JP2009141621A - Tester for switch remote control apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To perform respective fault detections of a slave station unit and a control unit which are mounted on a switch remote control apparatus. <P>SOLUTION: The tester for a switch remote control apparatus is connected between a slave station unit and a control unit after disconnecting the slave station unit and the control unit when testing the switch remote control apparatus, wherein the switch remote control apparatus includes: the slave station unit for communicating with a master station when remotely supervising and controlling an switch provided on a power distribution line from the master station; and the control unit for opening/closing the switch upon receipt of an ON/OFF command of the switch from the master station via the slave station unit. The tester for the switch remote control apparatus includes: a first display section which fetches a first output signal outputted from the slave station unit toward the control unit when remotely supervising and controlling the switch from the master station, and displays thereon a state of the relevant first output signal; and a second display section which fetches a second output signal outputted from the control unit toward the slave station unit when remotely supervising and controlling the switch from the master station, and displays thereon a state of the relevant second output signal. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a tester for a switch remote control device.

  An example of the power distribution system provided by the electric power company will be described with reference to FIG. In the following description, the configuration on the distribution substation A side shown in FIG. 6 will be mainly described.

  A plurality of distribution circuit breakers (11a, 11b, 11c,...) Are connected to the secondary side of the transformer 10a disposed in the distribution substation A. On the load side of each of the plurality of distribution circuit breakers (11a, 11b, 11c...), A distribution line A is constructed in a dendritic shape.

  Distribution line A is divided into a plurality of sections #n (n = 0, 1, 2, 3, 4...) By a plurality of normally closed switches (12a, 12b, 12c, 12d...). Is done. In at least one of the plurality of sections #n in the distribution line A (section # 2 in the example of FIG. 6), a branch line branched from the main line is laid, and the branch line is distributed to the branch line. Interconnection with the distribution lines B of other distribution substations B is performed through the normally open interconnection switch 14 provided.

  Here, it is assumed that an accident such as a ground fault or a short circuit occurs in the section # 1 of the distribution line A. In this case, the power distribution breaker 11a is immediately opened (referred to as the first interruption), and the entire distribution line A including the accident section # 1 becomes a power failure. At this time, all the switches (12a, 12b, 12c, 12d...) Arranged in the distribution line A are opened by the voltage loss on the power supply side (upstream side).

  Then, in the distribution substation A, after a certain time has elapsed since the initial disconnection of the distribution breaker 11a, the opened distribution breaker 11a is turned on again (referred to as reclosing). As the distribution breaker 11a is turned on again, trial charging of the distribution line A is started, and the switches (12a, 12b, 12c, 12d,...) That are still open are switched from the power supply side to the load side. It will be timed in order.

  When power is transmitted to the accident section # 1 with the timed input of the switches (12a, 12b, 12c, 12d...), The distribution circuit breaker 11a is opened again (referred to as reclosing failure). Thus, the entire distribution line A becomes a power failure again. At this time, the switch 12a in the accident section # 1 is locked in the open state thereafter.

  The detection of the accident section # 1 is performed by measuring the time from the reclosing to the reclosing failure, detecting the lock state of the switch 12a, or the like. When the detection of the accident section # 1 is performed in this way, other distribution lines that can be connected to the grid for the sound power outage sections # 2 to # 4 on the load side (downstream side) than the accident section # 1. Power interchange is performed from B via the interconnection switch 14. As a result, electric power is supplied to consumers belonging to the healthy sections # 2 to # 4 other than the accident section # 1, and the temporary recovery is completed.

  By the way, in recent years, there has been proposed a distribution automation system for remotely monitoring and controlling a switch for detecting an accident section of a distribution line as described above from a sales office or a branch office. In the case of this distribution automation system, for each switch, a slave station unit (remote monitoring) for performing communication via a communication line with a master station unit (remote monitoring control device) provided in a sales office or branch office. And a control unit that performs control to actually turn on or open the switch according to a command from the master station unit via the slave station unit.

 As shown in FIG. 7, the slave station unit 182 and the control unit 184 are generally provided as a switch remote control device 18 integrated in a control box 188. 7A is a perspective view of a control box 188 as the switch remote control device 18, and FIG. 7B is a view showing an internal configuration of the control box 188.

  The control box 188 is composed of, for example, an iron box, and there is a space that can accommodate the slave unit 182 and the control unit 184 when the front cover is opened. The slave station unit 182 and the control unit 184 are accommodated in the gap and interconnected via a cable, and the front cover is closed and stored.

  In the case of the slave station unit 182, the communication line with the master station unit and the on / off state of the switch 12 (on: closed state, off: open state) are set on the front of the casing. A terminal block 1823 for connecting a communication line, a grounding line, and the like for answering from the terminal is provided. A connector 1827 is formed at the tip of the cable 1826 drawn from the opening 1825 in the front surface of the housing.

  In the case of the control unit 184, a terminal block 1846 for connecting a power line from the transformer 32, a control line for turning on and off the switch 12, and the like to the front surface of the casing, And a connector 1847 to which a connector 1827 routed from the slave station unit 182 is connected. That is, by connecting the connector 1827 and the connector 1847, the slave station unit 182 and the control unit 184 are interconnected.

  FIG. 8 is a view showing a state when the switch remote control device 18 provided as the control box 188 shown in FIG. 7 is attached to the utility pole 15 for laying the distribution line. As shown in the figure, the switch 12, the transformer 32, and the switch remote control device 18 are respectively attached to the utility pole 15 via mounting hardware.

When a failure occurs in the switch remote control device 18, the sales office or branch office located farther from the utility pole 15 to which the switch remote control device 18 is attached, via the power distribution automation system described above, The occurrence of the failure can be detected by obtaining the failure information and displaying the content of the failure on the monitoring terminal of the distribution automation system (see, for example, Patent Document 1 shown below).
JP-A 63-74356

  By the way, when a switch remote control device provided with a slave station unit and a control unit fails, it is possible to detect that a failure has occurred in the switch remote control device itself at a sales office or branch office located far from the site. However, it was not known which one of the slave station unit and the control unit constituting the switch remote control device failed or both units failed.

  For this reason, the worker goes to the site and, for example, replaces one of the slave station unit and the control unit with the replacement unit and conducts an operation test. If the failure continues, the other unit It was necessary to take the refurbishment procedure of replacing the unit with the alternative unit and performing the actual operation test again. In other words, since it was necessary to confirm whether or not the trouble was removed by an actual test after replacing one unit, it took a considerable amount of time for repair work on site.

  In addition, since the switch remote control device is attached to the power pole that lays the distribution line, the mounting screws for fixing the slave unit and the control unit fall on the control box that is the casing of the switch remote control device. There was a concern that it would be difficult to replace the unit of considerable weight with an alternative unit on the pillar. The above problem may become more serious depending on the state of installation of the switch remote control device.

  The main present invention that solves the above-described problems is a slave station unit that communicates with a parent station when the switch provided on the distribution line is remotely monitored and controlled from the parent station, and the parent station A control unit that receives an on / off command of the switch via the slave station unit and performs an opening / closing operation of the switch, and when testing the switch remote control device, the slave station unit and the control A tester for a remote control device for a switch that is connected between the slave station unit and the control unit after disconnecting the unit, and when the switch is remotely monitored and controlled from the master station A first display unit that captures a first output signal output from the slave station unit toward the control unit and displays the state of the first output signal; and the switch is remotely connected to the master station. Control when automatically monitoring and controlling It captures the second output signal output toward the slave station unit from the knit, and further comprising a second display section for displaying the state of the second output signal.

  ADVANTAGE OF THE INVENTION According to this invention, the test device which can detect the failure of each of the slave station unit and control unit mounted in the switch remote control device can be provided.

=== Example of overall configuration of distribution system ===
FIG. 1 is a diagram showing an example of the overall configuration of a power distribution system including a switch remote control device 18 to be tested by a tester 186 according to the present invention. In addition, the same code | symbol is attached | subjected about the component same as the conventional power distribution system shown in FIG.

  A distribution breaker 11 is connected to the secondary side of the transformer 10 disposed in the distribution substation of the power company. On the load side of the power distribution breaker 11, a distribution line 400 is constructed in a dendritic shape. In addition, a substation 17 for remotely monitoring and controlling the state of the distribution breaker 11 by the distribution automation system 100 is disposed in the distribution substation.

The slave station 17 receives a function indicating that the distribution breaker 11 is turned on or opened and transmits a signal to the parent station 103 of the distribution automation system 100 and a turn-on or release command from the distribution automation system 100. And a function of controlling the turning-on or opening of the power distribution breaker 11.
In addition, the distribution breaker 11 may be an embodiment in which automatic opening / closing is performed when an accident occurs in the distribution line 400 by a protection relay that is generally provided in the distribution substation.

  The distribution line 400 is divided into a plurality of sections #n (n = 0, 1, 2,...) By normally closed switches (12a, 12b...). Further, each of the switches 12a, 12b,... Is provided with a switch remote control device (18a, 18b,...) To be tested by the tester 186 according to the present invention.

  The switch remote control devices (18a, 18b,...) Have power supply voltages V supplied from transformers 32a, 32b provided on the primary side and / or the secondary side of the switches (12a, 12b,...). Is applied to enable operation. Further, the switch remote control device (18a, 18b...) Includes a slave station unit (182a, 182b...) And a control unit (184a, 184b...).

  The slave station units (182a, 182b...) Communicate with the master station 103 when the switches (12a, 12b...) Are remotely monitored and controlled from the master station 103. Specifically, an on / off state signal S indicating the on / off state of the switches (12 a, 12 b...) Is transmitted to the master station 103 of the distribution automation system 100. The on state is a state where the switches (12a, 12b...) Are closed, and the off state is a state where the switches (12a, 12b...) Are opened.

  The control unit (184a, 184b...) Receives an on / off command from the master station 103 via the slave unit (182a, 182b...) Via the slave station unit (182a, 182b. On / off operation of the containers (12a, 12b...). Specifically, a command from the distribution automation system 100 is received, and a closing operation for exciting the electromagnets of the switches 12a, 12b,. The control units (184a, 184b,...) Of the present embodiment are of a type provided with a timer 1844 for timed closing at the time of reclosing as described later. However, the timer is realized by fully automating the accident detection by the distribution automation system 100. A type without 1844 may be used.

  The distribution automation system 100 is installed in a branch office or sales office of a power company, and a distribution server 101, a database 104, a monitoring control terminal 102, and a master station 103 communicate with each other via a communication line 105. Connected and configured.

  The distribution server 101 controls the entire distribution automation system 100 based on information received from each slave station (17, 18a, 18b...) In the master station 103, information stored in the database 104, and the like. It has a function to control. The monitoring control terminal 102 is, for example, a terminal where an operator at a sales office inputs data to the power distribution server 101 or displays data output from the power distribution server 101.

  The master station 103 is connected to the slave station 17 provided in the distribution substation and the switch remote control devices (18a, 18b,... Provided in the distribution line 400 via the communication line 210 and the communication network 200 managed by the power company.・) To be able to communicate with each other. The communication line 210 is a metal communication line or an optical communication line. Here, the master station 103 sends a turn-on command to the power distribution breaker 11 and the switches (12a, 12b...) To be monitored and controlled by the slave stations (17, 18a, 18b...). It has a function of transmitting a command and a turn command.

  That is, the distribution automation system 100 is configured so that each state of the distribution circuit breaker 11 and the switches (12a, 12b...) Is obtained by mutual communication between the master station 103 and each slave station (17, 18a, 18b...). Provides a system for remotely monitoring and controlling

  Moreover, the distribution automation system 100 performs control for detecting a section in which an accident such as a ground fault or a short circuit occurs in the sections # 0, # 1, # 2,. Specifically, the distribution automation system 100, after an accident occurs and the distribution breaker 11 is shut off, reopens (opens again) the open distribution breaker 11 due to voltage loss associated with the accident. . Then, the distribution automation system 100 inputs the switches (12a, 12b...) In order from the power source side to the load side in order.

  If power is transmitted to the accident section in the process of timed input, the distribution circuit breaker 11 is opened again (reclosing failure), and the switch corresponding to the accident section is turned off in the subsequent reclosing. Locked. Therefore, the distribution automation system 100 detects the accident section of the distribution line 400 by measuring the time from the reclosing of the distribution circuit breaker 11 to the reclosing failure, detecting the lock state of the switches 12a, 12b,. After that, predetermined restoration work is performed.

=== Example of connection of tester ===
FIG. 2 is a diagram showing a connection diagram when the tester 186 according to the present invention is connected between the slave station unit 182 and the control unit 184 mounted in the switch remote control device 18 to be tested.

Hereinafter, the connection state of the input / output terminals of the tester 186 will be mainly described.
The power supply terminals VIp (+ side) and VIn (− side) are terminals for applying the power supply voltage V extracted from the secondary side of the transformer 32 to the tester 186 via the control unit 184. The power supply terminals VOp (+ side) and VOn (− side) are terminals for applying the power supply voltage V applied to the power supply terminals VIp and VIn to the slave station unit 182 via the tester 186.

  The input terminals I1p (+ side) and I1n (− side) are terminals for causing the tester 186 to input a power-off monitoring signal M indicating the ON / OFF state of the A contact 1843 of the control unit 184. Note that the open / close state of the A contact 1843 is controlled depending on whether or not the operation lever 1842 for operating the internal power supply of the control unit 184 provided on the bottom surface (see FIG. 4) of the control box 188 is fixed at the cut-off lock position. Is done.

  Specifically, when the operation lever 1842 is not fixed at the OFF lock position, the power supply voltage V is supplied to the entire switch remote control device 18 including the tester 186, and the A contact 1843 is opened. On the other hand, when the operation lever 1842 is fixed at the OFF lock position, the internal power supply of the control unit 184 is stopped and the A contact 1843 is closed. When the internal power supply of the control unit 184 is stopped, the electromagnet of the switch 12 is not excited and the switch 12 is turned off.

  The output terminals O1p (+ side) and O1n (− side) output a power-off monitoring signal M ′ corresponding to the power-off monitoring signal M input from the control unit 184 for testing control by the master station 103. Is a terminal for outputting to the slave station unit 182.

  The input terminals I2p (+ side) and I2n (− side) are terminals for causing the tester 186 to input a closing control signal P indicating the open / closed state of the A contact 1821 of the slave station unit 182. When the A contact 1821 is open, the closing control signal P indicates that the switching command for the switch 12 is not output from the master station 103 toward the slave station unit 182. When the A contact 1821 is closed, the closing control signal P indicates a closing command for the switch 12 from the master station 103 to the slave station unit 182. The reason why the switch 12 is required to be turned on is that the electromagnet of the switch 12 needs to be excited in advance until an attractive force capable of closing the switch 12 is obtained.

  The output terminals O2p (+ side) and O2n (− side) are connected to the tester 186 for exciting the electromagnet of the switch 12 with the input control signal P ′ corresponding to the input control signal P input from the slave station unit 182. Is a terminal for output from the control unit 184 toward the control unit 184.

  In this embodiment, the control unit 184 is a type provided with a timer 1844 for timed input, and the control unit 184 sets the timer 1844 for timed input according to the input control signal P ′. As a result, the closing of the switch 12 is delayed by the time set in the timer 1844.

  Further, the control unit 184 monitors whether or not the power supply voltage V is supplied from the transformer 32. When the control unit 184 detects that the power supply voltage V is not supplied from the transformer 32 during the time separately set in the timer 1844 after the switch 12 is turned on, the control unit 184 opens and closes as a reclosing failure. The vessel 12 is opened.

  The input terminals I3p (+ side) and I3n (− side) are terminals for causing the tester 186 to input an on / off control signal C corresponding to the open / closed state of the A contact 1822 of the slave station unit 182. The on / off control signal C when the A contact 1822 is opened indicates that the switch 12 is instructed to be turned off from the master station 103 toward the slave station unit 182. The on / off control signal C when the A contact 1822 is closed indicates that the switch 12 is instructed to enter the slave station unit 182 from the master station 103.

  The output terminals O3p (+ side) and O3n (− side) are used to actually turn on / off the switch 12 according to the on / off control signal C input from the slave station unit 182. This is a terminal for outputting from the tester 186 toward the control unit 184. The control unit 184 supplies an excitation voltage to the electromagnet of the switch 12 to the switch 12 based on the open / close state of the A contact 1845 controlled by the on / off control signal C ′ input from the tester 186. . When the A contact 1845 is open, the switch 12 is turned off. When the A contact 1845 is closed, the electromagnet of the switch 12 is excited and the switch 12 is turned on. An on / off state signal S indicating the on / off state of the switch 12 based on the on / off control signal C ′ is transmitted to the master station 103 via the slave station unit 182.

=== External appearance of tester ===
FIG. 3 is a diagram showing an example of the external appearance of the tester 186.
The tester 186 is configured by incorporating a sequence circuit that realizes a predetermined function in a box-shaped case.

  The tester 186 aggregates the signal cable 71 between the slave station unit 182 and aggregates the signal cable 73 between the connector 70 serving as an interface with the slave station unit 182 and the control unit 184, and the control unit 184. And a connector 72 serving as an interface.

  FIG. 4 shows a state where the tester 186 is connected between the slave station unit 182 and the control unit 184 via the connectors 70 and 72. For convenience of explanation, the structures of the slave unit 182 and the control unit 184 shown in FIG. 4 are the same as those shown in FIG. 7B, and the same components are denoted by the same reference numerals. . As shown in FIG. 4, the connector 1827 drawn from the slave station unit 182 is not connected to the connector 1848 for the slave station unit 182 of the control unit 184, but is connected to the connector 70 for the slave station unit 182 of the tester 186. Connect with. The connector 1848 of the control unit 184 is connected to the connector 72 for the control unit 184 of the tester 186. Thereby, the slave station unit 182 and the control unit 184 are interconnected via the cable.

  In addition, on the front surface of the box-shaped case of the tester 186, a turn-on indicator lamp 61, a turn-on indicator lamp 62, a turn-off indicator lamp 63, a power indicator lamp 64, a power-off indicator lamp 65, and a simulated control state indicator lamp 66 are provided. Further, on the front surface of the box-shaped case of the tester 186, there are a mode changeover switch 67 for setting either the actual mode or the simulation mode, an on control switch 68 and a turn-off control switch 69 used in the simulation mode. Are provided.

  The on-indicator lamp 61, on-indicator lamp 62, and off-indicator lamp 63 are control signals (first signals) output from the slave station unit 182 to the control unit 184 when the switch 12 is remotely monitored and controlled from the master station 103. 1 output signal) and monitor the state of the control signal. That is, the on-indicator lamp 61, on-indicator lamp 62, and off-indicator lamp 63 are responsible for monitoring whether or not the action from the slave station unit 182 or the tester 186 to the control unit 184 has been performed normally. . The on / off indicator lamp 61 is shared by the actual mode and the simulation mode, and the on / off indicator lamp 62 and the off indicator lamp 63 are used exclusively for displaying the status of the control signal from the slave unit 182, that is, only in the actual mode.

  The input indicator lamp 61 is used to confirm that the input command of the switch 12 is output from the master station 103 to the slave station unit 182 or from the tester 186 to the switch 12 in the simulation mode. This is an indicator lamp for confirming that the input command is output simultaneously with the input command. Specifically, when the tester 186 receives the input control signal P from the slave station unit 182 or in the simulation mode, the input command is output simultaneously with the input command from the tester 186 to the switch 12. At this time, the input indicator lamp 61 is turned on. When a predetermined time elapses from the start of lighting and the input command disappears, the input indicator lamp 61 is turned off.

  The on-indicator lamp 62 is an indicator lamp provided for confirming that an on-command for the switch 12 is output from the master station 103 toward the slave station unit 182. More specifically, after the turn-on command lamp extinguishes after a predetermined time elapses after the turn-on indicator light 61 is turned on, the turn-on indicator light 61 is turned off, and then the switch 12 is turned on in response to the turn-on command from the master station 103. When the on / off control signal C for operation is output from the slave unit 182, the on / off indicator 62 continues to be lit.

  The off indicator lamp 63 is an indicator lamp for confirming that the switch 12 has been turned off from the master station 103 toward the slave station unit 182. Specifically, when the on / off control signal C for opening the switch 12 in response to the turn-off command from the master station 103 is output from the slave station unit 182, the turn-off indicator lamp 63 continues to be lit.

  The power indicator lamp 64 is an indicator lamp for confirming that the power supply voltage V is supplied from the distribution line 400 to the slave station unit 182 through the transformer 32. Even when the operation lever 1842 provided on the bottom surface of the control box 188 is fixed at the cut-off lock position, the power supply voltage from the transformer 32 to the control unit 184, the tester 186, and the slave station unit 182 Since the supply of V is not stopped, the power indicator lamp 64 can be lit.

  The power-off indicator lamp 65 receives a control signal (second output signal) output from the control unit 184 toward the slave station unit 182 when the switch 12 is remotely monitored and controlled from the master station 103. It is an indicator lamp that monitors the state of the control signal. That is, the power-off indicator lamp 65 plays a role of monitoring whether or not the action from the control unit 184 toward the slave station unit 182 has been normally performed. The power-off indicator lamp 65 is provided to confirm that the operation lever 1842 is fixed at the off-lock position. For the same reason as the power indicator lamp 64, even when the operation lever 1842 is fixed at the OFF lock position, the supply of the power supply voltage V is not stopped, so that the power cutoff indicator lamp 65 may be lit. it can.

  The simulation control state indicator lamp 66 displays the control output state in the simulation mode. For example, it is realized by two-color LED lights of red and green. When the on / off switch 68 is pressed in the simulation mode, it lights in red, and when the off control switch 69 is pressed in the simulation mode, it is green. Lights on. The simulated control status indicator lamp 66 is always lit in red or green regardless of mode switching.

  The mode changeover switch 67 is a switch for setting the tester 186 to either the actual operation mode or the simulation mode. The mode changeover switch 67 is realized by toggle switches SW1a and SW1b, which will be described later, for example.

  In the actual operation mode, even when the tester 186 is connected between the slave station unit 182 and the control unit 184, the command from the master station 103 is controlled via the slave station unit 182 and the tester 186. This is a test mode that is input to the unit 184 as it is. That is, when the operation mode is set, the operation of the slave unit 182 can be verified by monitoring the display of the on indicator lamp 61, the on indicator lamp 62, and the off indicator lamp 63.

  The simulation mode is a test mode in which the output from the slave station unit 182 toward the control unit 184 is disconnected and the tester 186 is operated as the simulated slave station unit 182. That is, when the simulation mode is set, since the output from the slave station unit 182 to the control unit 184 is disconnected, the on / off indicator 62, without operating the switch 12 via the control unit 184, It is also possible to monitor the off indicator lamp 63 and verify whether or not the command from the master station 103 has reached the slave station unit 182.

  When the simulation mode is set, the on / off control switch 68 replaces the slave station unit 182 with an on / off control signal C ′ that simulates an on / off command for setting the switch 12 to the on state. It is a switch for outputting from 186 toward the control unit 184. The on / off control switch 68 is realized by, for example, push button switches SW2a and SW2b described later.

  When the simulation mode is set, the off control switch 69 replaces the slave station unit 182 with an on / off control signal C ′ simulating a turn command for turning the switch 12 off. It is a switch for outputting from 186 toward the control unit 184. The off control switch 69 is realized by, for example, push button switches SW3a and SW3b described later.

  Even if the tester 186 removes the connector 72 from the control unit 184 and enters the no-power state, the final simulated control state by the on / off control switch 68 or the off control switch 69 is “on” or “off”. It is a specification to memorize.

=== Example of internal configuration of tester ===
FIG. 5 is a diagram showing a sequence circuit configuration example inside the tester 186.
The power supply unit 1860 supplies the power supply voltage V applied from the control unit 184 via the power supply terminals VIp and VIn to the entire tester 186 as the operation voltage of the tester 186. The power supply voltage V applied to the power supply terminals VIp and VIn can be externally supplied as it is from the power supply terminals VOp and VOn.

  The power monitoring unit 1861 is configured as a series connection body including the light emitting diode D1 of the power indicator lamp 64 and the resistance element R connected to the anode side thereof. When the power supply voltage V from the power supply unit 1860 is applied to the series connection body, the light emitting diode D1 is turned on. That is, it is confirmed that the power supply voltage V is applied from the control unit 184 to the tester 186 by turning on the light emitting diode D1.

  The power-off monitoring unit 1862 is provided between the terminals VIn and I1n, and operates based on the power-off monitoring signal M input from the control unit 184 via the input terminals I1p and I1n, and the relay Ry-1 A contacts CT1 and CT2 that are opened and closed by the power supply, a resistance element R provided on the power supply side of the A contact CT1, and a light emitting diode D2 of the power-off indicator lamp 65 provided on the ground side of the A contact CT1.

  When the power-off monitoring signal M indicates that the operation lever 1842 is fixed at the OFF lock position, the relay Ry-1 operates. As a result, the A contact CT1 is closed and the light emitting diode D2 is turned on. That is, when the light emitting diode D2 is lit, it is confirmed that the operation lever 1842 is fixed at the cutoff lock position. When the relay Ry-1 operates, the A contact CT2 is closed, and the power-off monitoring signal M 'corresponding to the power-off monitoring signal M is output from the output terminals O1p and O1n.

  The input monitoring control unit 1863 is connected between the output of the toggle switch SW1a interlocked with the mode changeover switch 67 and the ground, and operates based on the input control signal P input from the slave unit 182 through the input terminals I2p and I2n. Relay Ry-2, regenerative diode D7 connected in parallel with relay Ry-2, A contacts CT3 and CT4 opened and closed by relay Ry-2, resistance element R3 provided on the power supply side of A contact CT3, and A contact And a light emitting diode D3 of the input indicator lamp 61 provided on the ground side of CT3. The input terminal on the actual mode side of the toggle switch SW1a is connected to the input terminal I2n, and the input terminal on the simulation mode side is connected to the output terminal on the ON side of the push button switch SW2a described later.

  In the state where the operation mode is set by the toggle switch SW1a in conjunction with the mode switch 67, when the closing control signal P shows the closing command, the relay Ry-2 operates for 1 second. As a result, the A contact CT3 is closed and the light emitting diode D3 is turned on. That is, when the light emitting diode D3 is turned on, it can be confirmed that the insertion command is received from the slave station unit 182. Further, when the relay Ry-2 is operated, the A contact CT4 is closed, and a closing control signal P ′ corresponding to the closing control signal P is output from the output terminals O2p and O2n.

  The case where the simulation mode is set by the toggle switch SW1b interlocked with the mode switch 67 will be described later.

  The open / close monitoring control unit 1864 is provided between the terminals VOp and I3n, and operates based on an on / off control signal C input from the slave station unit 182 via the input terminals I3p and I3n, and the relay Ry−. C contact CT5 composed of an A contact and a B contact operated by 3 and an operation mode side input terminal of the toggle switch SW1b interlocked with the mode changeover switch 67 and the terminal O3n, and also operated by the relay Ry-3. A contact CT6, a resistance element R4 provided on the terminal I2P side of the C contact CT5, a light emitting diode D4 of the input indicator lamp 62 provided on the ground side of the A contact of the C contact CT5, and B of the C contact CT5 And a light-emitting diode D5 of the cut-off indicator lamp 63 provided on the ground side of the contact.

  When the on / off control signal C indicating the on / off command is input, the relay Ry-3 operates. As a result, the A contact of the C contact CT5 is closed and the light emitting diode D4 is lit. On the other hand, when the ON / OFF control signal C indicating the OFF command is input, the relay Ry-3 stops, the B contact of the C contact CT5 is closed, and the light emitting diode D5 is lit. That is, it can be confirmed that the on / off command has been received from the slave station unit 182 by the lighting state of the light emitting diodes D4 and D5.

  When an on / off control signal C indicating an on command is input, the relay Ry-3 operates and the A contact CT6 is closed. On the other hand, when the ON / OFF control signal C indicating the OFF command is input, the relay Ry-3 stops and the A contact CT6 opens. That is, when the actual mode is set by the toggle switch SW1b in conjunction with the mode switch 67, the on / off control signal C ′ representing the open / closed state of the A contact CT6 according to the on / off control signal C is output to the output terminal O3p. , O3n.

  The case where the simulation mode is set by the toggle switch SW1b in conjunction with the mode change switch 67 will be described later.

  The simulation monitoring control unit 1865 includes pushbutton switches SW2a and SW2b linked to the input control switch 68, and an electric field capacitor EC provided between the input terminals of the pushbutton switches SW2a and SW2b that ground the input side. A backflow prevention diode D8 provided between the output terminal on the OFF side of the switch SW2a and the terminal I2P, a resistance element R5 connected to the output terminal on the ON side of the push button switch SW2b, a backflow prevention diode D8 and the resistance element R5 Between the relay Ry-4 for closing the A contacts CT7 and CT8, the regenerative diode D9 connected in parallel to the relay Ry-4, and the input terminal on the simulation mode side of the toggle switch SW1b and the terminal O3n A contact CT7 provided and closed by relay Ry-4. As described above, the ON-side output terminal of the push button switch SW2a is connected to the simulation mode-side input terminal of the toggle switch SW1a. Further, the terminal O3n is drawn from the connection point between the A contact CT7 and the A contact CT6.

  The simulated monitoring control unit 1865 includes push button switches SW3a and SW3b that are linked to the turn-off control switch 69, a resistance element R6 that is connected to the ON-side output terminal of the push button switch SW3b, a backflow prevention diode D8, and a resistance element. A relay Ry-5 connected between R6 for opening the A contacts CT7 and CT8 and a regenerative diode D10 connected in parallel to the relay Ry-5 are provided. The relays Ry-4 and Ry-5 and the A contacts CT7 and CT8 constitute an integrated relay. To close the A contacts CT7 and CT8, the relay Ry-4 is excited, and to open the A contacts CT7 and CT8, the relay Ry-5 is excited.

  Further, the simulation monitoring control unit 1865 includes an A contact CT8 opened by the relay Ry-5, resistance elements R7 and R8 provided at both terminals of the A contact CT8, and a simulation control provided on the ground side of the A contact CT8. A light-emitting diode D11 of the status indicator lamp 66 (red light is turned on when the on command is input in the simulation mode), an NPN-type transistor B1 whose base-side potential is the ground potential of the A-contact CT8 via the resistance element R8, and an NPN-type transistor B1 Of the NPN transistor B2 connected to the base of the NPN transistor, resistance elements R9 and R10 connected to the base and collector of the NPN transistor B2, and the simulated control status indicator 66 connected to the emitter of the NPN transistor B2, respectively. And a light emitting diode D6 (green light is turned on at the time of turning off in the simulation mode).

  When the simulation mode is set by the toggle switch SW1a in conjunction with the mode change switch 67, when the push button switches SW2a and SW2b select the ON-side terminals in conjunction with the input control switch 68, the electric field capacitor EC is charged. The relay Ry-2 is operated by the voltage, the A contact CT3 is closed, and the light emitting diode D3 of the closing indicator lamp 61 is lit for 1 second, for example.

  In this case, the relay Ry-4 operates and the A contacts CT7 and CT8 are closed. As a result, an on / off control signal C ′ indicating an on / off command of the switch 12 in the simulation mode is output from the output terminals O3p and O3n. Since the A contact CT8 is closed, the light emitting diode D11 is lit red and the light emitting diode D6 is turned off. That is, the simulation control state indicator lamp 66 lights up in red of the light emitting diode D11.

  On the other hand, when the simulation mode is set and the push button switches SW2a and SW2b select the terminals on the OFF side, the relay Ry-4 stops. However, even if the relay Ry-4 is stopped, the A contacts CT7 and CT8 continue to be closed.

  When the simulation mode is set and the push button switches SW3a and SW3b select the ON-side output terminal in conjunction with the turn-off control switch 69, the reset relay Ry-5 operates and the A contact CT7. , Open CT8. As a result, the light emitting diode D6 is lit in green and the light emitting diode D11 is turned off. That is, the simulation control state indicator lamp 66 is lit in green of the light emitting diode D6.

  On the other hand, when the simulation mode is set and the pushbutton switches SW3a and SW3b select the output terminal on the OFF side, the relay Ry-5 stops. However, even if the relay Ry-5 is stopped, the A contacts CT7 and CT8 continue to be opened.

  As described above, the control contents in the simulation mode can be confirmed by the lighting states of the light emitting diodes D6 and D11.

=== Example of use of tester ===
In the following, in response to the fact that the failure of the remote switch control device 18 has been confirmed at the supervisory control terminal 102, the worker moves to the location of the utility pole 15 to which the faulty remote switch control device 18 is mounted. A case will be described as an example in which the user visits and repairs the faulty switch remote control device 18.

  First, the worker opens the front cover of the control box 188 (the faulty switch remote control device 18), and disconnects the connector 1827 of the slave unit 182 and the connector 1848 of the control unit 184. The connector 70 of the tester 186 is connected to the connector 1827 of the slave station unit 182, and the connector 72 of the tester 186 is connected to the connector 1848 of the control unit 184.

  Next, since the worker does not know whether a failure has occurred in either the slave station unit 182 or the control unit 184 or in both units, first, whether the failure has occurred in the slave station unit 182 or not. In order to confirm this, the mode changeover switch 67 of the tester 186 is pushed up to the working mode side, and the tester 186 is set to the working mode.

  Then, the worker receives a notification of transmitting the switch 12 input command from the master station 103 to the slave station unit 182 and determines whether or not the input indicator lamp 61 of the tester 186 is lit for a predetermined one second. Check. If the turn-on indicator lamp 61 does not light for a predetermined one second, it can be determined that the trouble is related to the turn-on command of the slave station unit 182.

  Further, the worker checks whether the on / off indicator lamp 62 or the off indicator lamp 63 of the tester 186 is lit. If the on / off indicator lamp 62 or the off indicator lamp 63 does not light in response to a command from the master station 103, it can be determined that the fault is related to the on / off command of the slave station unit 182.

  As described above, if the failure of the slave station unit 182 is confirmed, it is replaced with the replacement unit. Then, the worker performs the same test as described above, and confirms that the failure of the remote switch control device 18 has been removed by the monitoring control terminal 102. Finish the repair work.

  Alternatively, even if the slave station unit 182 is replaced with an alternative unit, if the failure of the switch remote control device 18 is confirmed on the monitoring control terminal 102, the control unit 184 also has a failure at the same time. Therefore, the control unit 184 is replaced with an alternative unit. Then, the worker performs the same test as described above, and confirms that the failure of the remote switch control device 18 has been removed by the monitoring control terminal 102. Finish the repair work.

  On the other hand, when confirming whether or not a failure has occurred in the control unit 182 prior to confirming the slave station unit 182, the worker switches the mode switch 67 of the tester 186 to the simulation mode side, The tester 186 is set to the simulation mode.

  Then, the worker fixes the operation lever 1842 on the bottom surface of the control box 188 at the turn-off lock position, and checks whether or not the power-off indicator lamp 65 is lit. If the power-off indicator lamp 65 is not lit, it can be determined that the fault is related to the power-off indication of the control unit 184.

  The worker presses the on / off control switch 68 and the turn-off control switch 69 in order to check whether the switch 12 is turned on / off. If the switch 12 is not turned on / off, it can be determined that the failure is related to the turning on / off operation of the switch 12 of the control unit 184.

  As described above, if the failure of the control unit 184 is confirmed, it is replaced with the replacement unit. Then, the worker performs the same test as described above, and confirms that the failure of the remote switch control device 18 has been removed by the monitoring control terminal 102. Finish the repair work.

  Alternatively, even if the control unit 184 is replaced with an alternative unit, if the failure of the switch remote control device 18 is confirmed on the monitoring control terminal 102, the slave station unit 182 also has a failure at the same time. Therefore, the slave station unit 182 is replaced with an alternative unit. Then, the worker performs the same test as described above, and confirms that the failure of the remote switch control device 18 has been removed by the monitoring control terminal 102. Finish the repair work.

  Although the present embodiment has been described above, the above-described examples are for facilitating the understanding of the present invention, and are not intended to limit the present invention. The present invention can be changed / improved without departing from the spirit thereof, and the present invention includes equivalents thereof.

  For example, the tester 186 may be used for a test before shipment from a factory or a periodic inspection in a state of being stored in a warehouse. In this case, the tester 186 is connected to the test unit 184 with the connection between the slave station unit 182 and the control unit 184 disconnected. Here, since the tester 186 has a simulation mode for simulating the slave unit 182, the test unit for the control unit 184 can be tested by preparing a test jig simulating the switch 12 in the control unit 184. Can do.

It is a figure which shows the example of whole structure of the power distribution system containing the switch remote control apparatus made into the test object of the test device which concerns on one Embodiment of this invention. It is a figure which shows the connection diagram at the time of connecting the test device which concerns on one Embodiment of this invention between the subunit | mobile_unit unit of a switch remote control apparatus, and a control unit. It is a figure which shows the external appearance of the test device which concerns on one Embodiment of this invention. It is a figure which shows a mode at the time of connecting the test device which concerns on one Embodiment of this invention between a slave station unit and a control unit via the connector. It is a figure which shows the sequence circuit structure inside the test device which concerns on one Embodiment of this invention. It is a figure which shows an example of a power distribution system. It is a perspective view of the switch remote control device concerning one embodiment of the present invention. It is a figure which shows the state which opened the cover of the front part of the switch remote control apparatus which concerns on one Embodiment of this invention. It is a figure which shows a mode when the switch remote control apparatus which concerns on one Embodiment of this invention is mounted | worn with the utility pole.

Explanation of symbols

10, 10a, 10b Transformer 11, 11a to 11f Distribution breaker 12, 12a to 12h Switch 14 Interchange switch 17 Slave station 18, 18a, 18b Switch remote control device 182, 182a, 182b Slave station unit 1821, 1822 A contact 1823 Terminal block 1826 Cable 1825 Opening 1827 Connector 184, 184a, 184b Control unit 1842 Operation lever 1843, 1845 A contact 1844 Timer 1846 Terminal block 1847 Connector 1848 Connector 186 Tester 188 Control box 32a, 32b Transformer 61 On indicator lamp 62 On indicator lamp 63 Off indicator lamp 64 Power indicator lamp 65 Power off indicator lamp 66 Simulated control status indicator lamp 67 Mode change switch 68 On control switch 69 Off control switch 70, 72 Connector 71, 73 Cable 100 Electric automation system 101 Power distribution server 102 Monitoring and control terminal 103 Master station 104 Database 105 Communication line 200 Communication network 210 Communication line

Claims (6)

A slave station unit that communicates with the master station when the switch provided on the distribution line is remotely monitored and controlled from the master station; and the switch via the slave station unit from the master station When testing a switch remote control device including a control unit that receives an on / off command to perform opening / closing operation of the switch, disconnecting the slave station unit from the control unit, A tester for a remote control device for a switch connected between a station unit and the control unit,
When the switch is remotely monitored and controlled from the master station, a first output signal output from the slave station unit to the control unit is captured, and a state of the first output signal is displayed. 1 display section;
When the switch is remotely monitored and controlled from the master station, a second output signal output from the control unit to the slave station unit is fetched and the state of the second output signal is displayed. 2 display units;
A tester for a remote control device of a switch. In the tester of the switch remote control device according to claim 1,
The first display unit captures the switch input command from the master station to the control unit via the slave station unit as the first output signal, and displays the status of the switch command ,
A tester for a remote control device of a switch. In the tester of the switch remote control device according to claim 1,
The first display unit receives, as the first output signal, an on / off command for the switch from the master station to the control unit via the slave station unit, and Displaying the status of the command,
A tester for a remote control device of a switch. In the tester of the switch remote control device according to claim 1,
The control unit includes an operation lever for controlling the stop of the internal power supply,
The second display unit takes in a power-off signal indicating whether or not to stop the internal power supply based on the position of the operation lever as the second output signal, and displays the state of the power-off signal;
A tester for a remote control device of a switch. In the tester of the switch remote control device according to claim 1,
The first mode in which the first output signal output from the slave station unit to the control unit is captured and output as it is to the control unit, or the slave station unit to the control unit Comprising a mode changeover switch for setting a second mode for blocking the output of the first output signal;
A tester for a remote control device of a switch. In the tester of the switch remote control device according to claim 5,
When the second mode is set, a simulation control switch that generates a command simulating an on / off command of the switch from the master station toward the control unit via the slave station unit is provided Was it,
A tester for a remote control device of a switch.

Images