JP2023002801A - Control system, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a control system capable of improving electric power consumption when using equipment.

SOLUTION: A control system 100 connected to multiple pieces of equipment in a communicable manner, includes: a setting part that sets a group to which each of the multiple devices belongs; and a control part that is configured so as to, when a first device of the multiple devices satisfies the first condition, and when a second device set in the same group as the first device by the setting part out of the multiple devices meets a second condition, execute predetermined control.

SELECTED DRAWING: Figure 1

COPYRIGHT: (C)2023,JPO&INPIT

Description

The present invention relates to control systems for controlling equipment.

Conventionally, technology for remotely controlling devices is known. Patent Literature 1 discloses a technique of pairing an electronic device and a communication terminal device by physical manipulation.

JP 2015-050752 A

By the way, when a device is controlled by remote control, the user may not always be in the space where the device is installed. It is difficult for the user to notice. Inefficient operation also consumes a lot of power, and countermeasures are urgently needed to maintain the balance between energy supply and demand.

Therefore, the present invention has been made in view of the above, and can provide a control system that can lead to an improvement in power consumption when using equipment.

In order to achieve the above object, in one aspect of the control system according to the present invention, there is provided a control system communicably connected to a plurality of devices, wherein a setting unit for setting a group to which each of the plurality of devices belongs and a first device among the plurality of devices satisfies a first condition, and a second device among the plurality of devices set to be in the same group as the first device by the setting unit satisfies a second condition. and a control unit that executes predetermined control when the

Further, in order to achieve the above object, in one aspect of the program according to the present invention, there is provided a program for controlling a plurality of communicatively connected devices, wherein a group to which each of the plurality of devices belongs is set. Predetermined control is performed when a first device among the plurality of devices satisfies a first condition and a second device set in the same group as the first device among the plurality of devices satisfies a second condition. Make the computer do what you do.

ADVANTAGE OF THE INVENTION According to this invention, when using an apparatus, it can lead to the improvement of the power consumption.

FIG. 1 is a block diagram showing a functional configuration of a control system according to Embodiment 1. FIG. 2A is a first diagram illustrating an example of image display of a setting screen by the mobile terminal according to Embodiment 1. FIG. 2B is a second diagram illustrating an example of image display of a setting screen by the mobile terminal according to Embodiment 1. FIG. 2C is a third diagram illustrating an example of image display of a setting screen by the portable terminal according to Embodiment 1. FIG. 2D is a fourth diagram for explaining an example of image display of a setting screen by the portable terminal according to Embodiment 1. FIG. FIG. 3 is a sequence diagram of operation example 1 of the control system according to the first embodiment. FIG. 4 is a flowchart of determination processing according to the first embodiment. FIG. 5 is a diagram for explaining an example of image display of an operation screen of the control system according to Embodiment 1. FIG. FIG. 6 is a sequence diagram of operation example 2 of the control system according to the first embodiment. FIG. 7 is a block diagram showing the functional configuration of a control system according to Embodiment 2. As shown in FIG. FIG. 8 is a sequence diagram of operation example 3 of the control system according to the second embodiment.

Hereinafter, embodiments will be specifically described with reference to the drawings. It should be noted that the embodiments described below are all comprehensive or specific examples. Numerical values, shapes, materials, components, arrangement positions and connection forms of components, steps, order of steps, and the like shown in the following embodiments are examples and are not intended to limit the present invention. Further, among the constituent elements in the following embodiments, constituent elements not described in independent claims will be described as optional constituent elements.

Each figure is a schematic diagram and is not necessarily strictly illustrated. Moreover, in each figure, the same code|symbol may be attached|subjected with respect to substantially the same structure, and the overlapping description may be abbreviate|omitted or simplified.

(Embodiment 1)
[System configuration]
First, the configuration of the control system 100 according to Embodiment 1 will be described. FIG. 1 is a block diagram showing the functional configuration of a control system 100 according to Embodiment 1. As shown in FIG.

The control system 100 according to Embodiment 1 determines the state of the open/close sensor 51 (an example of the first device) and the operation state of the air conditioning device 52 (an example of the second device) by the server device 20, and performs the determination. It is a system for performing predetermined control based on. That is, the second device, which is different from the first device, is controlled based on the state of the first device. In addition, being different from the first device means being provided separately from the first device. Therefore, the first device and the second device may be devices of the same type. The control system 100 includes an open/close sensor 51 , an air conditioner 52 , a control device 10 , a wireless communication device 53 , a server device 20 and a mobile terminal 30 . The configuration of each device constituting the control system 100 will be specifically described below.

[Open/close sensor]
The opening/closing sensor 51 is a sensor that detects opening/closing of movable parts such as windows and doors installed in the building 50 that partition the space so that the space can be opened/closed. In the following description, the building 50 is assumed to be the user's home. The building 50 is, for example, a detached house, but may be another building.

The open/close sensor 51 is composed of two parts. For example, when installing the open/close sensor 51 on a double sliding window, one of the two components is installed on one of two closed window panels. Also, on the other of the two window panels, the other part is installed at a position adjacent to the location where one of the two parts is installed. The open/close sensor 51 installed in this way can detect the open state because the distance between the two parts increases when the window is opened.
The closed state can be detected because the two parts are close to each other. In this way, the open/close sensor 51 is installed so that the distance between the two parts changes according to the opening and closing of the movable portion in any movable portion.

Note that the configuration of the opening/closing sensor 51 described above is merely an example, and any sensor that detects opening/closing of windows, doors, and the like constructed in the building 50 may be used. The open/close sensor 51 may be realized by, for example, a circuit that switches electrical connection according to the opening/closing operation.

The open/close sensor 51 is also wirelessly connected to the control device 10 so as to be communicable, and can transmit the open/close state of the movable portion in which the open/close sensor 51 is installed to the control device 10 via a communication line. Note that the open/close sensor 51 and the control device 10 may be connected by wire. Also, the communication standard for communication is not particularly limited.

[Air conditioning equipment]
The air conditioner 52 is a home appliance such as an air conditioner installed on the site of the building 50, and controls the temperature, humidity, etc. of the space in which it is installed. The air conditioner 52 is wirelessly connected so as to be communicable with the control device 10 . Note that the air conditioner 52 and the control device 10 may be connected by wire. Also, the communication standard for communication is not particularly limited. The air conditioner 52 transmits the operating state of the air conditioner 52 to the control device 10 via the communication line. The air conditioner 52 also receives a user's control instruction from the control device 10 via the communication line. The air conditioner 52 receives user control instructions not only from the control device 10 but also by the user operating a wired or wirelessly connected remote controller, a control panel installed on the exterior of the air conditioner 52, or the like. Receivable.

[Control device, wireless communication device]
The control device 10 is, for example, HEMS (Home Energy Management
System) controller, which is installed in the building 50 and controls electrical appliances installed on the site of the building 50, or manages the power consumption of electrical appliances installed on the site of the building 50, and the like. The control device 10 includes a device control section 11 , a communication section 12 , a storage section 13 and a display section 14 .

The device control unit 11 controls the control device 10 . The device control unit 11 is realized by, for example, a microcomputer, but may be realized by a processor or a dedicated circuit.

The communication unit 12 is a communication circuit for the control device 10 to communicate with the open/close sensor 51 , the air conditioner 52 , and the wireless communication device 53 . The communication unit 12 communicates with the open/close sensor 51 and the air conditioner 52 by wireless connection, but may be wired connection. Also, the communication unit 12 performs wireless communication with the wireless communication device 53 . A communication standard for communication performed by the communication unit 12 is not particularly limited.

The storage unit 13 is a storage device that stores control programs and the like executed by the device control unit 11 . The storage unit 13 is implemented by, for example, a semiconductor memory.

The display unit 14 displays images on the display device under the control of the device control unit 11 . Specifically, the display unit 14 is a display including a liquid crystal panel, an organic EL (Electro Luminescence) panel, or the like as a display device.

The wireless communication device 53 is a wireless LAN (Local Area Network) router installed in the building 50 . The control device 10 is communicatively connected to the wireless communication device 53 . Also, when the mobile terminal 30 enters the communicable range of the wireless communication device 53 , the mobile terminal 30 is connected to the wireless communication device 53 for communication.

[Server device]
The server device 20 performs various information processing related to control of the air conditioner 52 . The server device 20 receives, for example, the state detected by the open/close sensor 51 and the information regarding the operation state of the air conditioner 52, and performs determination processing for control. The server device 20 is provided by the manufacturer of the open/close sensor 51, the air conditioner 52, or the control device 10, for example. The server device 20 includes an information processing section 21 , a server communication section 22 and a server storage section 23 .

The information processing section 21 performs information processing related to control of the air conditioner 52 . The information processing section 21 includes a server determination section 24 , a server control section 25 and a server setting section 26 . The server control unit 25 is an example of a control unit according to the first embodiment, and the server setting unit 26 is an example of a setting unit according to the first embodiment.

The information processing section 21 is realized by, for example, a microcomputer, but may be realized by a processor or a dedicated circuit.

The server communication unit 22 is a communication circuit for the server device 20 to communicate with the wireless communication device 53 and the mobile terminal 30 . A communication standard for communication performed by the server communication unit 22 is not particularly limited.

The server storage unit 23 is a storage device that stores control programs and the like executed by the information processing unit 21 . The server storage unit 23 is implemented by, for example, a semiconductor memory.

[mobile terminal]
The mobile terminal 30 is a mobile information terminal such as a smart phone or a tablet terminal owned by a user. The mobile terminal 30 includes an input reception unit 31 , a terminal control unit 32 , a terminal communication unit 33 , a terminal display unit 34 and a terminal storage unit 35 .

The input reception unit 31 receives user input. The input reception unit 31 is implemented by, for example, a touch panel and hardware buttons.

The terminal control unit 32 performs various information processing related to the mobile terminal 30 based on the input received by the input receiving unit 31 and the like. The terminal control unit 32 is realized by, for example, a microcomputer, but may be realized by a processor or a dedicated circuit.

The terminal communication unit 33 is a communication circuit for the mobile terminal 30 to communicate with the wireless communication device 53 or the server device 20 . The terminal communication unit 33 performs, for example, short-range wireless communication with the wireless communication device 53 and wireless communication with the server device 20 via a mobile communication network. A communication standard for wireless communication performed by the terminal communication unit 33 is not particularly limited.

The terminal display unit 34 displays images on the display device under the control of the terminal control unit 32 . The terminal display unit 34 is specifically a display including a liquid crystal panel, an organic EL panel, or the like as a display device.

The terminal storage unit 35 is a storage device in which control programs and the like executed by the terminal control unit 32 are stored. The terminal storage unit 35 is implemented by, for example, a semiconductor memory.

[Registration operation]
First, the operation of registering the combination of the open/close sensor 51 and the air conditioner 52 controlled by the control system 100 will be described with reference to FIGS. 2A to 2D. 2A to 2D are diagrams for explaining an example of a setting screen displayed by the mobile terminal 30 according to Embodiment 1. FIG.

First, the user of the control system 100 opens the setting screen of the control system 100 from the mobile terminal 30 . FIG. 2A is an example of an image display displayed on the terminal display unit 34 when the setting screen is opened. The setting screen displays a toggle switch 61 for switching ON/OFF of the operation of performing predetermined control based on the determination of the state of the open/close sensor 51 and the operating state of the air conditioner 52 by the control system 100 . For example, when the user of the control system 100 intentionally sets the condition for performing the predetermined control, the user sets the toggle switch 61 to OFF so that the control based on the above determination is not performed. is also possible.

The image display when the setting screen is opened differs depending on whether the control system 100 is on or off. At this point, the control system 100 is set to be off.

Here, the user of the control system 100 operates the toggle switch 61 displayed on the setting screen to turn on the control system 100 . FIG. 2B is an example of an image display of the setting screen when the control system 100 is on. This image is directly displayed when the setting screen is opened while the control system 100 is on. In the setting screen shown in FIG. 2B, in addition to the toggle switch 61, a room setting display 62 is additionally displayed when the control system 100 is turned on.

The room setting display 62 displays the open/close sensor 51 and the air conditioner 52 registered in the same room (that is, group). For example, if there are already registered open/close sensors 51 and air conditioners 52, the registered room names and device names are displayed in a list (see FIG. 2D). Further, if the open/close sensor 51 and the air conditioner 52 are not registered, a guidance display prompting registration is displayed. Here, it is assumed that the open/close sensor 51 and the air conditioner 52 are not registered.

A user of the control system 100 opens the device registration screen according to the guidance display. FIG. 2C is an example of image display of the device registration screen. FIG. 2C displays an image during device registration by the user of control system 100 . The user of the control system 100 selects the target open/close sensor 51 and the air conditioner 52 from the device candidates for control in advance, arbitrarily sets the room name, and completes the registration operation.

For example, when the open/close sensor 51 and the air conditioner 52 are selected and the room name is registered as "living room", "air conditioner" and "open/close sensor" are associated with the item "living room" as shown in FIG. 2C. Is displayed. Note that there is no limit to the number of devices that can be registered in the same room. It is also possible to

After registering the room, the open/close sensor 51 and the air conditioner 52 as described above, the user of the control system 100 performs an operation to save the registered contents. Information indicating the registered content is then transmitted to the server device 20 via the terminal communication section 33 and the server communication section 22 and stored in the server storage section 23 by the server setting section 26 . That is, the server setting unit 26 sets the group to which each of the plurality of devices belongs by storing the information indicating the registered content in the server storage unit 23 . The stored information indicating the registration content is used for referencing the linkage of the devices during the determination process described later. Information indicating the registered content is also stored in the terminal storage unit 35, and an image reflecting the registered content is displayed when the setting screen is opened. Note that the operation of registering the room name and the opening/closing sensor 51 and the air conditioner 52 linked to the room name may be included in the initial registration process when the opening/closing sensor 51 and the air conditioner 52 are newly installed. good.

FIG. 2D is an example of an image display of the setting screen when the open/close sensor 51, the air conditioner 52, and the room name are registered. In contrast to FIG. 2B, in FIG. 2D, the registered contents are reflected in the room setting display 62 and displayed.

As described above, the user of the control system 100 registers in advance the combination of the open/close sensor 51 and the air conditioner 52 to be controlled in association with the room in which they are installed.

[Operation example 1]
Next, the operation of the control system 100 implemented by the registered open/close sensor 51 and air conditioner 52, the control device 10, the mobile terminal 30, and the server device 20 will be described with reference to FIGS. 3 to 5. FIG. FIG. 3 is a sequence diagram of operation example 1 of the control system 100 according to the first embodiment.

Here, the operation in a situation where the "open/close sensor" detects the open state when the "air conditioner" of the "living room" set in advance is turned on will be described.

First, the user of the control system 100 switches the air conditioner 52 on for operation. This may be an operation of simply turning on the power, or an operation of turning on an operation such as switching from a standby mode to an operation mode such as a cooling mode. Further, in this operation, the air conditioner 52 may be directly operated by a remote controller or the like, or may be operated from the mobile terminal 30 via the control device 10 .

When the operation is turned on, the air conditioner 52 transmits operating state information indicating the operating state to the control device 10 (S11). The control device 10 receives the operating state information (S12), and further transmits the operating state information to the server device 20 via the wireless communication device 53 (S13). The server device 20 receives the operating state information transmitted from the control device 10 (S14). In other words, from steps S11 to S14, the control device 10 functions as a relay device through which the operating state information is transferred between the air conditioner 52 and the server device 20. FIG.

The open/close sensor 51 detects the open/close state of the window or door on which the open/close sensor 51 is installed for each preset period (S15). The open/close sensor 51 further transmits state information indicating the detected open/closed state to the control device 10 (S16). The control device 10 receives the status information (S17), and further transmits it to the server device 20 via the wireless communication device 53 (S18). The server device 20 receives the state information transmitted from the control device 10 (S19). In other words, from steps S16 to S19, control device 10 functions as a relay device for exchanging state information between open/close sensor 51 and server device 20 .

The server device 20 uses the received operating state information from the air conditioner 52 and the received state information from the open/close sensor 51 to perform determination processing in the server determination section 24 of the information processing section 21 (S20).

Determination processing by the server device 20 will be specifically described with reference to FIG. 4 . FIG. 4 is a flowchart of determination processing according to the first embodiment.

First, the information processing unit 21 provided in the server device 20 acquires the operation state information received by the server device 20 from the air conditioner 52 (S101). Furthermore, the information processing unit 21
acquires the state information received from the open/close sensor 51 (S102).

After that, the server determination unit 24 provided in the information processing unit 21 determines whether or not the air conditioner 52 is operating (an example of the second condition) based on the acquired operating state information (S103). When it is determined that the air conditioner 52 is in the operation ON state (Yes in S103), the server determination unit 24 determines whether the opening/closing sensor 51 is in the open state (an example of the first condition) based on the acquired state information. ) or not (S104). When it is determined that the open/close sensor 51 is in the open state (Yes in S104), the server control section 25 provided in the information processing section 21 executes predetermined control. More specifically, notification information indicating the content of notification to be displayed on the mobile terminal 30 and the control device 10 is generated (S105). If the server determination unit 24 does not determine that the air conditioner 52 is in the ON state or the opening/closing sensor 51 is not in the open state (No in S103 or No in S104), the server device 20 terminates the determination process. do.

Note that the processing order of the steps related to the determination process is not limited to this order. For example, the state information may be obtained from the open/close sensor 51 before the operation state information is obtained from the air conditioner 52 . That is, step S102 may be performed before step S101. Further, for example, it may be configured to determine whether or not the air conditioner 52 is in the operation ON state immediately after acquiring the operation state information.

Therefore, the determination process in Embodiment 1 may be configured such that step S103 is performed after step S101 and step S104 is performed after step S102. This is the same for operation example 2 and operation example 3, which will be described later.

Returning to FIG. 3, in the operation example 1, the open/close sensor 51 is in the open state, which satisfies the first condition, and the air conditioner 52 is in the operation-on state, which satisfies the second condition. Therefore, the server control unit 25 of the server device 20 causes the mobile terminal 30 and the control device 10 to display notification information as an example of predetermined control. More specifically, the server device 20 generates notification information indicating notification content (S105 in FIG. 4). The content of the notification is, for example, a sentence or an image that makes the user aware that the air conditioner 52 is operating even though the open/close sensor 51 detects that the window or door is open. The content is composed by

The server device 20 transmits the generated notification information to the mobile terminal 30 via the server communication section 22 (S21). The mobile terminal 30 receives the notification information (S22), generates an image based on the notification content included in the notification information, and displays it on the terminal display section 34 as shown in FIG. 5 (S23). FIG. 5 is a diagram illustrating an example of image display (S23 in FIG. 3) during operation of the control system 100 according to the first embodiment.

In FIG. 5, a message box 63 is displayed indicating that the air conditioner 52 is operating even though the open/close sensor 51 detects the open state. Notifications such as the message box 63 are notified by push notifications, for example.

The server device 20 further transmits the generated notification information to the control device 10 via the server communication section 22 and the wireless communication device 53 (S24). The control device 10 receives the notification information (S25), generates an image based on the notification content included in the notification information, and causes the display unit 14 to display the image (S26). The image displayed on the display unit 14 also includes the same content as the notification shown in the message box 63 of FIG.

As described above, the control system 100 makes a notification using the mobile terminal 30 when an inefficient factor is detected when using the device. A notified user can address the inefficiency factors. For example, in operation example 1, the window and the door on which the open/close sensor 51 is installed can be operated so that the open/close sensor 51 is closed. Eliminating inefficient factors in this way can lead to an improvement in power consumption.

In addition, in the above operation example 1, the notification information is displayed on both the mobile terminal 30 and the control device 10, but it may be notified to either one of them. For example, if the control device 10 is provided with an input unit, the combination of the open/close sensor 51 and the air conditioner 52 can be registered from the control device 10, and only the control device 10 is notified. Embodiment 1 can be realized without the mobile terminal 30 .

[Operation example 2]
Next, an operation example 2 of the control system 100 will be described with reference to FIG. FIG. 6 is a sequence diagram of operation example 2 of the control system 100 according to the first embodiment.

In the operation example 2 of the control system 100, instead of the control for displaying the notification information on the control device 10, the control for switching the operation of the air conditioner 52 is performed. That is, as an example of the predetermined control, control is performed to switch the operating state of the air conditioner 52 to another state. Note that the operation up to the image display (S24) of the notification content by the portable terminal 30 is the same as the operation described above, and therefore the description is omitted here. In operation example 2, in the determination process (S20), notification information is generated (S105 in FIG. 4) and a control command for controlling the air conditioner 52 is generated. Therefore, the operation of the control system 100 after the control command is generated will be described here.

After generating the control command, the server device 20 transmits the generated control command to the control device 10 via the server communication unit 22 and the wireless communication device 53 (S31).

The control device 10 receives the control command (S32) and generates a control signal for switching the operation of the air conditioner 52 based on the control command. The control device 10 transmits the generated control signal to the air conditioner 52 via the communication unit 12 (S33).

The air conditioner 52 receives the control signal (S34) and executes the control indicated by the control signal. Here, as an example, the control signal is an instruction to switch from the operation-on state to the operation-off state, so the air conditioner 52 switches the operation state to the operation-off state (S35).

It should be noted that, in the above operation example 2 as well, it is not essential to display the notification content on the mobile terminal 30 as in the operation example 1. FIG. For example, the configuration may be such that the operation of the air conditioner 52 is switched to the operation off state without notification. Alternatively, the control device 10 may display the content shown in the message box 63 of FIG. 5, notify that the air conditioner 52 is to be switched to the operation off state, and switch the operation of the air conditioner 52 to the operation off state. good.

Further, it may be configured to confirm with the user whether or not to switch the operation of the air conditioner 52 . This is, for example, for confirming whether or not to switch the operation of the air conditioner 52 to the operation off state when displaying the notification content on either one or both of the mobile terminal 30 and the control device 10. It is configured to obtain user's confirmation by displaying a selection button together.

As an example of the selection button, a message such as "Do you want to turn off the power of the air conditioner?" When the user selects (for example, presses) “yes”, the portable terminal 30 or the control device 10 transmits to the server device 20 a control command transmission instruction that permits execution of control of the presentation content. The server device 20 executes transmission of the generated control command (S31) triggered by the reception of the control command transmission instruction.

[Effects, etc.]
As described above, the control system 100 is a control system 100 that is communicably connected to a plurality of devices, and includes a setting unit (for example, a server setting unit) that sets groups (rooms, etc.) to which each of the plurality of devices belongs. Part 26), the open/close sensor 51 among the plurality of devices satisfies the first condition, and the air conditioning device 52 among the plurality of devices set to the same group as the open/close sensor 51 by the portable terminal 30 satisfies the second condition. a control unit (for example, the server control unit 25) that executes predetermined control when the Also, the open/close sensor 51 and the air conditioner 52 are given as examples of the first device and the second device.

Such a control system 100 can detect factors that may cause inefficient operation of the equipment when using equipment such as the air conditioner 52, and perform control to increase energy efficiency in response to the factors. . That is, it can lead to an improvement in power consumption.

Further, for example, the first device includes at least a sensor for detecting a state, and the mobile terminal 30 satisfies the first condition when the state detected by the sensor device satisfies the second condition, and the operating state of the air conditioner 52 is the second condition. Predetermined control may be executed when the following is satisfied.

As a result, only when the operating state of the air conditioner 52 is in a specific state, it is possible to control the inefficiency factor detected by the sensor to increase the energy efficiency.

Further, for example, the second condition is that the operating state of the air conditioner 52 is in an operation ON state, and the first condition is that the sensor detects a state in which the operating efficiency of the air conditioner 52 deteriorates. good too.

As a result, control for increasing the energy efficiency can be performed in response to the inefficient factor detected by the sensor only when the operating state of the air conditioner 52 is the ON state.

Further, for example, the first device is the open/close sensor 51, the first condition is that the open/close sensor 51 has detected an open state, the second device is the air conditioner 52, and the second condition is the air conditioner 52. The operational state may be an operational ON state.

As a result, when the air conditioner 52 is in operation, it can be detected that a substantially closed system cannot be maintained in the space, and control can be performed to increase the energy efficiency.

Further, for example, the predetermined control may include control for notifying the portable terminal 30 of the state of each of the open/close sensor 51 (first device) and the air conditioner 52 (second device).

Thereby, the detected inefficient factor can be notified to the user via the mobile terminal 30 .

Further, for example, the predetermined control may include control for switching the operating state of the air conditioner 52 (second device) to another operating state different from the operating state.

As a result, inefficient factors can be detected, and control can be implemented to automatically eliminate the factors.

Further, for example, the predetermined control may include control for switching the operation state of the air conditioner 52 (second device) to an operation OFF state.

As a result, it is possible to detect an inefficient factor and automatically set the operating state of the device to OFF in order to eliminate the factor.

Therefore, the above control includes a setting step of setting a group to which each of the plurality of communicatively connected devices belongs, a first device among the plurality of devices satisfying the first condition, and and a control step of executing predetermined control when a second device set in the same group as the first device in the setting step satisfies a second condition.

Further, for example, by using a program for controlling a plurality of devices and causing a computer to execute each of the above steps, the above control can be realized by a computer.

(Embodiment 2)
[System configuration]
Next, the configuration of the control system 100a according to Embodiment 2 will be described. FIG. 7 is a block diagram showing the functional configuration of a control system 100a according to Embodiment 2. As shown in FIG.

The control system 100a according to the second embodiment determines the state of the open/close sensor 51 (an example of the first device) and the operation state of the air conditioner 52 (an example of the second device) by the control device 10, and performs the determination. It is a system for performing predetermined control based on.

The control system 100a has many configurations similar to the control system 100 according to the first embodiment. Therefore, here, the points different from the first embodiment will be mainly described, and overlapping portions will be omitted or simplified.

First, the control system 100a differs from the control system 100 in that the server device 20 is not provided. Accordingly, the control system 100 a includes an open/close sensor 51 , an air conditioner 52 , a control device 10 a , a wireless communication device 53 and a mobile terminal 30 . Further, the control system 100a differs from the control device 10 in the control system 100 in the configuration of the control device 10a. Therefore, here, the configuration of the control device 10a that constitutes the control system 100a will be specifically described.

[Control device]
The control device 10a is, for example, an HEMS controller, which is installed in the building 50, acquires state information of home appliances installed on the site of the building 80, and controls the home appliances installed on the site of the building 50. conduct. The control device 10 a includes an information processing section 15 , a communication section 12 , a storage section 13 and a display section 14 .

The information processing unit 15 performs information processing related to control of the air conditioner 52 . The information processing section 15 includes a device determination section 16 , a device control section 17 and a device setting section 18 . The device control unit 17 is an example of a control unit according to the second embodiment, and the device setting unit 18 is an example of a setting unit according to the second embodiment.

The information processing section 15 is realized by, for example, a microcomputer, but may be realized by a processor or a dedicated circuit.

Note that the communication unit 12, the storage unit 13, and the display unit 14 have the same configurations as those of the control device 10 according to the first embodiment, so description thereof will be omitted.

[Registration operation]
Next, a registration operation of a combination of the open/close sensor 51 and the air conditioner 52 controlled by the control system 100a will be described. The registration operation according to the second embodiment is mostly the same as the registration operation according to the first embodiment. However, the control system 100a does not include the server device 20 as described above. Therefore, in the operation of registering the combination of the open/close sensor 51 and the air conditioner 52 , the information indicating the registered content is stored in the storage section 13 by the device setting section 18 of the control device 10 a instead of the server storage section 23 . That is, the device setting unit 18 sets the group to which each of the plurality of devices belongs by storing the information indicating the registered content in the storage unit 13 .

[Operation Example 3]
Next, operation of the control system 100a will be described with reference to FIG. FIG. 8 is a sequence diagram of operation example 3 of the control system 100a according to the second embodiment.

In the operation example 3 of the control system 100a, similarly to the operation example 2 described above, switching between the image display of the notification content by the mobile terminal 30 and the operation of the air conditioner 52 by the control device 10a is performed. That is, as an example of the predetermined control, control is performed to switch the operating state of the air conditioner 52 to another state.

In this case as well, similar to the above-described operation examples 1 and 2, when the preset "living room" and "air conditioner" are turned on, the "open/close sensor" detects the open state. Describe the behavior in a situation.

First, the user of the control system 100a switches the air conditioner 52 on. This may be an operation of simply turning on the power, or an operation of turning on an operation such as switching from a standby mode to an operation mode such as a cooling mode.

When the operation is turned on, the air conditioner 52 transmits operating state information indicating the operating state to the control device 10a (S11a). The control device 10a receives the operating state information (S12a).

The open/close sensor 51 detects the open/close state of the window or door on which the open/close sensor 51 is installed for each preset period (S15). The open/close sensor 51 further transmits state information indicating the detected open/closed state to the control device 10a (S16a). The control device 10a receives the state information (S17a).

The control device 10a uses the received operation state information and state information to perform determination processing in the device determination section 16 of the information processing section 15 (S20a). Note that the determination processing here is the same as the determination processing in the operation example 2 shown in FIG. That is, in the determination process (S20a), notification information is generated (S105 in FIG. 4) and a control signal for switching the operation of the air conditioner 52 is generated.

In operation example 3, the opening/closing sensor 51 is in the open state, satisfying the first condition, and the air conditioner 52 is in the operation ON state, so satisfying the second condition. Therefore, the device control unit 17 of the control device 10a displays notification information on the mobile terminal 30 as an example of predetermined control, and performs control to switch the operation of the air conditioner 52. FIG.

More specifically, the control device 10a transmits the generated notification information to the mobile terminal 30 via the communication unit 12 (S21a). The mobile terminal 30 receives the notification information (S22a), generates an image based on the notification content included in the notification information, and displays the image on the terminal display unit 34 (S23). The image displayed on the terminal display unit 34 includes, for example, a notification such as the message box 63 in FIG. 5 described above, and is notified by push notification or the like.

The control device 10a generates a control signal for switching the operation of the air conditioner 52, and transmits the generated control signal to the air conditioner 52 via the communication unit 12 (S33a).

The air conditioner 52 receives the control signal (S34a) and executes the control indicated by the control signal. Since the control signal here is a control instruction to switch from the operation-on state to the operation-off state as an example, the air conditioner 52 switches the operation state to the operation-off state (S35).

It should be noted that display of notification content on the mobile terminal 30 is not essential in the operation example 3 as well as in the operation examples 1 and 2. FIG.

Also in the second embodiment, it is possible to realize a configuration for confirming with the user whether or not to switch the operation of the air conditioner 52 .

For example, when displaying the notification content on the mobile terminal 30 in the same manner as described in Operation Example 2, a selection button for confirming whether to switch the operation of the air conditioner 52 to the operation off state is also displayed. This is a configuration for obtaining user's confirmation. As an example of the selection button, a message such as "Do you want to turn off the power of the air conditioner?" When the user selects "yes", the mobile terminal 30 transmits to the control device 10a a control instruction generation instruction permitting execution of the control of the presentation content. The control device 10a generates a control instruction (S31a) using the reception of the control instruction generation instruction as a trigger.

Alternatively, when the notification content is displayed on the display unit 14 of the control device 10a, the trigger is that the user selects "Yes" from a selection button such as "Yes/No" displayed together. The generated control signal is transmitted (S33a). When the mobile terminal 30 is not notified, the control system 100a can be realized with the control device 10a, the open/close sensor 51, and the air conditioner 52 in the above configuration. Furthermore, the open/close sensor 51 or the air conditioner 52 may have the function of the control device 10a.

(Other embodiments)
Although the embodiments have been described above, the present invention is not limited to the above embodiments.

In the above embodiment, the opening/closing sensor 51 is exemplified as an example of the first device, and the air conditioner 52 is exemplified as an example of the second device. For example, the first device is an open/close sensor 51 installed on a window, door, etc., the second device is set in the same group as the first device, a device that sprays a sterilizing component such as hypochlorous acid into the air, or an air It may be implemented as a purifier or the like.

Also, for example, the first device may be an open/close sensor 51 installed on a window or door of a bathroom, and the second device may be a bathroom dryer or a bathroom heater set in the same group as the first device.

Also, the first device and the second device may each be a single device, or each may be realized by a plurality of devices. For example, the first device may be an open/close sensor 51 installed on a door or the like separating two spaces, and the second device may be two air conditioners 52 installed in each of the two spaces. In this configuration, when the opening/closing sensor is in the open state and each of the air conditioners is in a different operating state (for example, cooling and heating respectively), the mobile terminal 30 and the control devices 10 and 10a are notified. It may be a configuration.

Also, the sensor device of the first device is not limited to the open/close sensor 51 . For example, the first device may be installed in the same room as the air conditioner 52, which is the second device, and may be implemented as a thermometer installed at a position separated from the air conditioner 52 by a certain distance or more. In this configuration, if there is a difference between the temperature detected by the thermometer and the temperature detected by the air conditioner 52, a notification recommending an increase in the amount of blown air may be sent. Alternatively, the first device may be implemented as a current meter installed near a window or the like. In this configuration, when the air-conditioning equipment 52, which is the second equipment, is operating and the flow velocity detected by the current velocity meter is equal to or higher than the threshold, it is assumed that the window is not normally closed, and control such as notification is performed. may be performed.

Further, for example, the second condition is that the operating state of the second device is in the ON state, and the first condition is that the operating state of the first device is in the ON state, and by the operation of the first device It may be that the operation efficiency of the second device is improved.

That is, the first device is not limited to a device having a sensor. For example, the first device may be a circulator, and the second device may be a device that sprays a sterilizing component such as hypochlorous acid into the air. In this configuration, both the first device and the second device transmit operating state information.

For example, when a device that sprays a sterilizing component such as hypochlorous acid into the air is turned on, if the circulator is off, a notification recommending turning on the circulator is sent. may This allows the user to switch the operating state of the circulator to the operating ON state. The sterilizing component such as hypochlorous acid is efficiently dispersed in the space by the airflow generated by the circulator, and power consumption can be reduced.

Further, although the server device 20 has been described as a single device in the first embodiment, it may be composed of a plurality of devices. In this configuration, a plurality of processing functions may be assigned to respective server devices.

Also, the communication method between devices in the above embodiment is not particularly limited. Wireless communication may be performed between the devices, or wired communication may be performed. Also, wireless and wired communications may be combined between devices. Further, when two devices communicate with each other in the above embodiment, a relay device (not shown) may be interposed between the two devices.

Also, the timing of communication between devices is not particularly limited. In the above embodiment, the operating state information is transmitted when the air conditioner 52 starts operating, but it may be transmitted at regular intervals. Further, the open/close sensor 51 may also transmit state information when the state is switched. Further, each device may transmit information in response to an inquiry from the server device 20 or the control devices 10 and 10a.

Also, in the above embodiments, each component may be realized by executing a software program suitable for each component. Each component may be realized by reading and executing a software program recorded in a recording medium such as a hard disk or a semiconductor memory by a program execution unit such as a CPU or processor.

Also, each component may be realized by hardware. For example, each component may be a circuit (or integrated circuit). These circuits may form one circuit as a whole, or may be separate circuits. These circuits may be general-purpose circuits or dedicated circuits.

Also, general or specific aspects of the present invention may be implemented in a system, apparatus, method, integrated circuit, computer program or recording medium such as a computer-readable CD-ROM. Also, any combination of systems, devices, methods, integrated circuits, computer programs and recording media may be implemented.

For example, the present invention may be realized as a collection request method executed by a computer, or as a program for causing a computer to execute such a collection request method. Such programs include application programs installed on mobile terminals such as smart phones or tablet terminals. Also, the present invention may be implemented as a computer-readable non-temporary recording medium in which such a program is recorded.

Further, although the constituent elements constituting the control system have been exemplified in the above embodiments, the functions of the constituent elements provided in the control system may be distributed in any way to the plurality of devices constituting the control system.

In addition, forms obtained by applying various modifications to each embodiment that a person skilled in the art can think of, or realized by arbitrarily combining the constituent elements and functions of each embodiment without departing from the spirit of the present invention. Also included in the present invention.

17 device control unit (control unit)
18 Device setting section (setting section)
25 server control unit (control unit)
26 server setting section (setting section)
30 mobile terminal 51 open/close sensor (first device)
52 Air conditioning equipment (second equipment)
100 control system 100a control system

Claims (9)

A control system communicatively connected to a plurality of devices,
a setting unit that sets a group to which each of the plurality of devices belongs;
When a first device among the plurality of devices satisfies a first condition, and a second device among the plurality of devices set to be in the same group as the first device by the setting unit satisfies a second condition; A control system, comprising: a control unit that executes predetermined control. The first device comprises at least a sensor for detecting a state,
2. The control unit according to claim 1, wherein the control unit executes the predetermined control when the state detected by the sensor satisfies the first condition and the operation state of the second device satisfies the second condition. control system. the second condition is that the operation state of the second device is an operation ON state;
The control system according to claim 2, wherein the first condition is that the sensor detects a state in which the operating efficiency of the second device is degraded. the first device is an open/close sensor, the first condition is that the open/close sensor detects an open state,
4. The control system according to claim 3, wherein the second device is an air conditioner, and the second condition is that the operation state of the air conditioner is an operation ON state. The control system according to any one of claims 1 to 4, wherein the predetermined control includes control for notifying the portable terminal of the state of the first device and the operating state of the second device. The control system according to any one of claims 1 to 5, wherein the predetermined control includes control for switching the operating state of the second device to another operating state different from the operating state. The control system according to any one of claims 1 to 6, wherein the predetermined control includes control for switching the operating state of the second device to an operation-off state. the second condition is that the operation state of the second device is an operation ON state;
The control system according to claim 1, wherein the first condition is that the operation of the first device improves the operation efficiency of the second device. A program for controlling a plurality of communicatively connected devices,
setting a group to which each of the plurality of devices belongs;
Predetermined control is performed when a first device among the plurality of devices satisfies a first condition and a second device set in the same group as the first device among the plurality of devices satisfies a second condition. A program that makes a computer do things that you do.

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