JP2012199011A - Lighting information control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lighting information control system that can reduce labor when a user obtains information on a lighting apparatus.SOLUTION: A lighting information control system 1 comprises: an upper-level control system 10 for controlling a plurality of lighting apparatuses 80; and the lighting apparatuses 80 having a communication function with the upper-level control system 10. Into a server 20 of the upper-level control system 10 is input guidance information including information on a fact that an electric lamp 86 is reaching the end of its life and information on the model number of the electric lamp 86. Based on the guidance information, the server 20 extracts product information on a compatible electric lamp from product information on plurality of electric lamps stored in the server 20 as reference information. Then, the server 20 generates presentation information based on the extracted product information and transmits the presentation information to a master 30. The master 30 displays the fact that the electric lamp 86 is reaching the end of its life, the location of the lighting apparatus 80, and the compatible electric lamp based on the presentation information.

Description

  The present invention relates to a host control system for controlling a lighting fixture and a lighting information control system including the lighting fixture having a communication function with the host control system.

As the above system, an illumination information control system described in Patent Document 1 is known.
In this lighting information control system, information on the life of the lamp is transmitted from the lighting fixture to the communication control center as guidance information on the lighting fixture. Thereby, the user of a communication control center can grasp | ascertain the information regarding the lifetime of an electric lamp.

JP 2003-68475 A

  When the above user determines that it is necessary to replace the lamp with a new one based on the notified information, the user searches the database for the lamp corresponding to the standard of the luminaire of the guidance information, and from the search results. It is necessary to select an appropriate electric light. In other words, the work of searching the database and selecting one piece of information from the search results are required between the time when the guidance information is acquired and the time when the lamp is actually replaced.

  As described above, according to the illumination information control system, since it takes time to obtain information desired by the user about the lighting fixture, there is still room for improvement in terms of convenience. In addition, it is thought that such a problem arises similarly when information other than the information regarding the lifetime of an electric lamp is notified as guidance information regarding a lighting fixture.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a lighting information control system that can reduce time and labor when a user acquires information on a lighting fixture.

Means for achieving the above object will be described below.
-The lighting information control system of this invention is the high-order control system which controls a lighting fixture, and the lighting information control system containing the said lighting fixture which has a communication function with this high-order control system, The guidance information containing the information regarding the said lighting fixture Is input to the host control system, and presentation information regarding the lighting fixture is generated based on the reference information corresponding to the lighting fixture and the guidance information in the host control system.

  -In this illumination information control system, it is preferable that the appliance main body corresponding to the specification of the appliance main body of the said lighting fixture is made into an applicable appliance main body, and the information regarding this compatible appliance main body is contained in the said presentation information.

-In this illumination information control system, it is preferable that the information corresponding to this lamp is included in the said presentation information by using the lamp corresponding to the lamp standard of the lighting fixture as a compatible lamp.
-In this lighting information control system, it is preferable that the ballast corresponding to the standard of the ballast of the said lighting fixture is made into a suitable ballast, and the information regarding this suitable ballast is included in the said presentation information.

-In this illumination information control system, it is preferable that the information regarding the lifetime of the lamp | ramp of the said lighting fixture is contained in the said guidance information.
-In this illumination information control system, it is preferable that the information regarding the elapsed years of the fixture main body of the said lighting fixture is contained in the said guidance information.

-In this illumination information control system, it is preferable that the information regarding the lifetime of the ballast of the said lighting fixture is contained in the said guidance information.
In this lighting information control system, it is preferable that the presentation information is generated when the reference information is updated.

In this lighting information control system, it is preferable that order information corresponding to the lighting fixture is generated based on the guidance information and the reference information.
-In this illumination information control system, it is preferable that the said presentation information is produced | generated based on the reference information corresponding to the said lighting fixture, the said guidance information, and narrowing-down information.

-In this lighting information control system, it is preferable that the user's request regarding the lighting fixture is set as the narrowing-down information.
-In this illumination information control system, it is preferable to include the display part which displays the said presentation information.

-In this illumination information control system, it is preferable that the said presentation information is transmitted to a portable terminal.
-In this illumination information control system, it is preferable that the said presentation information is transmitted to a terminal by visible light communication.

  In the lighting information control system, a plurality of the lighting fixtures are provided, the host control system individually controls the plurality of lighting fixtures, and a server in which the reference information is stored is provided in the host control system. A transmission interface that mediates transmission / reception of information between the server and the plurality of lighting fixtures, a communication method between the plurality of lighting fixtures and the transmission interface, and the server It is preferable that communication methods with the transmission interface are different from each other.

  In this lighting information control system, the transmission interface has a function of collecting a plurality of pieces of information received from each of the plurality of lighting fixtures into one piece of transmission information and transmitting the information to the upstream side, and one function received from the upstream side. Preferably, the transmission information is converted into a plurality of pieces of information for each of the plurality of lighting fixtures and transmitted to the corresponding lighting fixture.

  ADVANTAGE OF THE INVENTION According to this invention, the illumination information control system which can reduce the effort when a user acquires the information regarding a lighting fixture can be provided.

The schematic diagram which shows typically the whole structure about the illumination information control system of 1st Embodiment of this invention. The block diagram which shows the structure about the server of the illumination information control system of the embodiment. The block diagram which shows the structure about the master of the illumination information control system of the embodiment. The block diagram which shows the structure about the transmission interface of the illumination information control system of the embodiment. The block diagram which shows the structure about the lighting fixture of the illumination information control system of the embodiment. The sequence diagram which shows operation | movement of each component of the lighting information control system based on the execution about "exchange lamp presentation control" performed by the server of the lighting information control system of the embodiment. The sequence diagram which shows operation | movement of each component of the illumination information control system based on execution about "exchange ballast presentation control" performed by the server of the illumination information control system of the embodiment. The sequence diagram which shows operation | movement of each component of the illumination information control system based on execution about "exchange main body presentation control" performed by the server of the illumination information control system of the embodiment. The sequence diagram which shows operation | movement of each component of the illumination information control system based on execution about "the latest appliance presentation control" performed by the server of the illumination information control system of the embodiment. The sequence diagram which shows operation | movement of each component of the illumination information control system based on execution of "automatic order control" by a server about the illumination information control system of 2nd Embodiment of this invention. The sequence diagram which shows operation | movement of each component of the illumination information control system based on execution of "request reflection presentation control" by a server about the illumination information control system of 3rd Embodiment of this invention. The sequence diagram which shows operation | movement of each component of the illumination information control system based on execution of "portable presentation control" by a server about the illumination information control system of 4th Embodiment of this invention. The sequence diagram which shows operation | movement of each component of the illumination information control system based on execution of "visible light communication presentation control" by a server about the illumination information control system of 5th Embodiment of this invention. The sequence diagram which shows operation | movement of each component of the illumination information control system based on execution of "exchange lamp presentation control" by a server about the illumination information control system of 6th Embodiment of this invention.

(First embodiment)
In this embodiment, the example which actualized this invention is shown as the illumination information control system 1 which controls the information regarding a lighting fixture. The lighting information control system 1 includes lighting fixtures installed in each room of an office building, and is configured as a system that centrally monitors and controls these lighting fixtures.

With reference to FIG. 1, the structure of the illumination information control system 1 is demonstrated.
The lighting information control system 1 is provided with a plurality of lighting fixtures 80 and a plurality of lighting switches 90 as a plurality of equipment devices. In addition, a host control system 10 for individually controlling these equipment is provided.

  The host control system 10 is provided with a server 20, a master 30, and a transmission interface 40. In the control system of the illumination information control system 1, the server 20 corresponds to the highest-level device, and each device is sequentially connected to the downstream side. The transmission interface 40 is configured to include one host controller 50, a plurality of control controllers 60, and a plurality of transmission adapters 70.

  The server 20 manages and manages information related to the entire lighting information control system 1. In addition, at least one of product information on the fixture body of the lighting fixture, product information on the lamp, and product information on the ballast is stored as reference information DC.

  The master 30 has a browser function for monitoring the status of each equipment device, including various information including the operating status of each lighting fixture 80 and information indicating that the life of the lamps provided in each lighting fixture 80 is approaching. is doing.

  The controller 60 stores an address assigned to each lighting switch 90 and an address assigned to each lighting fixture 80 individually. The address of each lighting switch 90 and the address of each lighting fixture 80 are associated with each other.

  The transmission adapter 70 stores the address of the control controller 60, the address of the transmission controller 70, and the address of the lighting fixture 80 of each corresponding unit facility system.

  In the illumination information control system 1, a plurality of unit control groups U and a plurality of transmission groups A are provided. A plurality of unit control groups U are connected to the host controller 50 in parallel. A plurality of transmission groups A are connected to each controller 60 in parallel.

  The unit control group U includes one control controller 60, a plurality of transmission groups A corresponding to the control controller 60, and a plurality of lighting switches 90 corresponding to the control controller 60. The transmission group A includes one transmission adapter 70 and a plurality of lighting fixtures 80 corresponding to the transmission adapter 70.

The connection environment of each device will be described. Note that the communication method between the devices described below is an example, and the communication method between the devices can be changed to another communication method.
The master 30, the server 20, and the host controller 50 are connected to each other by a transmission line L1. In addition, signals are transmitted and received between the master 30 and the server 20 and the host controller 50 through serial communication based on the Ethernet (registered trademark) protocol.

  The host controller 50 and each control controller 60 are connected to each other by a transmission line L2. Further, signals are transmitted and received between the host controller 50 and each control controller 60 by serial communication based on the Ethernet (registered trademark) protocol.

  The controller 60 and each lighting switch 90 are connected to each other by a transmission line L3. Signals are transmitted and received between the control controller 60 and each lighting switch 90 by communication based on the NMAST (registered trademark) protocol.

  The controller 60 and each transmission adapter 70 are bus-connected by a transmission line L4. Further, signals are transmitted and received between the controller 60 and the transmission adapter 70 by digital modulation communication.

  The transmission adapter 70 and each lighting fixture 80 are mutually connected by the transmission line L5. Moreover, when the system of the some lighting fixture 80 connected in series by the transmission line L5 is set as a unit installation system, the several unit installation system is connected to the one transmission adapter 70 in parallel. Moreover, between the transmission adapter 70 and each lighting fixture 80, signal transmission / reception is performed by communication based on DALI (Digital AddDRL Sable Lighting Interface) standard.

  The configuration of the server 20 will be described with reference to FIG. In FIG. 2, the transmission interface 40 is described as “transmission I / F”. The same description is used in FIGS. 3, 5, and 6 to 14.

  The server 20 is provided with a processing unit 21, an upper communication unit 22, and a database 23. A master 30 and a transmission interface 40 are connected to the upper communication unit 22 via a transmission line L1. The database 23 stores reference information DC related to the lighting fixture 80, the electric lamp 86, the ballast 85, and the like shown in FIG.

  The processing unit 21 performs various controls based on the input signal. As an example of the control, there is a method in which the presentation information DP is generated by comparing the guide information DR regarding the lighting fixture 80 and the reference information DC, and the presentation information DP is transmitted to the master 30. The upper communication unit 22 transmits and receives signals between the transmission interface 40 and the master 30 by serial communication based on the Ethernet (registered trademark) protocol.

The configuration of the master 30 will be described with reference to FIG.
The master 30 is provided with a processing unit 31, a higher-level communication unit 32, and a display unit 33. The server 20 and the transmission interface 40 are connected to the upper communication unit 32 via the transmission line L1.

  The processing unit 31 performs various controls based on the input signal. As an example of the control, there are control for displaying various received information on the display unit 33 and control for generating various information for transmission to the lighting fixture 80 or the server 20. The upper communication unit 32 transmits and receives signals between the server 20 and the transmission interface 40 by serial communication based on the Ethernet (registered trademark) protocol.

  The configuration of the transmission interface 40 will be described with reference to FIG. The transmission interface 40 is provided with one host controller 50, a plurality of control controllers 60, and a plurality of transmission adapters 70, but only one control controller 60 and one transmission adapter 70 are shown in FIG. is doing.

  The transmission interface 40 includes a processing unit 41, a lower communication unit 42, and an upper communication unit 43. The processing unit 41 is configured to include all of the processing units provided in each of the host controller 50, the control controller 60, and the transmission adapter 70. The lower communication unit 42 includes the communication unit of the transmission adapter 70. The upper communication unit 43 is configured including the communication unit of the upper controller 50.

  The processing unit 41 performs various controls based on the input signal. Examples of the control include control for transmitting information transmitted from the lighting fixture 80 to the server 20 and the master 30, and control for transmitting information transmitted from the server 20 and the master 30 to the lighting fixture 80.

  The lower communication unit 42 transmits and receives signals to and from the lighting fixture 80 by communication based on the DALI standard. The upper communication unit 43 transmits and receives signals to and from the server 20 or the master 30 by serial communication based on the Ethernet (registered trademark) protocol.

  With reference to FIG. 1, the structure of the control controller 60 and the transmission adapter 70 is demonstrated. The relationship between the control controller 60 and the transmission adapter 70 described here is common to all the transmission adapters 70 connected to one control controller 60.

  Between the control controller 60 and the transmission adapter 70, information transmitted from the control controller 60 to the lighting fixture 80 of each unit facility system via the transmission adapter 70 is included in one transmission information DB. Further, information transmitted from the lighting fixture 80 of each unit facility system to the control controller 60 via the transmission adapter 70 is included in one transmission information DB.

  Each time a predetermined reception period elapses, the transmission adapter 70 generates one transmission information DB including information on each unit facility system received in the reception period, and transmits this transmission information DB to the control controller 60. . Further, when the transmission information DB from the control controller 60 is received, information destined for each lighting fixture 80 included in the transmission information DB is extracted and this information is transmitted to each corresponding lighting fixture 80.

With reference to FIG. 5, the structure of the lighting fixture 80 is demonstrated.
The lighting fixture 80 is provided with a fixture main body 81 attached to a building and an electric lamp 86 attached to the fixture main body 81. The instrument main body 81 is provided with a processing unit 82, a lower communication unit 83, and a lighting circuit unit 84.

  The processing unit 82 performs various controls based on the input signal. As an example of the control, information that indicates a lighting state and an operation state of the lighting fixture 80 is generated, and this information is transmitted to the transmission adapter 70. The processing unit 82 stores the model number of the fixture body 81 of the lighting fixture 80, the model number of the ballast 85, and the model number of the electric lamp 86.

  The electric lamp 86 includes a fluorescent electric lamp. The lighting circuit unit 84 includes a ballast 85 that lights the electric lamp 86. The lower communication unit 83 transmits and receives signals to and from the transmission adapter 70 by communication based on the DALI standard.

The following (A) and (B) are shown as examples of various controls performed by the processing unit 82.
(A) The processing unit 82 integrates the lighting time of the electric lamp 86 of the lighting fixture 80. The lower-order communication unit 83 indicates that the lamp 86 has the end of life when the accumulated lighting time exceeds a predetermined determination time set for the lamp 86 (hereinafter, “lamp determination time TL”). The life information DRL is transmitted to the master 30. The master 30 displays the lamp life information DRL transmitted from the lighting fixture 80. Thus, the lamp life information DRL is provided to users such as office building managers.

  The lamp determination time TL is set according to the lifetime of each lamp model number. When the user replaces the lamp 86 with the new lamp 86 from the old lamp 86, the user inputs the model number of the new lamp 86 into the master 30. Thereby, the model number of the new lamp 86 and the lamp determination time TL are set to the corresponding lighting fixture 80 via the master 30.

  The accumulated lighting time is updated as follows. That is, when the lamp 86 is replaced from the old lamp 86 to the new lamp 86, the accumulated lighting time for the old lamp 86 is stored in the processing unit 82 as the past accumulated lighting time. In addition, when the accumulated lighting time is initialized, the counting of the accumulated lighting time for the new lamp 86 is started from “0”. The past accumulated lighting time is sequentially accumulated for each lamp 86 every time the lamp 86 is replaced.

  (B) The processing unit 82 calculates the ballast integrated lighting time by adding all of the cumulative lighting time of the lamp 86 and the past cumulative lighting time accumulated up to the present after the previous replacement of the ballast 85. . When the ballast integrated lighting time exceeds a predetermined determination time set for the ballast 85 (hereinafter referred to as “ballast determination time TB”), the lower-level communication unit 83 indicates that the life of the ballast 85 is at the end. Ballast life information DRB is transmitted to the master 30. The master 30 displays the ballast life information DRB transmitted from the lighting fixture 80. Thereby, the ballast life information DRB is provided to the user.

  The ballast determination time TB is set according to the life for each model number of the ballast. When the user exchanges the ballast 85 from the old ballast 85 to the new ballast 85, the user inputs the model number of the new ballast 85 to the master 30. Thereby, the model number of the new ballast 85 and the ballast determination time TB are set in the corresponding lighting fixture 80 via the master 30.

With reference to FIG. 1, the control etc. regarding the lighting fixture 80 are demonstrated.
As the lighting switch 90, a switch for switching the lighting state of the lighting fixture 80 on or off is provided. The lighting switch 90 transmits monitoring information DM corresponding to the trigger input to the control controller 60 by communication based on the NMAST (registered trademark) protocol based on switching of the operation state of the switch as the trigger input.

  When the control controller 60 receives monitoring information DM as a trigger input from each lighting switch 90, the controller 60 generates individual lighting control information DL for lighting the lighting fixture 80 corresponding to the monitoring information DM, and this individual lighting control. The information DL is transmitted to the transmission adapter 70.

  The lighting fixture 80 that is the transmission destination of the individual lighting control information DL is set in advance to have a correspondence relationship with each lighting switch 90 that is the transmission source of the monitoring information DM. When a plurality of lighting fixtures 80 are associated with each lighting switch 90 that is the transmission source of the monitoring information DM, the processing unit 21 in FIG. 2 includes individual lighting control information DL addressed to each lighting fixture 80 1 One transmission information DB is generated. Then, this transmission information DB is transmitted to each transmission adapter 70.

  When the transmission adapter 70 receives the transmission information DB transmitted from the control controller 60, it is determined whether or not the address of the lighting fixture 80 connected to the downstream side of the transmission adapter 70 is included in the transmission information DB. judge. When it is determined that the address of the lighting fixture 80 is included, the individual lighting control information DL addressed to the lighting fixture 80 is extracted from the transmission information DB, and the individual lighting control information DL is transmitted to the corresponding lighting fixture 80.

  When the lighting fixture 80 receives the individual lighting control information DL transmitted from the transmission adapter 70 to the lighting fixture 80, the lighting fixture 80 controls the output of the lighting circuit unit 84 based on the individual lighting control information DL. That is, the lighting state of the lamp 86 is changed based on the individual lighting control information DL.

A series of flows related to the control of the lighting fixture 80 will be described.
When the lighting switch 90 is switched from OFF to ON, or when the lighting switch 90 is switched from ON to OFF, the monitoring information DM is transmitted from the lighting switch 90 to the control controller 60. Then, after the individual lighting control information DL is generated in the control controller 60, the transmission information DB including the individual lighting control information DL is transmitted from the control controller 60 to the transmission adapter 70.

  Next, after the individual lighting control information DL is extracted from the transmission information DB in the transmission adapter 70, the individual lighting control information DL is transmitted from the transmission adapter 70 to the lighting fixture 80. And when the lighting fixture 80 receives this separate lighting control information DL, the lighting fixture 80 operate | moves corresponding to the individual lighting control information DL. That is, when the monitoring information DM and the individual lighting control information DL are information based on the operation of turning off the lighting switch 90, the lamp 86 is turned on. In addition, when the monitoring information DM and the individual lighting control information DL are information based on the operation of turning on or off the lighting switch 90, the lamp 86 is turned off.

The content of presentation control is demonstrated with reference to FIGS.
The server 20 performs each of the following presentation controls (A) to (D) according to the content of the information related to the lighting fixture 80 received from the lighting fixture 80 (hereinafter, “guidance information DR”).
(A) “Exchange lamp presentation control (FIG. 6)”.
(B) “Exchange ballast presentation control (FIG. 7)”.
(C) “Exchange body presentation control (FIG. 8)”.
(D) “Latest appliance presentation control (FIG. 9)”.

  The “replacement lamp presentation control” is for providing information to the user by the master 30 regarding the lamp (hereinafter referred to as “compatible lamp”) corresponding to the standard of the lamp 86 for which the lifetime has been detected when the lifetime of the lamp 86 is detected. This is done as a control.

  “Exchange ballast presentation control” is to provide the user with information regarding the ballast 85 corresponding to the standard of the ballast 85 from which the life has been detected (hereinafter referred to as “conforming ballast”) to the user when the life of the ballast 85 is detected. This is done as a control.

  “Replacement body presentation control” masters information related to the instrument body 81 and the corresponding instrument body (hereinafter referred to as “compatible instrument body”) when a predetermined period or more has elapsed since the instrument body 81 was installed. This is performed as a control to be provided to the user.

  “Latest appliance presentation control” is performed as control for providing the user with information on the main body of the compatible appliance by the master 30 when the reference information DC stored in the server 20 is updated.

  With reference to FIG. 6, the flow of “exchange lamp presentation control” will be described. The lamp life information DRL used in this control corresponds to “guidance information”. The lamp presentation information DPL corresponds to “presentation information”.

  The lighting fixture 80 performs the determination which confirms the lifetime of the own lamp 86 for every predetermined period. And when it determines with the lifetime of the lamp | ramp 86 being the end stage, the model number of the lamp | ramp 86 and the address of the lighting fixture 80 are acquired from the memory | storage part of the process part 82 of FIG. Then, the lamp life information DRL including the fact that the life of the lamp 86 is at the end, the model number of the lamp 86 and the address of the lighting fixture 80 is generated, and the lamp life information DRL is transmitted to the transmission interface 40.

  When the transmission interface 40 receives the lamp life information DRL from the lighting fixture 80, the transmission interface 40 transmits the lamp life information DRL to the server 20 and the master 30. In addition, when the lamp life information DRL is received from the plurality of lighting fixtures 80, the plurality of lamp life information DRL is collectively transmitted in one transmission information DB.

  When the server 20 receives the lamp life information DRL from the transmission interface 40, the server 20 searches the database 23 in FIG. 2 for a compatible lamp of the lighting fixture 80 based on the model number of the lamp 86 included in the lamp life information DRL. That is, the product information of the compatible lamp is extracted from the product information of the plurality of lamps stored as the reference information DC in the database 23. Then, the electric lamp presentation information DPL is generated based on the extracted product information, and the electric lamp presentation information DPL is transmitted to the master 30.

  When the master 30 receives the lamp life information DRL from the transmission interface 40, the master 30 displays information based on the lamp life information DRL on the display unit 33 in FIG. That is, as information based on the lamp life information DRL, the fact that the lamp 86 has reached its end of life and the location of the lighting fixture 80 are displayed.

  When the master 30 receives the lamp presentation information DPL from the server 20, the master 30 displays information based on the lamp presentation information DPL on the display unit 33 in FIG. That is, the product information of the compatible lamp is displayed as information based on the lamp presentation information DPL.

  With reference to FIG. 7, the flow of “exchange ballast presentation control” will be described. The ballast life information DRB used in this control corresponds to “guidance information”. The ballast presentation information DPB corresponds to “presentation information”.

  The master 30 generates ballast request information DSB for inquiring the lifetime of the ballast 85 of the lighting fixture 80 at predetermined intervals, and transmits this ballast request information DSB to the transmission interface 40.

  When receiving the ballast request information DSB from the master 30, the transmission interface 40 transmits the ballast request information DSB to the lighting fixture 80. In addition, when the ballast request information DSB about the some lighting fixture 80 is contained in one transmission information DB, each ballast request information DSB is transmitted for every lighting fixture 80. FIG.

  When the lighting fixture 80 receives the ballast request information DSB from the transmission interface 40, the lighting fixture 80 determines whether or not the lifetime of the ballast 85 is at the end. And when it determines with the lifetime of the ballast 85 being the last stage, the model number and the lighting fixture 80 of the ballast 85 are acquired from the memory | storage part of the process part 82 of FIG. Then, the ballast life information DRB including the ballast 85 end of life, the model number of the ballast 85 and the address of the lighting fixture 80 is generated, and the ballast life information DRB is transmitted to the transmission interface 40.

  When receiving the ballast life information DRB from the lighting fixture 80, the transmission interface 40 transmits the ballast life information DRB to the master 30. When ballast life information DRB is received from a plurality of lighting fixtures 80, the plurality of ballast life information DRBs are collectively transmitted in one transmission information DB.

  When the master 30 receives the ballast life information DRB from the transmission interface 40, the master 30 displays information based on the ballast life information DRB on the display unit 33 in FIG. That is, as information based on the lamp life information DRL, the fact that the life of the ballast 85 is in the last stage and the location of the lighting fixture 80 having the ballast 85 are displayed. In addition, the master 30 transmits the ballast life information DRB to the server 20.

  When the server 20 receives the ballast life information DRB from the master 30, the server 20 searches the database 23 in FIG. 2 for a suitable ballast of the lighting fixture 80 based on the model number of the ballast 85 included in the ballast life information DRB. That is, the product information of the compatible ballast is extracted from the product information of the plurality of ballasts stored as the reference information DC in the database 23. And ballast presentation information DPB is produced | generated based on the extracted product information, and this ballast presentation information DPB is transmitted to the master 30. FIG.

  When the master 30 receives the ballast presentation information DPB from the server 20, the master 30 displays information based on the ballast presentation information DPB on the display unit 33 in FIG. That is, the product information of the compatible ballast is displayed as information based on the ballast presentation information DPB.

  With reference to FIG. 8, the flow of “exchange body presentation control” will be described. The appliance information DRR used in this control corresponds to “guidance information”. The appliance presentation information DPR corresponds to “presentation information”.

  The master 30 generates manufacturing year request information DSR for inquiring the manufacturing year of the fixture main body 81 of the lighting fixture 80 at predetermined intervals, and transmits the manufacturing year request information DSR to the transmission interface 40.

  When receiving the manufacturing year request information DSR from the master 30, the transmission interface 40 transmits the manufacturing year request information DSR to the lighting fixture 80. When manufacturing year request information DSR for a plurality of lighting fixtures 80 is included in one transmission information DB, each manufacturing year request information DSR is transmitted for each lighting fixture 80.

  When the lighting fixture 80 receives the manufacturing year request information DSR from the transmission interface 40, the lighting fixture 80 acquires the model number of the fixture main body 81 including information on the manufacturing year of the fixture main body 81 from the storage unit of the processing unit 82 in FIG. Then, appliance information DRR including the model number of the appliance body 81 and the address of the lighting fixture 80 is generated, and the appliance information DRR is transmitted to the transmission interface 40.

  When receiving the appliance information DRR from the lighting fixture 80, the transmission interface 40 transmits the appliance information DRR to the master 30. In addition, when the fixture information DRR is received from the plurality of lighting fixtures 80, the plurality of fixture information DRRs are collectively transmitted in one transmission information DB.

  When the master 30 receives the instrument information DRR from the transmission interface 40, the master 30 has a predetermined number of years since the manufacture year of the instrument body 81 based on the manufacture year information of the instrument body 81 included in the instrument information DRR ( Hereinafter, it is determined whether or not “main body determination year TR”) is exceeded. And when it determines with the elapsed years exceeding the main body determination years TR, the information based on the instrument information DRR will be displayed on the display part 33 of FIG. That is, as information based on the appliance information DRR, the number of years since the manufacture year of the appliance main body 81 and the location of the lighting fixture 80 having the appliance main body 81 are displayed.

  When the master 30 determines that the elapsed year exceeds the main body determination year TR, the master 30 transmits appliance information DRR to the server 20. The main body determination year TR is set based on the service life of each instrument main body 81.

  When the server 20 receives the appliance information DRR from the master 30, the server 20 searches the database 23 of FIG. 2 for a compatible appliance body of the lighting fixture 80 based on the model number of the appliance body 81 included in the appliance information DRR. That is, the product information of the compatible instrument body is extracted from the product information of the plurality of instrument bodies stored as the reference information DC in the database 23. Then, appliance presentation information DPR is generated based on the extracted product information, and the appliance presentation information DPR is transmitted to the master 30.

  When the master 30 receives the appliance presentation information DPR from the server 20, the master 30 displays information based on the appliance presentation information DPR on the display unit 33 in FIG. That is, the product information of the compatible instrument body is displayed as information based on the instrument presentation information DPR.

  With reference to FIG. 9, the flow of “latest appliance presentation control” will be described. The model number information DRN used in this control corresponds to “guidance information”. The new product presentation information DPN corresponds to “presentation information”.

  When the server 20 receives new product information of the fixture body of the lighting fixture from a device external to the lighting information control system 1, the server 20 adds this new product information to the reference information DC of the database 23. Then, update information DN indicating that the reference information DC has been updated is generated, and the update information DN is transmitted to the master 30.

  When receiving update information DN from the server 20, the master 30 generates model number request information DSN requesting the model number of the instrument body 81 based on the update information DN, and transmits the model number request information DSN to the transmission interface 40. .

  When receiving the model number request information DSN from the master 30, the transmission interface 40 transmits the model number request information DSN to the lighting fixture 80. When one transmission information DB includes model number request information DSN for a plurality of lighting fixtures 80, the model number requesting information DSN is transmitted for each lighting fixture 80.

  When the lighting fixture 80 receives the model number request information DSN from the transmission interface 40, the lighting fixture 80 acquires the model number of the fixture main body 81 and the address of the lighting fixture 80 from the storage unit in the processing unit 82. Then, the model number information DRN including the model number of the fixture body 81 and the address of the lighting fixture 80 is generated, and the model number information DRN is transmitted to the transmission interface 40.

  When the transmission interface 40 receives the model number information DRN from the lighting fixture 80, the transmission interface 40 transmits the model number information DRN to the master 30. In addition, when the model number information DRN is received from the plurality of lighting fixtures 80, the plurality of model number information DRN is collectively transmitted in one transmission information DB.

  When the master 30 receives the model number information DRN from the transmission interface 40, the master 30 generates new product confirmation information DST including the model number of the instrument body 81 based on the model number information DRN, and transmits the new product confirmation information DST to the server 20. To do.

  When the server 20 receives the new product confirmation information DST from the master 30, the server 20 searches the database 23 for a compatible instrument body of the lighting apparatus 80 based on the model number of the instrument body 81 included in the new product confirmation information DST. That is, the new product information of the compatible instrument body is extracted from the new product information of the plurality of instrument bodies stored as the reference information DC in the database 23. Then, new product presentation information DPN is generated based on the extracted new product information, and the new product presentation information DPN is transmitted to the master 30.

  When the master 30 receives the new product presentation information DPN from the server 20, the master 30 displays information based on the new product presentation information DPN on the display unit 33 in FIG. That is, as the information based on the new product presentation information DPN, the location of the corresponding lighting fixture 80 and the new product information are displayed in association with each other.

(Effect of embodiment)
According to the illumination information control system 1 of the present embodiment, the following effects can be obtained.
(1) In the lighting information control system 1, guidance information DR including information related to the lighting fixture 80 is input to the host control system 10. In the host control system 10, presentation information DP regarding the lighting fixture 80 is generated based on the reference information DC and the guidance information DR corresponding to the lighting fixture 80. As control for generating the presentation information DP, the following “exchange lamp presentation control”, “exchange ballast presentation control”, “exchange body presentation control”, and “latest appliance presentation control” are performed.

  In the “replacement lamp presentation control”, each piece of information is displayed by displaying that the life of the lamp 86 of the lighting fixture 80 is at the end and displaying the product information of the compatible lamp of the lighting fixture 80 on the display unit 33 of the master 30. Provide to users.

  In the “exchange ballast presentation control”, each piece of information is displayed by displaying on the display unit 33 of the master 30 that the life of the ballast 85 of the lighting fixture 80 is at the end of life and displaying the product information of the compatible ballast of the lighting fixture 80. Provide to users.

  In the “replacement body presentation control”, the fact that a long period has passed since the manufacturing year of the fixture body 81 of the lighting fixture 80 and the product information of the compatible fixture body of the lighting fixture 80 are displayed on the display unit 33 of the master 30. To provide each user with information.

  In the “latest appliance presentation control”, each product information is provided to the user by displaying that the new product information of the compatible fixture body of the lighting fixture 80 has been added and displaying this new product information on the display unit 33 of the master 30. To do.

  Thus, according to the lighting information control system 1, since the presentation information DP regarding the lighting fixture 80 is provided to the user, the user can retrieve these information without searching for information about the matching lamp, the matching ballast, and the matching fixture body. I can grasp it. That is, it is possible to reduce time and labor when the user acquires information related to the lighting fixture 80.

  (2) In the illumination information control system 1, the presentation information DP is displayed on the display unit 33 of the master 30. For this reason, the user can grasp | ascertain presentation information DP easily by confirming the display part 33 of the master 30. FIG.

  (3) In the lighting information control system 1, a transmission interface 40 that mediates transmission / reception of information between the server 20 and the lighting fixture 80 is provided. According to this configuration, signals can be transmitted and received between the luminaire 80 and the server 20 having different communication methods, that is, standards for signals to be transmitted and received.

  (4) In the illumination information control system 1, a transmission adapter 70 having the following functions is provided. That is, the transmission adapter 70 has a function of collecting information transmitted from each of the plurality of lighting fixtures 80 into one transmission information DB and transmitting the information to the upstream side. Moreover, it has the function to transmit transmission information DB which put together the information with respect to each of the some lighting fixture 80 received from the upstream to the some lighting fixture 80. FIG.

  According to this configuration, since the information of the plurality of lighting fixtures 80 directly connected to the transmission adapter 70 is aggregated, the amount of information transmitted between the lighting fixture 80 and the server 20 or the control controller 60 is increased. Can be suppressed.

  (5) In the lighting information control system 1, the host controller 50 that centrally manages the plurality of lighting fixtures 80 is provided in the host control system 10. According to this configuration, the operating states of the plurality of lighting fixtures 80 can be grasped collectively.

  (6) In the illumination information control system 1, a plurality of unit control groups U are provided. In addition, control controllers 60 of a plurality of unit control groups U are connected in parallel to the upper controller 50.

  According to this configuration, the storage capacity of one control controller 60 can be reduced as compared with the configuration in which only one control controller 60 is provided and all the lighting fixtures 80 are connected to the controller 50.

  (7) In the lighting information control system 1, each lighting fixture 80 which has a communication function, and the control controller 60 which has a function which transmits / receives information between each lighting fixture 80 are provided.

  According to this configuration, since the luminaire 80 itself has a communication function, an apparatus (for example, a device having a communication function separately from the luminaire 80 for controlling the lighting state of the luminaire 80 and monitoring the operation state) (for example, There is no need to provide a relay control terminal. In addition, in the configuration in which the relay control terminal is provided, since wiring between the remote control relay arranged in the distribution board and the lighting fixture 80 is necessary, the grouping of the lighting fixtures 80 is changed according to the layout change. When it is done, the wiring needs to be changed. According to the above configuration of the present embodiment, the relay control terminal is not required, so that the grouping of the lighting fixtures 80 can be easily changed.

(Second Embodiment)
The illumination information control system 1 of the present embodiment is configured as a part of the illumination information control system 1 of the first embodiment shown in FIG. 1 changed as follows. That is, in the illumination information control system 1 of the present embodiment, “automatic order control” is performed instead of “exchange lamp presentation control” which is one of the presentation controls of the first embodiment. In addition, an order server of a lighting equipment vendor outside the system and the server 20 are connected to each other by a transmission line L1.

  In addition, in the illumination information control system 1 of the present embodiment, the same configuration as that of the first embodiment is adopted except for the above-described change point and the configuration related to this change. A part or all of the description is omitted as appropriate.

  The server 20 of FIG. 1 performs each of the presentation controls (B) to (D) of the first embodiment and “automatic order control” shown in FIG. 10 according to the content of the guide information DR received from the lighting fixture 80. Do.

  The “automatic order control” is performed as a control for confirming the stock of the lamp 86 when the life of the lamp 86 is detected and generating order information of the lamp 86 to an external order receiving server based on the result.

  The server 20 stores, as reference information DC, information obtained by associating product information of the lamp 86 with the number of products in stock. The user can update the number of products stored in the server 20 by operating the master 30.

  The flow of “automatic order control” will be described with reference to FIG. The lamp life information DRL used in this control corresponds to “guidance information”. The inventory presentation information DPS corresponds to “presentation information”.

  The lighting fixture 80 performs the determination which confirms the lifetime of the own lamp 86 for every predetermined period. And when it determines with the lifetime of the lamp | ramp 86 being the end stage, the model number of the lamp | ramp 86 and the address of the lighting fixture 80 are acquired from the memory | storage part of the process part 82 of FIG. Then, the lamp life information DRL including the fact that the life of the lamp 86 is at the end, the model number of the lamp 86 and the address of the lighting fixture 80 is generated, and the lamp life information DRL is transmitted to the transmission interface 40.

  When the transmission interface 40 receives the lamp life information DRL from the lighting fixture 80, the transmission interface 40 transmits the lamp life information DRL to the master 30. In addition, when the lamp life information DRL is received from the plurality of lighting fixtures 80, the plurality of lamp life information DRL is collectively transmitted in one transmission information DB.

  When the master 30 receives the lamp life information DRL from the transmission interface 40, the master 30 displays information based on the lamp life information DRL on the display unit 33 in FIG. That is, as information based on the lamp life information DRL, the fact that the lamp 86 has reached its end of life and the location of the lighting fixture 80 are displayed.

When the master 30 receives the lamp life information DRL from the transmission interface 40, the master 30 transmits the lamp life information DRL to the server 20.
When the server 20 receives the lamp life information DRL from the master 30, the server 20 searches the database 23 of FIG. 2 for the lamp 86 having the same model number based on the model number of the lamp 86 included in the lamp life information DRL. That is, product information of the same model number as the lamp 86 is extracted from the product information of the plurality of lamps stored as the reference information DC in the database 23. Further, when the product information of the same model number as the lamp 86 is not included in the reference information DC, for example, when the lamp of the same model number as the lamp 86 is a disused number, the product information of the compatible lamp is extracted. Then, the stock presentation information DPS is generated based on the number of stocks associated with the extracted product information, and the stock presentation information DPS is transmitted to the master 30.

  In addition, when the lamp 86 is included in the reference information DC, the server 20 orders the lamp 86 from an external order receiving server when the inventory number of both the lamp of the same model number as the lamp 86 and the compatible lamp is “0”. Order information DG is generated, and the order information DG is transmitted to an external order receiving server.

  When the master 30 receives the inventory presentation information DPS from the server 20, the master 30 displays information based on the inventory presentation information DPS on the display unit 33 in FIG. That is, as the information based on the inventory presentation information DPS, the number of stocks of the lamp 86 or the compatible lamp is displayed.

(Effect of embodiment)
According to the illumination information control system of the present embodiment, the following effects can be obtained in addition to the effects (1) to (7) of the first embodiment.

  (8) In the illumination information control system 1, order information DG corresponding to the lamp 86 is generated based on the lamp life information DRL and the reference information DC. According to this configuration, it is possible to reduce the trouble for the user to check the stock of electric lights and the trouble of placing an order for electric lights.

(Third embodiment)
The illumination information control system 1 of the present embodiment is configured as a part of the illumination information control system 1 of the first embodiment shown in FIG. 1 changed as follows. That is, in the illumination information control system 1 of the present embodiment, “request reflection presentation control” is performed instead of “exchange lamp presentation control” which is one of the presentation controls of the first embodiment.

  In addition, in the illumination information control system 1 of the present embodiment, the same configuration as that of the first embodiment is adopted except for the above-described change point and the configuration related to this change. A part or all of the description is omitted as appropriate.

  The server 20 of FIG. 1 performs each presentation control of (B)-(D) of 1st Embodiment according to the content of the guidance information DR received from the lighting fixture 80, and "request reflection presentation control" shown in FIG. To do.

  The “request reflection presentation control” is performed as control for narrowing down information related to the compatible lamp based on the user's request registered in advance when the life of the lamp 86 is detected, and providing the result to the user by the master 30. It is.

  The master 30 stores a replacement target lamp (hereinafter, “squeezed information DD”) as a user's request. The user can update the narrow-down information DD stored in the master 30 by operating the master 30.

  The flow of “request reflection presentation control” will be described with reference to FIG. The lamp life information DRL used in this control corresponds to “guidance information”. The reflected presentation information DPD corresponds to “presentation information”.

  The master 30 stores the narrowed-down information DD when an operation for registering or updating the narrowed-down information DD is performed by the user. The user can set the narrowing information DD for each lighting fixture 80. Moreover, the wattage of the lamp, the color temperature of the lamp, and the manufacturer of the lamp can be registered as the narrowing down information DD.

  The lighting fixture 80 performs the determination which confirms the lifetime of the own lamp 86 for every predetermined period. And when it determines with the lifetime of the lamp | ramp 86 being the end stage, the model number of the lamp | ramp 86 and the address of the lighting fixture 80 are acquired from the memory | storage part of the process part 82 of FIG. Then, the lamp life information DRL including the fact that the life of the lamp 86 is at the end, the model number of the lamp 86 and the address of the lighting fixture 80 is generated, and the lamp life information DRL is transmitted to the transmission interface 40.

  When the transmission interface 40 receives the lamp life information DRL from the lighting fixture 80, the transmission interface 40 transmits the lamp life information DRL to the master 30. In addition, when the lamp life information DRL is received from the plurality of lighting fixtures 80, the plurality of lamp life information DRL is collectively transmitted in one transmission information DB.

  When the master 30 receives the lamp life information DRL from the transmission interface 40, the master 30 displays information based on the lamp life information DRL on the display unit 33 in FIG. That is, as information based on the lamp life information DRL, the fact that the lamp 86 has reached its end of life and the location of the lighting fixture 80 are displayed.

  Further, when the master 30 receives the lamp life information DRL from the transmission interface 40, the master 30 reads the narrowing information DD of the corresponding lighting fixture 80, and reflects the model number of the lamp 86, the address of the lighting fixture 80, and the narrowing information DD. Confirmation information DSD is generated. Then, the reflection confirmation information DSD is transmitted to the server 20.

  When the server 20 receives the reflection confirmation information DSD from the master 30, based on the model number of the lamp 86 and the narrowing down information DD included in the reflection confirmation information DSD, the server 20 selects the compatible lamp of the lighting fixture 80 in the database 23 of FIG. Search from. That is, the product information of the compatible lamp that satisfies the condition of the narrowing-down information DD is extracted from the product information of the plurality of lamps stored as the reference information DC in the database 23. If there is no compatible lamp that satisfies the condition of the narrowing information DD, product information of the compatible lamp that does not satisfy the narrowing information DD is extracted. Then, the reflection presentation information DPD is generated based on the extracted product information, and the reflection presentation information DPD is transmitted to the master 30.

  When the master 30 receives the reflected presentation information DPD from the server 20, the master 30 displays information based on the reflected presentation information DPD on the display unit 33 in FIG. That is, when the product information of the compatible lamp that satisfies the condition of the narrowing down information DD is extracted as the information based on the reflected presentation information DPD, only the product information of the compatible lamp is displayed. Further, when the product information of the compatible lamp that satisfies the condition of the narrowing information DD is not extracted, it is displayed together with the product information of the compatible lamp that the condition of the narrowing information DD is not satisfied.

(Effect of embodiment)
According to the illumination information control system of the present embodiment, the following effects can be obtained in addition to the effects (1) to (7) of the first embodiment.

  (9) In the illumination information control system 1, the presentation information DP is generated based on the reference information DC, the guidance information DR, and the narrowed down information DD. According to this configuration, when the product information of the compatible lamp that satisfies the condition of the narrowing down information DD is extracted, only the product information is displayed on the display unit 33, so that the user can easily obtain the information on the desired compatible lamp. I can figure it out.

(Fourth embodiment)
The illumination information control system 1 of the present embodiment is configured as a part of the illumination information control system 1 of the first embodiment shown in FIG. 1 changed as follows. That is, the lighting information control system 1 of the present embodiment is provided with a portable terminal 100 that performs wireless communication with the server 20. In addition, “portable presentation control” is performed instead of “exchange lamp presentation control” which is one of the presentation controls of the first embodiment.

  In addition, in the illumination information control system 1 of the present embodiment, the same configuration as that of the first embodiment is adopted except for the above-described change point and the configuration related to this change. A part or all of the description is omitted as appropriate.

  The server 20 of FIG. 1 performs each presentation control of (B) to (D) of the first embodiment and “portable presentation control” shown in FIG. 12 according to the content of the guidance information DR received from the lighting fixture 80. Do.

  The “portable presentation control” is performed as control for providing the user with information regarding the compatible lamp by the portable terminal 100 of FIG. 1 when the life of the lamp 86 is detected. Note that the mobile terminal 100 is provided with a communication unit that receives information from the server 20 and a display unit that displays information received from the server 20 (none of which is shown).

  The flow of “mobile presentation control” will be described with reference to FIG. The lamp life information DRL used in this control corresponds to “guidance information”. The reflected presentation information DPD corresponds to “presentation information”.

  The lighting fixture 80 performs the determination which confirms the lifetime of the own lamp 86 for every predetermined period. And when it determines with the lifetime of the lamp | ramp 86 being the end stage, the model number of the lamp | ramp 86 and the address of the lighting fixture 80 are acquired from the memory | storage part of the process part 82 of FIG. Then, the lamp life information DRL including the fact that the life of the lamp 86 is at the end, the model number of the lamp 86 and the address of the lighting fixture 80 is generated, and the lamp life information DRL is transmitted to the transmission interface 40.

  When the transmission interface 40 receives the lamp life information DRL from the lighting fixture 80, the transmission interface 40 transmits the lamp life information DRL to the server 20 and the portable terminal 100. In addition, when the lamp life information DRL is received from the plurality of lighting fixtures 80, the plurality of lamp life information DRL is collectively transmitted in one transmission information DB.

  When the server 20 receives the lamp life information DRL from the transmission interface 40, the server 20 searches the database 23 in FIG. 2 for a compatible lamp of the lighting fixture 80 based on the model number of the lamp 86 included in the lamp life information DRL. That is, the product information of the compatible lamp is extracted from the product information of the plurality of lamps stored as the reference information DC in the database 23. And the electric light presentation information DPL is produced | generated based on the extracted product information, and this electric light presentation information DPL is transmitted to the portable terminal 100.

  When the portable terminal 100 receives the lamp life information DRL from the transmission interface 40, the portable terminal 100 displays information based on the lamp life information DRL on the display unit of the portable terminal 100. That is, as information based on the lamp life information DRL, the fact that the lamp 86 has reached its end of life and the location of the lighting fixture 80 are displayed.

  Further, when the portable terminal 100 receives the lamp presentation information DPL from the server 20, the portable terminal 100 displays information based on the lamp presentation information DPL on the display unit of the portable terminal 100. That is, the product information of the compatible lamp is displayed as information based on the lamp presentation information DPL.

(Effect of embodiment)
According to the illumination information control system of the present embodiment, the following effects can be obtained in addition to the effects (1) to (7) of the first embodiment.

  (10) In the illumination information control system 1, the presentation information DP is transmitted to the mobile terminal 100. According to this configuration, the user can check the presentation information DP with the portable terminal 100 at a location away from the master 30.

(Fifth embodiment)
The illumination information control system 1 of the present embodiment is configured as a part of the illumination information control system 1 of the first embodiment shown in FIG. 1 changed as follows. That is, the illumination information control system 1 according to the present embodiment is provided with a luminaire 80 that performs visible light communication. Moreover, the portable terminal 200 which receives the information transmitted as visible light from the lighting fixture 80 is provided. Moreover, what uses a light emitting diode as a light source as the electric lamp 86 of the lighting fixture 80 is provided. Further, “visible light communication presentation control” is performed instead of “exchange lamp presentation control” which is one of the presentation controls of the first embodiment.

  In addition, in the illumination information control system 1 of the present embodiment, the same configuration as that of the first embodiment is adopted except for the above-described change point and the configuration related to this change. A part or all of the description is omitted as appropriate.

  The server 20 in FIG. 1 performs each of the presentation controls (B) to (D) of the first embodiment according to the content of the guidance information DR received from the lighting fixture 80, and the “visible light communication presentation control” shown in FIG. To do.

  “Visible light communication presentation control” is performed as a control for providing the user with information related to the compatible light by the mobile terminal 200 of FIG. 1 when the life of the light 86 is detected. The mobile terminal 200 is provided with a communication unit that receives information from the lighting fixture 80 and a display unit that displays information received from the lighting fixture 80 (all not shown).

  The flow of “visible light communication presentation control” will be described with reference to FIG. The lamp life information DRL used in this control corresponds to “guidance information”. The reflected presentation information DPD corresponds to “presentation information”.

  The lighting fixture 80 performs the determination which confirms the lifetime of the own lamp 86 for every predetermined period. And when it determines with the lifetime of the lamp | ramp 86 being the end stage, the model number of the lamp | ramp 86 and the address of the lighting fixture 80 are acquired from the memory | storage part of the process part 82 of FIG. Then, the lamp life information DRL including the lamp 86's end of life, the lamp 86 model number, and the address of the lighting fixture 80 is generated, and the lamp life information DRL is transmitted to the transmission interface 40 and the portable terminal 200.

  When the transmission interface 40 receives the lamp life information DRL from the lighting fixture 80, the transmission interface 40 transmits the lamp life information DRL to the server 20. In addition, when the lamp life information DRL is received from the plurality of lighting fixtures 80, the plurality of lamp life information DRL is collectively transmitted in one transmission information DB.

  When the server 20 receives the lamp life information DRL from the transmission interface 40, the server 20 searches the database 23 in FIG. 2 for a compatible lamp of the lighting fixture 80 based on the model number of the lamp 86 included in the lamp life information DRL. That is, the product information of the compatible lamp is extracted from the product information of the plurality of lamps stored as the reference information DC in the database 23. Then, the electric lamp presentation information DPL is generated based on the extracted product information, and the electric lamp presentation information DPL is transmitted to the transmission interface 40.

  When the transmission interface 40 receives the lamp presentation information DPL from the server 20, the transmission interface 40 transmits the lamp presentation information DPL to the lighting fixture 80. In addition, when the light presentation information DPL about the some lighting fixture 80 is contained in one transmission information DB, each lamp presentation information DPL is transmitted for every lighting fixture 80. FIG.

  When the lighting fixture 80 receives the lamp presentation information DPL from the transmission interface 40, the lighting fixture 80 includes the lamp presentation information DPL and emits visible light from a light emitting diode as the lamp 86.

  When the mobile terminal 200 receives visible light from the lighting fixture 80, the mobile terminal 200 displays information based on the lamp life information DRL included in the visible light on the display unit of the mobile terminal 200. That is, as information based on the lamp life information DRL, the fact that the lamp 86 has reached its end of life and the location of the lighting fixture 80 are displayed.

  Further, when the portable terminal 200 receives the lamp presentation information DPL from the lighting fixture 80, the portable terminal 200 displays information based on the lamp presentation information DPL on the display unit of the portable terminal 200. That is, the product information of the compatible lamp is displayed as information based on the lamp presentation information DPL.

(Effect of embodiment)
According to the illumination information control system of the present embodiment, the following effects can be obtained in addition to the effects (1) to (7) of the first embodiment.

  (11) In the illumination information control system 1, the presentation information DP is transmitted to the mobile terminal 200 by visible light communication. According to this configuration, the user can confirm the presentation information DP regarding the lighting fixture 80 with the portable terminal 200 when the portable terminal 200 is held and the user is active within the illumination range of the lighting fixture 80.

(Sixth embodiment)
The illumination information control system 1 of the present embodiment is configured as a modification of the “replacement lamp presentation control” of the illumination information control system 1 of the first embodiment shown in FIG. That is, in the lighting information control system 1 of the first embodiment, the lamp life information DRL is transmitted from the transmission interface 40 to each of the server 20 and the master 30. On the other hand, in the lighting information control system 1 of the present embodiment, the lamp life information DRL is transmitted in the order of the transmission interface 40, the master 30, and the server 20.

  In addition, in the illumination information control system 1 of the present embodiment, the same configuration as that of the first embodiment is adopted except for the above-described change point and the configuration related to this change. A part or all of the description is omitted as appropriate.

  The server 20 of FIG. 1 performs each presentation control of (B)-(D) of 1st Embodiment according to the content of the guidance information DR received from the lighting fixture 80, and "exchange lamp presentation control" shown by FIG. To do.

  The flow of “exchange lamp presentation control” will be described with reference to FIG. The lamp life information DRL used in this control corresponds to “guidance information”. The lamp presentation information DPL corresponds to “presentation information”.

  The lighting fixture 80 performs the determination which confirms the lifetime of the own lamp 86 for every predetermined period. And when it determines with the lifetime of the lamp | ramp 86 being the end stage, the model number of the lamp | ramp 86 and the address of the lighting fixture 80 are acquired from the memory | storage part of the process part 82 of FIG. Then, the lamp life information DRL including the fact that the life of the lamp 86 is at the end, the model number of the lamp 86 and the address of the lighting fixture 80 is generated, and the lamp life information DRL is transmitted to the transmission interface 40.

  When the transmission interface 40 receives the lamp life information DRL from the lighting fixture 80, the transmission interface 40 transmits the lamp life information DRL to the master 30. In addition, when the lamp life information DRL is received from the plurality of lighting fixtures 80, the plurality of lamp life information DRL is collectively transmitted in one transmission information DB.

  When the master 30 receives the lamp life information DRL from the transmission interface 40, the master 30 displays information based on the lamp life information DRL on the display unit 33 in FIG. That is, as information based on the lamp life information DRL, the fact that the lamp 86 has reached its end of life and the location of the lighting fixture 80 are displayed. Further, the lamp life information DRL is transmitted to the server 20.

  When the server 20 receives the lamp life information DRL from the master 30, the server 20 searches the database 23 of FIG. 2 for a compatible lamp of the lighting fixture 80 based on the model number of the lamp 86 included in the lamp life information DRL. That is, the product information of the compatible lamp is extracted from the product information of the plurality of lamps stored as the reference information DC in the database 23. Then, the electric lamp presentation information DPL is generated based on the extracted product information, and the electric lamp presentation information DPL is transmitted to the master 30.

  When the master 30 receives the lamp presentation information DPL from the server 20, the master 30 displays information based on the lamp presentation information DPL on the display unit 33 in FIG. That is, the product information of the compatible lamp is displayed as information based on the lamp presentation information DPL.

(Other embodiments)
Embodiments of the present invention are not limited to the above-described embodiments, and may be modified as shown below, for example. The following modifications are not applied only to the above embodiments, and different modifications can be combined with each other.

In the second embodiment (FIG. 10), the server 30 confirms the number of lamps 86 in stock based on the fact that the master 30 has received the lamp life information DRL, and based on the result, order information for the lamps 86 or compatible lamps. However, instead of or in addition to the order information, the next order information can be generated.
(A) Based on the fact that the master 30 has received the ballast life information DRB, the server 20 confirms the number of ballasts 85 in stock, and generates order information for the ballast 85 or conforming ballast based on the result.
(B) Based on the fact that the master 30 has received the instrument information DRR, the server 20 confirms the inventory quantity of the instrument main body 81, and generates order information for the instrument main body 81 or the compatible instrument main body based on the result.

-In 3rd Embodiment (FIG. 11), when the product information of the adapted lamp which satisfy | fills the narrowing-down information DD is extracted, only the product information of the adapted lamp is displayed on the display part 33, but a display part The display method of the product information on 33 can be changed as follows.
(A) The product information of the compatible lamp that satisfies the condition of the refinement information DD and the information that the condition of the refinement information DD is satisfied are displayed together.
(B) In the modification of the above (A), the product information of the compatible lamp that does not satisfy the condition of the narrowing information DD and the information that the condition of the narrowing information DD is not satisfied are displayed.

In the third embodiment (FIG. 11), the reflected presentation information DPD including the product information of the compatible lamp is generated. However, instead of or in addition to the product information of the compatible lamp, the reflected presentation information including the following information is included. A DPD can also be generated.
(A) The user's request regarding the ballast 85 is stored in advance as narrowing-down information DD. Then, based on the ballast life information DRB and the narrowing down information DD, the reflection presentation information DPD including the product information of the compatible ballast is generated.
(B) The user's request regarding the instrument body 81 is stored in advance as narrowing-down information DD. Then, based on the appliance information DRR and the narrowed down information DD, the reflection presentation information DPD including the product information of the compatible appliance main body is generated.
(C) The user's request regarding the instrument main body 81 is stored in advance as narrowing-down information DD. Then, based on the model number information DRN and the narrowing down information DD, the reflection presentation information DPD including the new product presentation information DPN is generated.

-In 4th Embodiment (FIG. 12), although the structure which performs radio | wireless communication between the server 20 and the portable terminal 100 is employ | adopted instead of or in addition to this structure, the following structure is also employable. .
(A) Wireless communication is performed between the master 30 and the portable terminal 100.
(B) Wireless communication is performed between the transmission interface 40 and the mobile terminal 100.
(C) Wireless communication is performed between the luminaire 80 and the portable terminal 100.

  -In 1st-4th embodiment (FIG. 5), although the thing comprised including the fluorescent lamp is used as the lamp | ramp 86 of the lighting fixture 80, the lamp | ramp 86 comprised including the light emitting diode may also be used. it can.

In the first to fifth embodiments (FIG. 6), the lamp presentation information DPL is generated based on the lamp life information DRL, but the next presentation information DP is generated instead of or in addition to the lamp presentation information DPL. You can also
(A) Based on the lamp life information DRL, the ballast presentation information DPB including the product information of the compatible ballast of the lighting fixture 80 is generated.
(B) Based on the lamp life information DRL, the appliance presentation information DPR including the product information of the compatible appliance body of the lighting fixture 80 is generated.

In the first to sixth embodiments (FIG. 7), the ballast presentation information DPB is generated based on the ballast life information DRB, but the next presentation information DP is generated instead of or in addition to the ballast presentation information DPB. You can also
(A) Based on the ballast life information DRB, the lamp presentation information DPL including the product information of the compatible lamp of the lighting fixture 80 is generated.
(B) Based on the ballast life information DRB, appliance presentation information DPR including product information of the compatible appliance body of the lighting fixture 80 is generated.

In the first to sixth embodiments (FIG. 8), the appliance presentation information DPR is generated based on the appliance information DRR, but the next presentation information DP is generated instead of or in addition to the appliance presentation information DPR. You can also.
(A) Based on the appliance information DRR, the lamp presentation information DPL including the product information of the compatible lamp of the lighting fixture 80 is generated.
(B) Based on the appliance information DRR, the ballast presentation information DPB including the product information of the compatible ballast of the lighting fixture 80 is generated.

In the first to sixth embodiments (FIG. 6), the lamp life information DRL is generated when the accumulated lighting time of the lamp 86 exceeds the lamp determination time TL. However, the conditions for generating the lamp life information DRL Can be changed as follows.
(A) A circuit for detecting the voltage or current of the lamp 86 is provided in the lighting fixture 80. When the output of the circuit satisfies a predetermined condition, the lamp life information DRL is generated.
(B) Instead of the integrated lighting time, the elapsed time after the lamp 86 is attached is counted. When the elapsed time exceeds the service life set for each lamp 86, lamp life information DRL is generated.

In the first to sixth embodiments (FIG. 7), the ballast life information DRB is generated when the ballast integrated lighting time of the ballast 85 exceeds the ballast determination time TB. However, the ballast life information DRB is generated. You can also change the conditions as follows:
(A) A circuit for detecting the voltage or current of the ballast 85 is provided in the lighting fixture 80. When the output of the circuit satisfies a predetermined condition, ballast life information DRB is generated.
(B) Instead of the ballast integrated lighting time, the elapsed time since the ballast 85 was attached is counted. When this elapsed time exceeds the service life set for each ballast 85, ballast life information DRB is generated.

In the first to sixth embodiments (FIG. 8), the appliance presentation information DPR is generated when the number of years since the manufacturing year of the appliance main body 81 exceeds the main body determination year TR, but the appliance presentation information DPR The conditions for generating can also be changed as follows.
(A) When the elapsed time since the attachment of the appliance main body 81 exceeds a predetermined time, appliance presentation information DPR is generated.
(B) When the total usage time of the appliance main body 81, that is, the total energization time of the lighting circuit portion 84 after the lighting fixture 80 is attached exceeds the predetermined time, the appliance presentation information DPR is generated.

  In the first to sixth embodiments (FIG. 6), when the lamp 86 is replaced, the user inputs the model number of the new lamp 86 to the master 30, thereby setting the model number of the lamp 86 in the lighting fixture 80. However, the model number update method can be changed as follows. That is, when the lamp 86 is replaced, the address of the lighting fixture 80 and the model number of the lamp 86 are associated with each other and stored in the master 30. When the lamp life information DRL is transmitted to the master 30, the master 30 extracts the model number of the lamp 86 from the lamp life information DRL.

  In the first to sixth embodiments (FIG. 7), when the ballast 85 is replaced, the user inputs the model number of the new ballast 85 to the master 30 to set the model number of the ballast 85 in the lighting fixture 80. However, the model number update method can be changed as follows. That is, when the ballast 85 is replaced, the address of the lighting fixture 80 and the model number of the ballast 85 are associated and stored in the master 30. When the ballast life information DRB is transmitted to the master 30, the master 30 extracts the model number of the ballast 85 from the ballast life information DRB.

-In 1st-6th embodiment (FIG. 1), although the database 23 which memorize | stores reference information DC is provided in the server 20, the structure regarding reference information DC can also be changed as follows.
(A) At least one of the devices of the master 30 or the transmission interface 40 is provided with a database that stores the reference information DC. In this case, the reference information DC can be omitted from the database 23 of the server 20.
(B) The reference information DC is called from a server outside the system by at least one device constituting the host control system 10. And presentation information DP is produced | generated based on this reference information DC and guidance information DR.

  In the first to sixth embodiments (FIG. 1), when the monitoring information DM is transmitted from each lighting switch 90, the corresponding lighting fixture 80 is individually controlled by the control controller 60. The control mode can also be changed as follows. That is, when the monitoring information DM is transmitted from each lighting switch 90, the corresponding lighting fixture 80 can be individually controlled by the host controller 50 or the transmission adapter 70.

  -In 1st-6th embodiment (FIG. 1), although the transmission adapter 70 is provided between the control controller 60 and each lighting fixture 80, the transmission adapter 70 can also be abbreviate | omitted. In this case, the controller 60 and the lighting fixtures 80 are connected to each other without using an information transmission device.

  In the first to sixth embodiments (FIG. 1), the control controller 60 is provided between the host controller 50 and each transmission adapter 70, but the control controller 60 may be omitted. In this case, the host controller 50 and each transmission adapter 70 are connected to each other without using an information transmission device.

  In the first to sixth embodiments (FIG. 1), the host controller 50 is provided in the host control system 10, but the host controller 50 can be omitted. In this case, the server 20, the master 30, and the control controller 60 are connected to each other without using an information transmission device.

  In the first to sixth embodiments (FIG. 1), the transmission interface 40 is provided between the master 30 and the server 20 and each lighting fixture 80. However, the transmission interface 40 may be omitted. In this case, the master 30 and the server 20 and each lighting fixture 80 communicate by the same communication method. Various controls including individual lighting control of the lighting fixture 80 are performed by the master 30 and the server 20.

  DESCRIPTION OF SYMBOLS 1 ... Lighting information control system, 10 ... Host control system, 20 ... Server, 40 ... Transmission interface, 80 ... Lighting fixture, 81 ... Appliance main body, 85 ... Ballast, 86 ... Electric light, 100, 200 ... Portable terminal.

Claims (16)

In a host information control system for controlling a lighting fixture, and a lighting information control system including the lighting fixture having a communication function with the host control system,
Guidance information including information on the lighting fixture is input to the host control system;
And the presentation information regarding the said lighting fixture is produced | generated in the said high-order control system based on the reference information corresponding to the said lighting fixture, and the said guidance information. The lighting information control system characterized by the above-mentioned. The illumination information control system according to claim 1,
An illumination information control system, wherein an appliance main body corresponding to the standard of the appliance main body of the lighting fixture is used as an applicable appliance main body, and information related to the compatible appliance main body is included in the presentation information. In the lighting information control system according to claim 1 or 2,
An illumination information control system characterized in that an electric lamp corresponding to the electric lamp standard of the luminaire is used as an applicable electric lamp, and information related to the compatible electric lamp is included in the presentation information. In the lighting information control system according to any one of claims 1 to 3,
A lighting information control system, wherein a ballast corresponding to a ballast standard of the lighting fixture is used as a compatible ballast, and information related to the compatible ballast is included in the presentation information. In the lighting information control system according to any one of claims 1 to 4,
Information on the life of the lamp of the lighting fixture is included in the guidance information. In the illumination information control system according to any one of claims 1 to 5,
Information on the age of the fixture body of the lighting fixture is included in the guidance information. In the illumination information control system according to any one of claims 1 to 6,
Information on the life of the ballast of the lighting fixture is included in the guidance information. In the lighting information control system according to any one of claims 1 to 7,
The illumination information control system, wherein the presentation information is generated when the reference information is updated. In the lighting information control system according to any one of claims 1 to 8,
Order information corresponding to the lighting fixture is generated based on the guidance information and the reference information. In the lighting information control system according to any one of claims 1 to 9,
The illumination information control system, wherein the presentation information is generated based on the reference information corresponding to the lighting fixture, the guidance information, and the narrowed down information. In the lighting information control system according to claim 10,
The lighting information control system is characterized in that a user's request regarding the lighting fixture is set as the narrowed down information. In the illumination information control system according to any one of claims 1 to 11,
A lighting information control system comprising a display unit for displaying the presentation information. In the illumination information control system according to any one of claims 1 to 12,
The illumination information control system, wherein the presentation information is transmitted to a mobile terminal. In the illumination information control system according to any one of claims 1 to 13,
The illumination information control system, wherein the presentation information is transmitted to the terminal by visible light communication. In the lighting information control system according to any one of claims 1 to 14,
A plurality of the lighting fixtures are provided;
The host control system individually controls a plurality of the lighting fixtures;
A server in which the reference information is stored is provided in the host control system;
A transmission interface that mediates transmission and reception of information between the server and the plurality of lighting fixtures is provided;
And a communication method between the plurality of lighting fixtures and the transmission interface and a communication method between the server and the transmission interface are different from each other. The illumination information control system according to claim 15,
The transmission interface has a function of collecting a plurality of pieces of information received from each of the plurality of lighting fixtures into one piece of transmission information and transmitting the information to the upstream side, and one piece of transmission information received from the upstream side of the plurality of lighting fixtures. A lighting information control system characterized by having a function of converting each of the information into a plurality of pieces of information and transmitting the information to a corresponding lighting fixture.

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