JP2021157922A - Information setting device and lighting system - Google Patents

Abstract

To provide a technique which makes it possible to easily performing setting related to a mesh network in a lighting system.SOLUTION: An information setting device can communicate with a plurality of lighting devices to which device identification information is appended and a plurality of gateways to which gateway identification information is appended, and includes a display unit, an input unit, and a control unit. The control unit selectively displays, on the display unit, a symbol image indicating the arrangement of any of the plurality of lighting devices, at least one device identification information acquired through communication with the lighting devices, and at least one gateway identification information acquired through communication with the gateways. Further, when the symbol image, the device identification information, and the gateway identification information are selected by an operation on the input unit, the control unit associates the selected device identification information with the selected symbol image and gateway identification information.SELECTED DRAWING: Figure 9

Description

The present invention relates to a technique that enables various settings in a lighting system.

Patent Document 1 discloses a lighting system that makes it possible to identify and control a plurality of lighting devices. In such a lighting system, one of the gateways serves as a server and controls the lighting device (lighting, extinguishing, dimming, toning, etc.) by wireless communication. Alternatively, a terminal device other than the gateway serves as a server and controls the lighting device by wireless communication via the gateway.

Further, Patent Document 2 discloses a technique for constructing a mesh network in order to increase the number of lighting devices capable of communicating with one gateway.

International Publication No. 2014/203537 Japanese Unexamined Patent Publication No. 2020-13758

In the above technology, when lighting devices are installed on each floor of a building, for convenience of control, gateways are arranged on each floor, and the gateways on each floor control the lighting devices installed on the same floor. It is conceivable to perform carving. Then, in order to perform such separation, it is necessary to associate the lighting device and the gateway with each other for each floor. However, when the mapping is automated by using a technology called mesh scan that adds devices such as specific surrounding lighting devices to the mesh network in order to reduce the user's trouble, when the mesh scan is performed on a certain floor. In addition, some of the lighting equipment installed on another floor (such as the floor directly above or directly below) may be added to the mesh network non-selectively. Therefore, the gateway installed on one floor and a part of the lighting device installed on another floor may be erroneously associated with each other (see FIG. 3).

Therefore, an object of the present invention is to provide a technique that enables easy setting related to a mesh network in a lighting system.

The information setting device according to the present invention can communicate with a plurality of lighting devices to which device identification information is attached and a plurality of gateways to which gateway identification information is attached, and includes a display unit, an input unit, and a control unit. , Equipped with. The control unit displays a symbol image indicating the arrangement of any of the plurality of lighting devices, at least one device identification information acquired by communication with the lighting device, and at least one gateway acquired by communication with the gateway. Identification information and are displayed in a selectable manner. Further, when the symbol image, the device identification information, and the gateway identification information are selected by the operation on the input unit, the control unit selects the selected device identification information and the selected symbol image and the gateway identification information. Correspond to each other.

According to the above-mentioned information setting device, a process of associating the selected device identification information with the symbol image and the selected device identification information by a simple operation such as selecting the symbol image, the device identification information, and the gateway identification information, and the selected device identification information. Both the process of associating the gateway identification information with each other and the process of associating the gateway identification information with each other are executed at one time.

According to the present invention, it is possible to easily make settings related to a mesh network in a lighting system.

It is a conceptual diagram which showed the whole structure of a lighting system. It is a figure which showed the preferable construction example of the mesh network. It is a figure which showed the construction example of the mesh network by the mesh scan. It is a block diagram which showed the structure of the lighting apparatus. It is a block diagram which showed the structure of a gateway. It is a block diagram which showed the structure of an information setting apparatus. It is a figure which illustrated the user interface displayed on the screen. It is a figure which showed the operation which selects the device identification information and a symbol image. It is a figure which showed the operation which selects the gateway identification information. It is a figure which showed an example of a lighting device management data. It is a figure which showed an example of network management data. It is a flowchart which showed the information setting process and user operation executed by an information setting apparatus. It is a figure which illustrated the user interface displayed on the screen in the 1st modification. It is a figure which illustrated the user interface displayed on the screen in the 2nd modification. It is a figure which illustrated the user interface displayed on the screen in the 4th modification. It is a flowchart which showed the information setting process and the user operation executed by the information setting apparatus in the 4th modification.

[1] Embodiment [1-1] Overall configuration of the lighting system FIG. 1 is a conceptual diagram showing the overall configuration of the lighting system. The lighting system includes a lighting device 1, a gateway 2, and an information setting device 3. FIG. 1 shows a case where a plurality of lighting devices 1 are installed on each floor of a building and one gateway 2 is installed on each floor of the building as an example of a lighting system. Then, one of the gateways 2 becomes a server, and controls (lighting, extinguishing, dimming, toning, etc.) of the lighting device 1 installed on the same floor as the installation floor of the gateway 2 by wireless communication. The control of the lighting devices 1 installed on each of the different floors is executed by the gateway 2 installed on the same floor as them. In this way, in the lighting system of the present embodiment, it is possible to control a plurality of lighting devices 1 by using the gateway 2.

Here, the lighting device 1 is provided with device identification information Ia so that they can be uniquely identified and controlled. The device identification information Ia is, for example, a MAC (Media Access Control) address or the like. On the other hand, at a work site where the lighting device 1 is installed on a ceiling, a wall, or the like, the lighting device 1 is delivered in a state in which it is not distinguished which device identification information Ia is attached to, and the electrical work is performed in that state. It is installed on the ceiling or wall by a contractor. Therefore, it is difficult to grasp which device identification information Ia is arranged at which position only by the installation work of the lighting device 1.

Therefore, in the lighting system of the present embodiment, after the lighting device 1 and the gateway 2 are installed on each floor of the building, the information setting device 3 is used at the site where they are installed, so that the installation position of the lighting device 1 is obtained. On the light distribution diagram Mp (see FIG. 7) that is selectively shown by the symbol image Ps, the device identification information Ia of the lighting device 1 and the symbol image Ps corresponding to the installation position of the lighting device 1 are paired. It is associated with the relationship of 1 (see FIG. 8).

Further, in the present embodiment, a mesh network is constructed for each floor of the building in order to secure a good communication environment (see FIG. 2). Specifically, on each floor of the building, a mesh network is constructed by dividing each floor so that all the lighting devices 1 installed on that floor are controlled by the gateway 2 installed on the same floor. .. Here, the mesh network is a communication network in which a mesh-like transmission path starting from the gateway 2 is formed by a plurality of lighting devices 1, and in the mesh network, the other lighting devices 1 from the gateway 2 to the lighting device 1 Wireless communication by the bucket relay method via the gateway becomes possible. More specifically, the mesh network includes a wireless module provided in the lighting device 1 and the gateway 2, a device having an output of a PWM signal control dimming method, a device having an output of a non-voltage a contact, and a phase control adjustment. It consists of devices related to lighting control, such as devices with optical output. Further, in addition to the lighting device 1 and the gateway 2, the mesh network may include an illuminance motion sensor, a wall-mounted handy remote controller, and the like.

Then, in order to realize the above-mentioned construction of the mesh network for each floor (see FIG. 2), it is necessary to associate the lighting device 1 on each floor with the gateway 2 that controls control on the same floor.

As a process for constructing a mesh network, for example, it is conceivable to automate the association by using a mesh scan technique in order to reduce the time and effort of the user. Specifically, it is conceivable to automatically associate the gateway 2 installed on a certain floor with the lighting device 1 that reacts when a mesh scan is performed using the gateway 2. However, according to the mesh scan, all the lighting devices 1 within the range that can be reached directly from the gateway 2 wirelessly and within the range that can be reached from the gateway 2 via the lighting device 1 by the bucket brigade method react. It ends up. Therefore, when a mesh scan is performed on a certain floor, a part of the lighting device 1 installed on another floor (such as the floor directly above or directly below) may react. Therefore, as illustrated in FIG. 3, a part of the gateway 2 installed on one floor (first floor in FIG. 3) and the lighting device 1 installed on another floor (second floor in FIG. 3). May be erroneously associated with. If such an association is made, the illuminating device 1 on another floor that has been associated will not respond when a mesh scan is performed on that floor. In this case, since it is not possible to directly visually confirm the lighting device 1 that has been erroneously associated with another floor, it is difficult to find and correct it, and it takes time to construct the mesh network. Become.

Therefore, the lighting system of the present embodiment makes it possible to easily construct a mesh network for each floor as a setting related to the mesh network. Hereinafter, each device included in the lighting system will be specifically described.

<Lighting device>
FIG. 4 is a conceptual diagram showing the configuration of the lighting device 1. The lighting device 1 includes a light source 11A, a circuit unit 11B, a wireless module 12, a storage unit 13, and a control unit 14. FIG. 4 shows a case where the storage unit 13 and the control unit 14 are constructed in the wireless module 12 as an example of the lighting device 1. Then, the device identification information Ia attached to the lighting device 1 is stored in the storage unit 13 at the time of manufacturing or shipping of the lighting device 1. At least one of the storage unit 13 and the control unit 14 may be constructed outside the wireless module 12. Further, as the device identification information Ia, identification information that identifies the wireless module 12 may be used.

The light source 11A is an LED light source. Then, according to the command from the control unit 14, electric power is supplied from the circuit unit 11B to the light source 11A, and the lighting (lighting, extinguishing, dimming, toning, etc.) of the light source 11A is controlled. The light source 11A may be composed of various devices, such as an organic EL (Electro Luminescence) device, which are not limited to LEDs, as long as they can output light for illumination.

The wireless module 12 has a wireless communication function and enables bidirectional wireless communication with other devices (gateway 2, information setting device 3, etc.). In FIG. 4, the wireless communication function of the wireless module 12 is shown as the wireless communication unit 12A. As the communication method of the wireless module 12, a power-saving communication method capable of wireless communication with power saving such as BLE (Bluetooth (registered trademark) Low Energy) is used. According to this communication method, the wireless module 12 can perform bidirectional and direct short-range wireless communication with one or a plurality of wireless modules 12 installed in the vicinity thereof. The wireless module 12 may be configured as a detachable and independent device. Further, the wireless module 12 may be a dedicated module prepared for each communication method to be used, and may be detachably attached to the socket of the lighting device 1.

Then, when the wireless module 12 (wireless communication unit 12A) receives the control signal transmitted from the gateway 2, the control unit 14 lights the light source 11A (lighting, extinguishing, dimming, toning) according to the control signal. Etc.) to control.

<Gateway>
FIG. 5 is a conceptual diagram showing the configuration of the gateway 2. The gateway 2 includes a wireless communication unit 21, a wired communication unit 22, a storage unit 23, and a control unit 24. Further, the gateway 2 is provided with gateway identification information Ib for uniquely identifying the gateway 2. The gateway identification information Ib is, for example, a MAC address or IP address used for TCP / IP communication, and is stored in the storage unit 23 at the time of manufacturing or shipping of the gateway 2.

The wireless communication unit 21 enables bidirectional and direct wireless communication with other devices (lighting device 1, information setting device 3, etc.), and like the wireless module 12, power saving such as BLE. Wireless communication is performed using a communication method or wireless LAN. The wireless LAN can be used for data communication with a large amount of communication such as transmission / reception of the light distribution diagram Mp. The wired communication unit 22 enables bidirectional wired communication with another device (gateway 2 or the like).

The storage unit 23 is a portion provided with a storage device such as a ROM (Read Only Memory) or a RAM (Random Access memory). In addition to the gateway identification information Ib, the storage unit 23 stores the light distribution diagram Mp of each floor of the building, the lighting device management data D1, the network management data D2, and the like. Here, the lighting device management data D1 is data in which the correspondence relationship between the installation position of the lighting device 1 on the light distribution diagram Mp shown by the symbol image Ps and the device identification information Ia of the lighting device 1 is recorded. FIG. 10 is a diagram showing an example of the lighting device management data D1. Further, the network management data D2 is data in which the correspondence between the device identification information Ia of the lighting device 1 and the gateway identification information Ib of the gateway 2 is recorded. FIG. 11 is a diagram showing an example of network management data D2. The network management data D2 may include information such as a password and an encryption key required for constructing a mesh network.

The control unit 24 is a part provided with a processing device such as a CPU (Central Processing Unit), and is a lighting controller that controls the gateway 2 and the lighting device 1 by wireless communication by executing an operation setting program on the processing device. Or, it operates as a communication repeater that relays wireless communication. Then, in the present embodiment, one of the gateways 2 serves as a server, and the control (lighting, extinguishing, dimming, toning, etc.) of the lighting device 1 installed on the same floor as the installation floor of the gateway 2 is controlled by wireless communication. In addition, the gateway 2 installed on the same floor as them controls the lighting devices 1 installed on each of the different floors. The operation setting program may be stored in a portable storage medium (for example, a flash memory or the like), or may be stored in a cloud server or the like in a downloadable state.

Further, even when the gateways 2 are installed relatively apart across the floors, the gateways 2 are connected by a wired network so that a good communication state is formed between them. On the other hand, the gateway 2 and the lighting device 1 are wirelessly connected. This is because, when the gateway 2 and the lighting device 1 are connected by wire, the larger the number of lighting devices 1, the more complicated the wiring work required for the connection, while the wireless connection is performed. This is because such complicated wiring work becomes unnecessary and the scale of the lighting system can be easily expanded.

Then, in the present embodiment, in order to increase the number of lighting devices 1 that can communicate with one gateway 2, the above-mentioned mesh network is constructed by the gateway 2 and the lighting device 1 (wireless module 12) on each floor of the building. On the other hand, if the range of the mesh network is expanded too much, the amount of communication data in the mesh network becomes large and the gateway 2 is burdened. Therefore, in order to limit the range of the mesh network and reduce the load on the gateway 2, the number of lighting devices 1 (the number of hops) that can be passed through when wireless communication is performed between the gateway 2 and the lighting device 1 is limited (the number of hops). For example, the number of hops = 3) and the number (number of configurations) of the lighting devices 1 constituting one mesh network is also limited (for example, the number of configurations = 250).

<Information setting device>
FIG. 6 is a block diagram showing the configuration of the information setting device 3. The information setting device 3 is, for example, a mobile terminal device such as a smartphone or a tablet PC, and includes a wireless communication unit 31, a storage unit 32, a touch panel 33, and a control unit 34. In the present embodiment, the information setting device 3 is used when the user makes various settings (including association) at the site where the lighting devices 1 and the gateway 2 are installed after the lighting devices 1 and the gateway 2 are installed on each floor of the building. ..

The wireless communication unit 31 enables bidirectional and direct wireless communication with other devices (lighting device 1, gateway 2, etc.), and like the wireless module 12, a power-saving communication method such as BLE. And wireless communication is performed by wireless LAN. Further, in the present embodiment, the information setting device 3 acquires the gateway identification information Ib from the gateway 2 by communicating with the gateway 2 through the wireless communication unit 31, and at that time, the light distribution diagram Mp of each floor of the building. The lighting device management data D1 and the network management data D2 are also acquired together.

The storage unit 32 is a portion provided with a storage device such as a ROM or RAM. The storage unit 32 stores the gateway identification information Ib, the light distribution diagram Mp, the lighting device management data D1, the network management data D2, and the like acquired from the gateway 2. The gateway identification information Ib, the light distribution diagram Mp, the lighting device management data D1, the network management data D2, etc., which were stored in the server or the like in a downloadable state, are downloaded from the server or the like and stored in the storage unit. It may be stored in 32.

The touch panel 33 has a function as a display unit in the information setting device 3 and a function as an input unit in the information setting device 3. Then, the touch panel 33 displays a user interface that enables operations (operations on the screen) required for various settings (see FIG. 7). The information setting device 3 may have a display unit (monitor or the like) and an input unit (keyboard or the like) separately configured, for example, a desktop PC or the like.

FIG. 7 is a diagram illustrating a user interface displayed on the screen. 8 and 9 (A) and 9 (B) are diagrams illustrating operations on the user interface and screens displayed in the process of the operations. As illustrated in FIGS. 7 to 9 (B), a light distribution diagram Mp in which circular symbol images Ps are arranged in a matrix is displayed on the screen of the user interface. As the light distribution diagram Mp displayed on the screen at this time, the one read from the storage unit 32 is used. In addition to the symbol image Ps, the light distribution diagram Mp may show floor plans, passages, shelves, etc. corresponding to the real space in which the lighting device 1 is installed. Further, the shape of the symbol image Ps may be appropriately changed to another shape (such as a quadrangle or a shape corresponding to the shape of the lighting device 1) that is not limited to a circle.

Further, on the screen of the user interface, each of the device identification information Ia of the lighting device 1 is displayed in a list that can be selected by an icon (see FIG. 7). At this time, the device identification information Ia may be listed in descending order of reception strength in the wireless communication unit 31. Here, the device identification information Ia displayed on the screen is used to transmit the advertisement packet Sb or the like from the lighting device 1 within the communication range by wirelessly communicating with the lighting device 1 by the wireless communication unit 31 by a communication method such as BLE. Obtained by receiving. Further, in the present embodiment, the icon of the device identification information Ia has a switch function so that the lighting device 1 to which the device identification information Ia is attached blinks at least once when the device identification information Ia is selected. I'm letting you.

The device identification information Ia displayed on the screen may be obtained by transmitting a beacon signal including the device identification information Ia in one direction from the lighting device 1 and receiving the beacon signal by the wireless communication unit 31. good. The transmission of the beacon signal in this case may be realized by the wireless module 12 of the lighting device 1, or may be realized by attaching a transmitter to the lighting device 1. Further, as long as the lighting device 1 identified by the device identification information Ia can be blinked at least once, the icon of the device identification information Ia is not limited to having a switch function, and another icon having a switch function. May be displayed on the screen of the user interface in association with the device identification information Ia.

Further, on the screen of the user interface, the gateway identification information Ib is displayed in a selectable list in the drop-down image that appears when the drop-down button Pw1 is pressed (see FIG. 9A). Then, the gateway identification information Ib selected from the drop-down image is displayed in the box Pw2 (see FIG. 9B). As the gateway identification information Ib displayed on the screen at this time, the information read from the storage unit 32 is used.

The control unit 34 is a part provided with a processing device such as a CPU, and executes various setting processes by executing an information setting program on the processing device. The information setting program may be stored in a portable storage medium (for example, a flash memory or the like), or may be stored in a cloud server or the like in a downloadable state.

[1-2] Various setting processes executed by the information setting device In the information setting device 3, after the lighting devices 1 and the gateway 2 are installed on each floor (real space) of the building, the user can use the information setting device 3 at the site where they are installed. It is used when making various settings (including association). Specifically, by executing the information setting program, the control unit 34 first displays the home screen on the touch panel 33 (not shown). Then, when the user presses the gateway scan button on the home screen, the control unit 34 acquires the gateway identification information Ib from the gateway 2, and also obtains the light distribution diagram Mp, the lighting device management data D1, and the network management data D2. Etc. are also acquired, and they are stored in the storage unit 32. Further, when the user selects one of the light distribution diagrams Mp stored in the storage unit 32 on the home screen and presses a button for executing the information setting process in that state, the control unit 34 Displays a user interface (see FIG. 7) on the touch panel 33. Then, the control unit 34 records the correspondence performed by the user on the user interface in the lighting device management data D1 and the network management data D2 (information setting process). Hereinafter, the information setting process will be specifically described. Of the various processes performed by the information setting device 3, only the information setting process described below may be executed by another application program.

<Information setting process>
FIG. 12 is a flowchart showing the information setting process and the user operation executed by the information setting device 3. When the button for executing the information setting process is pressed on the home screen and the information setting process is disclosed, the control unit 34 first displays the user interface screen (see FIG. 7) on the touch panel 33 (step). S101). At this time, the control unit 34 reads out the light distribution diagram Mp selected on the home screen from the storage unit 32 and displays it. Further, the control unit 34 displays a drop-down button Pw1 for displaying the gateway identification information Ib in a selectable manner and a box Pw2 in which the selected gateway identification information Ib is displayed on the screen. Further, the control unit 34 displays a home screen button for returning to the home screen and an update button for updating the display of the device identification information Ia and the gateway identification information Ib on the screen.

After that, the control unit 34 acquires the device identification information Ia from the lighting device 1 installed on the ceiling, wall, or the like and displays it on the screen of the user interface (see FIG. 7, step S102). Specifically, the control unit 34 acquires the device identification information Ia of the lighting device 1 within the communication range of the wireless communication unit 31 by receiving the advertisement packet Sb or the like from the lighting device 1. Then, the control unit 34 displays each of the acquired device identification information Ia selectably by an icon, and displays them in a list. At this time, the control unit 34 may list the device identification information Ia in descending order of reception strength in the wireless communication unit 31.

On the screen displayed after the execution of step S102 (see FIG. 7), the user can select the icon of the device identification information Ia by tapping the touch panel 33 on the screen (step S201, see FIG. 8). .. Then, by confirming the installation position of the lighting device 1 in the real space that blinks when the icon of the device identification information Ia is selected, the user can determine the installation position on the light distribution diagram Mp corresponding to the installation position. The symbol images Ps to be shown can be selected (step S201; see FIG. 8). Further, the user can select the gateway identification information Ib from the drop-down image displayed by pressing the drop-down button Pw1 (see FIGS. 9A and 9B). According to such an operation, the user can select the device identification information Ia and the symbol image Ps and the gateway identification information Ib associated with the device identification information Ia by a simple operation on the screen of the touch panel 33.

Therefore, after the execution of step S102, the control unit 34 determines whether or not the symbol image Ps, the device identification information Ia, and the gateway identification information Ib are selected on the screen of the user interface (step S103). Then, when the control unit 34 determines in step S103 that it is “selected (Yes)”, the control unit 34 associates the selected device identification information Ia with the selected symbol image Ps and the gateway identification information Ib (step S104). ).

Specifically, the control unit 34 associates the installation position of the lighting device 1 on the light distribution diagram Mp indicated by the selected symbol image Ps with the selected device identification information Ia, and the lighting device management data. Record on D1 (see FIG. 10). Further, the control unit 34 associates the information of the light distribution diagram Mp with the installation position so that the installation position (position coordinates) indicated by the symbol image Ps can be specified which light distribution diagram Mp corresponds to. Is also recorded in the lighting device management data D1. Further, the control unit 34 records the selected device identification information Ia and the gateway identification information Ib in the network management data D2 in association with each other (see FIG. 11).

At this time, the control unit 34 generates the in-mesh identification information Ic for uniquely identifying the lighting device 1 in the mesh network. Here, the in-mesh identification information Ic is configured so that the user can easily identify the lighting device 1 as compared with the MAC address or the like. As an example, the identification information Ic in the mesh is information that is easy for the user to understand (for example, "lighting 1-1") by combining characters (kana, kanji, alphabet, etc.), numbers (serial number, etc.), symbols, and the like. It is configured to be. Then, the control unit 34 records the generated in-mesh identification information Ic together with the device identification information Ia in the lighting device management data D1 and the network management data D2 (see FIGS. 10 and 11).

Further, the control unit 34 records the network identification information Id for uniquely identifying the mesh network in the network management data D2 together with the gateway identification information Ib (see FIG. 11). Here, the network identification information Id is configured so that the user can easily identify the mesh network. As an example, the gateway identification information Ib may be information that is easy for the user to understand (for example, "mesh 1") by combining characters (kana, kanji, alphabet, etc.), numbers (serial number, etc.), symbols, and the like. It is composed of.

The lighting device management data D1 in which various information is recorded is used when creating lighting control data for managing lighting control for the lighting device 1. As an example, the lighting control data includes lighting control information (lighting, extinguishing, dimming, toning, time schedule, etc.) according to the installation position of the lighting device 1 in each of the device identification information Ia of the lighting device 1. Information about) is associated. As another example, in the lighting control data, a group of the lighting device 1 is formed by grouping all or some of the device identification information Ia, and the lighting control information is associated with the group. , All or some of such groups are grouped together and managed as a lighting zone. Then, the created lighting control data is transmitted to all gateways 2 and stored in the storage unit 23 of each gateway 2. This enables lighting control by the gateway 2.

Further, the network management data D2 in which various information is recorded is transmitted to the gateway 2 as described later, so that the gateway 2 recognizes the lighting device 1 that constructs the same mesh network by the gateway 2. Used. That is, the gateway 2 can recognize the lighting device 1 that constructs the same mesh network by referring to the network management data D2.

According to such a process, a process of associating the selected device identification information Ia and the symbol image Ps with each other and selection by a simple operation such as selecting the symbol image Ps, the device identification information Ia, and the gateway identification information Ib. Both the processing of associating the device identification information Ia and the gateway identification information Ib with each other at one time is executed.

After that, the control unit 34 transmits the in-mesh identification information Ic and the network identification information Id to the lighting device 1 identified by the device identification information Ia and stores them in the storage unit 13 (step S105). As a result, the lighting device 1 is selectively added to the mesh network, and at the time of lighting control, the lighting device 1 has its own in-mesh identification information Ic and network identification information Id in the control signal transmitted from the gateway 2. Illumination (lighting, extinguishing, dimming, toning, etc.) according to the control signal by determining whether or not it matches the in-mesh identification information Ic and the network identification information Id (stored in the storage unit 13). It becomes possible to determine whether or not to control.

After executing step S105 (after transmitting information to the lighting device 1), the control unit 34 determines whether or not the home screen button has been pressed (step S106). Further, the control unit 34 also executes step S106 when it is determined in step S103 that "it is not selected (No)". When the control unit 34 determines in step S106 that "it has not been pressed (No)", it determines whether or not the update button has been pressed before executing the process from step S103 again (step S107). .. Then, when the control unit 34 determines in step S107 that the device is "pressed (Yes)", the control unit 34 returns to step S102, reacquires the device identification information Ia, displays it on the user interface screen, and then displays the device identification information Ia. The process from step S103 is executed. On the other hand, when the control unit 34 determines in step S107 that the device is not pressed (No), the control unit 34 does not reacquire the device identification information Ia (without returning to step S102), and starts from step S103. Executes the processing of.

Then, the user selects the symbol image Ps, the device identification information Ia, and the gateway identification information Ib again on the screen of the user interface. At this time, if the user does not need to select once from the drop-down image and change the gateway identification information Ib displayed in the box Pw2, the user does not select from the drop-down image again and remains as it is. The device identification information Ia and the symbol image Ps may be selected in. As a result, the correspondence between the installation position of the lighting device 1 and the device identification information Ia on the light distribution diagram Mp is accumulated in the lighting device management data D1. Further, the correspondence between the device identification information Ia and the gateway identification information Ib is accumulated in the network management data D2.

After that, when the control unit 34 determines in step S106 that "pressed (Yes)", the control unit 34 returns to the home screen, and all the gateways 2 use the network management data D2 in which the correspondence up to that point is recorded. Is transmitted to and stored in the storage unit 23 of each gateway 2. As a result, the gateway 2 can recognize the lighting device 1 that constructs the same mesh network by referring to the network management data D2 (see FIG. 2).

According to the above information setting process, the user can select the device identification information Ia and the gateway identification information Ib to be associated with each other on the screen. Then, in the network management data D2, the device identification information Ia and the gateway identification information Ib selected by the user are recorded in association with each other. Therefore, the user can select and associate the device identification information Ia and the gateway identification information Ib for each floor of the building, and construct a mesh network for each floor of the building by such a simple operation. Can be done (see Figure 2). In this way, it is possible to easily construct a mesh network for each floor as a setting related to the mesh network in the lighting system. And, according to the mesh network constructed for each floor of the building in this way, a good communication environment is secured.

[2] Modified Example [2-1] First Modified Example FIG. 13 is a diagram illustrating a user interface displayed on the screen in the first modified example. As shown in FIG. 13, the gateway identification information Ib is not limited to the case where it is displayed only when the drop-down button Pw1 is pressed (see FIG. 9A), and the user interface is similar to the device identification information Ia. It may always be listed on the screen of.

[2-2] Second Modified Example FIG. 14 (A) is a diagram showing an example of a user interface displayed on the screen in the second modified example. As shown in FIG. 14A, the icon of the device identification information Ia is arranged by dragging the device identification information Ia at the position on the light distribution diagram Mp corresponding to the installation position of the lighting device 1 on the screen of the user interface. The icon may be used as a symbol image Ps indicating an installation position of the lighting device 1.

FIG. 14B is a diagram showing another example of the user interface displayed on the screen in the second modification. As shown in FIG. 14 (B), the gateway identification information Ib has an icon of the device identification information Ia on the light distribution diagram Mp instead of the display by pressing the drop-down button Pw1 (see FIG. 9 (A)). A pop-up screen may be displayed when it is arranged, and it may be displayed selectably on the pop-up screen.

[2-3] Third Modification Example When the gateway identification information Ib is selected on the screen of the user interface, the control unit 34 at least emits a light emitting unit of the gateway 2 to which the selected gateway identification information Ib is attached. It may blink once. In this case, when the user selects the gateway identification information Ib, whether or not the gateway identification information Ib can be correctly selected by checking whether or not the light emitting unit of the gateway 2 on the floor on which the user is located blinks. Can be confirmed.

[2-4] Fourth Modified Example The information setting device 3 sets the selected device identification information Ia and the gateway identification information Ib to each other, separately from the process of associating the selected device identification information Ia with the symbol image Ps. Only the process of associating may be performed.

FIG. 15 is a diagram illustrating a user interface displayed on the screen in the fourth modification. Further, FIG. 16 is a flowchart showing the information setting process and the user operation executed by the information setting device 3 in the fourth modification. As shown in FIG. 15, the control unit 34 of the information setting device 3 displays the device identification information Ia and the gateway identification information Ib as user interfaces on a screen without the light distribution diagram Mp so as to be selectable by icons. It may be (steps S301, S302). In this case, when the device identification information Ia and the gateway identification information Ib are selected respectively (step S401), the control unit 34 associates the selected device identification information Ia and the gateway identification information Ib with each other for network management data. It can be stored in D2 (steps S303 and S304).

Further, on the screen of FIG. 15, the user may be allowed to select one gateway identification information Ib and a plurality of device identification information Ia in that state. In this case, the control unit 34 associates the selected one gateway identification information Ib with the selected plurality of device identification information Ia in a one-to-many relationship with the lighting device management data D1 in one process. It becomes possible to record all together.

[2-5] Fifth Modification Example The above-mentioned information setting process (correspondence process) is performed simultaneously and in parallel using a plurality of information setting devices 3 at the site where the lighting device 1 and the gateway 2 are installed. May be good. In this case, the information setting devices 3 are connected to the lighting device management data D1 and the network so that the correspondence made by the information setting device 3 does not overlap with the correspondence made by the other information setting device 3. It is preferable to share the management data D2 by wireless communication.

[2-6] Other Modifications The information setting device 3 described above can also be applied to a lighting system in which a plurality of gateways 2 are installed on each floor of a building.

In the above-mentioned lighting system, not only one of the gateways 2 may function as a server, but all or some of the gateways 2 may function as a server. Alternatively, a terminal device other than the gateway 2 may function as a server. Further, the gateways 2 may be connected not only by wire but also by wireless (Wifi or the like) as long as a good communication state can be formed between them.

The lighting system described above may automatically determine when the gateway 2 functioning as a server fails and cause another gateway 2 to function as a server instead of the failed gateway 2.

The above description of the embodiments and modifications should be considered as exemplary in all respects and not restrictive. The scope of the present invention is shown by the scope of claims, not by the above-described embodiments and modifications. Furthermore, the scope of the present invention is intended to include all modifications within the meaning and scope equivalent to the claims.

Further, the description of the above-described embodiments and modifications is not limited to the inventions described in the claims, but the configuration of each device included in the lighting system, the control process executed by each device, and a part thereof. Etc. are also included as inventions.

1 Lighting device 2 Gateway 3 Information setting device 11A Light source 11B Circuit unit 12 Wireless module 12A Wireless communication unit 13 Storage unit 14 Control unit 21 Wireless communication unit 22 Wired communication unit 23 Storage unit 24 Control unit 31 Wireless communication unit 32 Storage unit 33 Touch panel 34 Control unit D1 Lighting device management data D2 Network management data Ia Device identification information Ib Gateway identification information Ic In-mesh identification information Id Network identification information Mp Light distribution diagram Ps Symbol image Sb Advertisement packet Pw1 Drop-down button Pw2 Box

Claims (8)

It is an information setting device that can communicate with a plurality of lighting devices with device identification information and a plurality of gateways with gateway identification information, and includes a display unit, an input unit, and a control unit. hand,
The control unit
On the display unit, a symbol image showing any arrangement of the plurality of lighting devices, at least one device identification information acquired by communication with the lighting device, and at least one acquired by communication with the gateway. The gateway identification information and the gateway identification information are displayed in a selectable manner.
When the symbol image, the device identification information, and the gateway identification information are selected by the operation in the input unit, the selected device identification information, the selected symbol image, and the gateway identification information An information setting device that associates with each other. When the selected device identification information is associated with the symbol image and the gateway identification information, the control unit uniquely identifies the lighting device to which the device identification information is attached in the mesh network. The information setting device according to claim 1, wherein the in-mesh identification information is generated and the generated in-mesh identification information is also associated with the generated identification information. The display unit and the input unit are touch panels.
The control unit is selected with the device identification information selected when the symbol image, the device identification information, and the gateway identification information displayed on the touch panel are selected by a touch operation on the touch panel. The information setting device according to claim 1 or 2, wherein the symbol image and the gateway identification information are associated with each other. Each of the plurality of gateways acquires all the gateway identification information attached to gateways other than itself, and obtains all the gateway identification information.
The information setting device according to any one of claims 1 to 3, wherein the control unit acquires all the gateway identification information attached to the plurality of gateways from any of the plurality of gateways. Any of claims 1 to 4, wherein the control unit blinks the lighting device to which the selected device identification information is attached at least once when the device identification information displayed on the display unit is selected. Information setting device described in Crab. The control unit blinks the light emitting unit of the gateway to which the selected gateway identification information is attached at least once when the gateway identification information displayed on the display unit is selected. The information setting device described in any of the above. The lighting device has a function of transmitting a beacon signal including its own device identification information.
The information setting device according to any one of claims 1 to 6, wherein the control unit acquires the device identification information from the lighting device by receiving the beacon signal transmitted from the lighting device. Multiple lighting devices with device identification information and
Multiple gateways with gateway identification information and
The information setting device according to any one of claims 1 to 7, which can communicate with the plurality of lighting devices and the plurality of gateways.
With
The gateway is a lighting system that wirelessly controls the lighting device to which the device identification information associated with the gateway identification information is attached.

Images