JP2006140026A - Light dimming control terminal device and light dimming control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a light dimming control terminal device and a light dimming control system capable of performing dimming control of illumination loads connected with individual local area networks through respective access points of a wide-area network. <P>SOLUTION: A switch 21 is provided for setting its own IP address inside local area networks 11, 12a, 12b, a setting table 25 is provided equipped with an IP address of a gateway 15 at an addressee for sending of light dimming signals and IP addresses of addressee dimming control terminal devices 18a to 18n connected to gateways 17a to 17n of the addressees, and further, an arithmetic means 24 is provided for converting the dimming control signals inputted from outside into the IP addresses of the gateways 17a to 17n set at the setting table 25 and the IP addresses of the dimming control terminal devices 18a to 18n. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a dimming control terminal device and a dimming control system for transmitting a dimming control signal via a wide area network and controlling a lighting load.

  For example, in stage or theater lighting, a dimming control signal from a dimming console is transmitted to the lighting load to perform dimming control of the lighting load. When a dimming control signal is transmitted to a lighting load connected in the local area network, a DMX (Digital Multiplex) node is connected in the local area network, and a dimming control signal from the dimming console. Is transmitted to the local area network via the DMX node, and the lighting load receives the dimming control signal from the local area network via the DMX node.

  DMX nodes are connected to each other via an Ethernet cable (Ethernet is a registered trademark), while receiving a DMX signal and transmitting the information to the other DMX node via Ethernet (registered trademark). This device outputs a DMX signal from a DMX node. In other words, DMX is a standard that defines electrical characteristics, data formats, data protocols, connectors, cables, and other specifications for digital transmission between devices used in the stage lighting field. Data transmission is serial transmission. Done in a manner. The DMX signal can continuously transmit dimming level data from the dimming circuit 1 to a maximum of 512, and is divided into 255 gradations from 0 to full (100%) of the dimmer level. In addition to transmission of data at the light control level, control signals such as color changers and moving devices are also transmitted.

Here, an access node device is arranged between an access network to which a plurality of user terminals are connected and a network service provider (ISP) network connected to the Internet, and the user terminal is connected to the ISP network before the user terminal is connected. There is one that uses the connection of a user terminal to a user authentication server for authentication, and can analyze the Internet usage status according to user attribute information (see Patent Document 1).
JP 2003-258911 A

  However, the DMX node device can be used in the local area network but cannot be used by being connected to the wide area network. This is because the network address is the same in the local area network, but the network address differs when used by connecting to a wide area network.

  In stage and theater lighting, the dimming control signal from the dimming console is not only for lighting loads connected to the same local area network, but also for lighting loads connected to other local area networks. There is a demand for enabling control.

  An object of the present invention is to provide a dimming control terminal device and a dimming control system capable of performing dimming control of a lighting load connected to different local area networks via respective access points of a wide area network. To do.

  A dimming control terminal device according to the invention of claim 1 is a switch for setting its own IP address in a local area network; an IP address of a destination gateway for transmitting a dimming control signal, and a destination A setting table having an IP address of a dimming control terminal device connected to the gateway and outputting a dimming control signal to the lighting load; and a dimming control signal inputted from the outside of the gateway of the transmission destination set in the setting table And an arithmetic means for converting into a dimming control signal to which the IP address and the IP address of the destination dimming control terminal device are added.

  In the present invention and each of the following inventions, the definitions and technical meanings of terms are as follows unless otherwise specified. As the switch, for example, a mechanical switch such as a rotary switch as well as various switches such as software and semiconductors can be applied, and the IP address in the local area network is set. In the setting table, IP addresses of all gateways of transmission destinations to which the dimming control signal is transmitted and IP addresses of all dimming control terminal devices of the transmission destinations are set in advance. The computing means adds the IP address of the destination gateway and the IP address of the destination dimming control terminal set in the setting table to the dimming control signal input from the outside. That is, it is converted into a dimming control signal to which the IP address of the gateway of another local area network and the IP address of the dimming control terminal device are added. As a result, dimming control of the lighting load is possible even between local area networks with different network addresses.

  The dimming control terminal device according to the invention of claim 2 is characterized in that, in the invention of claim 1, the dimming control terminal device includes itself in the transmission destination dimming control terminal device of the setting table.

  The present invention enables not only between local area networks having different network addresses but also dimming control of lighting loads connected to the same local area network.

  A dimming control terminal device according to a third aspect of the present invention is the dimming control terminal device according to the second aspect of the invention, wherein the dimming control signal input from the outside is used as it is when the transmission destination dimming control terminal device of the setting table is self. Output to the lighting load.

  In the present invention, when dimming control of a lighting load connected to the same local area network is performed, it is not necessary to convert the dimming control signal. Therefore, the dimming control signal input from the outside is directly used as the lighting load. It is designed to output.

  A dimming control system according to a fourth aspect of the present invention is the dimming control terminal device according to the first aspect of the present invention, wherein the dimming control terminal device is connected to a wide area network by connecting a local area network connected to the dimming control terminal device. A gateway for outputting the dimming control signal converted in step (b) to a wide area network; determining an IP address included in the dimming control signal transmitted via the wide area network; A gateway on the receiving side that receives the control signal; and an IP address included in the dimming control signal received by the gateway on the receiving side; if it is its own IP address, the dimming control signal is received and the lighting load is And a dimming control terminal device on the receiving side that performs dimming control.

  A gateway is provided for each local area network to which a dimming control signal converter on the receiving side is connected. In order to identify the dimming control signal converter on the receiving side, the gateway is identified by determining the IP address of the gateway included in the dimming control signal transmitted via the wide area network. The dimming control signal converter included in is determined by identifying the IP address of the dimming control signal converter connected to the gateway. Thus, the dimming control signal can be transmitted even in a wide area network in which local area networks having different network addresses are connected.

  A dimming control system according to a fifth aspect of the present invention is the dimming control system according to the fourth aspect of the present invention, wherein the dimming control terminal device on the receiving side makes the dimming of the lighting load present when the dimming control signal is interrupted halfway. It is characterized by having an actual light holding function for holding.

  According to the present invention, even when the dimming control signal is interrupted halfway, the lighting state of the illumination load connected to the dimming control terminal device on the receiving side can be maintained as it is.

  According to a sixth aspect of the present invention, there is provided a dimming control system according to the fourth aspect of the present invention, wherein the dimming control terminal device includes a switch for switching between a transmission function and a reception function.

  In the present invention, the dimming control signal converters on the transmission side and the reception side can be switched between a transmission function and a reception function, and information can be transmitted and received between them.

  According to the first aspect of the present invention, it is possible to perform dimming control of the lighting load between local area networks having different network addresses.

  According to the invention of claim 2, dimming control of the lighting load connected to the local area network having the same network address can be performed.

  According to the invention of claim 3, since the dimming control signal inputted from the outside can be output as it is to the lighting load connected to the local area network having the same network address, the process of the dimming control terminal device is performed. It is reduced.

  According to the invention of claim 4, even in a wide area network in which local area networks having different network addresses are connected, it is possible to easily transmit a dimming control signal and to control dimming of an illumination load.

  According to the invention of claim 5, when the dimming control signal is interrupted halfway, the dimming of the lighting load is maintained at the current state. For example, the lighting load is lit even when a trouble occurs in the wide area network. Can be maintained.

  According to the invention of claim 6, since the dimming control terminal device can switch between the transmission function and the reception function, the dimming control terminal device on the transmitting side and the dimming control terminal device on the receiving side are switched. Can do.

  FIG. 1 is a configuration diagram of a dimming control system according to an embodiment of the present invention. In FIG. 1, a local area network 11 of a broadcasting station and local area networks 12a to 12n of a plurality of IP studios are connected to a wide area network 13, and the local area networks 12a to 12a of a plurality of IP studios are connected from the local area network 11 of the broadcasting station. 12 shows a dimming control system that transmits a dimming control signal to 12n and controls the lighting loads 14a to 14n connected to the local area networks 12a to 12n.

  That is, the local area network 11 of the broadcasting station is the transmission side, and the local area networks 12a to 12n are the reception side. The wide area network 13 constructs a network from the access point AP via the gateways 15 and 17a to 17n provided for the local area networks 11 and 12a to 12n. In the wide area network 13, a unique IP address is set for each local area network 11, 12a to 12n and each terminal by the network administrator.

  The local area network 11 of the broadcasting station is connected with a gateway 15 on the transmission side and a dimming control terminal device 16, while each of the local area networks 12a to 12n has a gateway 17a to 17n on the reception side and a destination control. Light control terminal devices 18a to 18n are connected.

  The dimming control terminal device 16 on the transmission side of the local area network 11 of the broadcasting station converts the dimming control signal input from the outside into a dimming control signal corresponding to the wide area network 13, and converts the converted dimming control signal to the gateway. 15 to the wide area network 13. That is, the source dimming control terminal device 16 adds the IP address of the destination gateways 17a to 17n and the IP address of the destination dimming control terminal devices 18a to 18n to the dimming control signal input from the outside. These are converted into dimming control signals to which these IP addresses are added. Then, the dimming control signal converted to the wide area network 13 is transmitted via the gateway 15 on the transmission side.

  The gateways 17a to 17n of the local area networks 12a to 12n determine the IP address included in the dimming control signal transmitted via the wide area network 13, and the dimming control signal when the local area network 12a to 12n is its own IP address. Receive. Then, the dimming control terminal devices 17a to 17n of the local area networks 12a to 12n determine the IP address included in the dimming control signal received by the gateways 17a to 17n on the receiving side, and are their own IP addresses. When the lighting control signal is received, the lighting loads 14a to 14n are dimmed and controlled.

  FIG. 2 is a front view of the dimming control terminal device 16 or the transmission destination dimming control terminal devices 18a to 18n in the local area networks 11 and 12a to 12b. The source dimming control terminal device 16 and the receiving side dimming control devices 18a to 18n have the same configuration. In FIG. 2, a dimming control terminal device 16 (destination dimming control terminal devices 18a to 18n) has an input terminal 19 from which an external dimming control signal is output and an output terminal 20 from which the dimming control signal is output. The dimming control signal is input from the input terminal 19, and the dimming control signal is output from the output terminal 20 to the lighting load in the same local area network 11.

  The dimming control terminal device 16 (transmission destination dimming control terminal devices 18 a to 18 n) includes a switch 21 and an Ethernet (registered trademark) connection terminal 22. The switch 21 sets the IP address and local area network number of its own dimming control terminal device 16, 18a-18n in the local area network 11, 12a-12n. An Ethernet connection terminal (Ethernet is a registered trademark) 22 is a terminal for connecting the dimming control terminal device 16 (transmission destination dimming control terminal devices 18a to 18n) to the Ethernet (registered trademark).

  FIG. 3 is a block configuration diagram of the dimming control terminal device 16 (transmission destination dimming control terminal devices 18a to 18n). The source dimming control terminal device 16 and the receiving side dimming control terminal devices 18 a to 18 n have the same configuration, but the source dimming control terminal device 16 is connected to the source dimming control terminal device 16 via the input terminal 19. While the dimming control signal is input, the dimming control signal is not input to the input terminals 19 of the transmission destination dimming control terminal devices 18a to 18n on the receiving side. This is because the dimming control signal is transmitted from the transmitting side dimming control terminal device 16 via the wide area network 13.

  First, the dimming control terminal device 16 of the transmission source will be described. An external dimming control signal is input to the source dimming control terminal device 16 via the input terminal 19. For example, a dimming control signal from the dimming console is input via the input terminal 19. The input dimming control signal is input to the arithmetic means 24 via the serial IC 23. The source dimming control terminal device 16 has a setting table 25. The setting table 25 includes the IP addresses of the destination gateways 17a to 17n that transmit the dimming control signal and the destination gateways 17a to 17n. IP addresses of the destination dimming control terminal devices 18a to 18n connected to are preset.

  The calculation means 24 converts the dimming control signal input from the outside via the serial IC 23 into a dimming control signal corresponding to the wide area network 13 based on the information set in the setting table.

  That is, as shown in FIG. 4, the IP address of the destination gateways 17a to 17n and the IP address of the destination dimming control terminal devices 18a to 18n are added to the dimming control signal input from the outside, and these IP addresses are added. Is converted to a dimming control signal. Since the dimming control signal normally includes 512 dimming level data at maximum, the dimming level data includes the IP address of the destination gateways 17a to 17n and the destination dimming control terminal devices 18a to 18a. An IP address of 18n is added. Then, the data is output to the gateway 15 on the transmission side via the LAN controller 26. As a result, the gateway 15 on the transmitting side transmits the converted dimming control signal to the wide area network 13.

  Next, the transmission destination dimming control terminal devices 18a to 18n on the receiving side will be described. In the case of the transmission destination dimming control terminal devices 18a to 18n, dimming control signals are input from the wide area network 13 via the gateways 17a to 17n. The gateways 17a to 17n determine the IP address included in the input dimming control signal, receive the dimming control signal when it is the self IP address, and the LAN controllers of the destination dimming control terminal devices 18a to 18n. 26.

  The calculation means 24 determines the IP address included in the dimming control signal received by the LAN controller 26, determines whether or not it is its own IP address, and if it is its own IP address, the dimming control signal is output. Then, the dimming signal is output to the lighting loads 14a to 14n through the serial IC 23 and the output terminal 20, and the lighting loads 14a to 14n are dimmed and controlled.

  Here, in the setting table 25 of the transmission destination dimming control terminal devices 18a to 18n, the IP address of the transmission source dimming control terminal device 16 is set, and the local area network number and transmission destination set by the switch 21 are set. The IP addresses of the dimming control terminal devices 18a to 18n are stored.

  Thereby, the transmission destination dimming control terminal devices 18a to 18n can know their own IP address by setting the local area network number and the own IP address for each installed local area network. Further, the source dimming control terminal device 16 can know the IP addresses of all the destination dimming control terminal devices 18a to 18n.

  Next, the setting table 25 of the transmission source dimming control terminal device 16 may include itself in addition to the transmission destination dimming control terminal devices 18a to 18n. In order to output the dimming control signal to the lighting load 14 of the own dimming control terminal device 16 when the self is included, the dimming control signal input from the outside is output to the own lighting load as it is. That is, when the transmission destination dimming control terminal device is itself, the calculation means 24 outputs the dimming control signal input from the outside as it is from the output terminal 20 to its own lighting load. This is because the dimming control signal is not transmitted via the wide area network 13, and therefore it is not necessary to convert the dimming control signal.

  On the other hand, when the dimming control signal input via the wide area network 13 is interrupted, the transmission destination dimming control terminal devices 18a to 18n have the illumination loads 14a to 14n until a new dimming control signal is received. The dimming may be maintained as it is. Thereby, even if a trouble occurs in the wide area network, the lighting load can be kept on.

  Moreover, it is also possible to provide the dimming control terminal device 16 and the transmission destination dimming control terminal devices 18a to 18n with a changeover switch for switching between the transmission function and the reception function. Thus, since the transmission function and the reception function can be switched, the transmission source dimming control terminal device 16 and the transmission destination dimming control terminal devices 18a to 18n on the receiving side can be interchanged. Furthermore, an LED display that displays the connection status to the Ethernet (registered trademark), an LED display that displays the reception status of the dimming control signal, or an LED display that displays the transmission status of the dimming control signal is provided. Is also possible. Thereby, the operation state of the dimming control terminal device 16 and the transmission destination dimming control terminal devices 18a to 18n can be easily confirmed.

  Each of the transmission destination dimming control terminal devices 18a to 18n has a function of returning an answer each time reception is received from the transmission source dimming control terminal device 16, and the transmission source dimming control terminal device 16 includes: Provide a function that recognizes only those with answers as being currently connected. Thereby, transmission control can be efficiently performed only for the currently connected transmission destination dimming control terminal devices 18a to 18n.

  Further, the destination dimming control terminal devices 18a to 18n have a function of periodically transmitting a ping from the transmission destination dimming control terminal devices 18a to 18n on the receiving side to the source dimming control terminal device 16. It may be. Thus, by prompting re-registration to the routing table of the gateway 15, it is possible to automatically connect to the wide area network 13 after the power is turned on.

  On the contrary, the dimming control terminal device 16 of the transmission source is provided with a function of periodically transmitting a ping from the dimming control terminal device 16 of the transmission source to all the transmission destination dimming control terminal devices 18a to 18n. Also good. Thus, by prompting re-registration to the routing table of the gateway 15, it is possible to automatically connect to the wide area network 13 after the power is turned on.

The block diagram of the light control system concerning embodiment of this invention. The front view of the light control terminal device in the local area network of embodiment of this invention. The block block diagram of the light control terminal device of embodiment of this invention. Explanatory drawing of the dimming control signal converted with the dimming control terminal device of embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 11 ... Local area network, 12 ... Local area network, 13 ... Wide area network, 14 ..., 15 ... Gateway, 16 ... Dimming control terminal device, 17 ... Gateway, 18 ... Destination dimming control terminal device, 19 ... Input terminal , 20 ... output terminal, 21 ... switch, 22 ... Ethernet connection terminal (Ethernet is a registered trademark), 23 ... serial IC, 24 ... computing means, 25 ... setting table, 26 ... LAN controller

Claims (6)

A switch for setting its own IP address in the local area network;
A setting table having an IP address of a destination gateway that transmits a dimming control signal and an IP address of a destination dimming control terminal device that is connected to the destination gateway and outputs a dimming control signal to a lighting load;
Arithmetic means for converting a dimming control signal input from the outside into a dimming control signal to which the IP address of the destination gateway set in the setting table and the IP address of the destination dimming control terminal device are added;
A dimming control terminal device comprising:   2. The dimming control terminal device according to claim 1, wherein self is included in a transmission destination dimming control terminal device of the setting table.   3. The dimming control terminal device according to claim 2, wherein when the transmission destination dimming control terminal device of the setting table is self, the dimming control signal input from the outside is output as it is to its own lighting load. . A dimming control terminal device according to claim 1;
A gateway that connects a local area network to which the dimming control terminal device is connected to a wide area network and outputs a dimming control signal converted by the dimming control terminal apparatus to the wide area network;
A gateway on the receiving side that discriminates an IP address included in the dimming control signal transmitted via the wide area network and receives the dimming control signal when the IP address is its own IP address;
A receiving-side dimming control terminal that discriminates an IP address included in the dimming control signal received by the gateway on the receiving side, and receives the dimming control signal and controls the lighting load when the IP address is its own IP address. With the device;
A dimming control system comprising:   5. The dimming control terminal device according to claim 4, wherein the dimming control terminal device on the receiving side has an actual light holding function for holding the dimming of the illumination load at a current state when the dimming control signal is interrupted in the middle. Light control system. 5. The dimming control system according to claim 4, wherein the dimming control terminal device includes a changeover switch for switching between a transmission function and a reception function.

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