JP2023049797A - lighting control system - Google Patents

Abstract

To provide a lighting control system capable of easily acquiring connection information of a lighting fixture.SOLUTION: A lighting control system according to an embodiment includes a plurality of luminaires each having identification information, and a repeater having a plurality of connection ports, connecting the plurality of lighting fixtures to the plurality of connection ports with different cables, respectively, and acquiring the identification information of the plurality of lighting fixtures.SELECTED DRAWING: Figure 1

Description

Embodiments of the present invention relate to lighting control systems.

2. Description of the Related Art Conventionally, a lighting control system used in studios, stages, etc. controls a plurality of lighting fixtures based on DMX signals in a format conforming to a standard called DMX512 (hereinafter abbreviated as DMX).

A lighting control system conforming to the DMX standard requires a DMX node for connecting lighting fixtures and detecting connection destinations, which increases the cost of the system. Also, the lighting control system conforming to the DMX standard has a problem that when a portable DMX node is connected to a connector such as a floor panel, it is not possible to know where the lighting equipment is connected.

JP 2019-216046 A

An object of the embodiment is to provide a lighting control system that can easily acquire connection information of lighting fixtures.

A lighting control system according to an embodiment includes a plurality of lighting fixtures each having identification information, and a plurality of connection ports. and a repeater for acquiring the identification information of the lighting fixture.

According to the embodiment, it is possible to provide a lighting control system that can easily acquire connection information of lighting fixtures.

It is a figure showing the whole lighting control system composition concerning one embodiment. 3 is a block diagram showing the configuration of a hub; FIG. It is a block diagram which shows the structure of a lighting fixture. FIG. 4 is a diagram showing an example of lighting device address information acquired by a hub; It is a figure which shows an example of the information of the lighting fixture address which a light control console acquires. It is a figure showing the whole lighting control system composition concerning the modification of one embodiment.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
In the drawings used for the following description, the scale of each component may be different in order to make each component recognizable on the drawing. That is, embodiments of the present invention are limited only to the number of components, shapes of components, size ratios of components, and relative positional relationships of components shown in these figures. isn't it.

First, the configuration of a lighting control system according to an embodiment will be described with reference to FIGS. 1 to 3. FIG. FIG. 1 is a diagram showing the overall configuration of a lighting control system according to one embodiment. FIG. 2 is a block diagram showing the configuration of the hub. FIG. 3 is a block diagram showing the configuration of the lighting fixture.

In FIG. 1, a lighting control system 1 is installed in a television studio, a theater, a hall, or the like. The lighting control system 1 has a light control console 10, a hub 20, a baton 30, and a plurality of lighting fixtures 40A-40E. The lighting fixtures 40A to 40D are lighting fixtures conforming to the Ethernet standard, and are arranged so as to be suspended from the baton 30. FIG. The lighting fixture 40E is a lighting fixture that does not conform to the Ethernet standard, so it is connected to a portable DMX node, and the portable DMX node is connected to a connector provided on the wall 50.

The lighting control system 1 may have multiple hubs 20 and multiple batons 30 . Further, although four lighting fixtures 40A to 40D are arranged on baton 30, three or less lighting fixtures or five or more lighting fixtures may be arranged. Further, in the following description, any one of the lighting fixtures 40A to 40E or all the lighting fixtures will be referred to as the lighting fixture 40 as well.

The light control console 10 controls the lighting equipment 40 according to the user's operation. For example, the light control console 10 has a fader that can set the dimming degree corresponding to the brightness setting value of the lighting fixture 40 to a desired value from 0 to 100% according to the user's operation. The light control console 10 outputs a control signal (dimming signal) including a lighting fixture address indicating the lighting fixture 40 to be controlled and control details indicating the degree of dimming, etc. to the lighting fixture 40 via the hub 20. .

The lighting console 10 also has a collect button 11 for collecting luminaire addresses. When the user presses the collection button 11, a control signal for collecting lighting fixture addresses is sent to the hub 20, and the lighting fixture addresses acquired by the hub 20 are received.

The hub 20 as a repeater is an Ethernet hub compatible with standards such as L2TP (Layer 2 Tunneling Protocol) and SNMP (Simple Network Management Protocol). The hub 20 is connected to the light control console 10 via a communication cable 70 via a network such as Ethernet (registered trademark) so that two-way communication is possible. Also, the hub 20 is connected to the lighting fixtures 40A to 40D via communication cables 71A to 71D via a network such as Ethernet in a state in which two-way communication is possible. Communication cables 70 and 71A-71D are Ethernet cables.

In addition, the hub 20 is connected to a portable DMX node 60 connected to the wall 50 via a communication cable 71E via a network such as Ethernet so as to enable two-way communication. The portable DMX node 60 and the lighting fixture 40E are connected in a state in which two-way communication is possible via a communication cable according to the DMX standard.

As shown in FIG. 2, the hub 20 has a connection port 21, connection ports 22A to 22E, a storage section 23, and a control section . In addition, the number of connection ports that the hub 20 has is not limited to six, and may be five or less or seven or more.

The connection port 21 is connected to the light control console 10 via a communication cable 70 . The connection ports 22A-22D are connected to lighting fixtures 40A-40D via communication cables 71A-71D. The connection port 22E is connected to a portable DMX node 60 connected to the wall 50 via a communication cable 71E.

The control unit 24 is configured with a processor 24a such as a CPU, for example. The control unit 24 collects the luminaire addresses of the luminaires 40A to 40D connected to each connection port of the baton 30 and the luminaire 40E connected to the portable DMX node 60 . The control unit 24 outputs the information of the lighting fixture address, which is the collected identification information, to the storage unit 23 . The storage unit 23 stores the information of the lighting fixture addresses collected by the control unit 24 .

In addition, in this embodiment, the control part 24 may be comprised having an integrated circuit, such as FPGA (Field Programmable Gate Array). Further, in the present embodiment, each function of the control unit 24 may be realized by the processor 24a executing a program read from a storage unit (not shown) or the like.

The baton 30 is a lighting baton arranged in a lighting space such as a studio. The baton 30 is supported by a support member (not shown) and attached to a ceiling or the like so as to be movable up and down. Also, the baton 30 is provided with a plurality of power supply terminals, and is connected to a power supply unit 41 (see FIG. 3) constituted by power cords of the lighting fixtures 40A to 40D. As a result, power is supplied to the lighting fixture 40 from an external power source such as a commercial power source. The baton 30 may be provided with a plurality of connection terminals, and the lighting fixtures 40A to 40D may be connected to these connection terminals via the communication cables 71A to 71D. That is, the hub 20 and the baton 30 are connected by a communication cable, and the baton 30 and the lighting fixture 40 are connected by a communication cable. The inside of the baton is configured to relay a signal communicated by the communication cable connecting the hub 20 and the baton 30 to the communication cable connecting the baton 30 and the lighting equipment 40 (reverse signal is also the same). ing.

The lighting fixture 40 is configured by an LED lighting fixture. Note that the lighting fixture 40 is not limited to an LED lighting fixture, and may be configured by a halogen lamp or the like. As shown in FIG. 3 , the lighting fixture 40 has a power source section 41 , a communication section 42 , a light emitting section 43 , a storage section 44 and a control section 45 .

The power supply unit 41 is configured by a power cord or the like, and is connected to a power supply terminal (outlet) provided on the baton 30 .

Under the control of the control unit 45, the communication unit 42 transmits a signal including address information indicating the unique address of the lighting device 40 to the hub 20 via the communication cable 71 (71A to 71D). . The communication unit 42 also receives a control signal transmitted from the light control console 10 via the hub 20 and outputs the control signal to the control unit 45 via the communication cable 71 . Note that in the case of a configuration in which power is supplied to the lighting fixture 40 via the communication cable 71 according to the PoE (Power over Ethernet) standard, the lighting fixture 40 does not have to have the power supply unit 41 .

The light emitting unit 43 is configured by having a light emitting element such as an LED, for example. Further, the light emitting section 43 can change the amount of emitted light under the control of the control section 45 .

The storage unit 44 stores in advance address information indicating a unique address (lighting device address) of the lighting device 40, a user ID, a DMX address, and the like. The storage unit 44 also stores setting information used when the control unit 45 controls the light emission state of the light emitting unit 43 .

The control unit 45 is configured with a processor 45a such as a CPU, for example. Also, the control unit 45 transmits and receives various signals to and from the hub 20 by controlling the communication unit 42 . The control unit 45 controls the emission state of the light emitting unit 43 according to the control signal received by the communication unit 42 . Also, the control unit 45 stores the setting information included in the control signal received by the communication unit 42 in the storage unit 44 .

Note that, in the present embodiment, the control unit 45 may be configured with an integrated circuit such as an FPGA (Field Programmable Gate Array). Further, in the present embodiment, each function of the control unit 45 may be realized by the processor 45a executing a program read from a storage unit (not shown) or the like.

FIG. 4 is a diagram showing an example of lighting device address information acquired by the hub. FIG. 5 is a diagram showing an example of lighting fixture address information acquired by the light control console.

When the lighting fixture 40 is connected to the hub 20 , the hub 20 acquires the lighting fixture address of the connected lighting fixture 40 . At this time, for example, the lighting fixture 40 may be connected to the hub 20 via the baton 30 . In this embodiment, the connection port 22A is connected to the lighting device 40A, the connection port 22B is connected to the lighting device 40B, the connection port 22C is connected to the lighting device 40C, and the connection port 22D is connected to the lighting device 40D.

When the lighting fixture 40A is connected to the connection port 22A via the communication cable 71A, the controller 24 of the hub 20 transmits a control signal for acquiring the lighting fixture address to the lighting fixture 40A. When the control unit 45 of the lighting device 40A receives the control signal for acquiring the lighting device address via the communication unit 42, it reads out its own lighting device address from the storage unit 44, and communicates the information of the read lighting device address. It is sent to the hub 20 via the unit 42 .

The control unit 24 of the hub 20 associates the received lighting fixture address information with the connection port number of the hub 20 and stores it in the storage unit 23 . As a result, as shown in FIG. 4, the connection port number of the hub 20 is associated with the lighting device address "123456" of the lighting device 40A connected to the connection port of the hub 20 and stored in the storage unit 23. be done. The data shown in FIG. 4 is stored in the storage unit 23 by performing the same processing for the lighting fixtures 40B to 40D.

When the user presses the collection button 11 of the lighting control console 10 , a control signal for collecting lighting fixture addresses is sent to the hub 20 via the communication cable 70 . When the control unit 24 of the hub 20 receives this control signal, it transmits the connection port number of the hub 20 and the lighting fixture address information (information in FIG. 4) stored in the storage unit 23 to the light control console 10 .

That is, the hub 20 stores identification information (lighting device address information) of each of the plurality of lighting devices 40 and connection port identification information associated with each connection port 22 (22A to 22D) to which each of the plurality of lighting devices 40 is connected. and is transmitted to the light control console 10, which is a host device.

In the layout of a television studio, a theater, a hall, etc., the corresponding relationship between the connection port number of the hub 20 and the position of the baton 30 is stored in advance in the light control console 10. - 特許庁That is, to give an example, it is predetermined that the lighting fixture 40 arranged at the first position of the baton 30 (for example, the left end side of the baton 30) is connected to the connection port 22A of the hub 20. stored in The light control console 10 stores the previously stored correspondence between the connection port number of the hub 20 and the connection port number of the baton 30, and the connection port number of the hub 20 and the luminaire address transmitted from the hub 20. Information on the correspondence shown in FIG. 5 is stored based on the information.

When the lighting equipment 40 is controlled by the light control console 10, a control signal containing the lighting equipment address indicating the lighting equipment 40 to be controlled and the control contents indicating the degree of dimming etc. is sent to the hub based on the information shown in FIG. 20. Hub 20 transmits control signals to all lighting fixtures 40 connected to hub 20 thereof. The control unit 45 of the lighting fixture 40 to be controlled determines whether the control signal is for itself based on the lighting fixture address included in the control signal. Based on this, the dimming level and the like of the light emitting unit 43 are controlled.

As described above, the hub 20 associates and stores the connection ports 22A to 22E with the lighting device addresses of the lighting devices 40 connected to the connection ports 22A to 22E. Then, the hub 20 transmits information on the corresponding connection ports 22A to 22E and lighting equipment addresses of the lighting equipment 40 to the lighting equipment 10 under the control of the lighting equipment 10 .

As a result, the lighting control system 1 of this embodiment can easily acquire the connection information of lighting fixtures without using a DMX node.

(Modification)
FIG. 6 is a diagram showing the overall configuration of a lighting control system according to a modification of one embodiment. In FIG. 6, the same components as those in FIG. 1 are assigned the same reference numerals, and descriptions thereof are omitted.

The lighting control system 1A includes a baton 30A having a hub 20A, which is an Ethernet hub conforming to standards such as L2TP and SNMP, in the baton 30A. Hub 20A is a hub having the same functions and actions as hub 20 described above.

The hub 20 and the hub 20A are connected by a communication cable 72, which is an Ethernet cable, in a state in which two-way communication is possible. The hub 20A is connected to the lighting fixtures 40A-40D via communication cables 72A-72D, which are Ethernet cables, in a state enabling two-way communication.

The light control console 10 acquires the lighting fixture address information of the lighting fixture 40 connected to the baton 30A via the hubs 20 and 20A.

With such a configuration, the lighting control system 1A can easily acquire the connection information of lighting fixtures without using a DMX node, as in the above-described embodiments.

While several embodiments of the invention have been described, these embodiments have been presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and modifications can be made without departing from the scope of the invention. These embodiments and their modifications are included in the scope and gist of the invention, and are included in the scope of the invention described in the claims and equivalents thereof.

Reference Signs List 1, 1A... lighting control system, 10... light control console, 11... collection buttons 11, 20... hub, 21, 21A to 21E... connection port, 23... storage unit, 24... control unit, 24a... processor, 30, 30A Baton 40, 40A to 40E Lighting fixture 41 Power supply unit 42 Communication unit 43 Light emitting unit 44 Storage unit 45 Control unit 45a Processor 50 Wall 60 Portable DMX Nodes 70, 71A-71E, 72, 72A-72D... communication cables.

Claims (4)

a plurality of luminaires each having identification information;
a repeater having a plurality of connection ports, connecting the plurality of lighting fixtures to each of the plurality of connection ports with different cables, and acquiring the identification information of the plurality of lighting fixtures;
A lighting control system comprising: The repeater transmits information in which the identification information of each of the plurality of lighting fixtures is associated with connection port identification information associated with each connection port to which each of the plurality of lighting fixtures is connected, to a host device. The lighting control system according to claim 1, characterized in that: 3. The repeater according to claim 2, further comprising a storage unit that stores information in which the connection port identification information and the identification information of the lighting fixtures connected to the connection ports are associated with each other. lighting control system. 4. The lighting control system according to any one of claims 1 to 3, wherein said cable is an Ethernet cable.

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