JP2004360925A - Environmental control method and environmental control program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide environmental control method and environmental control program, achieving further power saving of an illuminating device, an air conditioner and office devices. <P>SOLUTION: The detection result of a current sensor 160 for detecting the use of the illuminating device 110, the air conditioner 120 and an OA system 130 installed in a room is supplied to a control system 20. The detection results of a man sensor 170, an illuminance sensor 171, a humidity sensor 172 and a temperature sensor 173 installed in a room are supplied to the control system 20. A management computer 21 of the control system 20 controls the illuminating device 110, the air conditioner 120 and the OA device 130 according to the respective sensors 160, 170 to 173. The management computer 21 limits the use of the air conditioner 120 to control the illuminating device 110, the air conditioner 120 and the OA device 130 when the total amount of power used is equal to or more than the power reference value on the basis of the detection result of the current sensor 160. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an environment control method and an environment control program for controlling an environment in an office.
[0002]
[Prior art]
2. Description of the Related Art In recent years, there is an increasing need for power saving in order to delay the depletion of energy resources and the global warming. Therefore, in order to realize power saving, air conditioners and office automation (OA) devices having a power saving function have appeared. For example, some air conditioners enter a power saving mode in which operation is intermittently controlled when the temperature or humidity reaches a set value. Some OA devices are automatically switched to a power saving mode when not used for a long time. That is, in such an air-conditioning device and an OA device, power saving is performed based on individually set values and respective usage conditions, and these are independently controlled.
[0003]
Further, in order to save power, a technology for controlling an air conditioner based on a use schedule of a room where the air conditioner is installed is disclosed (for example, Patent Document 1). In Patent Literature 1, the operation of the air conditioner is controlled in accordance with a use schedule, so that the air conditioner can be used comfortably and wasteful power consumption can be reduced.
[0004]
[Patent Document 1]
JP-A-11-73246
[0005]
[Problems to be solved by the invention]
However, electric power is used for various devices, and there is a need to further reduce power consumption.
The present invention has been made in view of the above-described problems, and an object of the present invention is to provide an environment control method and an environment control program that can further reduce power consumption of lighting devices, air conditioners, and office devices.
[0006]
[Means for Solving the Problems]
In order to solve the above problems, the invention according to claim 1 is directed to a first detection sensor provided for lighting equipment, a second detection sensor provided for air conditioning equipment, and an office equipment. An environment control method of an environment control system that monitors an environment including the lighting device, the air conditioning device, and the office device by using a detection result from a third detection sensor provided in the environment control system, wherein the environment control system includes: A recording step of recording respective detection results of the first, second, and third detection sensors; and the lighting device, based on the respective detection results of the first, second, and third detection sensors. And a control step of controlling the air conditioning equipment and the office equipment.
[0007]
According to a second aspect of the present invention, in the environmental control method according to the first aspect, the first, second, and third detection sensors include a sensor for calculating power consumption. An electric power calculation step in which the environment control system obtains total electric power used for the lighting equipment, the air conditioning equipment, and the office equipment based on the first, second, and third detection sensors; The method further comprises a comparing step of comparing the total power consumption calculated in the calculation step with a preset reference value, wherein the control step includes, when the total power consumption is equal to or more than the reference value, the total power consumption. Controlling the lighting device, the air conditioner, and the office device while restricting the use of at least one of the lighting device, the air conditioner, and the office device so that is less than the reference value. And gist comprises a use restriction control step.
[0008]
According to a third aspect of the present invention, in the environmental control method according to the first or second aspect, the environment control system stores use restriction information storing information on use restrictions of the lighting device, the air conditioner, and the office device. The use restriction control step includes limiting use of the lighting device, the air conditioning device, and the office device based on the information on the use restriction.
[0009]
According to a fourth aspect of the present invention, in the environmental control method according to the third aspect, the information on the use restriction is information for giving priority to the use restriction on the air conditioner.
[0010]
According to a fifth aspect of the present invention, in the environmental control method according to any one of the first to fourth aspects, when the environment control system executes the use restriction, management for managing a device whose use is restricted. The gist of the present invention is that a notification step for notifying a person in charge is further provided.
[0011]
The invention according to claim 6 is a first detection sensor provided for lighting equipment, a second detection sensor provided for air conditioning equipment, and a third detection sensor provided for office equipment. An environment control program of an environment control system that monitors an environment including the lighting device, the air conditioning device, and the office device using the detection result from the first, the second, and the second. Recording means for recording the detection results of the three detection sensors, and the lighting device, the air conditioning device, and the office device based on the detection results of the first, second, and third detection sensors. The gist of the present invention is to make it function as control means for performing the above.
[0012]
According to a seventh aspect of the present invention, in the environment control program according to the sixth aspect, the first, second, and third detection sensors include a sensor for calculating power consumption. A power calculating unit that obtains a total power used by the lighting device, the air conditioner, and the office device based on the first, second, and third detection sensors; The total power consumption calculated by the calculation means is further functioned as comparison means for comparing the total power consumption with the preset reference value, and the control means, when the total power consumption is equal to or more than the reference value, the total power consumption While the use of at least one of the lighting device, the air-conditioning device, and the office device is restricted so that is less than the reference value, the lighting device, the air-conditioning device, and the And summarized in that it includes the use restriction control means for controlling the office equipment.
[0013]
According to an eighth aspect of the present invention, in the environmental control program according to the sixth or seventh aspect, the environment control system stores use restriction information storing information on use restrictions of the lighting equipment, the air conditioning equipment, and the office equipment. A gist that the use restriction control unit restricts use of the lighting device, the air conditioning device, and the office device based on the information on the use restriction.
[0014]
According to a ninth aspect of the present invention, in the environmental control program according to the eighth aspect, the information on the use restriction is information for giving priority to the use restriction on the air conditioner.
[0015]
According to a tenth aspect of the present invention, in the environmental control program according to any one of the sixth to ninth aspects, when the use of the environment control system is restricted, the management of the devices whose use is restricted is managed. The gist is to further function as a notification unit for notifying the person in charge.
[0016]
(Action)
According to the invention described in claim 1 or 6, based on the detection results of the first detection sensor for lighting equipment, the second detection sensor for air conditioning equipment, and the third detection sensor for office equipment. Thus, lighting equipment, air conditioning equipment, and office equipment are controlled. That is, the lighting device is controlled based not only on the detection result of the first detection sensor but also on the detection results of the second and third detection sensors. Further, the air conditioner is controlled based on the detection results of the first and third detection sensors as well as the detection results of the second detection sensor. Further, the office equipment is controlled based on the detection results of the first and second detection sensors as well as the detection results of the third detection sensor. For this reason, the lighting device, the air conditioning device, and the office device can be integratedly managed and more efficiently controlled.
[0017]
According to the invention described in claim 2 or 7, while the power consumption of the lighting device, the air conditioner, and the office device is equal to or more than the reference value, the use of at least one of the lighting device, the air conditioner, and the office device is restricted. Control. For this reason, power saving can be more reliably achieved according to the preset reference value.
[0018]
According to the third or eighth aspect of the invention, the use of the lighting equipment, the air conditioner, and the office equipment is restricted based on the information on the use restriction. Therefore, by changing the information on the usage restriction, the usage restriction can be set individually for each of the lighting equipment, the air conditioning equipment, and the office equipment. Therefore, control can be performed more efficiently according to the use conditions of the portion where the lighting equipment, the air conditioning equipment, and the office equipment are provided.
[0019]
According to the invention described in claim 4 or 9, the use of the air conditioner is preferentially restricted. Even when the air conditioner is controlled, changes in temperature and humidity are relatively slow. For this reason, the use restrictions on other devices (lighting devices and office devices) of the air conditioner can be relaxed, and power can be saved efficiently.
[0020]
According to the fifth or tenth aspect of the present invention, the information on the device whose use is controlled is notified to the manager, so that the manager can easily grasp the status of the device to be managed. .
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the present invention will be described below with reference to FIGS.
As shown in FIG. 1, for example, one room R of an office building is provided with a plurality of lighting devices 110 and air conditioning devices 120. Specifically, the lighting device 110 is a fluorescent lamp or the like, and the air conditioner 120 is an air conditioner or the like. In the room R, a plurality of OA devices 130 are installed as office devices. The OA device 130 specifically includes a printer 131, a multifunction peripheral 132, a computer 135, and the like.
[0022]
Each lighting device 110, air conditioning device 120, and each OA device 130 are respectively connected to a power source (not shown), and a current sensor 160 is provided at the connection portion. The current sensor 160 is a sensor that detects a current amount. The current sensor 160 is connected to the control system 20 of FIG. 2 via the network N, and transmits data of the detected current amount to the control system 20.
[0023]
In the room R, a human sensor 170, an illuminance sensor 171, a humidity sensor 172, and a temperature sensor 173 are provided. The human sensor 170 is a sensor that detects the presence or absence of a person in the room R by detecting infrared rays or the like. The illuminance sensor 171 is a sensor that detects the brightness of the room R. The humidity sensor 172 is a sensor that detects the humidity of the room R. The temperature sensor 173 is a sensor that detects the temperature of the room R. The motion sensor 170, the illuminance sensor 171, the humidity sensor 172, and the temperature sensor 173 are connected to the control system 20 via a network (not shown), and transmit detected result data to the control system 20.
[0024]
In the present embodiment, the current sensor 160, the human sensor 170, and the illuminance sensor 171 of the lighting device 110 function as a first sensor normally used for the lighting device 110. Further, the current sensor 160, the illuminance sensor 171 and the humidity sensor 172 of the air conditioner 120 function as a second sensor normally used for the air conditioner 120. Further, the current sensor 160 of the printer 131, the multifunction peripheral 132, and the computer 135 functions as a third sensor for each OA device 130.
[0025]
On the other hand, the control system 20 that receives data via the network N is an environmental control system, and controls the lighting device 110, the air conditioner 120, and the OA device 130, respectively. As shown in FIG. 2, the control system 20 includes a management computer 21, a detection data storage unit 22, a power reference value data storage unit 23, and a control target device data storage unit 24 as a use restriction information storage unit.
[0026]
The management computer 21 functions as a control unit including a recording unit, a use restriction control unit, a power calculation unit, a comparison unit, a notification unit, and the like. In addition, the management computer 21 processes according to an environment control program stored in a ROM (not shown) to perform processing described below (processing including a control step including a recording step, a use restriction control step, a power calculation step, a comparison step, a notification step, and the like). Etc.). Then, the management computer 21 controls each of the lighting device 110, the air conditioning device 120, and the OA device 130 according to this processing. The management computer 21 receives detection signals from the sensors 160, 170 to 173 in order to perform various processes. Further, the management computer 21 is connected to each of the data storage units 22 to 24, and acquires data stored in each of the data storage units 22 to 24 when performing processing.
[0027]
As shown in FIG. 3, the detection data storage unit 22 stores detection data 220 relating to the detection result of the sensor. The detection data 220 includes data of a sensor identifier, a detection time, and a detection result. Here, the sensor identifier is a sensor identifier for identifying each of the sensors 160, 170 to 173. Note that a plurality of sensors such as the current sensor 160 have different sensor identifiers.
[0028]
The detection result is data of a result detected by the plurality of current sensors 160, the human sensor 170, the illuminance sensor 171, the humidity sensor 172, and the temperature sensor 173 at the detection time. Specifically, the data of the detection result is a current value in the case of the current sensor 160, the presence or absence of a person in the room R in the case of the human sensor 170, and the illuminance in the room R in the case of the illuminance sensor 171. In the case of the humidity sensor 172, it is the humidity in the room R, and in the case of the temperature sensor 173, it is the temperature in the room R.
[0029]
That is, the detection data storage unit 22 stores the detection results of the sensors 160 and 170 to 173 as the detection data 220 together with the detection time at which the detection was performed.
[0030]
On the other hand, as shown in FIG. 4, data of the power reference value P as a reference value is stored in the power reference value data storage unit 23. The power reference value P is a target reference value of the total power consumption per predetermined time of the lighting device 110, the air conditioner 120, and the OA device 130 installed in the room R. In the present embodiment, the power reference value P is a target reference value for one hour.
[0031]
As shown in FIG. 5, the control target device data storage unit 24 stores control target device information 240 regarding the control target device. The control target device information 240 includes data such as a control target device identifier, a control flag, and contact information of a manager. The control target device identifier is an identifier for identifying each of the plurality of lighting devices 110 to be controlled, the air conditioner 120, and each of the plurality of OA devices 130 (the printer 131, the multifunction peripheral 132, and the computer 135).
[0032]
The control flag is a flag relating to a condition to be controlled in order to reduce power consumption when the used power becomes equal to or more than the power reference value P. For example, in the present embodiment, the control graph is set in two stages of “1” or “2”, and when the value of the control flag is small, the power consumption is preferentially limited. That is, the use of the device whose control flag is set to “1” is restricted first when the used power becomes equal to or more than the power reference value P. Devices for which the control flag is set to “2” are devices for which power usage is restricted later. In the present embodiment, even if all the devices for which the control flag is set to "1" are stopped, the use of the devices for which the control flag is set to "2" is restricted when the power consumption needs to be further reduced. Is done. In the present embodiment, the control flag of the air conditioner 120 is set to “1”, and the control flags of the lighting device 110 and the OA device 130 are set to “2”. That is, in the present embodiment, even if all the air conditioners 120 are stopped, the lighting device 110 and the OA device 130 are set to the power saving mode when the used power is still equal to or higher than the power reference value P.
[0033]
The management contact data is the contact information of the management person who manages the controlled device. For example, in the case of the OA equipment 130, the mail address of the mobile phone terminal 10 (see FIG. 2) of the person in charge of the company that manages the maintenance is used. Then, based on the data of the contact person in charge of management, the management computer 21 sends data relating to control and management of the control target device by email to the mobile phone terminal 10 of the person in charge of management via the antenna 201.
[0034]
Next, an environment control method according to the present embodiment will be described with reference to FIGS.
Normally, the management computer 21 controls the operation of the lighting device 110, the air conditioner 120, and the OA device 130 by repeatedly performing the control processing shown in FIG. 6 at predetermined time intervals according to the environment control program.
[0035]
More specifically, at a predetermined time, the management computer 21 collects detection results detected by sensors other than the current sensor 160 (the human sensor 170, the illuminance sensor 171, the humidity sensor 172, and the temperature sensor 173) (Step S1- 1). Then, the management computer 21 stores the collected detection results in the detection data storage unit 22 (Step S1-2). Specifically, the detection results of the human sensor 170, the illuminance sensor 171, the humidity sensor 172, and the temperature sensor 173 are stored as detection data 220 together with a sensor identifier for identifying each sensor and a detection time.
[0036]
Next, the management computer 21 determines whether or not it is operating in the normal mode (step S1-3). That is, when the use restriction process of FIG. 8 described below is performed and the operation is not performed in the normal mode (NO in step S1-3), the management computer 21 controls the operation under the use restriction process. continue.
[0037]
On the other hand, when the mode is the normal mode (YES in step S1-3), the operation of each of the control target devices is controlled based on the detection data 220 (step S1-4). That is, the management computer 21 performs power-on / off control and illuminance adjustment control of the lighting device 110 based on the detection results of the human sensor 170 and the illuminance sensor 171. In addition, the management computer 21 controls the air conditioner 120 based on the detection results of the humidity sensor 172 and the temperature sensor 173, and adjusts the temperature and humidity of the room R. Further, the management computer 21 monitors the OA device 130 using the detection results of the current sensors 160 of the printer 131, the multifunction peripheral 132, and the computer 135. In the present embodiment, the management computer 21 controls the OA device 130 based on the detection result of the human sensor 170.
[0038]
Then, separately from the control processing of FIG. 7, the management computer 21 performs the integrated control processing shown in FIG. In the integrated control process, the management computer 21 collects the detection result of each current sensor 160, that is, the current value of each of the lighting device 110, the air conditioning device 120, and the OA device 130 (step S2-1). Then, the management computer 21 stores the collected detection results of the current sensor 160 in the detection data storage unit 22 (Step S2-2). That is, the current value detected by each current sensor 160 is stored as detection data 220 together with a sensor identifier for specifying each current sensor 160 and the detection time.
[0039]
Next, the management computer 21 calculates the total power consumption (step S2-3). In the calculation of the power consumption, the management computer 21 first calculates the power consumption based on the current values of the lighting devices 110, the air conditioners 120, and the current sensors 160 of the OA devices 130, respectively. Then, the management computer 21 calculates the total power consumption by summing the power consumption of the lighting device 110, the air conditioner 120, and the OA device 130 provided in the room R.
[0040]
Then, the management computer 21 determines whether the calculated total power consumption is equal to or larger than the power reference value P (step S2-4). When the total power consumption is less than the power reference value P, the management computer 21 ends the integrated control processing.
[0041]
On the other hand, when the calculated power consumption is equal to or greater than the power reference value P, the management computer 21 performs a use restriction process shown in FIG. 8 (step S2-5).
[0042]
Next, the use restriction process shown in FIG. 8 will be described.
First, the management computer 21 first specifies a device to be controlled (step S3-1). That is, the management computer 21 extracts the control target device identifier for which the control flag is set to “1” from the control target device information 240 stored in the control target device data storage unit 24. In the present embodiment, since the control flag of the air conditioner 120 is set to “1”, the control target device identifier related to the air conditioner 120 is extracted.
[0043]
Next, the management computer 21 controls the operation of the control target device whose control flag is “1” so that the power consumption is reduced. That is, the management computer 21 controls the air conditioner 120 so that the power consumption is reduced.
[0044]
Then, the management computer 21 recalculates the total power consumption after controlling the control target device of the control flag “1” (Step S3-3). That is, the detection result of the current sensor 160 is collected again, and the power consumption is calculated based on the current value of the collected detection result. Then, the management computer 21 determines whether the recalculated total power consumption is less than the power reference value P (step S3-4).
[0045]
If the recalculated total power consumption is not less than the power reference value P (NO in step S3-4), the management computer 21 determines whether the control target device whose control flag is "1" can be further controlled. A determination is made (step S3-5). For example, it is assumed that the total power consumption is equal to or greater than the power reference value P even when the air conditioner 120 whose control flag is “1” is changed to the power saving mode in step S3-2 to control the operation. In this case (YES in step S3-4), management computer 21 determines that the power of air conditioner 120 can be turned off, and determines YES in step S3-5.
[0046]
Then, when the management computer 21 determines that the air conditioner 120 whose control flag is “1” can be further controlled (YES in step S3-5), the above-described steps S3-2, S3-3, and S3-4 is repeated. Thereby, the management computer 21 controls the air conditioner 120 again (step S3-2). Here, the power of the air conditioner 120 is turned off and stopped.
[0047]
In addition, a process in a case where the total power consumption is not yet less than the power reference value P even when the air conditioner 120 whose control flag is “1” is completely stopped (NO in step S3-4) will be described below. . In this case, since the power consumption cannot be reduced by controlling the device to be controlled with the control flag “1” (NO in step S3-5), the management computer 21 performs the control with the control flag set to “2”. The target device is specified (Step S3-6). Then, the management computer 21 performs control for reducing power on the specified control target device. Specifically, the management computer 21 controls the lighting device 110 and the OA device 130 for which the control flag is set to “2”. As a result, the illuminance of the lighting device 110 is adjusted, and the OA device 130 is changed to the power saving mode and the operation is controlled.
[0048]
Then, when the recalculated total power consumption becomes less than the power reference value P (YES in step S3-4), or when the control target device whose control flag is “2” is controlled (step S3-7). Next, the management computer 21 specifies the contact address of the person in charge of the controlled device to be controlled (step S3-8). That is, the management computer 21 uses the control target device information 240 stored in the control target device data storage unit 24 based on the control target device identifier of the control target device to control the contact information (for example, the mail of the mobile phone terminal 10). Address). Then, based on the acquired contact data, the management computer 21 sends a notification to the person in charge of the change by sending an e-mail (step S3-9). Thus, the use restriction process of FIG. 8 ends. Accordingly, the integrated control process of FIG. 7 ends.
[0049]
Then, the above-described control processing of FIG. 7 and the integrated control processing of FIG. 8 are repeated at predetermined time intervals, and the lighting device 110, the air conditioner 120, and the OA device 130 of the room R are controlled.
[0050]
According to the environment control method of the present embodiment, the following effects can be obtained. -In this embodiment, based on the detection result of each current sensor 160, the lighting device 110, the air conditioner 120, and the OA device 130 were controlled as shown in FIG. Therefore, the lighting device 110, the air conditioning device 120, and the OA device 130 are integrally controlled based on each current sensor 160, so that further power saving can be achieved.
[0051]
In the present embodiment, based on the detection result from the current sensor 160, when the total power consumption is equal to or higher than the power reference value P (YES in step S2-4), the use restriction process is performed. In this use restriction process, the lighting device 110, the air conditioner 120, and the OA device 130 were controlled by restricting the use of the air conditioner 120 whose control flag is “1”. Therefore, power can be saved more reliably.
[0052]
In the present embodiment, the control target device data storage unit 24 stores a control flag that specifies a device whose use is restricted first in the use restriction process of FIG. Therefore, the use is restricted based on this control flag. Therefore, by changing the control flag, it is possible to easily save power according to the use condition of the room R.
[0053]
In the present embodiment, since the control flag of the air conditioner 120 is set to “1”, when the power consumption becomes equal to or more than the power reference value P, the use of the air conditioner 120 is restricted first. The temperature and humidity do not change immediately even when the air conditioner 120 is stopped. For this reason, it is possible to restrict the use of the other lighting devices 110 and OA devices 130 whose usage status changes as soon as the use is restricted, to use the power effectively and to save power more reliably.
[0054]
-In this embodiment, the information about the lighting equipment 110, the air conditioning equipment 120, and the OA equipment 130 whose use was restricted was notified to the manager in charge of each (step S3-9). Therefore, the manager can easily grasp the status of the lighting device 110, the air conditioner 120, and the OA device 130 to be managed.
[0055]
In the present embodiment, the OA device 130 is controlled based on the detection result of the human sensor 170 for controlling the lighting device 110 normally. Therefore, the control of the OA device 130 can be performed with further power saving.
[0056]
In addition, this embodiment may be changed as follows.
In the above embodiment, the power reference value P stored in the power reference value data storage unit 23 has been described as a constant value, but may be changed for each hour or for each month and day. Further, the power reference value P may be set in units of one day or may be set in units of time.
[0057]
In the above embodiment, the lighting device 110 and the air conditioner 120 are controlled based on the detection result of the current sensor 160 for controlling the OA device 130. Instead, the lighting device 110 and the OA device 130 may be controlled based on the detection result of the humidity sensor 172, or the use of the air conditioner 120 may be controlled based on the illuminance sensor 171.
[0058]
In the above embodiment, the lighting device 110, the air conditioner 120, and the OA device 130 are controlled based on the current sensor 160, the human sensor 170, the illuminance sensor 171, the humidity sensor 172, and the temperature sensor 173. In addition to this, when another sensor, for example, the lighting device 110 is controlled based on a sensor related to keying of the room R, the other air conditioner 120 and the OA device 130 may be controlled based on this sensor. Good.
[0059]
In the above embodiment, when the use of the lighting device 110, the air conditioner device 120, and the OA device 130 is restricted, the device manager is notified. Alternatively, the notification may not be made to the administrator in charge even when the use is restricted, or the notification may be made only in another emergency. The emergency is, for example, when the total amount of power calculated based on each current sensor 160 exceeds an amount of power that would not be exceeded in normal use. Further, the power reference value P and the setting of the control flag of the control target device information 240 may be changed from the mobile phone terminal 10 of the administrator.
[0060]
In the above embodiment, one room R has been described, but a plurality of rooms R may be managed collectively. Further, environmental control for power saving may be performed for each floor including a plurality of rooms R or for each building.
[0061]
【The invention's effect】
According to the present invention, based on detection results of a first detection sensor for controlling lighting equipment, a second detection sensor for controlling air conditioning equipment, and a third detection sensor for controlling OA equipment. , Lighting equipment, air conditioning equipment and OA equipment. Therefore, it is possible to more efficiently control the lighting device, the air conditioning device, and the OA device while saving power.
[Brief description of the drawings]
FIG. 1 is a layout view of devices installed in a room according to an embodiment.
FIG. 2 is a schematic diagram of a control system according to the embodiment.
FIG. 3 is a data configuration diagram of detection data stored in a detection data storage unit.
FIG. 4 is a data configuration diagram of data stored in a power reference value data storage unit.
FIG. 5 is a data configuration diagram of control target device data stored in a control target device data storage unit.
FIG. 6 is a flowchart of a control process according to the embodiment.
FIG. 7 is a flowchart of an integrated control process according to the embodiment.
FIG. 8 is a flowchart of a use restriction process according to the embodiment.
[Explanation of symbols]
P: power reference value as a reference value, 20: control system as an environmental monitoring system, 110: lighting equipment, 120: air conditioning equipment, 130: OA equipment as office equipment, 160: first, second, and third A current sensor constituting a detection sensor, 170 a human sensor constituting a first detection sensor, 171 an illuminance sensor constituting a first detection sensor, 172 a humidity sensor constituting a second detection sensor, 173 ... A temperature sensor constituting a second detection sensor.

Claims (10)

Using detection results from a first detection sensor provided for lighting equipment, a second detection sensor provided for air conditioning equipment, and a third detection sensor provided for office equipment, An environment control method of an environment control system that monitors an environment including a lighting device, the air conditioning device, and the office device,
The environmental control system,
A recording step of recording respective detection results of the first, second, and third detection sensors;
A control step of controlling the lighting device, the air conditioning device, and the office device based on a detection result of each of the first, second, and third detection sensors. The first, second, and third detection sensors include a sensor for calculating power consumption,
The environment control method includes:
The environmental control system,
Based on the first, second, and third detection sensors, a power calculation step of obtaining a total power consumption used for the lighting device, the air conditioning device, and the office device;
The total power consumption calculated in the power calculation step, further comprising a comparison step of comparing a preset reference value,
The control step restricts use of at least one of the lighting device, the air conditioning device, and the office device so that the total power consumption is less than the reference value when the total power consumption is equal to or greater than the reference value. The environment control method according to claim 1, further comprising a use restriction control step of controlling the lighting device, the air conditioning device, and the office device. The environment control system has a use restriction information storage unit that stores information on use restrictions on the lighting devices, air conditioners, and office equipment,
3. The environment control method according to claim 1, wherein the use restriction control step restricts use of the lighting device, the air conditioner, and the office device based on the information on the use restriction. 4. The environment control method according to claim 3, wherein the information on the use restriction is information for giving priority to the use restriction on the air conditioner. The method according to any one of claims 1 to 4, further comprising a notification step of, when the environment control system executes the use restriction, notifying a manager in charge of a device whose use is restricted. The environmental control method described in 1. Using detection results from a first detection sensor provided for lighting equipment, a second detection sensor provided for air conditioning equipment, and a third detection sensor provided for office equipment, An environment control program for an environment control system that monitors an environment including the lighting device, the air conditioning device, and the office device,
The environmental control system,
Recording means for recording each detection result of the first, second, and third detection sensors; and the lighting device, based on the detection results of the first, second, and third detection sensors. An environment control program for causing an air conditioner and the office equipment to function as control means. The first, second, and third detection sensors include a sensor for calculating power consumption,
The environmental control program,
The environmental control system,
A power calculating unit that obtains a total power used by the lighting device, the air conditioner, and the office device based on the first, second, and third detection sensors; and the power calculated by the power calculating unit. It further functions as comparing means for comparing the total power consumption with a preset reference value,
The control unit restricts use of at least one of the lighting device, the air conditioner, and the office device so that when the total power consumption is equal to or more than the reference value, the total power consumption is less than the reference value. 7. The computer-readable storage medium according to claim 6, further comprising a use restriction control unit that controls the lighting device, the air conditioning device, and the office device. The environment control system has a use restriction information storage unit that stores information on use restrictions on the lighting devices, air conditioners, and office equipment,
The environment control program according to claim 6, wherein the use restriction control unit restricts use of the lighting device, the air conditioning device, and the office device based on the information on the use restriction. 9. The environment control program according to claim 8, wherein the information on the use restriction is information for giving priority to the use restriction on the air conditioner. 10. The system according to claim 6, wherein the environmental control system further functions as notifying means for notifying a manager in charge of the device whose use has been restricted when the use restriction is executed. Environmental control program according to one of the above.

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