JP2015102321A - Environmental management system inside the building - Google Patents

Abstract

PROBLEM TO BE SOLVED: To show a comprehensive and optimal operation method of equipment in consideration of energy consumption and to adjust an environment by combining an air-conditioner and a blind to achieve a comfortable environment required by an occupant.SOLUTION: An environment monitoring device 22 acquires environment data 30 affecting an environment of each section in a building. An environment monitor screen 36 displays information on a temperature, humidity and light intensity. An equipment control device 28 controls equipment 26 arranged in each section in the building. A storage device 34 stores state information 38 indicating a state of each of the equipment and a preset designated value 46. An energy monitoring device 24 displays accumulated energy and consumed energy on an energy monitor screen 48. A center control device 16 selects an adjustment method of optimal equipment 26 to bring the environment in a corresponding habitable room close to the designated value required by an occupant and outputs a message by displaying that, for example, "Stop an air-conditioner and open windows on west and east sides half way".

Description

  The present invention relates to an environment management system inside a building that can automatically and comprehensively determine and optimize the environment in each part inside the building.

  A system has been developed for easily displaying energy storage and usage status in buildings equipped with solar power generation facilities (Patent Document 1). In addition, for the purpose of energy saving and the like, a system for optimizing the operating state of various power devices inside a building or remotely monitoring and controlling them has been developed (Patent Document 2).

JP 2012-248040 A JP 2013-192016 A

The known prior art has the following problems to be solved.
For example, a known air conditioner has a built-in temperature sensor and can adjust the temperature and humidity environment as set by a resident. Furthermore, the air conditioner has an operation function in an energy saving mode. However, in consideration of energy saving or the like, it may not be appropriate to rely only on temperature and humidity control by an air conditioner. For example, it may be better to lower the room temperature by improving ventilation. In some cases, it is better to adjust the amount of light collected. That is, the setting and operation of the air conditioner by the resident to create the environment that the resident wants is not necessarily optimal. Furthermore, the resident may not be aware that he is consuming wasteful energy.
The present invention has been made paying attention to the above points, and achieves the following objects.
(1) In order to create a comfortable environment desired by the resident, the operation and settings of a comprehensive optimum device and the like taking into account energy consumption are automatically calculated and transmitted to the resident.
(2) According to the resident's request, various devices are automatically operated in cooperation to form an optimum environment.

  The following configurations are means for solving the above-described problems.

<Configuration 1>
Connect a detection device to acquire environmental data that affects the environment of each part of the building, store the acquired environmental data in the storage device, and from the environmental data stored in this storage device, the inside and outside of the building An environmental monitoring device that selects any environmental data representing the environment and executes control to display using the environmental monitor screen;
A device control device that controls the operation of the devices arranged in each part of the building, stores state information indicating the current control state in the storage device, and displays the state information of the device on the device control screen;
The status information of each device is read from the storage device, and information indicating energy accumulated by any device and energy consumed by any device is generated and stored in the storage device. An energy monitoring device that displays information representing the energy using an energy monitor screen;
The environmental monitoring device, equipment control device, energy monitoring device and center control device,
The center controller is
A designated value indicating the environment set in advance for the room of the building is stored in the storage device, the environmental data of the room of the building and the state information of the device are read from the storage device, and the room of the building is read. When the current environmental data is outside the fixed range centered on the specified value, select the status information of the device that should be adjusted to bring the environmental data of the room closer to the specified value, and output a message indicating the result Environmental management system inside the building, characterized by

<Configuration 2>
The center controller is
If there are a plurality of combinations of status information of a plurality of devices that should be adjusted to bring the environmental data of the living room close to the specified value, a set whose energy consumption is close to the minimum is displayed on the display. Environmental management system inside the building.

<Configuration 3>
The center controller is
Even if the current environmental data of a room in any building is within a certain range centered on the specified value, the equipment to be set in order to keep the environmental data of the room within the certain range. When status information is selected and the status information does not match the current device status information, and the selected status is lower than the energy consumption, a message indicating the selected result is output. The environmental management system inside a building according to Configuration 1 or 2, wherein

<Configuration 4>
A sound generator is attached to the equipment, and the message is output from the sound generator of the equipment to be adjusted to approach the specified value. Management system.

<Configuration 5>
When a specified value is specified for the environment of a specific room by a specific resident, the specified value for each resident is stored in the storage device,
The center control device identifies an inhabitant to be operated by input information, and selects the message using a corresponding designated value. The environment inside the building according to any one of the configurations 1 to 4 Management system.

<Configuration 6>
The device control device
6. The environmental management system inside a building according to any one of configurations 1 to 5, wherein when an automatic control request is input, the corresponding device is automatically adjusted to a corresponding state according to the selection result.

<Configuration 7>
A computer program that causes a computer to function as an environmental management system inside a building according to any one of configurations 1 to 6.

<Configuration 8>
A computer-readable recording medium on which the computer program according to Configuration 7 is recorded.

<Effect of Configuration 1>
In advance, it is preferable that the resident stores the desired values such as temperature, humidity, and brightness according to the season for the room. The center control device can select an appropriate state information adjustment method for a device that affects the environment of the room and prompt the resident to operate the device.
<Effect of Configuration 2>
There are various methods for adjusting the room temperature, such as operating an air conditioner, opening a window, and closing a blind. When adjusting by combining a plurality of devices, the resident can know the optimal device operation.
<Effect of Configuration 3>
If there is another setting method that consumes less energy than the current one, it can be displayed and the occupant can be encouraged to perform an optimal operation.
<Effect of Configuration 4>
When there are multiple devices that need to be adjusted, the resident can definitely adjust all necessary devices if a message is output from these devices indicating the optimal environment setting method before or during the adjustment. .
<Effect of Configuration 5>
A designated value can be set for each resident for each room.
<Effect of Configuration 6>
Since the work of adjusting a plurality of devices as calculated is complicated, means for automatically adjusting by a computer is also provided.

1 is a configuration explanatory diagram of a building that realizes a system according to a first embodiment. It is a principal part functional block diagram of the system shown in FIG. 4 is a block diagram illustrating functions of the environment monitoring device 22. FIG. 3 is a block diagram for explaining functions of a device control device 28 and an energy monitoring device 24. FIG. It is a figure which shows the example of the environment monitor screen. It is a figure which shows the example of the apparatus control screen. It is a figure which shows the example of the energy monitor screen. It is a structure explanatory drawing of the screen displayed on a display. It is explanatory drawing explaining the specific operation | movement of a center control apparatus. It is a flowchart which shows operation | movement of an environment monitoring apparatus. 3 is an operation flowchart of the device control apparatus 28. 3 is an operation flowchart of the energy monitoring device 24. It is an operation | movement flowchart of a center control apparatus. It is a process flowchart of the some combination output by a center control apparatus.

  Hereinafter, embodiments of the present invention will be described in detail for each example.

FIG. 1 is a configuration explanatory diagram of a building that realizes the system according to the first embodiment.
The environment management system 10 of Example 1 is implement | achieved about the building 12 provided with the facilities as shown in the figure. The building 12 is provided with a well-known smart meter 60 in order to transmit and manage energy consumption to residents. A computer 62 is installed to centrally manage and control various devices provided in each part of the building 12.

  In this embodiment, all devices are network-connected to the wireless router 64 by a wireless LAN (local area network). Temperature / humidity sensors 70 are arranged at various locations in the room 14 of the building 12. The temperature / humidity sensor 70 may include a sensor for detecting brightness. The temperature / humidity sensor 70 and the like are referred to as a detection device 32 in the following embodiments.

  A solar battery panel 66 is provided on the roof of the building 12. The electric power generated by the solar cell panel 66 is stored in the storage battery 68. In addition, a large number of lights 71, windows 72, shutters 74, blinds 76, etc. provided in each living room 14 of the building 12 have a function of automatically turning on / off and opening / closing. These are configured to be remotely controlled by a tablet 78 or a smart phone 80. These are collectively referred to as device 26 in the following embodiments.

FIG. 2 is a functional block diagram of the main part of the system shown in FIG.
The environment monitoring device 22, the device control device 28, the energy monitoring device 24, and the center control device 16 shown in the figure are realized by an arithmetic processing device of a computer 62 (FIG. 1). The storage device 34 is built in the computer 62, the tablet 78 (FIG. 1), or the like. The display 18 is a display screen of the computer 62, the tablet 78, and the smart phone 80 (FIG. 1).

  This system is managed and controlled by the center controller 16. A display 18 is provided to output the result of the arithmetic processing. The display 18 displays a screen and a message output from the center control device 16, and has a function of accepting various command input operations by a touch sensor or the like.

  A storage device 34 is provided for storing data handled by the center control device 16, the environment monitoring device 22, the energy monitoring device 24, and the device control device 28. The storage device 34 stores environment data 30, state information 38, a specified value 46, a determination table 54, an application 56, and the like. Furthermore, a control screen 20, an environment monitor screen 36, a device control screen 42, and an energy monitor screen 48 for displaying the result of the arithmetic processing on the display 18 are provided. Specific examples of these will be described with reference to the following drawings.

FIG. 3 is a block diagram illustrating functions of the environment monitoring device 22.
The detection device 32 shown in the figure is a device for acquiring information that affects the environment of each part of the building. For example, it is comprised by the sensor which detects the temperature of each living room of a building, humidity, a light quantity, an air volume, a sound, a vibration, etc. A human sensor may be incorporated. The environment monitoring device 22 executes processing for storing the environment data 30 acquired from these detection devices 32 in the storage device 34.

  The environment of each part of the building includes not only the room inside the building but also the outside environment of the building. The environmental data of the area to which the building belongs can also be obtained from a weather forecast broadcast signal or the like. It is preferable to accumulate not only current environmental data but also past environmental data.

  The environmental monitoring device 22 performs control for selecting any environmental data 30 representing the environment inside or outside the building from the environmental data 30 stored in the storage device 34 and displaying the selected environmental data 30 using the environmental monitor screen 36. Run. This is for use by residents. What environmental data 30 is selected is determined in advance.

  The environment monitor screen 36 is used to display the temperature and humidity of the living room 14. Further, for example, brightness on a desk or table, a noise level, and the like may be displayed together. Only a part of the environmental data may be displayed or all of the environmental data may be displayed. Further, other information may be displayed together.

FIG. 4 is a block diagram illustrating functions of the device control device 28 and the energy monitoring device 24.
The equipment 26 arranged in each part of the building is controlled by the equipment control device 28. Status information 38 indicating the control status of each device 26 is stored in the storage device 34. The device control screen 42 includes an operation screen for displaying the state of the device 26 and requesting the device control device 28 to change the state. For example, if the device 26 is an air conditioner, the status information 38 is data indicating the on / off state, the air volume, the wind direction, the specified temperature, the specified humidity, and the like.

  The storage device 34 may be provided inside the device 26 or may be provided in the computer 62 (FIG. 1). In addition to a water heater, an air conditioner, and a lighting fixture, the device 26 includes a window opening / closing device, a ventilation fan, a door opening / closing device, a lighting shutter opening / closing device, and the like. This is as illustrated in FIG. The device control screen 42 is displayed on the computer 62, the tablet 78, and the smart phone 80 (FIG. 1).

  The energy monitoring device 24 reads state information 38 such as the solar battery panel 66 (FIG. 1) that generates energy and the storage battery 68 (FIG. 1) that stores energy from the storage device 34, and is consumed with the stored energy. Calculate energy. And it has the function to display the information showing the result using the energy monitor screen 48. Each control screen is illustrated using FIGS.

FIG. 5 is a diagram showing an example of the environment monitor screen 36.
On this screen, a floor plan 84 is displayed, and the environment data 30 acquired using the detection device 32 (FIG. 1) is displayed in a character frame in each part. In addition, a message 58 or the like for alerting the resident is displayed by a calculation process described later.

  Then, for example, a message prompting the resident to set an air conditioner suitable for the outside air temperature by comparing the temperature inside the room acquired by the temperature / humidity sensor 70 (FIG. 1) with the outside air temperature is displayed on the environment monitor screen 36. Use to output.

FIG. 6 is a diagram illustrating an example of the device control screen 42.
The example of this figure is a screen for controlling all the lights 71 (FIG. 1) provided in each part of the building 12. The control button 44 displayed with a circle in the floor plan 84 is displayed in, for example, orange when the corresponding illumination 71 is turned on, and is displayed in, for example, blue when it is turned off. Therefore, when the device control screen 42 is viewed, the states of all the lights 71 in the building 12 can be confirmed simultaneously.

  Then, for example, if it is detected that there is no person in the room where the temperature / humidity sensor 70 (FIG. 1) with built-in human sensor is present, a message “Please turn off unnecessary lighting” is output as shown in the figure. . The message may be output as text or voice.

FIG. 7 is a diagram showing an example of the energy monitor screen 48.
For example, the stored energy 50 is displayed while comparing the energy 50 stored by the photovoltaic power generation equipment with the power sold and the power purchased. Moreover, the state information 38 of the apparatus inside a building is read from the memory | storage device 34, the power consumption is calculated, and the consumed energy 52 is displayed. Further, the battery monitor 51 and the hot water amount monitor 53 are displayed in the same manner. Again, if the power purchased is greater than the power sold, a message is issued prompting the resident to inspect the equipment and turn the equipment on and off.

FIG. 8 is an explanatory diagram of the configuration of a screen displayed on the display.
In the illustrated example, a large number of icons are displayed in the peripheral portion of the screen of the display 18.
For example, when any one of these icons is operated, the already described energy monitor screen 48 and environment monitor screen 36 are displayed. Further, for example, for all devices, the device control screen 42 may be launched with a separate icon.

  For example, all the devices 26 are each configured to have a unique application 56 and display a unique device control screen 42. For example, when an icon representing a symbol of the lighting device is clicked, a device control screen 42 (FIG. 6) for controlling the lighting device is displayed on the display 18.

  In FIG. 2, the application 56 of the device 26 repeats the process of writing the state information 38 of the device 26 in the storage device 34 together with information indicating the current time through the device control device 28, for example. The center control device 16 reads the status information 38 of the device 26 from the storage device 34 when executing various arithmetic processes. When the application 56 of a certain device 26 is functioning, the latest current status information 38 of that device can be read from the storage device 34.

  On the other hand, if the device 26 is not functioning, there is no current state information 38. Therefore, it is assumed that this device is not present, and various processes may be performed. Therefore, the center control device 16 is not directly affected by the presence / absence of the individual devices 26, and only the devices 26 that can acquire the current state information 38 need only be cooperatively controlled. That is, the system of this embodiment has an effect that the equipment 26 can be freely added or removed.

FIG. 9 is an explanatory diagram illustrating a specific operation of the center control device.
First, it is assumed that, for each room, the resident stores in the storage device 34 the desired values such as temperature, humidity, and brightness that are considered to be comfortable. The designated value 46 is a value indicating a preset environment. For example, the room temperature in winter is 23 degrees Celsius, the humidity is 40%, and the noise is 35 decibels or less. For each room, for example, allowable ranges such as a temperature of plus or minus 2 degrees and a humidity of plus or minus 5% are set.

  The center control device 16 reads the building environment data 30 and the state information 38 of the device 26 from the storage device 34. In the example of the figure, environmental data 30-1 and 30-2 output from the temperature sensor 32-1 of the sunroom and the temperature sensor 32-2 of the living room are read. Then, when the environmental data 30-1 and 30-2 are out of a certain range around the specified value 46, that is, outside the allowable range, the following processing is executed.

  That is, the device 26 to be adjusted is selected in order to bring the environmental data 30-1 and 30-2 of the living room close to the specified value 46, the status information 38 is selected, and a message 58 indicating the result is output. . Actually, the environmental data 30-1 output from the solarium temperature sensor 32-1, the environmental data 30-2 output from the living room temperature sensor 32-2, and the status information 38-1 of the living room window 72 are displayed. The state information 38-2 of the door 73 is input to the determination table 54.

  For example, when the room temperature is specified as 23 degrees Celsius, when the data that the room temperature of the living room is 19 degrees Celsius and the room temperature of the solarium is 24 degrees is input, A message 58 indicating that the window is fully opened and a command for automatically opening the door and the window may be output.

  If the floor plan 84 of the living part and the explanatory diagram 86 showing the position of the corresponding door and window are displayed together with the message 58, the resident can immediately follow the output message. When the resident clicks the automatic processing request button 59, the center control device 16 outputs a command for automatically opening the door and window to the device control device 28 (FIG. 2), and automatically optimizes it. Adjustment is performed.

  In this case, it is also possible to set the temperature appropriately using only the air conditioner without opening a window or the like. For example, from the determination table 54, an output that opens the blinds, incorporates external light, and sets the air conditioner to 22 degrees Celsius is also obtained. At this time, if there are a plurality of combinations, the combination whose energy consumption is close to the minimum is selected. And it is good to display the result on a display.

  When the environmental data of the living room is compared with the specified value 46, even if the environmental data is within the allowable range, the state information 38 of the device 26 set to hold the environmental data 30 within the predetermined range is stored in the determination table 54. Try to select using. When the selected state is a state where the energy consumption is smaller, a message 58 indicating the selected result may be output. If there are multiple methods, you may display all or only the best.

  As described above, the center control device 16 can select appropriate state information 38 for the device 26 that affects the environment of the living room 14 and prompt the resident to operate it. Further, the resident is not always near the computer 62 or the tablet 78 (FIG. 1). Therefore, for example, a sounding device is attached to the device 26. For example, when the window 72 and the door 73 are to be opened, the message may be output from the sounding device attached thereto. Thereby, the resident can immediately move to the action of opening the window 72 and the door 73.

  Moreover, when the designated value 46 is designated for the environment of the specific living room 14 by a specific resident, the storage device 34 may store the designated value 46 for each resident for each resident. The center control device 16 may identify the resident who operates and select the message 58 using the corresponding designated value 46. Not all doors and windows can be automatically controlled. Therefore, a mode in which the resident adjusts a device that cannot be automatically processed according to the message is also possible.

FIG. 10 is a flowchart showing the operation of the environment monitoring apparatus.
Hereinafter, embodiments of the computer program will be described. In step S11, the environment monitoring device 22 refers to the detection device list that displays a list of all the detection devices 32 installed in the building. In step S12, one detection device 32 is selected. In step S13, an output such as temperature and humidity detected by the detection device 32 is read. In step S14, the reading time is acquired. In step S15, identification information of the detection device 32 is acquired.

  It may stored by or is installed in advance which detector is anywhere in correspondence to the identification information. Thus, in step S16, the installation location of the detection device 32 is determined. Now that the necessary data has been prepared, the environment data 30 is generated in step S17. The environment monitoring device 22 writes the environment data 30 in the storage device 34 in step S18.

  If there is a display request in step S19, the environmental monitor screen 36 is displayed in step S20. Thereafter, and when there is no display request in step S19, the process returns to the first step S11. Then, the same processing is continuously repeated for all the detection devices 32 while referring to the detection device list. As a result, the latest environmental data 30 of each part of the building is always stored in the storage device 34.

FIG. 11 is an operation flowchart of the device control device 28.
In step S21, the device control apparatus 28 refers to a device list that lists all devices installed in the building. In step S22, one device in the list is selected. In step S23, the status information 38 of the device is read. In step S24, the status information 38 is stored in the storage device 34.

  If there is a display request in step S25, the device control screen 42 is displayed in step S26. If there is no display request, it returns to step S21 and repeats acquisition of status information for all devices. If there is a state change request in step S27 after the device control screen 42 is displayed, the process proceeds to step S28. If there is no change request, the process returns to step S21.

  When the device control screen 42 is operated and, for example, a request to turn on some of the lights is input, the device control device 28 transmits the control information to the device 26 in step S28. In step S29, after the control is completed, the status information 38 of the device 26 is read. In step S30, the status information 38 of the device 26 stored in the storage device 34 is updated. And the apparatus control screen 42 is updated by step S31 about the state after an update.

FIG. 12 is an operation flowchart of the energy monitoring device 24.
The energy monitoring device 24 stands by until there is a display request in step S41. When there is a display request, a device necessary for energy calculation is selected in step S42. Next, all the state information 38 of those devices is read from the storage device 34 in step S43. In step S44, the stored energy is calculated using the read information. In step S45, energy consumption is calculated. Thereafter, the energy monitor screen 48 is displayed in step S46.

FIG. 13 is an operation flowchart of the center control apparatus.
First, identify the target room. That is, a living room is selected in step S51. And if the designated value is provided for every resident about the living room, that resident will be identified and the designated value of the applicable living room will be read at Step S52. After that, in step S53, the environment data 30 of the place having an influence on the environment of the room is read from the storage device 34. In step S54, the state information 38 of the device having an influence on the environment of the room is read.

  In step S55, the read data is input to the determination table 54 that determines the environment of the room. In step S56, the message output from the determination table 54 is acquired. In step S57, the message is displayed on the message display 18. In step S58, it is determined whether there is a request for automatic control from the resident. If the result of this determination is yes, the process proceeds to step S59, and if no, the process ends. In step S59, the control command output from the determination table 54 is acquired. In step S60, the control command is transmitted to the device 26 through the device control device 28.

FIG. 14 is a processing flowchart of a plurality of combination outputs by the center control device.
When two or more types (two sets) of operations for optimizing the living room environment are output in step S56 of FIG. 13, the operation is performed as shown in this flowchart. First, in step S61, all outputs of the determination table are acquired. In step S62, energy balance calculation is performed for each group. That is, the difference between generated energy and consumed energy is obtained. In step S63, all sets of calculation results are compared and arranged in energy saving order.

  In step S64, the highest level is compared with the current state. In step S65, it is determined whether or not the state information 38 of the device at that time matches. If the result of this determination is yes, the process is terminated. If no, the process proceeds to step S66. In step S66, a message for recommending the change to the resident is output using the screen as shown in FIG.

  In step S67, it is determined whether the resident is requesting automatic control. Further, the resident is allowed to select one of several control methods. When a control method is selected in step S68, a control command is acquired in step S69. In step S 70, the control command is transmitted to the device 26 through the device control device 28.

  Note that the computer program executed in the above arithmetic processing may be modularized in units shown in functional blocks, or may be integrated by combining a plurality of functional blocks. Further, the above computer program can be recorded on a computer-readable recording medium such as a CD-ROM, and installed in an arbitrary information processing apparatus for use.

DESCRIPTION OF SYMBOLS 10 Environmental management system 12 Building 14 Living room 16 Center control apparatus 18 Display 20 Control screen 22 Environmental monitoring apparatus 24 Energy monitoring apparatus 26 Equipment 28 Equipment control apparatus 30 Environmental data 32 Detection apparatus 34 Storage apparatus 36 Environmental monitor screen 38 Status information 42 Equipment control Screen 44 Control button 46 Specified value 48 Energy monitor screen 50 Accumulated energy 51 Battery monitor 52 Consumed energy 53 Hot water monitor 54 Determination table 56 Application 58 Message 59 Automatic processing request button 60 Smart meter 62 Computer 64 Wireless router 66 Solar cell Panel 68 Storage battery 70 Temperature / humidity sensor 71 Illumination 72 Window 73 Door 74 Shutter 76 Blind 78 Tablet 80 Smartphone 84 Floor plan 86 Explanation drawing

Claims (8)

Connect a detection device to acquire environmental data that affects the environment of each part of the building, store the acquired environmental data in the storage device, and from the environmental data stored in this storage device, the inside and outside of the building An environmental monitoring device that selects any environmental data representing the environment and executes control to display using the environmental monitor screen;
A device control device that controls the operation of the devices arranged in each part of the building, stores state information indicating the current control state in the storage device, and displays the state information of the device on the device control screen;
The status information of each device is read from the storage device, and information indicating energy accumulated by any device and energy consumed by any device is generated and stored in the storage device. An energy monitoring device that displays information representing the energy using an energy monitor screen;
The environmental monitoring device, equipment control device, energy monitoring device and center control device,
The center controller is
A designated value indicating the environment set in advance for the room of the building is stored in the storage device, the environmental data of the room of the building and the state information of the device are read from the storage device, and the room of the building is read. When the current environmental data is outside the fixed range centered on the specified value, select the status information of the device that should be adjusted to bring the environmental data of the room closer to the specified value, and output a message indicating the result Environmental management system inside the building, characterized by The center controller is
If there are a plurality of combinations of status information of a plurality of devices that should be adjusted to bring the environmental data of the living room close to the specified value, a set whose energy consumption is close to the minimum is displayed on the display. Environmental management system inside the building. The center controller is
Even if the current environmental data of a room in any building is within a certain range centered on the specified value, the equipment to be set in order to keep the environmental data of the room within the certain range. When status information is selected and the status information does not match the current device status information, and the selected status is lower than the energy consumption, a message indicating the selected result is output. The environmental management system inside a building according to claim 1 or 2.   The sound generator is attached to the equipment, and the message is output from the sound generator of the equipment to be adjusted to be close to the specified value. Environmental management system. When a specified value is specified for the environment of a specific room by a specific resident, the specified value for each resident is stored in the storage device,
The said center control apparatus identifies the resident who operates with input information, and selects the said message using the corresponding designated value, The inside of the building in any one of the Claims 1 thru | or 4 characterized by the above-mentioned. Environmental management system. The device control device
6. The environmental management system for a building according to claim 1, wherein when an automatic control request is input, the corresponding device is automatically adjusted to a corresponding state in accordance with the selection result. .   A computer program for causing a computer to function as an environmental management system inside a building according to any one of claims 1 to 6.   The computer-readable recording medium which recorded the computer program of Claim 7.

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