JP6750431B2 - Distribution board - Google Patents

Description

Embodiments of the present invention relate to a distribution board.

Conventionally, lighting effects have been produced by multiple lighting devices in a studio, stage, etc., and a lighting control system has been introduced in which a console remotely controls each lighting device by using a control address set on each lighting device side. ing.

In such a lighting control system, the distribution board controls the power supplied to the circuit to which the lighting device is connected. At this time, the distribution board controls the relay that supplies power to the circuit based on the DMX signal from the console. However, when a defect occurs in the DMX signal system, the distribution board cannot control the relay.

JP, 2007-66585, A

The problem to be solved by the present invention is to provide a distribution board that can control a relay even when a failure occurs in one signal system.

The distribution board according to the embodiment includes a remotely operable relay that supplies electric power to a circuit, a first communication unit, a second communication unit, and a relay control unit. The first communication unit receives the first control signal for controlling the relay from the external device and transmits the internal information of the own device to the external device. The second communication unit receives a second control signal for controlling the relay from the external device. The relay control unit controls the relay using the first control signal when the first communication unit receives the first control signal, and when the second communication unit receives the second control signal The second control signal is used to control the relay.

FIG. 1 is a block diagram showing an example of the configuration of a lighting control system according to the embodiment. FIG. 2 is a diagram illustrating an example of a connection configuration between the distribution board and the console according to the embodiment. FIG. 3 is a block diagram showing an example of the functional configuration of the distribution board according to the embodiment. FIG. 4 is an explanatory diagram for explaining the external appearance of the distribution board according to the embodiment. FIG. 5 is a flowchart showing an example of control processing in the distribution board according to the embodiment. FIG. 6 is a diagram showing a first example of a display screen of the distribution board according to the embodiment. FIG. 7 is a diagram showing a second example of the display screen of the distribution board according to the embodiment. FIG. 8 is a diagram showing a third example of the display screen of the distribution board according to the embodiment. FIG. 9 is a diagram showing a fourth example of the display screen of the distribution board according to the embodiment. FIG. 10 is a diagram showing a fifth example of the display screen of the distribution board according to the embodiment.

The distribution board 100 according to the embodiment described below includes a remotely operable relay 125 that supplies electric power to the circuit 60, a communication unit 135-1, a communication unit 135-2, and a relay control unit 131. To do. The communication unit 135-1 receives a first control signal for controlling the relay 125 from an external device (corresponding to the console 50) and also transmits internal information of the distribution board 100, which is its own device, to the external device. The communication unit 135-2 receives the second control signal for controlling the relay 125 from the external device. The relay control unit 131 controls the relay using the first control signal when the communication unit 135-1 receives the first control signal, and the communication unit 135-2 receives the second control signal. In some cases, the second control signal is used to control the relay.

The distribution board 100 according to the embodiment described below further includes a board operation unit 140 and a communication unit 135-3. The panel operation unit 140 displays circuit information regarding the circuit 60 and receives an operation of controlling the power supply of the circuit 60 by the relay 125. The communication unit 135-3 receives a third control signal for controlling the relay 125 from the panel operation unit 140. When the communication unit 135-3 receives the third control signal, the relay control unit 131 controls the relay 125 using the third control signal.

Further, in the distribution board 100 according to the embodiment described below, the relay control unit 131 controls the relay 125 to be on if any one of the first to third control signals is an on signal.

Further, in the distribution board 100 according to the embodiment described below, the board operation unit 140 acquires the circuit information, and the internal information is the circuit information. The communication unit 135-3 receives the circuit information, and the communication unit 135-1 transmits the circuit information to the external device.

Further, in the distribution board 100 according to the embodiment described below, the communication unit 135-1 performs communication using Ethernet (registered trademark), and the communication unit 135-2 performs communication using DMX.

Hereinafter, the distribution board 100 according to the embodiment will be described with reference to the drawings. In the embodiments, components having the same function are designated by the same reference numeral, and overlapping description will be omitted. The lighting control system described in the following embodiments is merely an example, and does not limit the embodiments. For example, in the following embodiments, the distribution board 100 can be applied to control of any device other than the lighting device. Note that the following embodiments may be combined as appropriate within a range that does not conflict.

(Embodiment)
[Configuration of Lighting Control System According to Embodiment]
FIG. 1 is a block diagram showing an example of the configuration of a lighting control system according to the embodiment. The lighting control system 1 according to the embodiment includes a plurality of lighting devices 10 (10-1 to 10-n), a plurality of baton devices 20 (20-1 to 20-n), a hub 30, and a console (lighting control device). 50 and a distribution board 100. The type and number of the distribution board 100, the lighting device 10, and the baton device 20 connected to the lighting control system 1 can be arbitrarily set.

In the lighting control system 1, the lighting device 10 bidirectionally communicates with the baton device 20 or the console 50 by a communication protocol according to the DMX standard or a communication method according to the RDM (Remote Device Management) standard which is an extension of the DMX standard. And is connected to the baton device 20. In addition, the lighting device 10 has a semiconductor light emitting element such as an LED (Light Emitting Diodes), and changes the brightness, range, color and the like according to a control signal to perform lighting effects in a studio or a stage. A device that does not comply with the DMX standard or the RDM standard (for example, a halogen lamp) may be connected to the baton device 20 as the lighting device 10. Further, the lighting device 10 is connected to the distribution board 100 via the circuits 60 (60-1 to 60-n) that transmit electric power to the lighting device 10. As a result, the lighting device 10 is supplied with power from the distribution board 100.

The baton devices 20-1 to 20-n are devices installed in an arbitrary space such as a studio or a stage and capable of suspending the lighting devices 10-1 to 10-n, and wired devices such as Ethernet (registered trademark). Alternatively, it is connected to the hub 30 in a manner capable of bidirectional communication by a wireless network. In the following description, it is assumed that the lighting devices 10-1 to 10-n are suspended in the baton devices 20-2 to 20-n as in the baton device 20-1.

The hub 30 is connected by a wired or wireless network such as Ethernet to the operator console 50 in a bidirectionally communicable manner, and relays communication between the operator console 50 and each of the baton devices 20-1 to 20-n. It is a vessel.

The distribution board 100 according to the embodiment is connected to the operation console 50 in a manner capable of bidirectional communication, and connected to the operation console 50 in a manner capable of one-way communication from the operation console 50 to the distribution board 100. Has been done. Specifically, the distribution board 100 is connected to the console 50 by a DMX capable of one-way communication and an Ethernet capable of two-way communication. With this configuration, the distribution board 100 communicates with the console 50 by a communication protocol according to the DMX standard or a communication method according to the RDM standard that is an extension of the DMX standard. Further, the distribution board 100 performs bidirectional communication with the console 50 by a communication protocol according to the Ethernet standard.

With such a configuration, the distribution board 100 receives the control signal from the console 50 via the DMX cable. Further, the distribution board 100 receives a control signal from the console 50 via the Ethernet cable, and transmits monitoring information (circuit information of the distribution board 100, which is its own device) to the console 50 via the Ethernet cable. As described above, the distribution board 100 is connected to the console 50 by the DMX and the Ethernet, so that even if a malfunction (device failure, communication failure, or the like) occurs in one of the DMX and the Ethernet. , While continuing the communication on the other hand. Further, the distribution board 100 is connected to the operation console 50 by an Ethernet capable of bidirectional communication, and thus the distribution board 100 transmits the circuit information of the distribution board 100 to the operation console 50.

Upon receiving an operation command for the lighting device 10 from the operator, the console 50 generates control information including a control address given to the lighting devices 10-1 to 10-n, and the baton device 20-1 via the hub 30. Control information is transmitted to ~20-n. When the baton devices 20-1 to 20-n receive the control information from the console 50, the baton devices 20-1 to 20-n convert the control information into a control signal (for example, a dimming signal or the like) according to the DMX standard or the RDM standard, The lighting devices 10-1 to 10-n are controlled by outputting a control signal to the lighting device 10 indicated by the control address. In this way, the console 50 uses the control address to remotely control the lighting devices 10-1 to 10-n.

Further, when viewed from distribution board 100, console 50, which is an external device, transmits a control signal to relay 125 when it receives an operation command to a relay (relay 125 described later) included in distribution board 100. The console 50 transmits a control signal to the relay 125 via a cable (communication line) according to the operator's operation. When the operator specifies Ethernet, the console 50 transmits a control signal to the relay 125 via the Ethernet cable, and when the operator specifies DMX, the console 50 transmits a control signal to the relay 125 via the DMX cable. .. The console 50 may determine which cable is used to transmit the control signal regardless of the operation of the operator. When the relay 125 receives a control signal from the console 50, the relay 125 operates according to the control signal. In this way, the console 50 uses the control signal to remotely control the relay 125.

The distribution board 100 has a plurality of circuits 60-1 to 60-n for transmitting electric power to the lighting device 10, and the lighting devices 10-1 to 10-n connected to the circuits 60-1 to 60-n. Supply power to. For example, the distribution board 100 includes functions related to power sources such as input voltage, input current, and leakage, functions related to loads such as output current and leakage, functions related to in-panel states such as temperature, functions related to opening/closing of main breakers and circuit breakers, and various types. It has a function of displaying information and accepting operations.

Further, the distribution board 100 according to the embodiment includes a board operation unit 140. The panel operation unit 140 includes a display unit that displays information (circuit information) about the circuit 60 and the like, and a reception unit that receives an operation. Then, in the panel operation unit 140, the display unit and the reception unit are configured as an integrated device. The panel operation unit 140 is realized by using a display device such as a liquid crystal monitor or a touch panel.

The panel operation unit 140 receives an operation of controlling the power supply of the circuit 60 by the relay 125. For example, the board operation unit 140 receives an operation of selecting an object corresponding to the circuit 60 displayed on the screen, and thus receives an operation of switching the relay 125 that supplies power to the circuit 60 to ON or OFF. As an example, the board operation unit 140 receives an operation of selecting an object corresponding to the circuit 60 indicating an abnormal state, and thus receives an operation of switching the relay 125 that supplies power to the circuit 60 from ON to OFF.

[Connection configuration between console and multiple distribution boards]
Here, an example of the connection configuration when the console 50 is connected to the plurality of distribution boards 100 will be described with reference to FIG. 2. FIG. 2 is a diagram showing an example of a connection configuration between the distribution board 100 according to the embodiment and the console 50. As shown in FIG. 2, the console 50 and each distribution board 100 (100-1 to 100-X) are connected to each distribution board 100 by an Ethernet cable. For example, the console 50 is connected to the first distribution board 100-1 in a one-to-one connection using an Ethernet cable, and is connected to the second distribution board 100-2 in a one-pair connection using an Ethernet cable. 1 is connected. Similarly, the console 50 is connected to the (X-1)th distribution panel 100-(X-1) by an Ethernet cable in a one-to-one correspondence to the Xth distribution panel 100-X. In contrast, they are connected one-to-one using an Ethernet cable. As described above, each distribution board 100 according to the embodiment is connected to the console 50 by Ethernet without using another device (another distribution board 100, a branch board, a conversion device, or the like).

Further, the console 50 and each distribution board 100 are connected in a daisy chain by a DMX cable. For example, the console 50 is connected to the first distribution board 100-1 using a DMX cable, and the first distribution board 100-1 is connected to the second distribution board 100-2. It is connected using a DMX cable. Similarly, the (X-2)th distribution board 100-(X-2) is connected to the (X-1)th distribution board 100-(X-1) using a DMX cable, The (X-1)th distribution board 100-(X-1) is connected to the Xth distribution board 100-X using a DMX cable.

[Composition of distribution board]
Subsequently, an example of a functional configuration of the distribution board 100 according to the embodiment will be described with reference to FIG. FIG. 3 is a block diagram showing an example of the functional configuration of the distribution board 100 according to the embodiment. As illustrated in FIG. 3, the distribution board 100 according to the embodiment includes a power supply unit 122, a main breaker 123 that is a breaker for main wiring, and a branch breaker 124 (124-1 to 124-n that is a breaker for branch wiring). ), a relay 125 (125-1 to 125-n), a storage unit 120, a control unit 130, and a panel operation unit 140.

Here, the external appearance of the functional configuration of the distribution board 100 will be described with reference to FIG. FIG. 4 is an explanatory diagram for explaining the external appearance of the distribution board 100 according to the embodiment. For example, in the distribution board 100, as shown in FIG. 4, a board operation unit 140 is installed above the door of the distribution board 100. Further, as an example of the distribution board 100, a power supply unit 122 and a main breaker 123 are installed in an upper portion inside the housing. Further, as an example, the distribution board 100 is provided with a plurality of branch breakers 124 and a plurality of relays 125 in the lower portion inside the housing. Note that, in FIG. 4, only some of the branch breakers 124 and some of the relays 125 are denoted by reference numerals for the sake of easy understanding of the drawing, but in reality, the branch breakers 124 and the relays 125 having the same shape are the same. It is numbered. Further, the arrangement of the functional units illustrated in FIG. 4 is merely an example, and the functional units may be arranged at arbitrary places.

Returning to FIG. 3, the storage unit 120 is realized by a storage device such as an HDD (Hard Disk Drive), an SSD (Solid State Drive), a flash memory, or a RAM (Random Access Memory). Specifically, the storage unit 120 stores state information indicating the state of the distribution board 100, operation information indicating an operation on the distribution board 100, and the like as internal information.

The power supply unit 122 is a power supply device that supplies electric power. Specifically, the power supply unit 122 supplies power to each of the lighting devices 10-1 to 10-n. For example, the power supply unit 122 supplies power to the lighting device 10 connected to the circuit 60 corresponding to the relay 125 when the relay 125 is turned on under the control of the relay control unit 131 described later.

The master breaker 123 collectively controls the power supply of all the circuits 60 included in the distribution board 100. Further, the main breaker 123 cuts off power supply when the amount of current flowing through all the circuits 60 exceeds a predetermined value. For example, the main breaker 123 cuts off the power supply when the total value of the currents supplied through the wirings exceeds a predetermined threshold value set in advance due to an increase in power consumption, a leakage, or the like.

The branch breaker 124 controls the power supply of the circuit 60 for each circuit 60. Moreover, the branch breaker 124 cuts off the power supply when the amount of current flowing through each circuit 60 exceeds a predetermined value. For example, the branch breaker 124 cuts off the power supply of the circuit 60 when the current flowing through the circuit 60 exceeds a predetermined threshold value set in advance.

The relay 125 is a remotely controllable device (remotely controlled device) that supplies electric power to the circuit 60. The relay 125 controls opening/closing of the circuit 60 according to control by a relay control unit 131 described later. Specifically, the relay 125 supplies power by closing the connection of the circuit 60 corresponding to the relay 125 when an instruction to turn on the relay 125 is output from the relay control unit 131. As a result, the lighting device 10 connected to the circuit 60 corresponding to the relay 125 is supplied with power and lights up. On the other hand, the relay 125 disconnects the power supply by opening the connection of the circuit 60 corresponding to the relay 125 when the instruction to turn off the relay 125 is output from the relay control unit 131. As a result, the lighting device 10 connected to the circuit 60 corresponding to the relay 125 is not supplied with power and is turned off.

The control unit 130 is a device that controls each of the lighting devices 10-1 to 10-n. As the control unit 130, an electronic circuit such as a CPU (Central Processing Unit) or MPU (Micro Processing Unit), or an integrated circuit such as an ASIC (Application Specific Integrated Circuit) or an FPGA (Field Programmable Gate Array) can be adopted. The control unit 130 has an internal memory for storing programs and control data defining various processing procedures, and executes various processing by these. The control unit 130 functions as various processing units by operating various programs. Specifically, the control unit 130 includes a relay control unit 131, a storage control unit 132, and communication units 135-1 to 135-3.

The storage control unit 132 stores internal information, which is various information regarding the distribution board 100, in the storage unit 120. The storage control unit 132 has internal information, for example, information about operation on the panel operation unit 140, information about the power supply unit 122, information about the main breaker 123, information about the branch breaker 124, information about the relay 125, circuit information about the circuit 60, Main circuit information and the like regarding the main circuit connected to the circuit 60 that is a branch circuit is stored in the storage unit 120. The internal information stored in the storage unit 120 by the storage control unit 132 is acquired from the panel operation unit 140, the power supply unit 122, the main breaker 123, the branch breaker 124, the relay 125, the circuit 60, the main circuit, and the like. In other words, the storage control unit 132 receives internal information such as circuit information from the distribution board 100, which is its own device, and stores it in the storage unit 120. In the embodiment, the panel operation unit 140 receives and displays the circuit information regarding the circuit 60 from within the distribution board 100, which is its own device, and the communication unit 135-1 transmits the circuit information to the console 50. The panel operation unit 140 may receive and display internal information other than circuit information. The communication unit 135-1 may also send internal information other than the circuit information to the console 50.

The internal information according to the embodiment is, for example, circuit information regarding the circuit 60. In this case, the circuit information indicates, for example, current information regarding the current flowing through the circuit 60 (such as the current value of the current flowing through the circuit 60), information indicating an abnormality in the circuit 60, and the position of the lighting device 10 connected to the circuit 60. Information etc. The circuit information is acquired by the panel operation unit 140 and stored in the storage unit 120 as internal information.

The communication unit 135-1 is connected to the console 50 via the first communication line 201 which is an Ethernet cable. The communication unit 135-2 is connected to the console 50 via the second communication line 202 which is a DMX cable. The communication unit 135-3 is connected to the panel operation unit 140 via the third communication line 203.

The communication unit 135-1 has a communication function of transmitting and receiving information to and from the console 50. The communication unit 135-1 according to the embodiment communicates with the console 50 using Ethernet. The communication unit 135-1 receives the control signal from the console 50 and transmits the control signal to the relay 125. Further, the communication unit 135-1 transmits the circuit information stored in the storage unit 120 to the console 50. The communication unit 135-1 transmits the circuit information regarding the circuit 60 acquired by the panel operation unit 140 to the console 50, for example.

The communication unit 135-2 has a function of receiving information sent from the console 50. The communication unit 135-2 according to the embodiment communicates with the console 50 using DMX. The communication unit 135-2 receives the control signal from the console 50 and transmits the control signal to the relay 125.

The communication unit 135-3 has a function of receiving internal information such as circuit information sent from the panel operation unit 140 or the like. The communication unit 135-3 receives the control signal from the panel operation unit 140 and transmits the control signal to the relay 125. In addition, the communication unit 135-3 according to the embodiment transmits the internal information sent from the panel operation unit 140 or the like to the storage unit 120 according to the instruction from the storage control unit 132.

The internal information sent from the panel operation unit 140 is, for example, circuit information, and includes information about operations on the distribution board 100, information about the state of the distribution board 100, information about alarms in the distribution board 100, and the like. is there. The internal information such as the circuit information sent from the panel operation unit 140 may be information displayed by the distribution board 100 or information not displayed by the distribution board 100. The communication unit 135-3 may also receive internal information regarding the power supply unit 122, the main breaker 123, the branch breaker 124, and the relay 125.

The relay controller 131 controls power supply to the circuit 60. Specifically, the relay controller 131 supplies power to the circuit 60 that transfers power to the lighting device 10. For example, the relay control unit 131 supplies power to the circuit 60 by turning on the relay 125 corresponding to the circuit 60. As an example, the relay control unit 131 supplies power to the circuit 60 corresponding to the relay 125 by outputting an instruction to turn on the relay 125 to the relay 125. In addition, the relay control unit 131 stops the power supply to the circuit 60 by turning off the relay 125 corresponding to the circuit 60. For example, the relay control unit 131 cuts off the power supply to the circuit 60 corresponding to the relay 125 by outputting an instruction to turn off the relay 125 to the relay 125.

When any of the communication units 135-1 to 135-3 receives an ON control signal, the relay control unit 131 according to the embodiment outputs to the relay 125 an instruction to turn ON the relay 125 corresponding to this control signal. .. For example, when the communication unit 135-1 receives from the operator console 50 a control signal for turning on the relay 125-m (m is any of 1 to n), the communication unit 135-1 issues an instruction to turn on the relay 125-m. Output to 125-m. In this case, if the communication unit 135-1 receives the ON control signal, the relay control unit 131 according to the embodiment determines whether the communication units 135-2 and 135-3 receive the ON control signal. Regardless of whether or not the relay 125-m is turned on.

In addition, when the communication unit 135-2 receives from the console 50 an ON control signal designating the relay 125-m, the communication unit 135-2 outputs an instruction to turn ON the relay 125-m to the relay 125-m. In this case, the relay control unit 131 according to the embodiment determines whether the communication units 135-1 and 135-3 receive the ON control signal if the communication unit 135-2 receives the ON control signal. Regardless of whether or not the relay 125-m is turned on.

Further, when the communication unit 135-3 receives from the panel operation unit 140 an ON control signal designating the relay 125-m, the communication unit 135-3 outputs an instruction to turn ON the relay 125-m to the relay 125-m. In this case, if the communication unit 135-3 receives the ON control signal, the relay control unit 131 according to the embodiment determines whether the communication units 135-1 and 135-2 receive the ON control signal. Regardless of whether or not the relay 125-m is turned on.

As described above, when the communication unit 135-1 receives the control signal, the control unit 130 according to the embodiment controls the relay 125-m using the control signal received by the communication unit 135-1. Further, when the communication unit 135-2 receives the control signal, the control unit 130 according to the embodiment controls the relay 125-m using the control signal received by the communication unit 135-2. Further, when the communication unit 135-3 receives the control signal, the control unit 130 according to the embodiment controls the relay 125-m using the control signal received by the communication unit 135-3.

In the control unit 130 described above, a computer having a CPU, a RAM, an EEPROM (Electrically Erasable Programmable ROM), a flash memory, and the like reads a control program registered in a predetermined recording medium and executes the read control program, May be realized.

Various information (operation to the distribution board 100) is input to the panel operation unit 140 by an operator. The panel operation unit 140 includes a display device such as a liquid crystal panel and displays various information. The panel operation unit 140 displays circuit information regarding the circuit 60 and the like. In addition, the panel operation unit 140 may display main circuit information regarding the main circuit. In addition, the panel operation unit 140 displays, for example, an operation screen of the panel operation unit 140, information about operations on the panel operation unit 140, information about the state of the distribution board 100, and information about alarms in the distribution board 100. May be.

[Processing procedure of distribution board according to the embodiment]
Here, a flow of control processing by the distribution board 100 according to the embodiment will be described with reference to FIG. FIG. 5 is a flowchart showing an example of control processing in the distribution board 100 according to the embodiment.

The relay control unit 131 of the distribution board 100 determines whether the first relay control signal using Ethernet is an ON signal (step S10). In other words, the relay control unit 131 according to the embodiment determines whether the control signal received by the communication unit 135-1 from the console 50 is an ON signal.

When the first relay control signal using Ethernet is the ON signal (step S10; Yes), the relay control unit 131 issues an instruction to turn on the relay 125-m designated by the relay control signal to the relay 125-m. (Step S20).

On the other hand, when the first relay control signal using Ethernet is an OFF signal (step S10; No), the relay control unit 131 determines whether the second relay control signal using DMX is an ON signal. The determination is made (step S30). In other words, the relay control unit 131 according to the embodiment determines whether the control signal received by the communication unit 135-2 from the console 50 is the ON signal.

When the second relay control signal using DMX is an ON signal (step S30; Yes), the relay control unit 131 issues an instruction to turn on the relay 125-m designated by the relay control signal to the relay 125-m. (Step S20).

On the other hand, when the second relay control signal using DMX is the OFF signal (step S30; No), the relay control unit 131 determines whether the third relay control signal from the panel operation unit 140 is the ON signal. It is determined (step S40). In other words, the relay control unit 131 according to the embodiment determines whether the control signal received by the communication unit 135-3 from the panel operation unit 140 is an ON signal.

When the third relay control signal from the panel operation unit 140 is an ON signal (step S40; Yes), the relay control unit 131 issues an instruction to turn on the relay 125-m designated by the relay control signal to the relay 125. -M is output (step S20).

On the other hand, when the third relay control signal from the panel operation unit 140 is an OFF signal (step S40; No), the relay control unit 131 issues an instruction to turn off the relay 125-m designated by the relay control signal. The signal is output to the relay 125-m (step S50).

In this way, if any one of the first to third relay control signals is an ON signal, the relay control unit 131 turns on the relay 125 corresponding to this control signal. Then, if all of the first to third relay control signals are OFF signals, the relay control unit 131 turns OFF the relay 125 corresponding to this control signal. With such a configuration, one or two of communication with the console 50 using Ethernet, communication with the console 50 using DMX, and communication with the panel operation unit 140 are performed. Even when a problem occurs in the operator, the operator operates the relay 125 using communication in which no problem occurs. In other words, the operator controls the relay 125 even when a failure occurs in one or two signal systems connected to the distribution board 100.

[Display of information on the panel operation part]
The panel operation unit 140 displays, for example, circuit information regarding the circuit 60 stored in the storage unit 120. At this time, the panel operation unit 140 displays various information on the screen according to the operation by the operator. Here, the information displayed by the panel operation unit 140 will be described in detail with reference to FIGS. 6 to 10.

FIG. 6 is a diagram showing a first example of a display screen of the distribution board 100 according to the embodiment. As shown in FIG. 6, the panel operation unit 140 displays the circuit information on the circuit 60 on the screen as the information on the state of the distribution board 100. For example, the panel operation unit 140, for each circuit 60, the circuit number of the circuit 60, the current value, the relay state (ON or OFF), the number of times ON/OFF, the number of MCCBs (the number of times MCCB has been interrupted), and the operation at hand. Information about whether or not there is information, information about whether or not output is being performed, information regarding whether or not there is overload, information regarding whether electrical leakage is present, information regarding whether MCCB is OFF, etc. indicate. In this way, the panel operation unit 140 displays the information shown in FIG. 6 so that the operator monitors the alarm. The panel operation unit 140 may display each piece of information by using the presence/absence of blinking, color classification, presence/absence of highlighting, etc. when displaying the circuit information regarding the circuit 60 on the screen.

FIG. 7: is a figure which shows the 2nd example of the display screen of the electricity distribution panel 100 which concerns on embodiment. As shown in FIG. 7, the panel operation unit 140 displays the voltage value and the current value applied to the circuit 60 on the screen as information regarding the state of the distribution board 100. For example, the panel operation unit 140 displays a voltage value and a current value for each of the R phase, the S phase, and the T phase on the screen by a meter. In this way, the panel operation unit 140 displays the information shown in FIG. 7, so that the operator monitors the voltage value and the current value.

FIG. 8: is a figure which shows the 3rd example of the display screen of the electricity distribution panel 100 which concerns on embodiment. As shown in FIG. 8, the panel operation unit 140 displays a history of voltage values and current values applied to the main circuits in the distribution board 100 on the screen as information about the state of the distribution board 100. For example, the panel operation unit 140 displays, on the screen, changes in voltage value, current value, and the like for each R phase, S phase, and T phase over time. FIG. 8 shows a case where the panel operation unit 140 displays on the screen a voltage waveform that is a change in the voltage value of the R phase with time. In this way, the panel operation unit 140 displays the information shown in FIG. 8 so that the operator monitors the waveform of the voltage value or the current value. Note that the waveform sampled and displayed by the distribution board 100 is for one cycle, but a waveform for a plurality of cycles is required to detect an instantaneous blackout (instantaneous interruption).

FIG. 9: is a figure which shows the 4th example of the display screen of the electricity distribution panel 100 which concerns on embodiment. When the screen provided on the distribution board 100 is a touch panel or the like, as shown in FIG. 9, the panel operation unit 140 uses, as an operation screen of the panel operation unit 140, a button indicating the circuit number of the circuit 60 (corresponding to the relay 125. Button) on the screen. FIG. 9 shows the case where the panel operation unit 140 displays the buttons of the circuit 60 having the circuit numbers “1” to “12” on the screen. When the button displayed on the screen is pressed by the operator, the panel operation unit 140 switches ON and OFF of the relay 125 corresponding to the pressed button. The panel operation unit 140 sequentially switches ON and OFF of the relay 125 each time the button is pressed (according to the number of times the button is pressed). As described above, the button displayed on the screen of the distribution board 100 has a function of a relay control switch.

FIG. 10: is a figure which shows the 5th example of the display screen of the electricity distribution panel 100 which concerns on embodiment. The panel operation unit 140 displays a log of alarms generated in the circuit 60 on the screen as information regarding alarms in the distribution board 100. For example, the panel operation unit 140 displays the date of alarm occurrence, the time when the alarm occurred, the state of the circuit 60, the message, etc. on the screen. When the panel operation unit 140 displays the information regarding the alarm, the operator monitors the alarm log.

[Modification of Embodiment]
(Device configuration)
In the above embodiment, the control unit 130 of the distribution board 100 includes the communication units 135-1 to 135-3. Here, the control unit 130 of the distribution board 100 and at least one of the communication units 135-1 to 135-3 may have different configurations. In other words, at least one of the communication units 135-1 to 135-3 may be arranged outside the control unit 130. The storage unit 120 of the distribution board 100 may be arranged in the control unit 130 of the distribution board 100.

(Connection configuration)
In the lighting control system 1, the distribution board 100 and the console 50 may not be connected by DMX. In this case, the distribution board 100 does not need to include the communication unit 135-2, and the distribution board 100 and the console 50 are connected by Ethernet using the communication unit 135-1. Then, the relay control unit 131 controls the relay 125 using the control signal received by the communication unit 135-1 or the communication unit 135-3.

Further, the distribution board 100 may not have the board operation unit 140. In this case, the distribution board 100 does not need to include the communication unit 135-3, and the relay control unit 131 controls the relay 125 using the control signal received by the communication unit 135-1 or the communication unit 135-2. ..

(Control target)
Further, the control signal received by control unit 130 from console 50 or panel operation unit 140 is not limited to the control signal to relay 125, and may be the control signal to another device in distribution board 100. In this case, when the communication units 135-1 to 135-3 receive the control signal to the first device in the distribution board 100, the control unit 130 uses the received control signal to control the first device. To control. Further, when the communication units 135-1 to 135-3 receive the control signal to the second device in the distribution board 100, the control unit 130 uses the received control signal to control the second device. Control.

(Display information)
The distribution board 100 may display the circuit information regarding the circuit 60 in association with the arrangement of the circuit 60. The distribution board 100 may display the circuit information regarding the circuit 60 in various forms different from the arrangement of the circuit 60.

For example, the distribution board 100 or the console 50 may display the circuit information regarding the circuit 60 in association with the arrangement of the relay 125. Accordingly, the distribution board 100 or the console 50 displays the circuit information regarding the circuit 60 in association with the arrangement of the relay 125, and assists the operator in controlling the relay. For example, the distribution board 100 or the console 50 causes the operator to grasp the relay 125 corresponding to the circuit 60 in the abnormal state.

In another example, the distribution board 100 or the console 50 may display the circuit information regarding the circuit 60 in association with the location corresponding to the circuit 60. For example, the distribution board 100 or the console 50 displays the circuit information regarding the circuit 60 in association with the place where the lighting device 10 connected to the circuit 60 is installed. As an example, the distribution board 100 or the console 50 shows information indicating the output state or abnormal state of the circuit 60, such as a stage where the lighting device 10 connected to the circuit 60 is installed, a backstage, a hallway, or the like. Is displayed in association with.

[Other]
In the embodiment described above, the lighting control system 1 has been described by taking the lighting device 10 as an example of a device connected to the circuit 60. It may be connected to a circuit.

While some embodiments of the present invention have been described, these embodiments are presented as examples and are not intended to limit the scope of the invention. These embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the spirit of the invention. The embodiments and their modifications are included in the scope of the invention and the scope thereof, as well as in the invention described in the claims and the scope of equivalents thereof.

1 Lighting Control System 10-1 to 10-n Lighting Equipment 20-1 to 20-n Baton Device 30 Hub 50 Operator Console 60-1 to 60-n Circuit 100, 100-1 to 100-X Distribution Board 120 Storage Unit 122 power supply unit 123 main breaker 124-1 to 124-n branch breaker 125-1 to 125-n relay 130 control unit 131 relay control unit 132 storage control unit 135-1 to 135-3 communication unit 140 panel operation unit 201 first Communication line 202 Second communication line 203 Third communication line

Claims (5)

A remotely controllable relay that supplies power to the circuit;
A first communication unit that receives a first control signal for controlling the relay from an external device and transmits internal information of the device itself to the external device;
A second communication unit that receives a second control signal for controlling the relay from the external device;
When the first communication unit receives the first control signal, the first control signal is used to control the relay, and the second communication unit receives the second control signal. In some cases, a relay control unit that controls the relay using the second control signal;
A distribution board comprising: A panel operation unit that displays circuit information about the circuit and receives an operation of controlling power supply of the circuit by the relay;
A third communication unit that receives a third control signal for controlling the relay from the panel operation unit;
Further comprising,
The relay control unit,
The distribution board according to claim 1, wherein when the third communication unit receives the third control signal, the relay is controlled using the third control signal. The relay control unit,
The distribution board according to claim 2, wherein the relay is turned on when any one of the first to third control signals is an on signal. The board operation unit acquires the circuit information,
The internal information is the circuit information,
The third communication unit,
Receiving the circuit information,
The first communication unit,
The distribution board according to claim 2, wherein the circuit information is transmitted to the external device. The first communication unit,
Communication using Ethernet (registered trademark),
The second communication unit,
The distribution board according to any one of claims 1 to 4, wherein communication is performed using DMX.

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