JP2011035623A - Power line communication lighting system - Google Patents

Abstract

A power line communication lighting system capable of accurately and easily associating a lighting device with a dimming device is provided.
In a power communication lighting system including a plurality of illumination devices, a plurality of light control devices, and an information storage terminal capable of performing power line communication with each other, wireless communication is possible, and the illumination device and the light control device are provided. 30 is provided with an operation terminal 50 for transmitting the illumination identification information 45 and the dimming identification information 35 from the illumination device 40 or the dimming device 30 to the information storage terminal 20 through wireless communication with the information storage terminal 20. The related information 25 is updated based on the illumination identification information 45 and the dimming identification information 35.
[Selection] Figure 2A

Description

  The present invention relates to a power line communication lighting system.

  Conventionally, a home control system has been proposed in which a home information panel, an indoor device, and a terminal are connected to indoor wiring, and the indoor device is controlled from the information panel via the terminal by power line communication (for example, Patent Document 1). In the system of Patent Document 1, infrared communication means for performing control by a remote control device attached to an indoor device via a terminal is provided in the terminal.

  Also, wired communication and wireless communication can be performed according to the communication environment, and when the communication status by the wireless communication device is bad, the communication method switching means is used to switch to the wired communication device for communication, and conversely the wired communication device There has also been proposed a communication system in which communication is performed by switching to a wireless communication apparatus using a communication method switching means when the communication status by the communication method is poor (see, for example, Patent Document 2).

Japanese Patent Laid-Open No. 8-182064 JP 2002-319947 A

  By the way, when a plurality of lighting devices are controlled by a plurality of light control devices by power line communication, it is necessary to associate each lighting device with each light control device. However, when these associations are performed by a terminal provided on the power line, the worker must work in advance after accurately grasping the installation position and identification information of each lighting device and each dimming device. The burden on the user is heavy, and there is a risk of incorrect association.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a power line communication lighting system capable of accurately and easily associating a lighting device and a light control device. .

  In order to achieve the above object, the present invention has a power line, a storage unit connected to the power line and supplied with illumination power, and storing illumination identification information for individual identification. A plurality of illuminating devices capable of, a dimming operation unit connected to the power line and capable of dimming input of the illumination state of the illuminating device, a storage unit storing dimming identification information for individual identification, A plurality of light control devices capable of power line communication and wireless communication, and a storage unit that is connected to the power line and stores related information that associates the illumination identification information with the light control identification information. An information storage terminal capable of power line communication; an input unit that is capable of wireless communication and that receives an update input of the related information; and the lighting device and the control that are newly associated when the update input is received by the input unit Optical device and wireless communication And an information processing unit that transmits the illumination identification information and the dimming identification information from the lighting device or the dimming device to the information storage terminal, and the information storage terminal A power line communication illumination system is provided that updates the related information based on the illumination identification information and the dimming identification information transmitted by the information processing unit of a terminal.

  In the power line communication illumination system, it is preferable that the operation terminal is detachably provided on the information storage terminal.

  In the power line communication lighting system, the wireless communication may be infrared communication.

  In the power line communication lighting system, it is preferable that the operation terminal is capable of operating a device other than the lighting device.

  In the power line communication lighting system, the operation terminal may be a mobile phone terminal or a mobile music terminal.

  ADVANTAGE OF THE INVENTION According to this invention, in a power line communication lighting system, an illumination apparatus and a light control apparatus can be linked | related accurately and simply.

FIG. 1 is a schematic block diagram of a power line communication lighting system showing an embodiment of the present invention. FIG. 2A is an explanatory block diagram of the host terminal, the light control device, the lighting device, and the operation terminal, and shows a state where the operation terminal is attached to the host terminal. FIG. 2B is an explanatory block diagram of the host terminal, the light control device, the lighting device, and the operation terminal, and shows a state where the operation terminal is removed from the host terminal. FIG. 3 is a table in which dimming identification information and illumination identification information are associated with each other. FIG. 3A shows a state in which some illumination identification information is not associated with dimming identification information. Indicates a state in which all the illumination identification information is associated with the dimming identification information. FIG. 4A is a flowchart showing the operation of the power line communication lighting system. FIG. 4B is a flowchart showing the operation of the power line communication lighting system. FIG. 5 is an explanatory block diagram of a host terminal, a light control device, a lighting device, and an operation terminal according to another embodiment. FIG. 6 is a flowchart of a power line communication lighting system showing another embodiment. FIG. 7 is an explanatory block diagram of a host terminal, a light control device, a lighting device, and an operation terminal according to another embodiment.

FIG. 1 is a schematic block diagram of a power line communication lighting system showing an embodiment of the present invention.
As shown in FIG. 1, the power line communication lighting system 1 includes a power line 10, a host terminal 20 connected to the power line 10, a plurality of light control devices 30 connected to the power line 10, and a plurality connected to the power line 10. The illumination device 40 is provided. In this embodiment, the power line communication lighting system 1 is used for lighting of a house, and the power line 10 supplies electric power to indoor appliances in addition to the lighting device 40. Further, the power line communication lighting system 1 includes an operation terminal 50 capable of wireless communication with each light control device 30 and each lighting device 40. Each light control device 30 and each lighting device 40 are fixed to the wall of the building, and the operation terminal 50 is portable.

FIG. 2A is an explanatory block diagram of the host terminal, the light control device, the lighting device, and the operation terminal, and shows a state where the operation terminal is attached to the host terminal.
As shown in FIG. 2A, the lighting device 40 includes a power line communication unit 41 that communicates with other devices via the power line 10, a light emitting unit 42 that irradiates light to a predetermined area in a house, and a power line communication unit 41. A light emission control unit 43 that controls the light emission unit 42 based on the received information relating to the light control. The power line communication unit 41 is, for example, a modem that supports power line communication. The configuration of the light emitting unit 42 is arbitrary, but is, for example, a fluorescent lamp, a light bulb, or an LED (Light Emitting Diode) that emits light when power is supplied. The illumination device 40 is, for example, a room lamp that irradiates light to the entire room, a stand that irradiates light locally, or a foot lamp.

  The lighting device 40 includes an infrared communication unit 44 capable of performing infrared communication as wireless communication, separately from the power line communication unit 41. In addition to the infrared communication, the wireless communication may be a low-power wireless communication such as Bluetooth or ZigBee. The infrared communication unit 44 is, for example, a modem that supports infrared communication. By using a modem compatible with power line communication and infrared communication, the power line communication unit 41 and the infrared communication unit 44 can be configured integrally. Further, the lighting device 40 has a storage unit 46 in which illumination identification information 45 for distinguishing from other lighting devices 40 is stored, and illumination of the storage unit 46 in response to a request from the power line communication unit 41 or the infrared communication unit 44. And an identification information processing unit 47 that transmits the identification information 45 to the communication units 41 and 44. Here, in the one power line communication lighting system 1, separate illumination identification information 45 is assigned to each lighting device 40. The illumination identification information 45 is arbitrary as long as it can be distinguished from the other illumination devices 40. For example, a combination of a plurality of digits or alphabets is used.

  2A, the dimming device 30 includes a power line communication unit 31 that communicates with other devices via the power line 10, a dimming operation unit 32 that receives a dimming operation of the lighting device 40, and a dimming operation. A dimming control unit 33 that transmits information for dimming control of the lighting device 40 to the lighting device 40 via the power line communication unit 31 based on the dimming operation received by the unit 32. . The power line communication unit 31 is, for example, a modem that supports power line communication. The configuration of the dimming operation unit 32 is arbitrary, but includes, for example, an on / off switch, a light amount control dial, and the like. For example, the light control device 30 is fixedly provided on a wall portion for each room. The light control device 30 adjusts the light emission state of the associated lighting device 40 by power line communication via the power line 10.

  In addition, the light control device 30 includes an infrared communication unit 34 capable of performing infrared communication as wireless communication, separately from the power line communication unit 31. The infrared communication unit 34 is, for example, a modem that supports infrared communication. By using a modem compatible with power line communication and infrared communication, the power line communication unit 31 and the infrared communication unit 34 can be configured integrally. Furthermore, the dimming device 30 includes a storage unit 36 in which dimming identification information 35 for distinguishing from other dimming devices 30 is stored, and a storage unit in response to a request from the power line communication unit 31 or the infrared communication unit 34. An identification information processing unit 37 that transmits 36 light control identification information 35 to the communication units 31 and 34. Here, in one power line communication lighting system 1, separate dimming identification information 35 is assigned to each dimming device 30. The dimming identification information 35 is arbitrary as long as it can be distinguished from the other dimming devices 30. For example, a combination of a plurality of digits or alphabets is used.

  As shown in FIG. 2, the host terminal 20 includes a power line communication unit 21 that communicates with other devices via the power line 10, a dimming operation unit 22 that receives a dimming operation of the lighting device 40, and a dimming operation unit. And a dimming control unit 23 that transmits information for dimming control of the lighting device 40 to the lighting device 40 via the power line communication unit 21 based on the dimming operation received at 22. The power line communication unit 21 is, for example, a modem that supports power line communication. The configuration of the dimming operation unit 22 is arbitrary. For example, the dimming operation unit 22 includes a touch panel display and the like, and is configured to be capable of adjusting the light emission state by selecting one of the plurality of lighting devices 40. The host terminal 20 may be fixedly provided on the power line 10 or may be detachably connected to an outlet of the power line 10.

  The host terminal 20 also stores the storage unit 26 in which the related information 25 that associates the dimming identification information 35 and the illumination identification information 45 is stored, and the related information 25 in the storage unit 26 in response to a request from the power line communication unit 21. And an associated information processing unit 27 for updating or transmitting to the power line communication unit 21. An example of the related information 25 is a table in which dimming identification information 35 and illumination identification information 45 are associated one-on-one as shown in FIGS. Here, FIG. 3 is a table in which dimming identification information and illumination identification information are associated with each other, (a) shows a state in which some illumination identification information is not associated with dimming identification information, (B) shows a state in which all illumination identification information is associated with dimming identification information. 3A and 3B, the dimming identification information 35 and the illumination identification information 45 are two-digit numbers, respectively. The dimming identification information 35 and the related information 25 of the illumination identification information 45 in one power line communication lighting system 1 are all collected in the host terminal 20.

  As shown in FIG. 2A, the operation terminal 50 can be attached to the host terminal 20, and in this state, the information processing unit 53 of the operation terminal 50 is connected to the related information processing unit 27 of the host terminal 20 by wire. The As shown in FIG. 2B, the operation terminal 50 can be detached from the host terminal 20 and wirelessly communicated with the light control device 30 and the illumination device 40. Here, FIG. 2B is an explanatory block diagram of the host terminal, the light control device, the illumination device, and the operation terminal, and shows a state in which the operation terminal is detached from the host terminal.

  As shown in FIG. 2B, when the operation terminal 50 receives an update input by the infrared communication unit 51 capable of performing infrared communication as wireless communication, an input unit 52 that receives an input related to the update of the related information 25, and the input unit 52. An information processing unit 53 that wirelessly communicates with the illumination device 40 and the dimming device 30 that are newly associated to transmit the illumination identification information 45 and the dimming identification information 35 from the illumination device 40 or the dimming device 30 to the host terminal 20; I have. The operation terminal 50 may be a dedicated terminal provided in the host terminal 20 or may be a shared terminal capable of operating other devices other than the lighting device 40. For example, a television, a video, an audio device, etc. It may be shared with other operation terminals. Furthermore, the operation terminal 50 may be a mobile phone terminal or a mobile music terminal.

  The infrared communication unit 51 is, for example, a modem that supports infrared communication. The configuration of the input unit 52 is arbitrary. For example, the input unit 52 includes a button for starting the update operation of the related information 25, a button for inputting Yes or No according to the display content of the display unit 54 described later, and the like. be able to. In addition, the operation terminal 50 includes a display unit 54 that displays various information when the related information 25 is updated, and a notification unit 55 that notifies the worker of the situation when the related information 25 is updated. The configuration of the display unit 54 is arbitrary, but it can be configured by, for example, a liquid crystal display. Although the structure of the alerting | reporting part 55 is arbitrary, it can comprise with an LED lamp, a buzzer, etc., for example.

4A and 4B are flowcharts showing the operation of the power line communication lighting system.
As shown in FIG. 4A, when the information processing unit 53 of the operation terminal 50 receives an input for starting update work at the input unit 52 (step S <b> 1), the display unit 54 displays that the selection input of the light control device 30 is received. (Step S2). When the information processing unit 53 receives a selection input of the light control device 30 at the input unit 52 (step S3), the information processing unit 53 determines whether or not the light control device 30 capable of infrared communication exists (step S4). If it is determined, the dimming identification information 35 is requested to the dimming device 30 by infrared communication (step S5). That is, the worker may direct the operation terminal 50 so that infrared communication can be performed with the light control device 30 to be selected, and perform selection input from the input unit 52. Here, when there are a plurality of light control devices 30 capable of infrared communication, communication is performed with a device having the best communication state. If it is determined in step S4 that there is no light control device 30 capable of infrared communication, the notification unit 55 notifies the operator that updating is not possible and displays on the display unit 54 that updating is not possible ( Step S6). For example, when the notification unit 55 is a buzzer, the buzzer may be sounded to notify the worker, and when the notification unit 55 is an LED lamp, the LED lamp may be turned on or blinked to notify the worker.

  In step S <b> 5, when a signal related to the request is transmitted to the light control device 30, the identification information processing unit 37 of the light control device 30 reads the light control identification information 35 of the storage unit 36 and sends it to the operation terminal 50. The dimming identification information 35 selected by infrared communication is transmitted (step S7). Then, the information processing unit 53 displays information on the selected dimming identification information 35 on the display unit 54 (step S8), and displays on the display unit 54 that the selection input of the lighting device 40 is accepted (step S9). ). For example, if the selected dimming identification information 35 is “12” in FIG. 3A, “12” may be displayed on the display unit 54, and not the dimming identification information 35 itself, Symbolic numerical values, symbols, names, etc. that can be distinguished by the operator may be displayed on the display unit 54. For example, you may make it display the room where the light control apparatus 30 is equipped like "living room", "kitchen", "bedroom", etc. When the information processing unit 53 receives a selection input of the lighting device 40 from the input unit 52 of the operation terminal 50 (step S10), the information processing unit 53 determines whether there is a lighting device 40 capable of infrared communication (step S11). If it is determined that it exists, the lighting device 40 is requested to inquire about the related information 25 by infrared communication (step S12). That is, the worker may direct the operation terminal 50 so that infrared communication can be performed with the lighting device 40 to be selected, and perform selection input from the input unit 52. Here, when there are a plurality of illumination devices 40 capable of infrared communication, communication is performed with a device having the best communication state. If it is determined in step S11 that there is no illumination device 40 capable of infrared communication, the notification unit 55 notifies the operator that updating is not possible, and displays on the display unit 54 that updating is not possible (step S11). S6).

  When a signal related to the inquiry is transmitted to the illumination device 40 in step S12, the identification information processing unit 47 of the illumination device 40 reads the illumination identification information 45 of the storage unit 46, and illuminates the host terminal 20 by power line communication. The identification information 45 is transmitted, and the current dimming identification information 35 of the dimming device 30 associated with the illumination identification information 45 is requested (step S13). Thereafter, the related information processing unit 27 of the host terminal 20 refers to the related information 25 of the storage unit 26, and supplies the current dimming identification information 35 associated with the illumination identification information 45 by the power line communication. (Step S14).

  When the current dimming identification information 35 is transmitted from the host terminal 20, the identification information processing unit 47 transmits the current dimming identification information 35 and the selected illumination identification information 45 to the operation terminal 50 by infrared communication. Transmit (step S15). And the information processing part 53 of the operating terminal 50 displays the information regarding the light control identification information 35 selected in step S3 on the display part 54 with the information regarding the current light control identification information 35 of the selected illuminating device 40. (Step S16), the display unit 54 displays that the dimming device 30 associated with the illumination device 40 is to be changed (Step S17). For example, when the selected lighting device 40 is “32” in FIG. 3A, the current dimming identification information 35 is “none”, and the selected dimming identification information 35 is “12”. You may display on the display part 54, and you may display on the display part 54 not only each light control identification information 35 itself but the symbolic numerical value, symbol, name, etc. of the grade which an operator can distinguish. Further, in step 16, in addition to the information related to the dimming identification information 35, information related to the illumination identification information 45 of the selected lighting device 40 may be displayed on the display unit 54. In this case, the selected illumination identification information 45 may be displayed as “32”, and not the illumination identification information 45 itself but symbolic numerical values, symbols, names, etc. that can be distinguished by the operator. You may display on the display part 54. FIG. For example, you may make it display the use of the illuminating device 30 like "indirect lighting", "for television", "reading light", etc. Thereafter, the information processing unit 53 determines whether or not a change input of the dimming device 30 has been received from the input unit 52 (step S18). If the change input has been received, the dimming identification selected by the lighting device 40 is determined. Information 35 is transmitted and the related information 25 is requested to be updated (step S19). If no change input is accepted in step S18, the process is terminated.

  When a signal related to the update request is transmitted in step S19, the identification information processing unit 47 of the illumination device 40 transmits the illumination identification information 45 and the dimming identification information 35 selected by the power line communication to the host terminal 20. At the same time, an update of the related information 25 is requested (step S20). Thereafter, the related information processing unit 27 of the host terminal 20 updates the related information 25 of the storage unit 26 so that the selected dimming identification information 35 and illumination identification information 45 are associated (step S21). A signal regarding completion is transmitted to the lighting device 40 by power line communication (step S22). For example, when the selected dimming identification information 35 is “12” in FIG. 3A and the illumination identification information 45 is “32” in FIG. 3A, as shown in FIG. The related information 25 is updated so that both are associated with each other.

  When a signal related to update completion is transmitted from the host terminal 20, the identification information processing unit 47 transmits a signal related to update completion to the operation terminal 50 by infrared communication (step S23). Then, the information processing unit 53 of the operation terminal 50 displays on the display unit 54 that the update of the related information 25 has been completed (step S24), and ends the process.

  According to the power line communication lighting system 1 configured as described above, when a dimming operation is performed by the dimming operation unit 32 of the dimming device 30, the lighting state of the illuminating device 40 associated therewith is dimmed. Controlled based on For example, if a plurality of lighting devices 40 in the same room are associated with one light control device 30, the plurality of lighting devices 40 in the same room are simultaneously controlled by the operation of the light control device 30. For example, if a plurality of light control devices 30 are associated with one lighting device 40, the light control device 30 can be controlled by any of the light control devices 30.

  Further, when the correspondence setting between the light control device 30 and the lighting device 40 is necessary, the operation terminal 50 is temporarily removed from the host terminal 20, and wireless communication is performed between the operation terminal 50, the light control device 30, and the lighting device 40. By performing the above, it is possible to perform the operation for setting the correspondence of the apparatus. Therefore, even if the worker replaces the host terminal 20, the light control device 30 or the lighting device 40, or does not know the identification information 35, 45 of the light control device 30 or the lighting device 40, the worker can control the lighting device 40 and the lighting device 40. The optical device 30 can be associated accurately and easily.

  In particular, in the present embodiment, the dimming device 30 and the illumination device 40 need only be directed by the operation terminal 50 to perform an input operation, which is convenient and extremely convenient in practical use. Further, the identification information 35, 45 itself is not provided to the worker, and symbolic numerical values, symbols, names, and the like that can be distinguished by the worker are displayed on the display unit 54, whereby the identification information 35 is displayed. , 45 is less likely to flow out and security can be increased.

  In the above embodiment, the lighting device 40 transmits and receives the identification information 35 and 45 by power line communication with the host terminal 20. However, the dimming device 30 performs transmission and reception with the host terminal 20. Alternatively, both the light control device 30 and the lighting device 40 may perform transmission and reception. In the embodiment, the operation terminal 50 is detachable from the host terminal 20, but the operation terminal 50 may be provided separately from the host terminal 20.

  Moreover, in the said embodiment, although the host terminal 20 showed what does not perform infrared communication, for example, as shown in FIG. In this case, infrared communication can be performed directly between the operation terminal 50 and the host terminal 20.

  In the above embodiment, the control terminal 50 and the light control device 30 request, transmit, and display the light control identification information 35 in steps S5, S7, and S8, and confirm the light control identification information 35 to the operator. As shown in FIG. 6, for example, an update signal is transmitted from the operation terminal 50 to the dimming device 30 (step S105), and the dimming identification selected immediately from the dimming device 30 to the host terminal 20 is shown. Information 35 may be transmitted (step S107).

  Further, in step S12 to step S20, the operation terminal 50 and the lighting device 40, and the lighting device 40 and the host terminal 20 request, transmit, display, etc. the current dimming identification information 35 and the selected lighting identification information 45. As shown in FIG. 6, for example, an update signal is transmitted from the operation terminal 50 to the lighting device 40 (step S112), and immediately from the lighting device 40 to the host terminal 20 is shown. The selected illumination identification information 45 may be transmitted (step S113).

  In the flowchart shown in FIG. 6, steps S105 and S107 are used instead of steps S5, S7, and S8 of the above embodiment, and steps S112 and S113 are used instead of steps S12 to S20. It is possible to quickly change the settings of the light control device 30 and the lighting device 40 without the confirmation work.

  In the above embodiment, the operation terminal 50 is not provided with a dimming function. However, for example, as illustrated in FIG. 7, the operation terminal 50 is provided with a dimming control unit 56 and a dimming operation unit 57. The dimming operation of the dimming device 30 may be performed remotely by the terminal 50, or the dimming operation of the lighting device 40 may be directly performed by the operation terminal 50. Thereby, when the communication of the power line 10 is unsatisfactory, the lighting device 40 can be dimmed by wireless communication using the operation terminal 50.

  In the above-described embodiment, infrared communication is used as wireless communication. However, in addition to Bluetooth, ZigBee, etc., visible light communication is performed using the light emitting unit 42 of the lighting device 40. You may do it. Further, although the host terminal 20 has been shown to be capable of dimming operation of the lighting device 40, the host terminal 20 may not be provided with the dimming operation unit 22, or other specific detailed structure. Of course, it can be appropriately changed.

DESCRIPTION OF SYMBOLS 1 Power line communication lighting system 10 Power line 20 Host terminal 21 Power line communication part 22 Dimming operation part 23 Dimming control part 24 Infrared communication part 25 Related information 26 Storage part 27 Related information processing part 30 Dimming device 31 Power line communication part 32 Dimming Operation unit 33 Dimming control unit 34 Infrared communication unit 35 Dimming identification information 36 Storage unit 37 Identification information processing unit 40 Lighting device 41 Power line communication unit 42 Light emitting unit 43 Light emission control unit 44 Infrared communication unit 45 Illumination identification information 46 Storage unit 47 Identification information processing unit 50 Operation terminal 51 Infrared communication unit 52 Input unit 53 Information processing unit 54 Display unit 55 Notification unit 56 Dimming control unit 57 Dimming operation unit

Claims (5)

Power lines,
A plurality of lighting devices connected to the power line, supplied with power for lighting, and having a storage unit storing lighting identification information for individual identification; and capable of power line communication and wireless communication;
A power control unit connected to the power line and capable of dimming input of a lighting state of the lighting device; and a storage unit storing dimming identification information for individual identification. A plurality of light control devices capable of
An information storage terminal connected to the power line, having a storage unit storing related information that associates the illumination identification information with the dimming identification information, and capable of power line communication;
Wireless communication is possible, an input unit that receives an update input of the related information, and a wireless communication with the lighting device and the light control device that are newly associated when the update input is received at the input unit, or the lighting device or An operation terminal having an information processing unit that transmits the illumination identification information and the dimming identification information from the dimming device to the information storage terminal,
The information storage terminal is a power line communication illumination system that updates the related information based on the illumination identification information and the dimming identification information transmitted by the information processing unit of the operation terminal.   The power line communication lighting system according to claim 1, wherein the operation terminal is detachably provided on the information storage terminal.   The power line communication lighting system according to claim 2, wherein the wireless communication is infrared communication.   The power line communication lighting system according to claim 3, wherein the operation terminal is capable of operating a device other than the lighting device.   The power line communication lighting system according to claim 3, wherein the operation terminal is a mobile phone terminal or a mobile music terminal.

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