JP6589484B2 - Lighting system - Google Patents

Description

  Embodiments described herein relate generally to a lighting system.

  Conventionally, lighting effects have been made by a plurality of lighting devices in a studio, a stage, and the like. In a lighting system that performs such lighting effects, in the preparation work for performing lighting effects, turning on the lighting device confirms that the lighting device is installed at an appropriate position by visually observing the lighting device, etc. To do.

JP 2007-265765 A JP 2012-066943 A

  Therefore, in the above-described lighting system, there is a problem that it is difficult to appropriately manage the lighting equipment, for example, it takes time for preparation work.

  An object of the present invention is to provide a lighting system that facilitates management of lighting equipment.

  The lighting system of the present embodiment includes a first lighting device, a second lighting device, an accessory device, and a lighting control device. The first lighting device can transmit the information of its own device by a predetermined communication protocol. The second lighting device does not have a communication function. Also, the accessory device is provided in association with the second lighting device and can transmit information. In addition, the lighting control device receives information from the first lighting device and the accessory device.

  According to the present invention, management of lighting equipment can be facilitated.

FIG. 1 is a diagram illustrating an illumination system according to an embodiment. FIG. 2 is a diagram illustrating a main part of the illumination system according to the embodiment. FIG. 3 is a diagram illustrating a configuration of the illumination control apparatus according to the embodiment. FIG. 4 is a diagram illustrating an example of information stored in the device installation information storage unit according to the embodiment. FIG. 5 is a diagram illustrating an example of information stored in the drawing information storage unit according to the embodiment. FIG. 6 is a diagram illustrating an example of collation between the drawing and the installation position of the lighting device according to the embodiment. FIG. 7 is a flowchart illustrating an example of collation between the drawing and the installation position of the lighting device according to the embodiment.

  The lighting system 1 according to the embodiment described below includes a first lighting device 10A capable of transmitting information on the own device using a predetermined communication protocol, a second lighting device 10B having no communication function, and a second lighting device 10B. And an attachment device that can transmit information, and a lighting control device 30 that receives information from the first lighting apparatus 10A and the attachment device.

  Further, in the lighting system 1 according to the embodiment described below, the accessory device (NFC (Near Field Communication) tag TG21 in the embodiment) is provided in the plug PG21 used for power supply to the second lighting device 10B.

  In the illumination system 1 according to the embodiment described below, the accessory device can read information by the reading function of the receiving unit to which the plug PG21 is connected.

  In the lighting system 1 according to the embodiment described below, the lighting control device 30 includes information received from the first lighting device 10A or the accessory device, and the installation position of the first lighting device 10A or the second lighting device 10B. Are associated and managed.

  In the lighting system 1 according to the embodiment described below, the lighting control device 30 generates information for confirming the arrangement of the first lighting device 10A and the second lighting device 10B based on predetermined drawing information. To do.

[Embodiment]
First, the illumination system 1 which concerns on embodiment of this invention is demonstrated based on drawing. FIG. 1 is a diagram illustrating an illumination system according to an embodiment. In FIG. 1, in the lighting system 1, a first lighting device 10 </ b> A having a predetermined communication function and a second lighting device 10 </ b> B not having a communication function are installed in a mixed manner, and the lighting control device 30 is connected to the first lighting device 10 </ b> A, The example which collects various information from plug PG21 of the 2nd lighting equipment 10B is shown.

[Configuration of lighting system]
The lighting system 1 includes a first lighting device 10A, a second lighting device 10B, a node 20, a lighting control device 30, a light control panel 40, a monitoring device 50, a terminal device 60, and a cloud server 70. To do. Hereinafter, the first lighting device 10 </ b> A and the second lighting device 10 </ b> B will be referred to as the lighting device 10 when they are described without distinction.

  Further, in the lighting system 1 shown in FIG. 1, the node 20, the lighting control device 30, the light control panel 40, and the monitoring device 50 are communicably connected via a predetermined network NT1 such as Ethernet (registered trademark). Shall be. The network NT1 may be a LAN (local area network) used in a facility such as a studio or a theater to which the lighting system 1 is introduced, or the Internet.

  The first lighting device 10A is a lighting device 10 that uses a semiconductor light emitting element such as an LED (Light Emitting Diodes) as a light source. For example, the first lighting device 10A is used by being hung at a predetermined position by a baton (not shown) or placed at a predetermined position. In addition, for example, the first lighting apparatus 10A changes the brightness, range, color, and the like according to control information transmitted from the lighting control device 30 via the node 20, thereby performing lighting effects such as a studio or a stage. Do. Further, the first lighting device 10A is capable of bidirectional communication with the node 20 by a communication method LN1 in accordance with a predetermined communication protocol, for example, a communication protocol according to the DMX standard or an RDM (Remote Device Management) standard that is an extension of DMX. Is possible. For this reason, the first lighting apparatus 10A can transmit information on the own apparatus (hereinafter, may be referred to as “apparatus information”), which will be described in detail later.

  The second lighting device 10B is a lighting device 10 that uses, for example, a halogen lamp as a light source. For example, the second lighting device 10B is used by being hung at a predetermined position by a baton or the like or placed at a predetermined position. In addition, the second lighting device 10B does not have a communication function. Here, the plug PG21 is provided in the cable CB21 connected to the second lighting device 10B. In FIG. 1, the plug PG21 is a C-type plug. In FIG. 1, the plug PG21 is provided with an NFC tag TG21 which is an accessory device capable of reading information by a reading function of the outlet CN20-1 which is a receiving unit of the plug PG21. The details of the reading function of the outlet CN 20-1 and the NFC tag TG 21 of the plug PG 21 will be described later.

  The node 20 is a device that is called a DMX node or an RDM node, for example, and connects the first lighting device 10A. That is, the node 20 can bidirectionally communicate with the first lighting apparatus 10A by a predetermined communication protocol, for example, a communication protocol according to the DMX standard or a communication method according to the RDM standard that is an extension of the DMX. In addition, the node 20 can perform bidirectional communication with the lighting control device 30. Further, the node 20 transmits a control signal transmitted from the lighting control device 30 to the corresponding first lighting device 10A.

  The lighting control device 30 receives an operation by an operator who controls each lighting device 10. For example, the illumination control device 30 is a device called a dimming console. The lighting control device 30 transmits information (signal) for controlling dimming and the like of each lighting device 10 to the node 20 and the dimming panel 40 in accordance with an operation by the operator. The lighting control device 30 receives various information from the plugs PG21 of the first lighting device 10A and the second lighting device 10B, details of which will be described later.

  The light control board 40 supplies electric power to the 2nd lighting equipment 10B with the predetermined power transmission cable LN2. Moreover, the light control board 40 controls the light control of the 2nd lighting equipment 10B by the phase control type light control method. For example, the light control board 40 controls the light control of the 2nd lighting equipment 10B by changing the power supply voltage supplied to the 2nd lighting equipment 10B according to the control report from the lighting control apparatus 30. FIG. For example, when the light control panel 40 receives the control report from the lighting control device 30, the voltage applied to each second lighting device 10B is adjusted to, for example, 0V to 100V according to the light control level of the second lighting device 10B. And output. Further, for example, the light control panel 40 is provided with a phase control type dimmer for each second illumination device 10B, and each dimmer is controlled according to a control signal from the illumination control device 30. The dimming control may be performed collectively for the second lighting device 10B corresponding to the dimmer.

  The monitoring device 50 is a device that is provided at the introduction destination of the lighting system 1 and monitors the operation of the node 20, the lighting control device 30, the light control panel 40 and the like. For example, the monitoring device 50 may monitor the operation of the node 20, the lighting control device 30, the light control panel 40, etc. by collecting information from each of the node 20, the lighting control device 30, and the light control panel 40. The monitoring device 50 may acquire information collected by the lighting control device 30. Further, an administrator or the like at the installation destination of the lighting system 1 may confirm the operation status of the lighting system 1 by the terminal device 60 that can communicate with the monitoring device 50 via the predetermined network NT2. The network NT1 and the network NT2 may be a common network.

  The cloud server 70 is a device provided at a predetermined point on the service provider side that is remote from the installation destination of the lighting system 1. The cloud server 70 can perform two-way communication with the monitoring device 50 and a predetermined network NT3. For example, the network NT3 may be a dedicated communication line, a virtual private network, or the Internet. The cloud server 70 acquires and holds information collected by the monitoring device 50. For example, when there are a plurality of lighting systems 1, the cloud server 70 acquires and holds information collected by the monitoring device 50 of each lighting system 1. The cloud server 70 can communicate with the management terminal 80A and a mobile terminal 80B such as a tablet terminal or a smartphone via a predetermined network NT4. Further, the administrator A1 on the service provider side checks and manages the information collected in the cloud server 70 by the management terminal 80A, the portable terminal 80B, and the like.

[Example of processing in lighting system]
As shown in FIG. 1, the first lighting apparatus 10A connects the plug PG11 used for power supply to the power supply jack PS11 of the outlet device JC11 (step S11). Thereby, electric power is supplied to the 1st lighting equipment 10A from commercial power supply CP, for example. The first lighting device 10A may be supplied with power from the light control panel 40 or the like. The first lighting apparatus 10A connects the plug PG12 used for information transmission / reception to the information transmission / reception jack JC11-1 of the outlet device JC11 (step S12). Thereby, information can be transmitted to and received from the lighting control device 30 via the node 20 in the first lighting device 10A.

  The second lighting device 10B connects the plug PG21 to the jack JC21 of the outlet CN20-1 (step S13). Thereby, the power supply voltage from the light control panel 40 is supplied to the 2nd lighting equipment 10B. Note that steps S11 to S13 shown in FIG. 1 are in the order for explanation. For example, the connection of the second lighting device 10B in step S13 is before the connection of the first lighting device 10A in steps S11 and S12. It may be done.

  As described above, the plug PG21 is provided with the NFC tag TG21. For example, the NFC tag TG21 is a tag that can read identification information for identifying the NFC tag TG21. The NFC tag TG21 is not limited to the RF (Radio Frequency) tag, and any tag such as an optical tag may be used as long as the reading side is compatible. Further, the plug PG21 is not directly provided with the NFC tag TG21, but is connected to the outlet CN20-1 via the NFC tag as an accessory device or an adapter with an optical tag between the outlet PG21 and the outlet PG21. Also good.

  Further, the outlet CN20-1 is provided with an NFC reader / writer RW21 capable of reading information of the NFC tag TG21. That is, in the state where the plug PG21 is connected to the jack JC21 of the outlet CN20-1, the NFC tag TG21 can read the identification information by the NFC reader / writer RW21. Further, the NFC reader / writer RW21 can transmit / receive information to / from the illumination control device 30 via the network NT1, and can transmit the identification information read from the NFC tag TG21 to the illumination control device 30.

  Note that the short-range wireless communication standard between the NFC tag TG21 and the NFC reader / writer RW21 may be any standard. For example, the standard for short-range wireless communication between the NFC tag TG21 and the NFC reader / writer RW21 may be MIFARE (ISO / IEC 14443) or TypeB (ISO / IEC 14443) referred to as Type A.

  In addition, the lighting control device 30 transmits control information to the first lighting device 10 </ b> A via the node 20. For example, the lighting control device 30 transmits control information for the first lighting device 10A to the node 20 to which the first lighting device 10A is connected (step S14). The node 20 that has received the control information from the lighting control device 30 transmits the control information to the corresponding first lighting device 10A (step S15). In addition, the first lighting device 10A that has received the control information from the node 20 changes the brightness, range, color, and the like according to the control information.

  Moreover, the illumination control apparatus 30 transmits the control signal for controlling the 2nd lighting equipment 10B to the light control panel 40 (step S16). The light control panel 40 that has received the control signal from the lighting control device 30 sends a voltage signal to the corresponding second lighting device 10B (step S17). In the second lighting device 10B, dimming is controlled by a voltage signal from the dimming board 40. Note that steps S14 to S17 shown in FIG. 1 are in the order for explanation. For example, the transmission of the control signal in step S16 may be performed before the transmission of the control information in step S14.

  In addition, the first lighting device 10 </ b> A transmits the device information of the own device to the lighting control device 30 via the node 20. For example, the first lighting device 10A transmits the device information of its own device to the node 20 (step S18). Further, the node 20 that has received the device information from the first lighting device 10A transmits the device information to the lighting control device 30 (step S19). For example, the first lighting device 10 </ b> A may transmit the device information of its own device to the lighting control device 30 in response to an instruction from the lighting control device 30. Note that the device information transmitted by the first lighting device 10A includes identification information for identifying the first lighting device 10A.

  Further, the NFC reader / writer RW21 of the outlet CN20-1 transmits the identification information read from the NFC tag TG21 to the illumination control device 30 (step S20). For example, the NFC reader / writer RW21 may transmit the identification information read from the NFC reader / writer RW21 to the illumination control device 30 in response to an instruction from the illumination control device 30.

  Then, the lighting control device 30 collects device information received from the first lighting device 10A in step S19, identification information of the NFC tag TG21 received from the NFC reader / writer RW21 in step S20, and the like (step S21). Thereby, the illumination control apparatus 30 can confirm the number of the 1st lighting equipment 10A connected, the number of the 2nd lighting equipment 10B connected to outlet CN20-1, etc .. Therefore, the lighting system 1 can facilitate management. Note that the lighting control device 30 can check where the lighting device 10 is installed by managing the device information and the identification information in association with the installation position, but details will be described later.

[Information transmission at outlet]
Here, details of information transmission in the outlet will be described with reference to FIG. FIG. 2 is a diagram illustrating a main part of the illumination system according to the embodiment.

  As shown in FIG. 2, outlet CN20-1 is included as a part of outlet unit CN20 together with other outlets CN20-2 and CN20-3. That is, the outlet unit CN20 includes three outlets CN20-1 to CN20-3. Further, NFC reader / writers RW21 to RW23 are provided in the respective outlets CN20-1 to CN20-3. Specifically, the outlet CN 20-2 is provided with an NFC reader / writer RW22, and the outlet CN 20-3 is provided with an NFC reader / writer RW23.

  The outlet unit CN20 has a control unit CU20. For example, the control unit CU20 has a CPU (Central Processing Unit) and instructs the NFC reader / writers RW21 to RW23 to read information or processes information from the NFC reader / writers RW21 to RW23.

  The outlet unit CN20 includes current transformers CT (Current Transformers) 21 to 23 for the power transmission cables LN2 connected to the outlets CN20-1 to CN20-3. The current transformers CT21 to CT23 are so-called instrument current transformers, and each measure a current flowing through the corresponding power transmission cable LN2. Thereby, control part CU20 can discriminate | determine to which outlet CN20-1 to CN20-3 the 2nd lighting equipment 10B is connected by the information from current transformer CT21-23. Moreover, control part CU20 and the illumination control apparatus 30 integrate each usage time of 2nd lighting equipment 10B connected to each outlet CN20-1 to CN20-3 with the information from current transformer CT21-23. Can do. As a result, the illumination control device 30 notifies (displays) the second illumination device 10B whose usage time has exceeded a predetermined threshold to the administrator of the illumination system 1 and the second illumination device 10B that has been consumed. Can be replaced.

  For example, the control unit CU20 instructs the readout of information only to the outlets CN20-1 to CN20-3 to which the second lighting device 10B is connected based on the information from the current transformers CT21 to CT23. Also good. Further, for example, the outlet unit CN20 transmits various types of information including identification information read by the NFC reader / writers RW21 to RW23 to the lighting control device 30 via POE (Power Over Ethernet (registered trademark)). That is, the lighting system 1 can enhance the functionality of the second lighting device 10B that does not have a communication function. As described above, the lighting control device 30 can collect the identification information of the NFC tag associated with the second lighting device 10B by the function of the outlet unit CN20. Therefore, since the lighting system 1 can collect information related to the second lighting device 10B in addition to information related to the first lighting device 10A, management can be facilitated.

[Configuration example of lighting control device]
Next, the configuration of the illumination control device 30 according to the embodiment will be described with reference to FIG. FIG. 3 is a diagram illustrating a configuration of the illumination control apparatus according to the embodiment. As illustrated in FIG. 3, the illumination control device 30 includes a communication unit 31, a storage unit 32, a display unit 33, an operation unit 34, and a control unit 35.

  The communication unit 31 has a function of controlling communication with the illumination device 10, the node 20, the light control panel 40, the monitoring device 50, and the like, and is realized by, for example, a NIC or the like.

  The storage unit 32 is realized by, for example, a semiconductor memory element such as a RAM (Random Access Memory) or a flash memory, or a storage device such as a hard disk or an optical disk. As illustrated in FIG. 3, the storage unit 32 according to the embodiment includes a device installation information storage unit 32-1 and a drawing information storage unit 32-2.

  In the device installation information storage unit 32-1, the collected identification information of the lighting device 10, the device information of the lighting device 10 corresponding to the identification information, and the outlet connected to the lighting device 10 corresponding to the identification information, that is, the installation The connection information indicating the position is stored in association with each other. For example, FIG. 4 is a diagram illustrating an example of information stored in the device installation information storage unit according to the embodiment. In the example illustrated in FIG. 4, it is stored that the lighting device 10 identified by the identification information “IDL1” is an LED light and is connected to the jack JC11-1 of the outlet device JC11. The device information stores not only the type of lamp such as an LED lamp and a halogen lamp, but also various information such as the output wattage. The device installation information storage unit 32-1 is not limited to the above, and various information may be stored according to the purpose. For example, information related to a specific installation position corresponding to the connection information may be stored in the device installation information storage unit 32-1.

  The drawing information storage unit 32-2 stores drawing information such as preparation drawings. For example, FIG. 5 is a diagram illustrating an example of information stored in the drawing information storage unit according to the embodiment. FIG. 5 illustrates a specific display mode when the drawing information is displayed on the display unit 33 for explanation. The “drawing information” is data for displaying the diagram shown in FIG. There may be. The data stored as “drawing information” may be in any data format as long as the drawing as shown in FIG. 5 can be displayed.

  In the example shown in FIG. 5, the jack JC11-1 of the outlet device JC11 corresponds to “JC11” and a rectangle indicated by “1” in the column “JC11” (hereinafter referred to as “installation position”). That is, in the example illustrated in FIG. 5, the first lighting device 10A connected to the jack JC11-1 of the outlet device JC11 is positioned at the installation position indicated by “JC11” and “1” in the column “JC11”. Indicates that it will be installed.

  In the example shown in FIG. 5, the outlet CN20-1 of the outlet unit CN20 corresponds to the installation position indicated by “CN20” and “1” in the column of “CN20”. That is, in the example illustrated in FIG. 5, the second lighting device 10 </ b> B connected to the outlet CN 20-1 is installed at the installation position indicated by “CN20” and “1” in the column of “CN20”. Indicates.

  Returning to FIG. 3, the description will be continued. The display unit 33 is realized by, for example, a liquid crystal monitor and displays various information. The display unit 33 displays information collected by the lighting control device 30 according to control by the control unit 35 described later. For example, the display unit 33 displays the drawing information stored in the drawing information storage unit 32-2 by including information related to the installed device stored in the device installation information storage unit 32-1. It will be described later.

  The operation unit 34 receives an operation on each lighting device 10 and includes, for example, a plurality of faders that receive an operation of changing the illuminance of each lighting device 10. The operation unit 34 can also be configured using a touch panel or the like.

  The control unit 35 has an internal memory for storing programs and required data that define various processing procedures and the like, and executes various processes using these programs. Particularly, as closely related to the present invention, It has the receiving part 35-1, the transmission part 35-2, and the production | generation part 35-3.

  The receiving unit 35-1 receives various information from the outside. For example, the receiving unit 35-1 receives various types of information such as identification information from the lighting device 10. For example, the reception unit 35-1 receives device information from the first lighting device 10A. For example, the receiving unit 35-1 receives the identification information of the NFC tag TG21 from the outlet unit CN20. For example, the receiving unit 35-1 may receive drawing information from an external device. For example, the reception unit 35-1 may receive drawing information input in the terminal device 60. For example, the reception unit 35-1 may receive drawing information generated by scanning a so-called preparation drawing.

  The transmission unit 35-2 transmits various types of information. For example, the transmission unit 35-2 transmits control information to the first lighting device 10A. For example, the transmission unit 35-2 transmits a control signal to the light control panel 40.

  The generation unit 35-3 generates image information including information related to the installed device stored in the device installation information storage unit 32-1 in the drawing information stored in the drawing information storage unit 32-2. In addition, the generation unit 35-3 displays the generated image information on the display unit 33. Further, the generation unit 35-3 may confirm the arrangement of the first lighting device 10A and the second lighting device 10B based on the drawing information stored in the drawing information storage unit 32-2. For example, when the information on the position where the lighting device 10 is installed is included in the drawing information, the generation unit 35-3 compares the installation device stored in the device installation information storage unit 32-1 with the drawing information, Information for confirming whether or not the lighting device 10 is installed at a position where the lighting device 10 is installed may be generated. In this case, when the device information corresponding to the position where the illumination device 10 is installed is not stored in the device installation information storage unit 32-1, the generation unit 35-3 determines the position where the illumination device 10 is to be installed. Information to be displayed in an identifiable manner may be generated. For example, the generation unit 35-3 may display the generated information on the display unit 33.

[Installation confirmation by drawing]
Next, collation between the drawing for confirming whether each lighting device 10 is properly installed and the installation position of the lighting device will be described. FIG. 6 is a diagram illustrating an example of collation between the drawing and the installation position of the lighting device according to the embodiment.

  FIG. 6 shows a drawing DP10 displayed on the display unit 33. FIG. For example, the drawing DP10 is generated by the drawing information stored in the drawing information storage unit 32-2 and the information related to the installed device stored in the device installation information storage unit 32-1. Specifically, the drawing DP10 superimposes and displays information related to the installed device stored in the device installation information storage unit 32-1 at each installation position of the drawing information stored in the drawing information storage unit 32-2.

  For example, in the example shown in FIG. 6, in the drawing DP10, the first lighting device 10A identified by “IDL1” is installed at the installation position indicated by “JC11” and “1” in the column “JC11”. Indicates that Further, for example, in the example shown in FIG. 6, the drawing DP10 has a second lighting device 10B identified by “IDH2” at the installation position indicated by “CN20” and “2” in the column of “CN20”. Indicates that it is installed. Thus, the lighting control device 30 displays the drawing DP10 that displays the device information superimposed on the drawing information at a location corresponding to each installation position on the display unit 33, so that the operator of the lighting control device 30 and the like. It is possible to grasp which lighting device 10 is installed at which position. Therefore, the lighting system 1 can facilitate management.

  Note that the drawing DP10 illustrated in FIG. 6 is an example, and a specific name such as “LED lamp”, an output wattage, or the like may be displayed as the device information. Further, an icon indicating the type of the lighting device 10 such as a spotlight or a horizontable light that can be specified from the device information may be displayed at a position corresponding to the installation position of the lighting device 10. The lighting control device 30 is not limited to the above, and may display various information based on, for example, the difference between the drawing information and the installed lighting device 10. For example, the lighting control device 30 may display a warning when there is a difference between the device information associated with the installation position in the drawing information and the device information of the installed lighting device 10. For example, the lighting control device 30 may display a warning regarding the type, weight, or rated power of the lighting device 10. The lighting control device 30 may turn on the backup lighting device 10 when the device information corresponding to the position where the lighting device 10 is installed is not stored in the device installation information storage unit 32-1. .

[Processing flow for installation confirmation using drawings]
Next, a processing flow for collating the drawing with the installation position of the lighting device will be described. FIG. 7 is a flowchart illustrating an example of collation between the drawing and the installation position of the lighting device according to the embodiment.

  First, the illumination control apparatus 30 acquires drawing information (step S101). For example, the illumination control device 30 acquires drawing information input from the terminal device 60. For example, the illumination control apparatus 30 acquires drawing information from the drawing information storage unit 32-2.

  Moreover, the illumination control apparatus 30 receives apparatus information (step S102). For example, the lighting control device 30 receives device information including identification information from the first lighting device 10A.

  Moreover, the illumination control apparatus 30 receives identification information (step S103). For example, the lighting control device 30 receives the identification information from the NFC tag TG21 provided in association with the second lighting device 10B. For example, the illumination control device 30 receives the identification information read by the NFC reader / writer RW21 from the NFC tag TG21. Note that steps S101 to S103 may be performed regardless of the order as long as they are prior to step S104 described below.

  Thereafter, the lighting control device 30 displays the drawing information reflecting the device information received in step S102 and the identification information received in step S103 (step S104).

  Although the embodiment of the present invention has been described, this embodiment is presented as an example and is not intended to limit the scope of the invention. This embodiment can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the spirit of the invention. This embodiment and its modifications are included in the scope of the present invention and the gist thereof, and are also included in the invention described in the claims and the equivalent scope thereof. In addition, this embodiment and its modifications can be combined as appropriate within a range that does not contradict processing contents.

DESCRIPTION OF SYMBOLS 1 Lighting system 10A 1st lighting equipment 10B 2nd lighting equipment 20 Node 30 Lighting control apparatus 40 Light control panel 50 Monitoring apparatus 60 Terminal apparatus 70 Cloud server 80A Management terminal 80B Portable terminal

Claims (5)

A first lighting device capable of transmitting information on the own device by a predetermined communication protocol;
A second lighting device having no communication function;
An auxiliary device provided in association with the second lighting device and capable of transmitting information;
A lighting control device for receiving information from the first lighting device and the accessory device;
Comprising
Receiving said accessory device is connected, the illuminated control device and communicably connected via a prescribed network, and said transmittable der Rukoto the information read from said accessory device to said lighting control unit Lighting system. The lighting system according to claim 1, wherein the auxiliary device is provided in a plug used for supplying power to the second lighting device. The lighting system according to claim 2, wherein the accessory device can read information by a reading function of a receiving unit to which the plug is connected. The said lighting control apparatus manages the information received from the said 1st lighting apparatus or the said auxiliary device, and the installation position of the said 1st lighting apparatus or the said 2nd lighting apparatus in correlation, and manages. The illumination system according to any one of? The lighting system according to claim 4, wherein the lighting control device generates information for confirming an arrangement of the first lighting device and the second lighting device based on predetermined drawing information.