JP4950832B2 - Duct-mounted PLC plug and its parent-child setting method - Google Patents

Description

  The present invention relates to a duct-mounted PLC plug that accommodates a conductor connected to a power line routed in a building and is used by being mounted on a wiring duct installed on the ceiling of the building and a parent-child setting method thereof.

  Power lines are installed in various places such as dwellings and office buildings to supply power. In recent years, power line communication (PLC) using this power line as a transmission path has been established. Since this PLC realizes communication between devices using an existing power line, it is possible to network devices without newly introducing and constructing a dedicated communication line.

  On the other hand, in Patent Document 1, a lighting duct such as an electric light or a network device is arranged in a wiring duct that is disposed on a ceiling of a building and houses a conductor for connecting to a power line routed in the building. A wiring duct system is disclosed that is used with a power plug for connecting a power cable.

In recent years, as a plug used in this wiring duct system, not only power supply via a conductor in the wiring duct but also power line carrier communication (PLC communication) between network devices can be performed (duct mounted PLC plug). Attempts have been made to use. The duct mounting type PLC plug is provided with a communication cable connecting portion to which a communication cable of a network device is connected, and the communication cable of the network device is connected to the communication cable connecting portion of the duct mounting type PLC plug attached to the wiring duct. When this is connected, this network device can perform PLC communication using the conductor in the wiring duct.
JP 53/084195

  By the way, in the above-described wiring duct system, in order to perform PLC communication using a conductor in the wiring duct between a plurality of network devices arranged at positions distant from each other, a duct-mounted PLC plug is prepared for each network device. Therefore, it is necessary to attach these at appropriate positions of the wiring duct. When a plurality of duct-mounted PLC plugs are used by being mounted on a wiring duct in this way, they are mounted on the wiring duct in order to perform appropriate communication between a plurality of network devices connected to each duct-mounted PLC plug. PLC communication is controlled by the duct-mounted PLC plug set in the master unit by setting any one of the plurality of duct-mounted PLC plugs to be set as the master unit and the other plugs as slave units. It is desirable to have a configuration.

  The parent-child setting between the plurality of duct-mounted PLC plugs is performed, for example, by identifying unique identification information of the duct-mounted PLC plug serving as the child machine from the duct-mounted PLC plug serving as the child machine. This is realized by performing processing such as transmitting to the PLC plug, and receiving the identification information of the duct-mounted PLC plug serving as the slave unit and registering it in the table. Therefore, in order to perform parent-child settings between a plurality of duct-mounted PLC plugs, it is necessary to connect these duct-mounted PLC plugs so that they can communicate with each other while power is supplied to each duct-mounted PLC plug.

  Here, since the duct mounting type PLC plug is configured on the assumption that it is used by being mounted on the wiring duct as described above, power is not supplied unless it is mounted on the wiring duct. In other words, the duct-mounted PLC plugs cannot be connected to each other in a communicable manner. Therefore, until now, in a state where a plurality of duct-mounted PLC plugs are actually mounted at predetermined positions of wiring ducts already installed on the ceiling of the building, each duct-mounted PLC plug is operated to operate the parent and child. At present, work for setting is performed, and this has been a factor that causes deterioration in workability of the parent-child setting work.

  Accordingly, an object of the present invention is to provide a duct-mounted PLC plug and a method for setting the parent and child thereof that can simplify the setting of the parent-child of the duct-mounted PLC plug that is used by being mounted on the wiring duct.

  The invention according to claim 1 is a duct-mounted PLC plug that is installed on a wiring duct that is installed on a ceiling of a building and is electrically connected to a power line arranged in the building. A communication means for performing power line carrier communication between a power line routed in a building and a connection part that can be electrically connected without going through the wiring duct, and another duct-mounted PLC plug; and In a state where power is supplied from the wired power line through the connection part, power line carrier communication using the power line is performed between the communication unit and another duct-mounted PLC plug by the communication unit to set the parent and child. And a parent-child setting processing means for performing.

  According to a second aspect of the present invention, there is provided a parent-child between a plurality of duct-mounted PLC plugs installed on a wiring duct that is installed on a ceiling of a building and electrically connected to a power line routed in the building. A method of setting, wherein each of the plurality of duct-mounted PLC plugs is provided with a connection portion that can be electrically connected to a power line routed in a building without going through the wiring duct. In the state where power is supplied via the connection part from the power lines routed to the buildings, the duct-mounted PLC plugs of each of the ducts perform power line carrier communication using the power lines and perform parent-child settings, It is characterized by.

  According to the present invention, a power line in which each duct-mounted PLC plug is routed to a building by a connecting portion without mounting a plurality of duct-mounted PLC plugs on an existing wiring duct installed on the ceiling of the building or the like. Since the plurality of duct-mounted PLC plugs are set for parent-child setting, the parent-child setting operation can be simplified.

  Hereinafter, a duct mounting type PLC plug to which the present invention is applied and a wiring duct system using the same will be described with reference to the drawings.

  FIG. 1 is a diagram illustrating an overall configuration of a wiring duct system. This wiring duct system uses the wiring duct 20 installed on the ceiling of the building to supply power from the power line 70 routed in the building to the lighting device 200, the network devices 100A and 100B, and the network device 100A. , 100B is a system that enables power line carrier communication (PLC communication) between 100B.

  The wiring duct 20 installed on the ceiling of the building is connected to, for example, a power line for transmitting commercial power via the distribution board 10. The wiring duct 20 is fitted with a power plug 50 and duct-attached PLC plugs 60A and 60B. The lighting device 200 having no communication function is connected to the power plug 50, and network devices 100A and 100B such as cameras and personal computers having a communication function are connected to the duct-mounted PLC plugs 60A and 60B, respectively.

  As shown in FIG. 2, the wiring duct 20 has a slide rail 23 formed into a long rail shape, and a conductor 26 is provided along the longitudinal direction inside the slide rail 23. Yes. As shown in FIG. 2, the slide rail 23 is provided with an opening 24 that opens in the longitudinal direction at the lower end thereof, and through this opening 24, the power plug 50 and the duct-mounted PLC plug 60 </ b> A, 60B can be detachably mounted. A pair of holders 731 projecting inward are provided on the pair of inner walls facing each other inside the slide rail 23 along the longitudinal direction, and the conductors 26 are disposed on the pair of holders 731, respectively. Has been. The tops of the pair of holders 731 are open, and a part of the conductor 26 is exposed from the tops of the open holders 731. The power plug 50 and the duct-mounted PLC plugs 60 </ b> A and 60 </ b> B mounted through the opening 24 of the slide rail 23 are in contact with the conductor 26 at the top of the holder 731, so that the terminal portion contacts the conductor 26. Are electrically connected.

  A PLC feed-in 30 is connected to one end of the slide rail 23 in the longitudinal direction (end on the distribution board 10 side). The PLC feed-in 30 supplies power from the distribution board 10 to the conductor 26 in the slide rail 23 and prevents a power line carrier communication signal (PLC signal) flowing through the conductor 26 from leaking to the distribution board 10. For example, as shown in FIG. 1B, a blocking filter 32 including a normal mode capacitor C1 and common mode choke coils L1 and L2 is provided.

  Further, a PLC end 40 is provided at the other end portion (terminal portion) in the longitudinal direction of the slide rail 23. The PLC end 40 is for preventing reflection of the PLC signal flowing through the conductor 26 inside the slide rail 23, and is composed of a capacitor Cw and a resistance element Rw, for example, as shown in FIG. . The PLC end 40 is designed so that impedance characteristics are matched with the conductor 26 inside the slide rail 23.

  FIG. 3 shows the structure in the vicinity of the terminal portions of the power plug 50 and the duct-mounted PLC plugs 60A and 60B mounted on the wiring duct 20. The structure in the vicinity of the terminal portion is common to the power plug 50 and the duct-mounted PLC plugs 60A and 60B.

  As shown in FIG. 3A, the power plug 50 and the duct-attached PLC plugs 60A and 60B attached to the wiring duct 20 have a cylindrical portion 55 protruding from the main body portion 52. A terminal portion 54 is formed on the peripheral surface of the portion 55. This terminal portion 54 is connected to an electric wire 57 in the main body portion 52. A projecting portion 53 is formed on the peripheral surface of the cylindrical portion 55 at a position closer to the main body portion 52 than the terminal portion 54.

  When the power plug 50 and the duct mounting type PLC plugs 60 </ b> A and 60 </ b> B having such a structure are mounted on the slide rail 23 of the wiring duct 20, the cylindrical portion 55 is located inside the slide rail 23 from the opening 24 at the lower end of the slide rail 23. Inserted into. Then, when the cylindrical portion 55 is rotated in this state, the terminal portion 54 comes into contact with the conductor 26 disposed in the holder 731 inside the slide rail 23 as shown in FIG. At this time, the projecting portion 53 is fitted between the pair of inner walls of the slide rail 23, and the state of being attached to the slide rail 23 is maintained.

  The power plug 50 and the duct mounting type PLC plugs 60A and 60B are mounted on the slide rail 23 of the wiring duct 20 as described above, and the terminal portion 54 comes into contact with the conductor 26 inside the slide rail 23. Electrically connected. At this time, since the power is supplied from the distribution board 10 to the conductor 26 inside the slide rail 23 as described above, this power is supplied to the power plug 50 and the duct-mounted PLC plugs 60A and 60B via the conductor 26. Will be supplied. Further, when the lighting device 200 is connected to the power plug 50 and the network devices 100A and 100B are connected to the duct-mounted PLC plugs 60A and 60B, power is supplied to these devices. Further, the network devices 100A and 100B are connected to the duct-mounted PLC plugs 60A and 60B via communication cables, respectively, so that PLC communication is possible via the conductor 26 in the slide rail 23.

  Next, the internal configuration of the duct-mounted PLC plugs 60A and 60B for realizing PLC communication between the network devices 100A and 100B will be described with reference to FIG.

  The duct-mounted PLC plugs 60A and 60B convert information signals (for example, LAN signals) transmitted from the network devices 100A and 100B via the communication cables into PLC signals and transmit them to the conductors 26 of the slide rail 23. It has a function of receiving a PLC signal flowing through the conductor 26, converting the received PLC signal into a LAN signal and transmitting it to the network devices 100A and 100B. For example, as shown in FIG. 5, the network devices 100A and 100B Are connected to each other, and an interface unit 4 (communication means) including a transmission / reception unit 46, a power line carrier communication modem 47, a communication interface 48, and a control unit 49.

  LAN signals transmitted from the network devices 100 </ b> A and 100 </ b> B via the communication cable are input to the interface unit 4 via the communication cable connection unit 5 and received by the communication interface 48 of the interface unit 4. The LAN signal received by the communication interface 48 is converted into a PLC signal by the power line carrier communication modem 47, and the wiring duct 20 slides from the transmission / reception unit 46 via the electric wires 57 inside the duct-mounted PLC plugs 60A and 60B. It is sent to the conductor 26 inside the rail 23. Conversely, the PLC signal transmitted through the conductor 26 inside the slide rail 23 is input to the interface unit 4 from the electric wires 57 inside the duct-mounted PLC plugs 60 </ b> A and 60 </ b> B and is received by the transmission / reception unit 46 of the interface unit 4. The Then, the PLC signal received by the transmission / reception unit 46 is converted into a LAN signal by the power line carrier communication modem 47, and then the network device 100 </ b> A via the communication cable connected from the communication interface 48 to the communication cable connection unit 5. 100B.

  The operation of each component of the interface unit 4 as described above is controlled by the control unit 49. The control unit 49 also performs control of the display unit 45 that displays, for example, the operation state of the duct-mounted PLC plugs 60A and 60B, and operation control at the time of parent-child setting described later (parent-child setting processing means). . In addition, power is supplied to each component of the interface unit 4 via a power supply unit 44 including an AC / DC converter.

  Note that the electric wires 57 in the duct-mounted PLC plugs 60 </ b> A and 60 </ b> B and the interface unit 4 are connected via a DC cut capacitor 42 and an insulating transformer 43. Further, the electric wires 57 inside the duct-mounted PLC plugs 60A and 60B are also connected to the outlet portion 7 for supplying power to the network devices 100A and 100B.

  In the wiring duct system of the present embodiment, as described above, the two duct mounting type PLC plugs 60A and 60B are mounted on the slide rail 23 of the wiring duct 20, and the network device 100A is connected to the duct mounting type PLC plugs 60A and 60B. 100B is connected to each other so that PLC communication can be performed by these network devices 100A and 100B. For this reason, it is desired to perform parent-child setting between the two duct-mounted PLC plugs 60A and 60B, with either one serving as a master unit and the other serving as a slave unit.

  However, the parent-child setting between the duct-mounted PLC plugs 60A and 60B has so far been performed by actually mounting the duct-mounted PLC plugs 60A and 60B on the wiring duct 20 previously installed on the ceiling. However, there was a problem that the work was complicated. Therefore, in this embodiment, as shown in FIGS. 5 and 6, each of the duct-mounted PLC plugs 60 </ b> A and 60 </ b> B is electrically connected to the power line 70 arranged in the building without the wiring duct 20. A connectable connecting portion 90 is provided. And each duct mounting type | mold PLC plug 60A, 60B performs PLC communication using the power line 70 in the state in which the electric power is supplied via the connection part 90 from the power line 70 each wired by the building, and a parent and child By adopting a configuration for performing the setting, the setting work for the parent-child setting can be easily performed.

  The connection part 90 of the duct-mounted PLC plugs 60A and 60B is configured to be connectable to, for example, an electric power line 70 routed in the building from an outlet 150 provided in the building. Specifically, as shown in FIG. 6 (b), for example, the connecting portion is formed by connecting a pair of pin plugs 93 connected to the electric wires 57 inside the duct-mounted PLC plugs 60A and 60B to the outlet of the power cord 96. The structure is exposed in 94. As shown in FIG. 7, the power cord 96 is provided with a power plug 95 having a plug blade that can be connected to a building outlet 150 at one end, and at the other end, duct-mounted PLC plugs 60A and 60B. A pin jack 97 to be attached to the insertion port 94 of the connecting portion 90 is provided. By connecting the power plug 95 of the power cord 96 to the outlet 150 of the building and attaching the pin jack 97 to the insertion port 94 of the connection part 90 of the duct-mounted PLC plugs 60A and 60B, the duct-mounted PLC plug 60A. 60B is electrically connected to a power line 70 routed in the building from an outlet 150 provided in the building via a power cord 96.

  In this way, the connection portion 90 of the duct-mounted PLC plugs 60A and 60B is connected to the power line 70 via the power cord 96, so that the power from the power line 70 is supplied to the duct-mounted PLC plugs 60A and 60B. Supplied. In addition, each of the duct-mounted PLC plugs 60A and 60B can perform PLC communication using the power line 70.

  The connecting portion 90 of the duct-mounted PLC plugs 60A and 60B described above is configured to be connected to the power line 70 from the outlet 150 using the power cord 96, but the connecting portion of the duct-mounted PLC plugs 60A and 60B is used. 90 may be of any configuration as long as it can be electrically connected to the power line 70. For example, the connection unit 90 itself may include a plug blade and be directly connected to the outlet 150. Good.

  In addition, as shown in FIG. 5, the duct-mounted PLC plugs 60 </ b> A and 60 </ b> B have power supply paths to the duct-mounted PLC plugs 60 </ b> A and 60 </ b> B, A switching unit 62 is provided for switching between a path through which power is supplied from the outlet 150. The switching unit 62 selectively switches the electric wire 57 connected to the interface unit 4 inside the duct-mounted PLC plugs 60A and 60B to either the electric wire 57d on the wiring duct 20 side or the electric wire 57c on the outlet 150 side. Connect. Specifically, the switching unit 62 routes the electric wires 57 in the duct-mounted PLC plugs 60A and 60B in a state where the connection unit 90 is not electrically connected to the power line 70 arranged in the building. It is connected to the electric wire 57d on the duct 20 side, and electric power can be supplied through the wiring duct 20. On the other hand, the switching unit 62 senses when the connection unit 90 is electrically connected to the power line 70 arranged in the building, and connects the electric wires 57 inside the duct-mounted PLC plugs 60A and 60B to the outlet. It is connected to the electric wire 57c on the 150 side, so that power can be supplied from the outlet 150 via the connecting portion 90.

  As described above, the parent-child setting between the duct-mounted PLC plugs 60A and 60B is performed by connecting the connecting portion 90 of each duct-mounted PLC plug 60A and 60B from the outlet 150 of the building to the power line 70 via the power cord 96. The duct-mounted PLC plugs 60 </ b> A and 60 </ b> B are connected to the power line 70 in a state where power is supplied from the power line 70 to the duct-mounted PLC plugs 60 </ b> A and 60 </ b> B via the connection portion 90. It is implemented by performing PLC communication using.

  Here, taking as an example a case where the duct-mounted PLC plug 60A is set as a master unit and the duct-mounted PLC plug 60B is set as a slave unit, a procedure for performing parent-child setting between the duct-mounted PLC plugs 60A and 60B is taken as an example. explain.

  As shown in FIGS. 4 and 5, the duct-mounted PLC plugs 60 </ b> A and 60 </ b> B include a parent / child setting button 80 for instructing the control unit 49 of the interface unit 4 to start parent-child setting processing, And a parent-child setting slide switch 81 for identifying whether to set to the slave unit. For example, as shown in FIG. 4B, the parent / child setting slide switch 81 is slid to the left in the drawing when it is desired to be set as the parent device, and is slid to the right in the drawing when it is desired to be set as the child device. It is configured. The parent / child setting button 80 includes a push button that can be operated by an operator. When the parent / child setting button 80 is pressed by the operator, the control unit 49 of the interface unit 4 sets the parent / child. Start processing.

  When the duct-mounted PLC plug 60A is set as the master unit and the duct-mounted PLC plug 60B is set as the slave unit, first, the connecting portions 90 of the duct-mounted PLC plugs 60A and 60B are connected to the building via the power cord 96. The power outlet 70 is electrically connected to the power line 70. Then, the parent-child setting slide switch 81 of the duct-mounted PLC plug 60A is slid to the parent side, and the parent-child setting slide switch 81 of the duct-mounted PLC plug 60B is slid to the child side. In this state, the parent-child setting button 80 of the duct-mounted PLC plug 60A and the parent-child setting button 80 of the duct-mounted PLC plug 60B are pressed simultaneously. As a result, an instruction to start the parent-child setting process as a master unit is input to the control unit 49 of the duct-mounted PLC plug 60A, and the control unit 49 of the duct-mounted PLC plug 60B is input. Receives an instruction to start the parent-child setting process as a slave.

  The control unit 49 of the duct-mounted PLC plug 60B reads a unique address (identification information) stored in advance in an internal memory or the like when an instruction to start the parent-child setting process as a slave unit is input. The address is transmitted to the duct-mounted PLC plug 60A by PLC communication using the power line 70. On the other hand, when an instruction to start the parent-child setting process as the master unit is input, control unit 49 of duct-mounted PLC plug 60A transmits from duct-mounted PLC plug 60B by PLC communication using power line 70. The received address is received, and the received address of the duct-mounted PLC plug 60B is registered in a table provided in an internal memory or the like. Thereby, the parent-child setting between the duct-mounted PLC plugs 60A and 60B is completed.

  As described above in detail with specific examples, in the present embodiment, when performing parent-child setting between the duct-mounted PLC plugs 60A and 60B that are mounted on the wiring duct 20 and used, The connection part 90 provided in the wearable PLC plugs 60A and 60B is electrically connected from the outlet 150 provided in the building to the power line 70 routed in the building. Then, in a state in which power is supplied from the power line 70 to the duct-mounted PLC plugs 60A and 60B via the connecting portion 90, PLC communication using the power line 70 between the duct-mounted PLC plugs 60A and 60B. To execute the process for parent-child setting. Therefore, it is not necessary to perform the work for setting the parent and child by actually installing the duct-attached PLC plugs 60A and 60B using a stepladder or the like on the wiring duct 20 already installed on the ceiling, and in an easy-to-work place. After performing the parent-child setting operation between the duct-mounted PLC plugs 60A, 60B using the connection portion 90 provided in each of the duct-mounted PLC plugs 60A, 60B, the duct-mounted PLC plug 60A in which the parent-child setting is completed. , 60B may be attached to the wiring duct 20 installed on the ceiling, and the work efficiency can be improved by simplifying the work.

(A) shows the overall configuration diagram of the wiring duct system, (b) shows a circuit diagram of the PLC feed-in, and (c) shows a circuit diagram of the PLC end. The external appearance block diagram of the slide rail of the wiring duct used for the wiring duct system same as the above is shown. (A) has shown sectional drawing of the terminal part vicinity of the duct mounting type | mold PLC plug and electric power plug concerning one Embodiment of this invention, (b) has shown the state attached to the wiring duct. (A) shows the perspective view which looked at the duct mounting type PLC plug same as the above from the lower part, (b) has shown the enlarged view of the parent-child setting slide switch of a duct mounting type PLC plug. The circuit diagram of the duct mounting type | mold PLC plug same as the above is shown. 4A is a perspective view of the other surface of the duct-mounted PLC plug shown in FIG. 4 as viewed from below, and FIG. 4B is an enlarged view of a connecting portion of the duct-mounted PLC plug. The connection means of the connection part of the duct mounting type | mold PLC plug same as the above and the power line routed in the building is shown.

Explanation of symbols

4 Interface part (communication means)
5 Communication cable connection part 20 Wiring duct 49 Control part (parent-child setting processing means)
60A, 60B Duct-mounted PLC plug 70 Power line 80 Parent-child setting button 81 Parent-child setting slide switch 90 Connection unit 100A, 100B Network device 150 Outlet

Claims (2)

A duct-mounted PLC plug that is used by being mounted on a wiring duct that is installed on the ceiling of a building and electrically connected to a power line arranged in the building,
A connection part that can be electrically connected to the power line routed in the building without going through the wiring duct;
Communication means for performing power line carrier communication with other duct-mounted PLC plugs;
In a state where power is supplied from the power line arranged in the building via the connection portion, power line carrier communication using the power line is performed between the communication means and another duct-mounted PLC plug. A duct-attached PLC plug, comprising: a parent-child setting processing unit configured to perform parent-child setting. A method of performing parent-child setting between a plurality of duct-mounted PLC plugs used by being mounted on a wiring duct installed on a ceiling of a building and electrically connected to a power line routed in the building,
Each of the plurality of duct-mounted PLC plugs is provided with a connecting portion that can be electrically connected to a power line routed in a building without going through the wiring duct,
The plurality of duct-mounted PLC plugs perform parent-child setting by performing power line carrier communication using the power line in a state where power is supplied from the power line arranged in the building via the connecting portion. thing,
A parent-child setting method of a duct-mounted PLC plug characterized by

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