JP2006223067A - Fuse clip with variable resistor, and testing system and testing method using the fuse clip - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fuse clip with a variable resistor, and a testing system and a testing method capable of attaining high work efficiency in an alarm output test or the like by a power company. <P>SOLUTION: This fuse clip 10 with a variable resistor includes first and second terminal 11, 12; a fuse 13 in which one end is connected to the first terminal 11, and a variable resistor 14 provided between the other end of a fuse 13 and the second terminal 12. First and second resistors with different resistors, a switch for selecting either of the first or the second resistor and a switch controller for controlling the switch may be provided in place of the variable resistor 14. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a fuse clip with a variable resistance, a test system using the same, and a test method, and more particularly, a fuse clip with a variable resistance suitable for inspecting a device such as a circuit breaker in an electric power company. The present invention relates to a test system and a test method.

  Conventionally, in electric power companies, for example, when an alarm output test is performed without relay operation from the relay panel, a fuse clip provided with clips at both ends of the fuse to prevent burning when a circuit is short-circuited. Is used to short-circuit the terminals of the relay panel and output.

In Patent Document 1 shown below, the function of a voltmeter that can confirm the position and type of a fault such as a high resistance due to a ground short circuit, an open circuit, and corrosion of a test circuit is strengthened. A circuit is disclosed. In the circuit for enhancing the function of the voltmeter, a test load, a fuse and a switch connected in series are provided in parallel with the voltmeter, and connection and disconnection of the test load are adjusted by opening and closing the switch.
Special table 2003-505684 gazette

  However, in the above-described conventional alarm output test method, two workers collate the drawing with the actual wiring line number and control cable number, and after confirming the terminal of the relay panel to be short-circuited, other terminals Is sealed with vinyl film or tape so that the fuse clip does not hit. Therefore, for example, if the line number and control cable number of the actual wiring are different from the drawing, the operator misidentifies the terminal of the relay panel that is short-circuited, and the trip coil of the control relay or circuit breaker There is a problem in that it causes an erroneous control or an erroneous interruption by exciting the.

  In addition, since there are a large number of devices (devices) at an electric company of an electric power company, there are thousands of wires. Also, the shape of each device and switchboard is similar, and there are hundreds of wires in each board, so workers can use the terminal board of the relay board (recently, the terminal board has become narrower as the relay board has become slimmer. There is a strong demand to solve the above-mentioned problem.

  An object of the present invention is to provide a fuse clip with a variable resistor, a test system and a test method using the same, which can improve the efficiency of work such as an alarm output test in an electric power company.

The fuse clip with a variable resistor of the present invention includes a first and second terminals (11, 12), a fuse (13) having one end connected to the first terminal, the other end of the fuse, and the second Variable resistance means (14; 111 to 114) provided between the terminal and the terminal.
Here, the variable resistance means includes first and second resistors (112, 113) having different resistance values, a switch (111) for selecting one of the first and second resistors, and switching of the switches And a switch control device (114) for controlling.

A test system using a fuse clip with a variable resistor according to the present invention has a third terminal and a fourth terminal to which a voltage having a first voltage value is applied, using the fuse clip with a variable resistor according to the present invention. A test system for testing a device under test (30) having a terminal block (31), a voltage detection relay (60) having two connection cables, a fifth terminal, and a second terminal A relay board (20) having a terminal block (21) having a sixth terminal to which a voltage of a voltage value is applied, and the fifth terminal of the relay board is the third board of the device under test. And the two connection cables of the voltage detection relay are connected to the third and fourth terminals of the device under test, respectively, and the fuse clip with variable resistance is connected to the first terminal of the fuse clip with variable resistance. And the second terminal is connected to the relay. The fuse clip with the variable resistor is connected to the fifth and sixth terminals of the panel and the voltage of the fuse clip with variable resistance is determined according to the voltage between the third and fourth terminals of the device under test detected by the voltage detection relay. The resistance value of the variable resistance means is switched.
Here, a transmission means (70) for transmitting the output signal of the voltage detection relay and a reception means (80) for receiving the output signal of the voltage detection relay transmitted from the transmission means are further provided. Even if the resistance value of the variable resistance means of the fuse clip with variable resistance is switched according to the voltage between the third and fourth terminals of the device under test represented by the output signal of the receiving means. Good.
The variable resistance means includes first and second resistors (112, 113) having different resistance values, a switch (111) for selecting one of the first and second resistors, and switching of the switches. A switch control device (114) for controlling, and the switch control device may control switching of the switch according to a voltage between the third and fourth terminals of the device under test.

A test method using a fuse clip with a variable resistor according to the present invention has a third terminal and a fourth terminal to which a voltage having a first voltage value is applied, using the fuse clip with a variable resistor according to the present invention. A test method for testing a device under test (30) provided with a terminal block (31), wherein two connection cables of a voltage detection relay (60) are connected to a third and a fourth of the device under test. A first step of connecting to each of the terminals, and the first terminal of the fuse clip with variable resistance, the relay panel (20) connected to the third terminal of the device under test via a control cable. A second step of connecting to the fifth terminal and connecting the second terminal of the variable resistance fuse clip to the sixth terminal of the relay panel to which a voltage of the second voltage value is applied; The voltage detection relay And a third step of switching the resistance value of the variable resistance means of the fuse clip with variable resistance in accordance with the voltage between the third and fourth terminals of the device under test detected in this manner. It is characterized by.
Here, a fourth step of transmitting the output signal of the voltage detection relay using the transmission means (70), and an output signal of the voltage detection relay transmitted from the transmission means using the reception means (80). A fifth step of receiving, in the third step, the variable according to the voltage between the third and fourth terminals of the device under test represented by the output signal of the receiving means. The resistance value of the variable resistance means of the fuse clip with resistance may be switched.
The variable resistance means includes first and second resistors (112, 113) having different resistance values, a switch (111) for selecting one of the first and second resistors, and switching of the switches. A switch control device (114) for controlling, and in the third step, the switch control device controls switching of the switch according to a voltage between the third and fourth terminals of the device under test. May be.

The fuse clip with variable resistance of the present invention, the test system using the fuse clip, and the test method have the following effects.
(1) Since the fuse clip with variable resistance of the present invention has variable resistance means, for example, even if an operator mistakes a terminal of a relay panel short-circuited by the fuse clip, the resistance value of the variable resistance means is set to a high resistance value. If it is set to, it is possible to prevent the control relay connected to the terminal of the relay panel or the trip coil of the circuit breaker from being excited to cause erroneous control or erroneous interruption.
(2) In the test system and test method of the present invention, since the device under test is tested using the fuse clip with variable resistance of the present invention, for example, an operator mistakes the terminal of the relay panel short-circuited by the fuse clip. Also, set the resistance value of the variable resistance means to a high resistance value, and connect it to the other terminal of the relay panel that should be short-circuited with a fuse clip, detected using a voltage detection relay, via a control cable By switching the resistance value of the variable resistance means of the fuse clip with variable resistance according to the voltage of the terminal of the device under test, the control relay or circuit breaker connected to the terminal that was accidentally shorted on this relay panel It is possible to prevent the trip coil from being excited to cause erroneous control or erroneous interruption.

  The purpose of improving the efficiency of work such as an alarm output test at an electric power company, etc., is variable between the other end of the fuse whose one end is connected to the first terminal and the second terminal. This was realized by providing resistance means.

Embodiments of a fuse clip with a variable resistor, a test system and a test method using the same according to the present invention will be described below with reference to the drawings.
As shown in FIG. 1, a fuse clip 10 with a variable resistor according to an embodiment of the present invention includes first and second terminals 11 and 12, a fuse 13 having one end connected to the first terminal 11, and a fuse. 13 and a variable resistor 14 provided between the other end of the terminal 13 and the second terminal 12.
Here, the variable resistor 14 can switch the resistance value to 1 kΩ or 10 kΩ, for example, manually or by a control signal from the outside.

Next, an alarm output test system, which is an embodiment of a test system using the variable resistance fuse clip of the present invention, will be described with reference to FIGS.
As shown in FIG. 2, the alarm output test system according to the present embodiment includes a fuse clip 10 with a variable resistor shown in FIG. 1, a relay panel 20, an alarm panel 30, a circuit breaker 40, a switchboard 50, and a voltage. A detection relay 60, a transmitter 70, and a receiver 80 are provided.

  Here, the relay panel 20 includes a terminal block 21 having terminal numbers 1 to 4 and P terminals. The terminals of terminal numbers 1 to 4 of the terminal block 21 are connected to the terminal of terminal number P via a relay (not shown). The terminal with terminal number P is connected to a positive voltage source. That is, a voltage having a positive voltage value is applied to the terminal having the terminal number P.

  The alarm panel 30 includes a terminal block 31 having terminals Nos. 1 to 4 and N, and an operation lamp 32 connected in series between the terminal No. 2 of the terminal block 31 and a grounding point. . The terminal of terminal number 2 of the terminal block 31 is electrically connected to the terminal of terminal number 2 of the terminal block 21 of the relay panel 20 via a control cable. The terminal with the terminal number N is grounded. That is, a voltage having a voltage value of 0 V is applied to the terminal having the terminal number N.

  The circuit breaker 40 includes a trip coil 42 having one end connected to a ground point. The other end of the trip coil 42 is electrically connected to the terminal of terminal number 3 on the terminal block 21 of the relay panel 20 via a control cable.

  The distribution board 50 is electrically connected to the terminal of terminal number 4 of the terminal block 21 of the relay board 20 via a control cable.

  The voltage detection relay 60 includes two connection cables, and outputs a high-level output signal when the voltage between the two connection cables exceeds a predetermined voltage value. Here, for example, as shown in FIG. 1, when measuring the voltage at the terminal number 2 of the terminal block 31 of the alarm panel 30, one of the two connection cables is connected to the terminal block 31 of the alarm panel 30. The other terminal is connected to the terminal having the terminal number N on the terminal block 31 of the alarm panel 30.

  The output voltage of the voltage detection relay 60 is transmitted to the receiver 80 via the transmitter 70. The receiver 80 switches the resistance value of the variable resistor 14 of the variable resistance fuse clip 10 according to the amplitude (low level or high level) of the output voltage of the voltage detection relay 60 transmitted from the transmitter 70.

Next, the operation of the alarm output test system according to the present embodiment (the alarm output test method which is an embodiment of the test method using the variable resistance fuse clip of the present invention) will be described with reference to the flowchart shown in FIG. To do.
First, the worker at the installation location of the alarm panel 30 connects one of the two connection cables of the voltage detection relay 60 to the terminal of the terminal number N of the terminal block 31 of the alarm panel 30 with a clip, for example, The other is connected to the terminal of terminal number 2 of the terminal block 31 of the alarm panel 30 with, for example, a clip (step S11).
At this time, since the voltage between the terminal number 2 and the terminal number N of the terminal block 31 of the alarm panel 30 is 0 V, the voltage detection relay 60 outputs a low level output signal. The low level output signal of the voltage detection relay 60 is transmitted from the transmitter 70 to the receiver 80. The receiver 80 switches the resistance value of the variable resistor 14 of the variable resistor fuse clip 10 to 10 kΩ because the amplitude of the transmitted output signal of the voltage detection relay 60 is low level (step S12).

Further, another worker at the installation location of the relay panel 20 connects the first terminal 11 of the variable resistance fuse clip 10 to the terminal of the terminal number 2 of the terminal block 21 of the relay panel 20 with a clip, for example. At the same time, the second terminal 12 is connected to the terminal of the terminal number P of the terminal block 21 of the relay panel 20 by, for example, a clip (step S13).
At this time, since a voltage having a positive voltage value is applied to the terminal of the terminal number P of the terminal block 21 of the relay panel 20, the variable resistor 14 is connected from the terminal of the terminal number P of the terminal block 21 of the relay panel 20. , Fuse 13, terminal number 2 of terminal block 21 of relay panel 20, control cable, terminal number 2 terminal of terminal block 31 of alarm panel 30, and operation lamp 32 to the ground point in alarm panel 30. An electric current flows toward. However, since the resistance value of the variable resistor 14 is switched to 10 kΩ, a current sufficient to drive the operation lamp 32 does not flow through the operation lamp 32 of the alarm panel 30. As a result, at this time, the operation lamp 32 of the alarm panel 30 is not turned on.

When a current flows from the terminal of terminal number P of the terminal block 21 of the relay panel 20 toward the ground point in the alarm panel 30, the terminal number 2 of the terminal block 31 of the alarm panel 30 and the terminal of the terminal number N are connected. In the meantime, a voltage (a voltage equal to or higher than a predetermined voltage value) is generated by dividing the voltage of the positive voltage value applied to the terminal of the terminal number P of the terminal block 21 of the relay panel 20. As a result, a high level output signal is output from the voltage detection relay 60 (step S14).
The high level output signal of the voltage detection relay 60 is transmitted from the transmitter 70 to the receiver 80. The receiver 80 switches the resistance value of the variable resistor 14 of the variable resistance fuse clip 10 to 1 kΩ because the amplitude of the transmitted output signal of the voltage detection relay 60 is at a high level (step S15).

  When the resistance value of the variable resistor 14 of the fuse clip 10 with variable resistance is switched to 1 kΩ, the value of the current flowing from the terminal of the terminal number P of the terminal block 21 of the relay panel 20 toward the ground point in the alarm panel 30 is changed. Since it becomes larger, the operation lamp 32 of the alarm panel 30 is turned on (step S16). When the worker at the installation location of the alarm panel 30 confirms that the operation lamp 32 of the alarm panel 30 is lit, the alarm output test is terminated.

  In step S13 described above, another worker at the installation location of the relay panel 20 mistakenly connects the first terminal 11 of the fuse clip 10 with variable resistance to the terminal number 3 of the terminal block 21 of the relay panel 20. When connected to the terminal, the terminal of the terminal number P of the terminal block 21 of the relay panel 20 is tripped from the variable resistor 14, the fuse 13, the terminal of the terminal number 3 of the terminal block 21 of the relay panel 20, the control cable, and the circuit breaker 40. A current flows through the coil 41 toward the ground point in the circuit breaker 40. However, since the resistance value of the variable resistor 14 is switched to 10 kΩ in step S12 described above, a current having a value sufficient to excite the trip coil 41 does not flow through the trip coil 41 of the circuit breaker 40. As a result, it is possible to prevent the circuit breaker 40 from malfunctioning.

In the above description, the worker at the installation location of the alarm panel 30 connected the two connection cables of the voltage detection relay 60 to the terminal of the terminal number N and the terminal of the terminal number 2 of the terminal block 31 of the alarm panel 30, respectively. However, when these are always connected, a worker on the side of the alarm panel 30 becomes unnecessary.
In addition, when the installation location of the relay panel 20 and the installation location of the alarm panel 30 are the same location, the output signal of the voltage detection relay 60 is sent via the variable resistance fuse clip 10 without passing through the transmitter 70 and the receiver 80. May be output to the variable resistor 14.
Further, the terminal with the terminal number N of the terminal board 31 of the alarm panel 30 is connected to a negative voltage source instead of the ground point in the alarm panel 31 so that a voltage having a negative voltage value is applied to this terminal. Also good.

In the above, the case where the alarm output test is performed using the fuse clip with variable resistance of the present invention has been described. However, the trip coil 42 of the circuit breaker 42 using the fuse clip with variable resistance of the present invention is described as follows. An operation test can also be performed.
An operator at the installation location of the alarm panel 30 connects the two connection cables of the voltage detection relay 60 to the terminal No. N and the terminal No. 2 of the terminal block 31 of the alarm panel 30, respectively. Other workers at the installation location 30 connect the first and second terminals 11 and 12 of the variable resistance fuse clip 10 to the terminals of the terminal number 3 and the terminal number P of the terminal block 21 of the relay panel 20, respectively. Connecting. At this time, even if the worker at the installation location of the relay panel 20 accidentally connects the first terminal 11 of the fuse clip 10 with variable resistance to the terminal of the terminal number 2 of the terminal block 21 of the relay panel 20, Since the resistance value of the variable resistor 14 is switched to 10 kΩ, the operation lamp 32 of the alarm panel 30 is not turned on, so that the alarm panel 30 can be prevented from false alarms.

Further, instead of the fuse clip 10 with variable resistance shown in FIG. 1 (the fuse clip with variable resistance according to the first embodiment of the present invention), the fuse clip 100 with the variable resistance shown in FIG. 4 (the second clip of the present invention). A fuse clip with a variable resistor according to the embodiment may be used.
The fuse clip 100 with a variable resistor is a switch 111 that selects one of the first and second resistors 112 and 113 and the first and second resistors 112 and 113 instead of the variable resistor 14 shown in FIG. And a switch control device 114 for controlling the switching of the switch 111, which is different from the fuse clip 10 with a variable resistor shown in FIG.
When the alarm output test system shown in FIG. 2 is configured using the fuse clip 100 with a variable resistor, the switch control device 114 responds to the output signal of the voltage detection relay 60 input from the receiver 80. One of the first and second resistors 112 and 113 is selected.

  As described above, the fuse clip with a variable resistor according to the present invention can be used to inspect equipment such as a circuit breaker in an electric power company.

It is a figure which shows the circuit structure of the fuse clip with a variable resistance by 1st Example of this invention. Example 1 It is a block diagram which shows the alarm output test system using the fuse clip with a variable resistance shown in FIG. Example 1 It is a figure for demonstrating operation | movement of the alarm output test system shown in FIG. Example 1 It is a figure which shows the circuit structure of the fuse clip with a variable resistance by the 2nd Example of this invention. (Example 2)

Explanation of symbols

DESCRIPTION OF SYMBOLS 10,100 Fuse clip with variable resistance 11,12 1st and 2nd terminal 13 Fuse 14 Variable resistor 20 Relay board 21,31 Terminal block 30 Alarm board 32 Operation lamp 40 Circuit breaker 42 Trip coil 50 Distribution board 60 Voltage detection relay 70 transmitter 80 receiver S11-S16 steps

Claims (8)

First and second terminals (11, 12);
A fuse (13) having one end connected to the first terminal;
Variable resistance means (14; 111-114) provided between the other end of the fuse and the second terminal;
A fuse clip with a variable resistor, comprising:   The variable resistance means controls first and second resistors (112, 113) having different resistance values, a switch (111) for selecting one of the first and second resistors, and switching of the switches. A fuse clip with variable resistance according to claim 1, characterized in that it comprises a switch controller (114). A device under test comprising a terminal block (31) having a third terminal and a fourth terminal to which a voltage having a first voltage value is applied using the fuse clip with a variable resistor according to claim 1 or 2. A test system for performing the test of (30),
A voltage detection relay (60) with two connecting cables;
A relay board (20) comprising a terminal block (21) having a fifth terminal and a sixth terminal to which a voltage of the second voltage value is applied;
Comprising
The fifth terminal of the relay panel is connected to the third terminal of the device under test via a control cable, and the two connection cables of the voltage detection relay are connected to the third and third terminals of the device under test. Each of the first and second terminals of the fuse clip with variable resistance is connected to the fifth and sixth terminals of the relay panel, and is detected by the voltage detection relay. According to the voltage between the third and fourth terminals of the device under test, the resistance value of the variable resistance means of the fuse clip with variable resistance is switched.
A test system characterized by that. Transmission means (70) for transmitting the output signal of the voltage detection relay;
Receiving means (80) for receiving the output signal of the voltage detection relay transmitted from the transmitting means;
Further comprising
In accordance with the voltage between the third and fourth terminals of the device under test represented by the output signal of the receiving means, the resistance value of the variable resistance means of the fuse clip with variable resistance is switched.
The test system according to claim 3, wherein: The variable resistance means controls first and second resistors (112, 113) having different resistance values, a switch (111) for selecting one of the first and second resistors, and switching of the switches. A switch control device (114),
The switch control device controls switching of the switch according to a voltage between the third and fourth terminals of the device under test;
The test system according to claim 3 or 4, characterized by the above. A device under test comprising a terminal block (31) having a third terminal and a fourth terminal to which a voltage having a first voltage value is applied using the fuse clip with a variable resistor according to claim 1 or 2. A test method for performing the test of (30),
A first step of connecting two connection cables of the voltage detection relay (60) to the third and fourth terminals of the device under test;
The first terminal of the fuse clip with a variable resistor is connected to a fifth terminal of a relay panel (20) connected via a control cable to the third terminal of the device under test. A second step of connecting the second terminal of the resistor-attached fuse clip to the sixth terminal of the relay panel to which a voltage of a second voltage value is applied;
A third step of switching the resistance value of the variable resistance means of the fuse clip with variable resistance according to the voltage between the third and fourth terminals of the device under test detected by the voltage detection relay;
A test method comprising: A fourth step of transmitting the output signal of the voltage detection relay using a transmission means (70);
A fifth step of receiving, using a receiving means (80), an output signal of the voltage detection relay transmitted from the transmitting means;
Further comprising
In the third step, the resistance value of the variable resistance means of the variable resistance fuse clip according to the voltage between the third and fourth terminals of the device under test represented by the output signal of the receiving means. Switch
The test method according to claim 6, wherein: The variable resistance means controls first and second resistors (112, 113) having different resistance values, a switch (111) for selecting one of the first and second resistors, and switching of the switches. A switch control device (114),
In the third step, the switch control device controls switching of the switch according to a voltage between the third and fourth terminals of the device under test.
The test method according to claim 6 or 7, wherein

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