperature evaluation includes a temperature evaluation performed when it is hot and a temperature evaluation performed when it is cold. The temperature of the comfortable temperature zone CZ can be set based on the evaluation based on the sensible temperature of each user U, whether it is hot or cold. Since the temperature can be set by the evaluation based on the temperature, the comfortable temperature zone CZ can be set by appropriately reflecting the evaluation of the user U.

The comfortable temperature zone setting unit 120 sets the comfortable temperature zone CZ based on the number of temperature evaluations Nh performed when it is hot and the number Nc of temperature evaluations performed when it is cold. By using the number of temperature evaluations Nh and Nc, the comfortable temperature zone CZ can be set by reflecting the overall evaluation by the user U in the space S.

The evaluation acquisition unit 110 has a comfortable temperature at a time interval T2 longer than the time interval T1 when the comfortable temperature zone CZ is set based on the number of temperature evaluations Nh and Nc acquired for each predetermined time interval T1. Set the zone CZ.

By making the time interval until the change of the comfortable temperature zone CZ different, it is possible to prevent the set temperature Tset of the air conditioner 301 from being changed frequently. Therefore, since the fluctuation of the temperature in the space S can be suppressed, the comfort of the user U is less likely to be impaired.

When the number of temperature evaluations Nh is larger than the number of temperature evaluations Nc, the comfortable temperature zone setting unit 120 lowers the maximum value Tmax of the comfortable temperature zone CZ, and the number of temperature evaluations Nh is larger than the number of temperature evaluations Nc. If the number is small, the comfortable temperature zone CZ is set so as to raise the minimum value Tmin of the comfortable temperature zone CZ.

By taking a majority vote based on the number of temperature evaluations Nh and Nc, the evaluation of the user U as hot or cold can be reflected, so that a more appropriate comfortable temperature zone CZ can be set.

The comfortable temperature zone setting unit 120 sets the comfortable temperature zone CZ so that the zone width Tw, which is the difference between the maximum value Tmax and the minimum value Tmin, is within the range of the predetermined upper limit value Tth1 and lower limit value Tth2. As a result, the comfortable temperature zone CZ can be changed within an appropriate range, so that it is possible to prevent the setting range of the comfortable temperature zone CZ from becoming unstable.

When the comfortable temperature zone setting unit 120 lowers the maximum value Tmax, the minimum value Tmin is reduced by the same amount as the zone change amount ΔT1 of the maximum value Tmax, and when the minimum value Tmin is increased, the maximum value Tmax is reduced to the zone change of the minimum value Tmin. The comfortable temperature zone may be set so as to increase by the same amount as the amount ΔT2. Thereby, the comfortable temperature zone CZ can be set while keeping the zone width Tw of the comfortable temperature zone CZ constant.

The air conditioning management server 101 includes a temperature information acquisition unit 130 that acquires terminal temperature information including the CPU temperature of each of the plurality of user terminals 201 from each of the plurality of user terminals 201, and a plurality of users based on the terminal temperature information. Further, a temperature estimation unit 150 for calculating an estimated temperature Ta, which is an estimated value of the temperature around each of the terminals 201, is provided.

Thereby, the temperature of each point in the space S in which the user terminal 201 is arranged can be estimated by using the user terminal 201. The temperature in each area can be estimated simply by connecting the user terminal 201 to the air conditioning management server 101. Therefore, since it is not necessary to provide a separate air temperature measuring means, it is possible to introduce a system that manages air conditioning more easily.

The terminal temperature information includes the type of CPU of the user terminal 201 and the CPU usage rate of the user terminal 201. As a result, even when the CPU temperature cannot be acquired, the temperature can be estimated from the type of CPU of the user terminal 201 and the CPU usage rate of the user terminal 201.

The sensor information acquisition unit 140 acquires the sensor temperature by the temperature sensor 401 provided in the space S, and the comfort temperature zone setting unit 120 sets the comfort temperature zone CZ based on the estimated air temperature Ta, the measured air temperature, and the air temperature evaluation. It may be set. As a result, the comfortable temperature zone CZ can be set in consideration of the temperature of the place where the user terminal 201 is not arranged.

The air conditioner management server 101 further includes a storage unit 160 that stores a machine-learned temperature estimation model using the terminal temperature information and the measured value of the temperature when the terminal temperature information is acquired as teacher data, and estimates the temperature. The unit 150 can calculate the estimated temperature Ta by the temperature estimation model. By using the machine-learned temperature estimation model, the estimated temperature Ta can be estimated with high accuracy.

The air temperature estimation unit 150 acquires the startup time that has elapsed since the user terminal 201 was started, and the air temperature estimation unit calculates the estimated temperature using the terminal temperature information and the temperature estimation model defined in advance as a function of the start-up time. May be good. As a result, even when the CPU temperature cannot be obtained, the estimated air temperature Ta can be estimated from the functions of the CPU type, the CPU usage rate, and the startup time.

The air conditioning management server 101 displays a map screen 181 of the space S on the screen of the user terminal 201, and displays the position of the user U, information on the estimated temperature Ta, and the temperature evaluation by a user different from the user U on the map screen 181. The other person's evaluation display unit 180 may be further provided.

As a result, the user U can refer to the temperature evaluation by other users around him / her. By referring to the temperature evaluation by other users, it is possible to know whether the environment is comfortable not only for oneself but also for other users.

The other person evaluation display unit 180 may display the temperature evaluation by the user on the map screen 181 corresponding to the positions of different users. As a result, it becomes easy to associate the temperature evaluation of each user U.

The map screen 191 of the space S is displayed on the screen of the administrator terminal 202 of the manager of the air conditioner 301, and the information on the estimated temperature, the temperature evaluation by a plurality of users U, and each of the air conditioner 301 are displayed on the map screen 191. A management screen display unit 190 that displays the temperature controllable ranges A1, A2, and A3 in an overlapping manner may be further provided.

As a result, the administrator can refer to the information necessary for managing the air conditioner 301, and the set temperature Tset of the air conditioner 301 can be set more easily.

The management screen display unit 190 may display the temperature evaluation by the plurality of users U on the map screen 191 corresponding to the respective positions of the plurality of users. As a result, it becomes easy to associate the temperature evaluation of each user U.

The embodiments described above are for facilitating the understanding of the present invention, and are not for limiting and interpreting the present invention. Each element included in the embodiment and its arrangement, material, condition, shape, size, etc. are not limited to those exemplified, and can be changed as appropriate.

101 ... Air conditioning management server, 110 ... Evaluation acquisition unit, 120 ... Comfortable temperature zone setting unit, 130 ... Temperature information acquisition unit, 140 ... Sensor information acquisition unit, 150 ... Temperature estimation unit, 160 ... Storage unit, 170 ... Input screen display Unit, 180 ... Others evaluation display unit, 190 ... Management screen display unit, 201 ... User terminal, 202 ... Administrator terminal, 301 ... Air conditioning equipment, 401 ... Temperature sensor

Claims (18)

It is an air conditioning management server
An evaluation acquisition unit that acquires a temperature evaluation input by each user of a plurality of computers arranged in a space whose temperature is controlled by an air conditioner from each of the plurality of computers.
A comfortable temperature zone setting unit that sets a comfortable temperature zone based on the temperature evaluation,
Equipped with an air conditioning management server. The air conditioning management server according to claim 1.
The air conditioning management server includes a first temperature evaluation performed when it is hot and a second temperature evaluation performed when it is cold. The air conditioning management server according to claim 2.
The comfortable temperature zone setting unit is an air conditioning management server that sets the comfortable temperature zone based on the number of cases of the first temperature evaluation and the number of cases of the second temperature evaluation. The air conditioning management server according to claim 3.
When the comfortable temperature zone is set based on the number of the first temperature evaluations and the number of the second temperature evaluations acquired at predetermined first time intervals, the evaluation acquisition unit
An air conditioning management server that sets the comfortable temperature zone at a second time interval that is longer than the first time interval. The air conditioning management server according to claim 3 or 4.
The comfortable temperature zone setting unit
When the number of the first temperature evaluations is larger than the number of the second temperature evaluations, the maximum value of the comfort temperature zone is lowered.
An air conditioning management server that sets the comfortable temperature zone so as to raise the minimum value of the comfortable temperature zone when the number of cases of the first temperature evaluation is smaller than the number of cases of the second temperature evaluation. The air conditioning management server according to claim 5.
The comfortable temperature zone setting unit
An air conditioning management server that sets the comfortable temperature zone so that the zone width, which is the difference between the maximum value and the minimum value, is within a predetermined upper limit value and lower limit value. The air conditioning management server according to claim 6.
The comfortable temperature zone setting unit
When lowering the maximum value, the minimum value is reduced by the same amount as the reduction amount of the maximum value.
An air conditioning management server that sets the comfortable temperature zone so that when the minimum value is increased, the maximum value is increased by the same amount as the increase amount of the minimum value. The air conditioning management server according to any one of claims 1 to 7.
A temperature information acquisition unit that acquires terminal temperature information including the CPU temperature of each of the plurality of computers from each of the plurality of computers.
An air conditioning management server further comprising a temperature estimation unit that calculates an estimated air temperature, which is an estimated value of the ambient temperature of each of the plurality of computers, based on the terminal temperature information. The air conditioning management server according to claim 8.
The air conditioning management server includes the type of CPU of the computer and the CPU usage rate of the computer in the terminal temperature information. The air conditioning management server according to claim 9.
Further equipped with a sensor information acquisition unit that acquires the measured air temperature by the air temperature sensor provided in the space.
The comfortable temperature zone setting unit is an air conditioning management server that sets the comfortable temperature zone based on the estimated temperature, the measured temperature, and the temperature evaluation. The air conditioning management server according to claim 9 or 10.
A storage unit for storing a machine-learned temperature estimation model using the terminal temperature information and the measured value of the air temperature when the terminal temperature information is acquired as training data is further provided.
The temperature estimation unit is an air conditioning management server that calculates the estimated temperature by the temperature estimation model. The air conditioning management server according to claim 9 or 10.
The temperature information acquisition unit acquires the startup time that has elapsed since the computer was started.
The temperature estimation unit is an air conditioning management server that calculates the estimated temperature based on the terminal temperature information and a temperature estimation model defined in advance as a function of the start-up time. The air conditioning management server according to claim 11 or 12.
A map screen of the space is displayed on the computer screen,
An air-conditioning management server further provided with another person's evaluation display unit that superimposes and displays the position of the user, information on the estimated temperature, and the temperature evaluation by a user different from the user on the map screen. The air conditioning management server according to claim 13.
The other person evaluation display unit is an air conditioning management server that displays the temperature evaluation by the user on the map screen in correspondence with the positions of the different users. The air conditioning management server according to claim 11 or 12.
A map screen of the space is displayed on the computer screen of the manager of the air conditioner.
The air conditioning management is further provided with a management screen display unit that superimposes the information on the estimated temperature, the temperature evaluation by the plurality of users, and the range in which the air conditioner can manage the temperature on the map screen. server. The air conditioning management server according to claim 15.
The management screen display unit is an air conditioning management server that displays the temperature evaluation by the plurality of users on the map screen in correspondence with the respective positions of the plurality of users. It is an air conditioning management method
The air conditioning management server
An evaluation acquisition step of acquiring a temperature evaluation input by each user of a plurality of computers arranged in a space whose temperature is controlled by an air conditioner from each of the plurality of computers.
A comfortable temperature zone setting step for setting a comfortable temperature zone based on the temperature evaluation, and
Air conditioning management methods, including. For air conditioning management server
An evaluation acquisition unit that acquires a temperature evaluation input by each user of a plurality of computers arranged in a space whose temperature is controlled by an air conditioner from each of the plurality of computers.
A comfortable temperature zone setting unit that sets a comfortable temperature zone based on the temperature evaluation,
Air conditioning management program to realize.

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