JP4960736B2 - Air conditioning control system and server - Google Patents

Description

The present invention relates to an air conditioning control system and a server that perform air conditioning control of buildings and the like.

  In recent years, social demands for energy conservation due to global warming are increasing. The current energy conservation law obliges the consumer sector not only to improve the energy conservation performance of individual devices, but also to conserve energy in terms of management using BEMS (Building and Energy Management System).

  However, as the actual situation of building management, the building manager does not always operate air conditioning devices such as cooling and heating appropriately from the viewpoint of comfort and energy saving. In particular, with regard to thermal environment management (for example, temperature management) of living spaces where energy saving and comfort are intricately related, a customary target temperature is set for ease of management, and it is received from users who enjoy the thermal environment. Generally, the set value is changed according to a claim.

  In other words, because temperature management is performed without fully considering the characteristics of the building or occupants, the living space is not necessarily kept in a comfortable state for the user, and furthermore, waste of energy consumed by the air conditioner occurs. There is. In addition, some users are dissatisfied with being unable to control their own thermal environment because they are in a thermal environment managed by the building manager.

  In response to the problems caused by temperature management of air conditioning control, users' requests for thermal environment are collected in real time from personal computer terminals (hereinafter referred to as personal computers) operated by each individual. There is a method to set the target temperature based on the relationship between the thermal environment desired by the user and the target temperature in real time, the user characteristics that change from moment to moment, the difference between the actual temperature of the living space and the detected temperature, etc. The thermal environment can be changed according to the characteristics of each building (see, for example, Patent Document 1).

  In the method disclosed in Patent Document 1, the thermal environment desired by the user is associated with the set temperature in real time, the user characteristics that change from moment to moment, the temperature difference between the measured value of the temperature sensor and the usage range, etc. It is possible to change the environment according to the building characteristics.

Further, in the system disclosed in Patent Document 1, energy can be satisfied while suppressing user dissatisfaction by arbitrarily setting the temperature on the energy saving side. (For example, by setting the temperature at the start (control start) to be on the energy saving side and beyond the expected comfort range of the user, you will feel uncomfortable at the start, but by consensus building based on request information The temperature shifts toward the comfortable side, and for example, when viewed in total for the day, energy saving can be achieved while suppressing dissatisfaction.
JP 2004-205202 A

  By the way, when the energy saving method is applied to the above-mentioned Patent Document 1, since the user is arbitrarily placed in an unpleasant environment, it is expected that demands on the environment are temporarily concentrated.

  That is, there is a possibility that the request information is input at the PC terminal, and the request information is intensively sent to a server computer (hereinafter abbreviated as a server) that manages the system, and the server may be down.

The present invention has been made in view of the above points, and its purpose is to provide a control target that can suppress the number of input of request information from the user in a time zone in which the user is easily dissatisfied. An object of the present invention is to provide an air conditioning control system and a server that can save energy while setting a value to suppress dissatisfaction of users.

In order to achieve the above object, according to the first aspect of the present invention, there is an air conditioning equipment that performs air conditioning control of a predetermined space, an air conditioning controller that sets a control target value in the air conditioning equipment, and the predetermined space. A request input device that inputs a control request for the air conditioning control device from a user, a request information acquisition unit that acquires request information input using the request input device, and the control based on the acquired request information An air conditioning control system comprising: a control target setting unit for deriving a target value; and a request information history storage unit for acquiring a history of request information for each predetermined time period in which request information in the past is easily concentrated , control target setting unit, in the predetermined time period, based on the history information of the past control target value and requests information, is corrected in the direction of suppressing the number of inputs requested information the control target value, the main When the number of requested information in the predetermined time zone on the latest specific day stored in the information history storage unit is greater than a predetermined maximum reference number, the control target value for the predetermined time zone on the next specific day is A predetermined value is corrected in a comfortable control direction .
According to a second aspect of the present invention, there is provided an air conditioning equipment device that performs air conditioning control of a predetermined space, an air conditioning control device that sets a control target value in the air conditioning equipment device, and the air conditioning control device from a user existing in the predetermined space. A request input device for inputting a control request, a request information acquisition unit for acquiring request information input using the request input device, and a control target setting unit for deriving the control target value based on the acquired request information When, the air conditioning control system comprising and a desire information history storage unit that requested in the past information to acquire the history of the concentrated prone requested information for each predetermined time period, the control target setting unit, the predetermined time period in the band, based on the history information of the past control target value and requests information, is corrected in the direction of suppressing the number of inputs of the control target value requested information, stored in the request information history storage unit When the number of requested information in the predetermined time zone on a new specific day is greater than a predetermined maximum reference number, the control target value for the predetermined time zone on the next specific day is set to a predetermined value in a comfortable control direction. The control target value is derived for each air conditioning equipment, and the set time of the predetermined time zone is set differently for each air conditioning equipment.
According to a third aspect of the present invention, there is provided an air conditioning equipment device that performs air conditioning control of a predetermined space, an air conditioning control device that sets a control target value in the air conditioning equipment device, and the air conditioning control device from a user existing in the predetermined space. A request input device for inputting a control request, a request information acquisition unit for acquiring request information input using the request input device, and a control target setting unit for deriving the control target value based on the acquired request information A request information history storage unit that acquires a history of request information for each predetermined time period during which request information in the past is easily concentrated, and an air conditioning capability acquisition unit that acquires the air conditioning capability of the air conditioning equipment for the predetermined time period. In the air conditioning control system, the control target setting unit is configured to input the control target value into the request information based on the past control target value and the history information of the request information in the predetermined time period. When the number of request information within the predetermined time zone of the latest specific date stored in the request information history storage unit is greater than a predetermined maximum reference number, The control target value of the predetermined time zone of the day is corrected by a predetermined value in a comfortable control direction, and the temperature at the start or end of the predetermined time zone of the specific day is set at that time Based on the acquired air conditioning capability, a control target value is changed and set in the air conditioning equipment device through the air conditioning control device based on the acquired air conditioning capability so as to be a value.

According to the first to third aspects of the present invention, it is possible to set a control target value that can suppress the number of input of request information from the user in a time zone in which the user is easily dissatisfied. In other time zones, it is possible to save energy by deriving control target values in the energy saving direction.
Further , according to the inventions of claims 1 to 3, for example, a time zone in which the user is highly interested in the air-conditioning environment of the room space used by the user, such as before and after the start of work or after lunch, is set as a predetermined time zone on a specific day. When the number of requested information in the predetermined time zone exceeds the maximum reference number, the control target value is changed at the side where the user is likely to be comfortable in the predetermined time zone on the next specific day. Reducing dissatisfaction can reduce the number of input of request information, and as a result, the response to request information can be improved, and the number of input of request information is reduced, so the processing capacity is low and the cost is low. The control target setting unit can be configured using a processor.
According to the invention of claim 2, the control target value of each air conditioning equipment can be returned to the energy saving side separately, thereby distributing the user's request input and generating the request input all at once. An excessive increase in the number of input information can be avoided.
According to the invention of claim 3, the control target value is set at a predetermined time by changing the control target value earlier than the time when the original control target value is set based on the air conditioning capability of the air conditioning equipment. However, it is possible to avoid the situation that it takes time for the actual space temperature to reach the control target value due to the air conditioning capability of the air conditioning equipment, thereby increasing the number of input of desired information in a predetermined time zone. You can avoid that.

According to a fourth aspect of the present invention, in the invention according to any one of the first to third aspects, the control target setting unit, when the predetermined time period when the control target value is changed by the predetermined value, The control target value is returned to the control target value before being corrected with the predetermined value.

According to the invention of claim 4 , since the control target value is restored after the elapse of the predetermined time zone, the air conditioning control considering energy saving can be performed after the elapse of the predetermined time zone, and the control target value is set on the comfortable side. Is set, and it does not take time until the control target value is stabilized on the energy saving side as in the case where the control target value is set on the energy saving side based on the request, and the predetermined time period has elapsed. Since the situation of the user after that is also out of the situation where the request information is actively input, the comfort can be maintained.

According to a fifth aspect of the present invention, in the fourth aspect of the invention, the control target setting unit determines the number of pieces of desired information within the predetermined time zone at the end of the predetermined time zone when the control target value is changed by the predetermined value. When the number is smaller than the predetermined minimum reference number, the control target value in a predetermined time zone on the next specific day is set as a control target value before being corrected by the predetermined value.

According to the invention of claim 5 , although the control target value is set on the comfort side in order to reduce the input of the request information in the predetermined time zone, the number of input of the request information in the predetermined time zone is less than the minimum reference number. In this case, excessive energy consumption can be suppressed by returning the control target value for the next predetermined time period to the energy saving side.

According to a sixth aspect of the present invention, in any one of the first to fourth aspects, the control target setting unit stores a control target value at the end of the predetermined time period, and stores the stored control target value as The control target value in a predetermined time zone is used.

According to the invention of claim 6 , it is considered that the user does not feel uncomfortable by using the final control target value of the previous predetermined time zone as the control target value in the next predetermined time zone. The control target value can be set, and as a result, the number of input request information can be reliably suppressed.

According to a seventh aspect of the present invention, in any one of the first to sixth aspects of the present invention, an outdoor environment sensor that measures a physical quantity related to an outdoor thermal environment is provided, and the control target setting unit is used to change the control target value. A predetermined value is changed according to the physical quantity measured by the outdoor environment sensor.

According to the seventh aspect of the present invention, even when the user is influenced by the outdoor thermal environment due to the indoor / outdoor movement, both the number of input of request information from the user and the increase in energy can be suppressed.
According to an eighth aspect of the present invention, there is provided an air conditioning equipment device that performs air conditioning control of a predetermined space, an air conditioning control device that sets a control target value in the air conditioning equipment device, and the air conditioning control device from a user existing in the predetermined space. A server used together with a request input device for inputting a control request, a request information acquisition unit for acquiring request information input using the request input device, and the control target value based on the acquired request information a control target setting unit that derives, and a desire information history storage unit that requested in the past information to acquire the history of the concentrated prone requested information for each predetermined time period, the control target setting unit, in the predetermined time period , based on the history information of the past control target value and requests information, it is corrected in the direction of suppressing the number of inputs of the control target value requested information, stored in the request information history storage unit When the number of requested information in the predetermined time zone on a new specific day is greater than a predetermined maximum reference number, the control target value for the predetermined time zone on the next specific day is set to a predetermined value in a comfortable control direction. It is characterized by minute correction .
According to a ninth aspect of the present invention, there is provided an air conditioning equipment apparatus that performs air conditioning control of a predetermined space, an air conditioning control apparatus that sets a control target value in the air conditioning equipment apparatus, and the air conditioning control apparatus from a user existing in the predetermined space. A server used together with a request input device for inputting a control request, a request information acquisition unit for acquiring request information input using the request input device, and the control target value based on the acquired request information a control target setting unit that derives, and a desire information history storage unit that requested in the past information to acquire the history of the concentrated prone requested information for each predetermined time period, the control target setting unit, in the predetermined time period , based on the history information of the past control target value and requests information, it is corrected in the direction of suppressing the number of inputs of the control target value requested information, stored in the request information history storage unit When the number of requested information in the predetermined time zone on a new specific day is greater than a predetermined maximum reference number, the control target value for the predetermined time zone on the next specific day is set to a predetermined value in a comfortable control direction. The control target value is derived for each air conditioning equipment, and the set time of the predetermined time zone is set differently for each air conditioning equipment.
According to a tenth aspect of the present invention, there is provided an air conditioning equipment apparatus that performs air conditioning control of a predetermined space, an air conditioning control apparatus that sets a control target value in the air conditioning equipment apparatus, and the air conditioning control apparatus from a user existing in the predetermined space. A server used together with a request input device for inputting a control request, a request information acquisition unit for acquiring request information input using the request input device, and the control target value based on the acquired request information A control target setting unit for deriving, a request information history storage unit for acquiring a history of request information for each predetermined time period during which the request information in the past is easily concentrated, and an air conditioner for acquiring the air conditioning capability of the air conditioning equipment for the predetermined time period A capability acquisition unit, and the control target setting unit obtains the control target value of the request information based on the past control target value and the history information of the request information in the predetermined time period. When the number of request information within the predetermined time zone of the latest specific date stored in the request information history storage unit is greater than a predetermined maximum reference number, The control target value for the predetermined time zone on a specific day is corrected by a predetermined value in a comfortable control direction, and the temperature at the start or end of the predetermined time zone on the specific day is set at that time Based on the acquired air conditioning capability, a control target value is changed and set in the air conditioning equipment device through the air conditioning control device based on the acquired air conditioning capacity so as to be a target value.

  The present invention sets a control target value that can suppress the number of input of request information from the user in a predetermined time zone in which the user is likely to be dissatisfied, such as a time zone when the control is started. Dissatisfaction can be suppressed, and in other time zones, there is an effect that energy can be saved by deriving the control target value in the energy saving direction.

Embodiments of the present invention will be described below.
(Embodiment 1)
As shown in FIG. 1, the air conditioning control system according to the present embodiment includes an air conditioning system (I) and a control system (II). The air conditioning system (I) is a room space where a user lives, an office worker, or the like. An air conditioner apparatus 1 installed in a room space such as an office used by an air conditioner, and an air conditioner control apparatus 2 that controls the air conditioner apparatus 1 by setting a control target value (hereinafter referred to as a set temperature T) to the air conditioner apparatus 1. It is assumed that one or a plurality of air conditioning equipment devices 1 are installed in the room space.

  The control system (II) is connected between the request input device 3 composed of a PC terminal used by a user and the request input device 3 via a network 4 such as a LAN, and a control signal line (or It is comprised with the server 5 connected with the air-conditioning control apparatus 2 of the air-conditioning system (I) by the network 4).

  FIG. 2 shows an arrangement example when installed in an office building. Each room space (hereinafter referred to as a floor) A to D includes an air conditioner apparatus composed of one outdoor unit 11a and a plurality of indoor units 11b. 1 is installed, and each floor A to D is provided with a PC terminal equipped with an application functioning as a request input device 3 on a desk used by a user who enjoys an air-conditioning environment on each floor A to D. The request input device 3 is connected to a server 5 through a network 4 as shown in FIG.

  The server 5 includes a request information acquisition unit 50 having a communication function for acquiring the request information regarding the temperature of the air-conditioning environment of the user input by the request input device 3 by accessing from the request input device 3, and the request information acquisition Of the request information acquired by the unit 50, for example, request information input in a first predetermined time zone corresponding to a predetermined time zone before and after the start time of the office where the input of the request information is concentrated or a predetermined time zone after lunch break The request information history storage unit 51 that stores the history of the control information, and the control target setting unit 52 that derives the set temperature T set in the air conditioning equipment device 1 through the air conditioning control device 2.

The control target setting unit 52 collects user request information arbitrarily input from each request input device 3 at predetermined time intervals, and determines a change amount ΔT of the set temperature T based on the content of the request information. In addition to the basic function, the access to the server 5 of the air-conditioning control device 11 is concentrated with the function of consensus formation of the user's request for correcting the current set temperature T by this change amount ΔT and determining a new set temperature T. And a function of correcting the control target value (control target temperature value) in the first predetermined time period and performing processing for avoiding access concentration.

  Next, the operation of the air conditioning control system of this embodiment will be described based on the flowchart shown in FIG.

  First, when the system starts to operate (S1), the control target setting unit 52 of the server 5 performs a predetermined time through the request information acquisition unit 50 that acquires the request information for the air conditioning environment of the user sent through the request input device 3. Processing to collect at intervals is performed (S2). A change amount ΔT (for example, 0.5) that changes the current set temperature T (for example, 26 ° C.) from the number of requests for increasing the temperature and the number of requests for decreasing the temperature in the contents of the collected request information. The process which determines is performed (S3). If the number of requests is less than the reference number, or the ratio of the number of requests between the two, etc., the status quo is determined.

  When the change amount ΔT is determined, the control target setting unit 52 acquires the latest set temperature T (for example, 26 ° C.) that is currently set (S4). Then, it is checked whether or not the current time is an access concentration time zone (predetermined time zone before and after the start of work, after lunch, etc.) corresponding to the office attendance day (specific day) registered in advance (S5). If it is not the concentrated time zone, the change amount ΔT is added to the current set temperature T, and a new set temperature (T = T + ΔT) is determined (S6). In this case, since the sign of ΔT is negative when it is based on a request to lower the temperature, the determined set temperature T is lower than the current set temperature T. Since is positive, the determined set temperature T is higher than the current set temperature T.

  The control target setting unit 5 transmits the derived set temperature T data to the air conditioning control device 2 (S7), and the air conditioning control device 2 sets the received set temperature T as a new set temperature of the air conditioning equipment device 1, The process returns to step S2. It should be noted that the amount of change ΔT takes into consideration energy saving even when a request is taken in.

On the other hand, in addition to the set temperature determination process described above, the control target setting unit 53 collects the history of request information in the latest access concentration time zone from the request information history storage unit 51 (S8). It is checked whether or not the desired number for which the side is requested is larger than a predetermined maximum reference number (LH) set in advance (S9), and if it is greater than the maximum reference number (LH), the next specific date (for example, The next day) correction amount δT is set in the comfortable direction (S10). Here, when the initial correction amount δT used as a reference is −1.0, a value −1.5 obtained by subtracting 0.5 as the correction amount δT in the comfort direction is 0.5 as the comfort-side correction amount δT. .

  Conversely, if it is not greater than the maximum reference number (LH), it is checked in step S11 whether or not it is less than the predetermined minimum reference values (LL) set in advance. If it is less, the correction amount δT is omitted. The energy direction is set (S12). That is, for example, 0.5 is added from the reference correction amount δT (−1.0), and −0.5 obtained by the addition is set as a correction amount δT in the energy saving direction.

  On the other hand, if it is larger than the lowest reference value (LL) and smaller than the highest reference value (LH), that is, it is neither too much nor too small, the initial correction amount δT (= −1.0) as a reference is not changed. Set (S13).

  Since there is no history of request information in the previous access concentration time zone at the time of initial operation of the system, it is determined to set the comfort side direction unconditionally.

  The correction amount δT set in S10, S12, and S13 as described above is determined as the correction amount δT in the access concentration time zone (S14), and the determined correction amount δT is stored in the built-in memory (S15).

  If it is determined in step S5 that it is an access concentration time zone, it is checked whether it is the start time of the access concentration time zone (S16). If it is the start time, the correction amount δT stored in the internal memory is checked. Is corrected to reduce the dissatisfaction with the set temperature (T + δT) obtained by adding the current set temperature T to the set temperature T in the relevant time zone (S17), and the corrected set temperature T is accessed at the access concentration time in step S6. The set temperature at the start of the belt is determined and transmitted to the air conditioning control device 2 in step S7.

  After this transmission, the process returns to step S2, and based on the set temperature T corrected by the correction amount δT until the end of the access concentration time zone, the change amount ΔT determined based on the request information collected in the access concentration time zone. A process of changing the set temperature T is performed.

  If it is determined in step S16 that the access concentrated time zone end time is reached, a correction end processing is performed to return the current set temperature T to the set temperature T (= T−δT) before the access concentrated time zone (S18). Then, the set temperature T after the end processing is determined as the set temperature T after the access concentration time zone (S6), and is transmitted to the air conditioning control device 2 in step S7.

  In this way, by setting the comfortable temperature setting temperature T so that the number of input of request information from the user can be suppressed in the time zone (access concentration time zone) corresponding to a specific day on which the user is likely to be dissatisfied. , User dissatisfaction can be suppressed and access concentration can be avoided. In other time zones, it is possible to save energy by setting the set temperature T in the energy saving direction according to the user's request as compared with the access concentration time zone.

  4A shows the set temperature T in the access concentration time zone (ta), and FIG. 4B shows the access status. The set temperature T of the cooling before the start of the access concentration time zone (ta) is, for example, Assuming 28 ° C., the access concentration time zone is corrected to a comfortable side of 26 ° C. by a correction amount δT (for example, − (2 ° C.)). Based on the input of request information in the band (ta), the amount of change is changed by ΔT. When the access concentration time period (ta) ends, the set temperature T returns to the original 28 ° C. In FIG. 4B, X indicates the allowable number of accesses of the server 5, and Y indicates transition of the number of requested information. Note that ▼ indicates request information for reducing the temperature.

As shown in FIG. 5, when the number of reports by time other than the access concentration time zone Tac exceeds the reference value α, the period Ta is automatically determined as the access concentration time zone, and the access concentration time zone Tac is Process.
(Embodiment 2)
In the first embodiment, the set temperature T corrected by the predetermined correction amount δT from the last set temperature T on the previous day is used as the base of the set temperature at the start of the access concentration time period, but in this embodiment, as shown in FIG. When the end time of the access concentration time zone ta is reached, the control target setting unit 52 stores the set temperature T at that time in the built-in memory (S20), and the stored set temperature T is set as the start time of the next access concentration time zone. It is characterized in that the temperature T is used.

  That is, the control target setting unit 52 checks whether or not the set temperature T at the end of the previous access concentration time zone is stored in the internal memory in response to the start of the next access concentration time zone ( S21), if not stored, that is, when the system is initially operating, the set temperature T at the end of the previous access concentration time zone is not recorded in the built-in memory, so the temperature setting is set to the comfortable side as in the first embodiment. The correction amount δT is determined (S22). This correction amount δT is stored in the built-in memory (S23), and a correction process (T = T + δT) for adding the stored correction amount δT and the current set temperature T is performed, and this correction process is performed as in the first embodiment. The set time T obtained in this way is set as a set time for mitigating the dissatisfaction of the set temperature in the access concentration time zone (S24).

  The set temperature T after this correction processing is determined as a new set temperature in step S6 as in the first embodiment, and this set temperature T is transmitted to the air conditioning control device 2 in step S7.

  On the other hand, when the set temperature T at the end of the previous access concentration time zone is stored in the built-in memory in step S21, the set temperature T is set to the set temperature T of the access concentration time zone in step S24 of the correction process described above. The set temperature for mitigating dissatisfaction is determined. This set temperature T is determined as a new set temperature in step S6, and this set temperature T is transmitted to the air conditioning control device 2 in step S7.

  In this way, by setting the set temperature T at the end of the previous access concentration time period as the set temperature T at the start of the next access concentration time period, the user feels uncomfortable without calculating the correction process. It is possible to set the set temperature T that is considered not to remember as the set temperature in the access concentration time zone.

Incidentally, in the flowchart of FIG. 6, is described with the same reference numerals are given to the same processing steps Te odor than the above-described process and implementation embodiment 1 will be omitted.

  FIG. 7 shows a state where the set temperature T at the end of the previous access concentration time period (ta) is set as the set temperature at the start of the next access concentration time period (ta). Note that ▼ indicates input of request information for lowering the temperature.

  Thus, in the present embodiment, it is possible to reliably suppress the number of input request information in the access concentration time zone.

It should be noted that, as shown in FIG. 8, the access temperature is set to a set temperature T that provides the most energy saving when the access number is below the reference value α, as shown in FIG. You can also. Also, the history of the set temperature and the number of accesses is weighted to the one near the present.
(Embodiment 3)
By the way, as shown in FIG. 2, the air-conditioning equipment 1 is provided for each of the floors A to D. The access concentration time zone as described above is set, and all the air-conditioning equipment devices are set at the end of the access concentration time zone. When the set temperature T of 1 is returned to the energy saving side, input of request information from users on the floors A to D occurs at one time, and therefore the number of input of request information may increase excessively.

  Therefore, in this embodiment, the control target setting unit 52 sets and manages the end time of the access concentration time zone of each floor A to D, and shifts the end time of the access concentration time zone for each floor A to D, As a result, the time at which the set temperature T of the air conditioning equipment 1 on each floor A to D is set to the energy saving side is shifted, and as a result, the increase in the number of input requests information from the user is not concentrated at once. Can do.

In the present embodiment, an air conditioning capability acquisition unit 53 that acquires the air conditioning capability of each air conditioning equipment 1 is attached to the control target setting unit 52 as shown in FIG. 11 , and each air conditioning facility acquired by the air conditioning capability acquisition unit 53 is provided. A process for changing the set temperature T of the air conditioner apparatus 1 from a predetermined time before the end time of the access concentration time zone is performed by the air conditioning capability of the apparatus 1, and the temperature of the room space at the end time is set to the end time by this change. It matches the set temperature T to be set.

  As a result, it takes time for the temperature of the actual room space to reach the set temperature T set as the end time due to the air conditioning capability of the air conditioning equipment 1 at a predetermined time (the end time of the access concentration time zone). Can be avoided. Thereby, it is possible to reliably avoid an increase in the number of input request information at a time.

It should be noted that at the start time of access concentration time zone, originally set Teisu Ru set temperature T to the disclosure time of access concentration time zone so that the temperature of the room space is reached, earlier than the start time, to change the setting temperature T Also good.

  FIG. 10 shows the transition between the space temperature (broken line) Tx and the set temperature (solid line) T of each floor (A to C in the figure) in the present embodiment. TA to tC indicate the end times of the access concentration time zones on the floors A to C.

In addition, since the other structure of this embodiment is the same structure as Embodiment 1, the same code | symbol is attached | subjected to the same component and description is abbreviate | omitted. The setting process of the set temperature T in the access concentration time zone may be any of the first and second embodiments.
(Embodiment 4)
As shown in FIG. 9 , the present embodiment includes a temperature sensor 6 as an outdoor environment sensor that measures a physical quantity related to an outdoor thermal environment, and the control target setting unit 52 uses a correction amount δT used for changing the set temperature T as a temperature sensor. 6 is changed according to the outside air temperature measured. In addition, since the other structure of this embodiment is the same structure as Embodiment 1, the same code | symbol is attached | subjected to the same component and description is abbreviate | omitted. The setting process of the set temperature T in the access concentration time zone may be any of the first and second embodiments.

  FIG. 12 shows the relationship between the set temperature T and the outside air temperature based on the correction amount δT that is changed according to the outside air temperature using this embodiment.

 According to this embodiment, even when a user is affected by an outdoor thermal environment due to movement indoors and outdoors, both the number of input of request information from the user and an increase in energy can be suppressed.

1 is a system configuration diagram of Embodiment 1. FIG. 1 is a layout example diagram of a system according to a first embodiment. 3 is a flowchart for explaining the operation of the first embodiment. FIG. 6 is an explanatory diagram of a relationship between a set temperature in an access concentration time zone and an access state in the first embodiment. FIG. 10 is an explanatory diagram of a disposition process as an access concentration time period depending on the number of requests per unit time in the first embodiment. 6 is a flowchart for explaining operations of the second embodiment. 10 is a timing chart showing a state in which the set temperature at the end of the access concentration time zone in the second embodiment is set as the set temperature at the start of the next access concentration time zone. FIG. 10 is an explanatory diagram of the relationship between the number of accesses and the set temperature in the second embodiment. FIG. 10 is a system configuration diagram of a fourth embodiment. It is a transition diagram of the space temperature and preset temperature in Embodiment 3. FIG. 9 is a system configuration diagram of a third embodiment. FIG. 6 is an explanatory diagram of a relationship between an outside air temperature and a set temperature in the fourth embodiment.

Explanation of symbols

(I) Air conditioning system 1 Air conditioning equipment 2 Air conditioning controller
(II) Control system 3 Request input device 4 Network 5 Server 50 Request information acquisition unit 51 Request information history storage unit 52 Control target setting unit

Claims (10)

A request input for inputting a control request for the air-conditioning control apparatus from the user existing in the predetermined space, and an air-conditioning control apparatus for setting a control target value in the air-conditioning equipment apparatus. A request information acquisition unit that acquires request information input using the request input device, a control target setting unit that derives the control target value based on the acquired request information, and past request information An air conditioning control system comprising a request information history storage unit that acquires a history of request information for each predetermined time period that is easy to concentrate ,
The control target setting unit
In the predetermined time zone, based on the past control target value and the history information of the request information, the control target value is corrected in a direction to suppress the number of input of the request information ,
The control target value of the predetermined time zone on the next specific day when the number of request information in the predetermined time zone on the latest specific date stored in the request information history storage unit is greater than a predetermined maximum reference number Is corrected by a predetermined value in a control direction in which comfort is achieved. A request input for inputting a control request for the air-conditioning control apparatus from the user existing in the predetermined space, and an air-conditioning control apparatus for setting a control target value in the air-conditioning equipment apparatus. A request information acquisition unit that acquires request information input using the request input device, a control target setting unit that derives the control target value based on the acquired request information, and past request information An air conditioning control system comprising a request information history storage unit that acquires a history of request information for each predetermined time period that is easy to concentrate ,
The control target setting unit
In the predetermined time zone, based on the past control target value and the history information of the request information, the control target value is corrected in a direction to suppress the number of input of the request information,
The control target value of the predetermined time zone on the next specific day when the number of request information in the predetermined time zone on the latest specific date stored in the request information history storage unit is greater than a predetermined maximum reference number Is corrected by a predetermined value in the comfortable control direction,
The air conditioning control system, wherein the control target value is derived for each air conditioning equipment and the set time of the predetermined time zone is set differently for each air conditioning equipment. A request input for inputting a control request for the air-conditioning control apparatus from the user existing in the predetermined space, and an air-conditioning control apparatus for setting a control target value in the air-conditioning equipment apparatus. A request information acquisition unit that acquires request information input using the request input device, a control target setting unit that derives the control target value based on the acquired request information, and past request information An air conditioning control system comprising a request information history storage unit that acquires a history of request information for each predetermined time zone that is easy to concentrate, and an air conditioning capability acquisition unit that acquires the air conditioning capability of the air conditioning equipment for the predetermined time zone There,
The control target setting unit
In the predetermined time zone, based on the past control target value and the history information of the request information, the control target value is corrected in a direction to suppress the number of input of the request information,
The control target value of the predetermined time zone on the next specific day when the number of request information in the predetermined time zone on the latest specific date stored in the request information history storage unit is greater than a predetermined maximum reference number Is corrected by a predetermined value in the comfortable control direction,
Based on the acquired air conditioning capacity, the control target from the predetermined time before the predetermined time so that the temperature at the start or end of the predetermined time zone on the specific day becomes the control target value set at that time. A value is changed and set in the air conditioning equipment through the air conditioning controller. The control target setting unit is configured to return the control target value to the control target value before being corrected with the predetermined value when the predetermined time period when the control target value is changed by the predetermined value has elapsed. The air conditioning control system according to any one of claims 1 to 3, wherein The control target setting unit determines whether the control target value is changed by the predetermined value when the desired information number in the predetermined time period is less than a predetermined minimum reference number at the end of the predetermined time period. 5. The air conditioning control system according to claim 4, wherein the control target value in a predetermined time zone of a day is a control target value before being corrected by the predetermined value . The control target setting unit stores a control target value at the end of the predetermined time period, and sets the stored control target value as a control target value in a predetermined time period on the next specific day. The air conditioning control system according to any one of 1 to 4 . It has an outdoor environment sensor that measures physical quantities related to the outdoor thermal environment,
The said control target setting part changes the said predetermined value used for the change of the said control target value according to the said physical quantity which the said outdoor environment sensor measures , The any one of Claim 1 thru | or 6 characterized by the above-mentioned. Air conditioning control system. A request input for inputting a control request for the air-conditioning control apparatus from the user existing in the predetermined space, and an air-conditioning control apparatus for setting a control target value in the air-conditioning equipment apparatus. A server for use with the device,
Request information acquisition unit for acquiring request information input using the request input device, control target setting unit for deriving the control target value based on the acquired request information, and past request information are easily concentrated A request information history storage unit for acquiring a history of request information for each predetermined time period,
The control target setting unit
In the predetermined time zone, based on the past control target value and the history information of the request information, the control target value is corrected in a direction to suppress the number of input of the request information,
The control target value of the predetermined time zone on the next specific day when the number of request information in the predetermined time zone on the latest specific date stored in the request information history storage unit is greater than a predetermined maximum reference number a and correcting a predetermined value amount to control direction to be a comfortable server. A request input for inputting a control request for the air-conditioning control apparatus from the user existing in the predetermined space, and an air-conditioning control apparatus for setting a control target value in the air-conditioning equipment apparatus. A server for use with the device,
Request information acquisition unit for acquiring request information input using the request input device, control target setting unit for deriving the control target value based on the acquired request information, and past request information are easily concentrated A request information history storage unit for acquiring a history of request information for each predetermined time period,
The control target setting unit
In the predetermined time zone, based on the past control target value and the history information of the request information, the control target value is corrected in a direction to suppress the number of input of the request information,
The control target value of the predetermined time zone on the next specific day when the number of request information in the predetermined time zone on the latest specific date stored in the request information history storage unit is greater than a predetermined maximum reference number Is corrected by a predetermined value in the comfortable control direction,
The server, wherein the control target value is derived for each air conditioning equipment, and the set time of the predetermined time zone is set differently for each air conditioning equipment . A request input for inputting a control request for the air-conditioning control apparatus from the user existing in the predetermined space, and an air-conditioning control apparatus for setting a control target value in the air-conditioning equipment apparatus. A server for use with the device,
Request information acquisition unit for acquiring request information input using the request input device, control target setting unit for deriving the control target value based on the acquired request information, and past request information are easily concentrated A request information history storage unit that acquires a history of request information for each predetermined time zone, and an air conditioning capability acquisition unit that acquires the air conditioning capability of the air conditioning equipment for the predetermined time zone,
The control target setting unit
In the predetermined time zone, based on the past control target value and the history information of the request information, the control target value is corrected in a direction to suppress the number of input of the request information,
The control target value of the predetermined time zone on the next specific day when the number of request information in the predetermined time zone on the latest specific date stored in the request information history storage unit is greater than a predetermined maximum reference number Is corrected by a predetermined value in the comfortable control direction,
Based on the acquired air conditioning capacity, the control target from the predetermined time before the predetermined time so that the temperature at the start or end of the predetermined time zone on the specific day becomes the control target value set at that time. A server , wherein a value is changed and set in the air conditioning equipment device through the air conditioning control device .

Images