JP2014021088A - Display testing device and display testing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a display testing device and a display testing method which are capable of easily solving a power supply trouble or the like due to a human error of a field worker when testing display.SOLUTION: The display testing device includes an AC/DC converter 1 for supplying a test DC voltage to a remote controller 20 when testing display and second and third normal/test changeover switches 24and 24provided in the remote controller 20. A normal side terminal, a test side terminal, and a common terminal of the second normal/test changeover switch 24are connected to a DC plus power terminal P in the remote controller 20, a plus voltage output terminal of the AC/DC converter 1, and a first display power terminal 26respectively, and a normal side terminal, a test side terminal, and a common terminal of the third normal/test changeover switch 24are connected to a DC minus power terminal N in the remote controller 20, a minus voltage output terminal of the AC/DC converter 1, and an output terminal of a display substrate 23 respectively.

Description

  The present invention relates to a display test apparatus and a display test method suitable for use in a display test at the time of installation of a remote monitoring control apparatus installed at an electric power company of a power company or periodic inspection.

  In an electric power company, in order to control the operation of the electric power equipment 30 (for example, a circuit breaker, a disconnecting switch and a relay device) from a distance by unmanning electric power stations such as a power plant, a substation, a switching station and a dam, FIG. As shown, a control station apparatus 10 is installed at a control station, and a remote monitoring control apparatus 20 (hereinafter referred to as “distance control apparatus 20”) is installed at an electric station. The control information is transmitted from the control station apparatus 10 to the power equipment 30 via the distance control apparatus 20 and the display / measurement information is transmitted from the power equipment 30 to the power equipment 30 via the distance control apparatus 20 as shown by a broken arrow in FIG. To the control station apparatus 10.

Here, as shown in FIG. 5, the distance control device 20 includes a processing unit (CPU) 21, a transmission / reception unit (MODEM) 22, a display substrate 23, and a plurality of normal / test switching switches (43 TS) 24. (Only the _{first to} third normal / test switching switches 24 _{1 to} 24 ₃ are shown), a plurality of selection control relays 25 (only the first to fourth selection control relays 25 _{1 to} 25 ₄ are shown), A plurality of display power terminals 26 (only _first to _third display power terminals 26 _{1 to} 26 ₃ are shown) and a plurality of control terminals 27 (first to fourth control terminals 27 _{1 to} 27 ₄ only). As shown).

First display power terminal 26 _1, together is connected to the far-braking device 20 in the provided DC positive supply terminal P (+ 55V _DC), the display relay contact 33 (FIG power device 30 first 1 and the second display relay contacts 33 ₁ and 33 ₂ are connected to the input terminals). The second and third display power terminals 26 ₂ and 26 ₃ are connected to a DC negative power terminal N (−55V _DC ) provided in the distance control device 20 via the display board 23. Are connected to the output terminals of the first and second display relay contacts 33 ₁ , 33 ₂ , respectively.

  The processing unit (CPU) 21 transmits display / measurement information from the power device 30 and the display substrate 23 to the control station apparatus 10 and receives control information from the control station apparatus 10 via the transmission / reception unit 22. .

The normal / test switching switch 24 includes a normal side terminal, a test side terminal, and a common terminal.
In the example shown in FIG. 5, only the first normal / test switching switch 24 ₁ is used, and the second and third normal / test switching switches 24 ₂ , 24 ₃ are vacant contact terminals ( Unused normal / test switch).
Therefore, in the first normal / test switching switch 24 ₁ , the normal side terminal is connected to the DC plus power supply terminal P, the test side terminal is an open terminal, and the common terminal is the first to fourth terminals. The selection control relays 25 _{1 to} 25 ₄ are connected to input terminals.

Output terminals of the first to _fourth selection control relays 25 _{1 to} 25 ₄ are connected to the first circuit breaker “off” relay 31 _A and the first via the first to _fourth control terminals 27 _{1 to} 27 ₄ . The circuit breaker “ON” relay 31 _B , the second circuit breaker “OFF” relay 32 _A and the second circuit breaker “ON” relay 32 _B are connected to input terminals of the circuit breaker “ON”.
The first circuit breaker “off” relay 31 _A is a relay for breaking (opening) the first circuit breaker installed in the first transmission / distribution line, and the first circuit breaker “on”. The relay 31 _B is a relay for turning on the first circuit breaker, and the second breaker “off” relay 32 _A breaks the second circuit breaker installed on the second power transmission and distribution line. The second circuit breaker “on” relay 32 _B is a relay for turning on the second circuit breaker.

The first circuit breaker “off” relay 31 _A , the first circuit breaker “on” relay 31 _B , the second circuit breaker “off” relay 32 _A and the second circuit breaker “on” relay 32. _B has an output terminal connected to a DC negative power supply terminal N, and operates when a DC positive voltage is supplied.

Conventionally, a display test (display confirmation test) at the time of installation and periodic inspection of the distance control device 20 configured as described above uses a lead wire 40 having a lead clip attached to one end and a contact rod attached to the other end. This is done as follows.
As shown by the arrow in FIG. 5, the local worker performs an operation to switch the first normal / test switching switch 25 ₁ from “normal” to “test” (the common terminal of the first normal / test switching switch 25 ₁ the by performing switching operations) so as to be connected to the test terminal, the first normal-test switching switch 25 ₁ in the test time state.
Local operator, after attaching lead clip lead 40 to the first display power supply terminal 26 _1, the DC positive when the first display normal a open state as relay contacts 33 ₁ shown in FIG. 5 the second display power terminals 26 ₂ to which no voltage is applied, by contacting the contact bars of the lead wire 40 to the second display power terminal 26 _2, the power supply terminals 26 ₁ and a first display The second display power supply terminal 26 ₂ is electrically connected to apply a DC positive voltage to the _second display power supply terminal 26 _2, and a DC current is applied to the display substrate 23 as indicated by a dashed arrow in FIG. And confirming that display information is transmitted to the control center apparatus 10.
Further, the second display 3 display the power supply terminal 26 ₃ of the DC positive voltage during normal A closed state is applied as the relay contact 33 ₂ shown in the figure, the third display power supply It is carried out by measuring the voltage between the terminals 26 ₃ and ground.
When the display test is completed, the local worker performs an operation of switching the first normal / test switching switch 24 ₁ from “test” to “normal” (the common terminal of the first normal / test switching switch 25 ₁ is set to normal). by performing the switching operation) so as to be connected to the negative terminal, returning first to normal-test switching switch 25 ₁ in the normal time state.

In such a display test of the distance control device 20, when the first display power supply terminal 26 ₁ and the second display power supply terminal 26 ₂ must be connected using the lead wire 40, If the contact rod of the lead wire 40 is brought into contact with the first control terminal 27 ₁ instead of the second display power supply terminal 26 _{2 due} to the human error of the first circuit breaker, the first circuit breaker as shown by the dashed arrow in FIG. As a result of the direct current flowing through the “off” relay 31 _A and the first circuit breaker “off” relay 31 _A operating and the first circuit breaker being cut off, the first transmission / distribution line is interrupted. As a result, there has been a problem of causing trouble in power supply.
Similarly, when the contact rod of the lead wire 40 is brought into contact with the third control terminal 27 ₃ instead of the second display power supply terminal 26 _{2 due} to a human error of the field worker, the second breaker “OFF” is used. results relay 32 _a second circuit breaker operates is interrupted, the second transmission and distribution lines there has been a problem that causes the power supply trouble with a power failure.
If the contact rod of the lead wire 40 is brought into contact with the second or fourth control terminal 27 ₂ , 27 ₄ instead of the second display power supply terminal 26 _{2 due} to a human error of the field worker, the first or first 2 of the circuit breaker "oN" relay 31 _B, 32 will be a DC current flows in the _B, the first or second circuit breaker "oN" relay 31 _B, 32 _B is operated. However, in this case, since the first and second circuit breakers remain turned on, the display test is not performed normally. However, the first and second transmission / reception lines fail to supply power. It will not cause.

In an actual display test of the distance control device 20, a DC plus voltage is applied to the display power supply terminal 26 using the lead wire 40 more than a hundred times per distance control device 20, and about one year. Ten units are being inspected and approximately three units are being replaced.
Most of the distance control device 20 is a live line portion, and a DC positive voltage (display power supply voltage) is sent to a circuit breaker “off” terminal (first and third control terminals 27 ₁ , 27 ₁ ,. 27 ₃ ) If a mistake is applied to the terminals for “nonuse” protection relays for power transmission and distribution lines, this will directly lead to erroneous shutoff and no protection of the power transmission and distribution lines. There are several tens of these terminals per distance control device 20, and about half of them will interfere with operation.

  Therefore, when performing a display test of the distance control device 20, the field worker applies a direct current even if a vinyl tape is attached to the control terminal 27 and the contact rod of the lead wire 40 is accidentally brought into contact with the control terminal 27. Measures are taken not to flow.

  In addition, as a technique for preventing such human error of a field worker, the present applicant, in the following Patent Document 1, a work start condition circuit for preventing a display test in a normal operation state, and a display A display test switching circuit for switching between a display test for an external device connection terminal to which the P power supply of the terminal block is applied and a display test for an external device connection terminal to which the P power supply is not applied is incorporated in the distance control device. In addition, the display test bar has a structure in which P power is not supplied from the distance control device to the contact bar attached to the tip in the normal operation state, and a switching signal for switching the two display tests to the display test switching circuit. We have proposed a display test device with a one-shot contact structure.

JP 2010-19756 A

  However, in the measures for applying the vinyl tape to the control terminal 27 as described above, it is necessary to apply the vinyl tape before the display test and to remove the vinyl tape after the display test.

  In addition, the display test apparatus proposed in Patent Document 1 is effective for preventing human error of a field worker during a display test, but the work start condition circuit and the display test switching circuit are used as a remote monitoring control apparatus. It is necessary to prepare a display test bar as well as to be incorporated.

  An object of the present invention is to provide a display test apparatus and a display test method that can easily eliminate a power supply trouble caused by a human error of a field worker during a display test.

The display test apparatus of the present invention is a display test apparatus for use in a display test of the remote monitoring control apparatus (20), and for testing for supplying a test DC voltage to the remote monitoring control apparatus during the display test. DC voltage supply means and first and second normal / test switching switches (24 ₂ , 24 ₃ ) provided in the remote monitoring and control device, and the first normal / test switching switch The normal side terminal of (24 ₂ ) is connected to the DC plus power supply terminal (P) provided in the remote monitoring control device, and the test side of the first normal / test switching switch (24 ₂ ) The terminal is connected to the positive voltage output terminal of the test DC voltage supply means, and the common terminal of the first normal / test switching switch (24 ₂ ) is connected to the display relay contact ( 33) the first display connected to the input terminal Power supply terminals (26 ₁₎ and is connected, normal side terminal of the second normal-test switching switch (24 _3), the negative DC power supply terminals provided on the remote monitoring and control device and (N) Connected, and the test side terminal of the second normal / test switching switch (24 ₃ ) is connected to the negative voltage output terminal of the DC voltage supply means for test, and the second normal / test switch A common terminal of the switching switch (24 ₃ ) is provided in the remote monitoring control device, and an input terminal is connected to an output terminal of the display relay contact via a _second display power supply terminal (26 ₂ ). It is connected to the output terminal of the display substrate (23).
Here, the first and second normal / test switching switches may be unused normal / test switching switches other than during the display test.
The test DC voltage supply means may be an AC / DC converter (1) for converting a commercial AC voltage input via a power plug (2) into the test DC voltage.
The display test method of the present invention is a display test method for performing a display test of the remote monitoring control device (20) using the display test device of the present invention, wherein the first display power supply terminal and the second display power terminal. A first step of connecting the display power supply terminal using a lead wire (40), and the test side terminal and the common terminal of the first and second normal / test switching switches are connected. The second step of switching between the first and second normal / test switching switches, and the test DC voltage supply means are connected to the remote monitoring control device to control the test DC voltage. And a third step of supplying to the apparatus.

The display test apparatus and display test method of the present invention have the following effects.
(1) Even if the lead wire contact rod is accidentally brought into contact with the control terminal, the current path is interrupted by the normal / test switch, so the power equipment connected to this control terminal (for circuit breaker “OFF”) (Such as relays) can be prevented from malfunctioning, so that it is possible to easily eliminate troubles in power supply due to human error of field workers during display tests.
(2) Since it is not necessary to attach or remove the vinyl tape to or from the control terminal, work efficiency can be improved.
(3) Since it is only necessary to switch the normal / test switching switch from “normal” to “test”, safety can be improved.
(4) Since the structure is simple, it can be easily manufactured and used elsewhere.

It is a figure for demonstrating the structure of the display test apparatus by one Example of this invention. It is a figure for demonstrating the display test method of the distance control apparatus 20 using the display test apparatus shown in FIG. It is a figure for demonstrating that the electric power supply trouble by the human error of a field worker can be eliminated at the time of the display test of the distance control apparatus 20 using the display test apparatus shown in FIG. It is a figure for demonstrating the distance control apparatus 20 installed in the electric station. It is a figure which shows the structure of the distance control apparatus 20 shown in FIG. It is a figure for demonstrating the subject of the conventional display test method of the distance control apparatus.

  For the above purpose, when a test DC voltage is supplied from the test DC voltage supply means to the remote monitoring control device at the time of the display test, and the contact rod of the lead wire is brought into contact with the control terminal, the current path is switched to the normal / test switching switch. It was realized by shutting off with.

Embodiments of a display test apparatus and a display test method according to the present invention will be described below with reference to the drawings.
Display test device of the present invention, when displaying the test of the far system apparatus 20, the contact test DC voltage (-55V _DC ~ + 55V _DC) to supply the far-system device 20 from the outside, the lead wire 40 to a control terminal 27 Then, the current path is cut off by the normal / test switching switch 24.

Therefore, the display testing apparatus according to an embodiment of the present invention, as shown in FIG. 1, a commercial AC voltage inputted through the power plug 2 (100 V _AC) the test direct current voltage (-55V _DC ~ + 55V _DC) And the second and third normal / test switching switches 24 ₂ , 24 which are unused contact terminals (unused normal / test switching switches) in the distance control device 20. _{And 3} .

Here, the normal side terminal, test side terminal and common terminal of the second normal / test switching switch 24 ₂ are the DC positive power source terminal P, the positive voltage output terminal of the AC / DC converter 1 and the first display power source. terminals 26 ₁ to be connected, respectively.
Further, normal-side terminal of the third normal-test switching switch 24 _3, the test terminal and the common terminal, the output terminal of the DC negative power supply terminal N, AC / DC converter 1 of the negative voltage output terminal and the display substrate 23 Each is connected.

Thereby, in normal times, the second and third normal / test switching switches 24 ₂ and 24 ₃ are switched to “normal” (that is, the second and third normal / test switching switches 24 ₂ , 24 ₃ common terminal and normal side terminal are connected to each other), the DC positive power supply terminal P → second normal / test switching switch 24 _{2 as} shown by the dashed arrow in FIG. → first display power supply terminal 26 ₁ → power supply circuit 30 (second display relay contact 33 ₂ ) → third display power supply terminal 26 ₃ → display substrate 23 → third normal / test switching switch 24 ₃ → A current path called a DC negative power supply terminal N can be formed.

In the display test of the distance control device 20, as shown in FIG. 2, the first display power terminal 26 ₁ and the second display power terminal 26 ₂ are connected by the lead wire 40, and the first through The third normal / test switching switches 24 _{1 to} 24 ₃ are switched to “test” (that is, the common terminals of the _{first to third} normal / test switching switches 24 _{1 to} 24 ₃ are connected to the test side terminals). Therefore, the AC / DC converter 1 has a positive voltage output terminal → the second normal / test switching switch 24 ₂ → the first display power terminal 26 ₁ , as indicated by the dashed arrow in FIG. → Lead wire 40 → Display power terminal 26 (second display power terminal 26 ₂ ) → Display substrate 23 → Third normal / test switching switch 24 ₃ → Current of negative voltage output terminal of AC / DC converter 1 A path can be formed, so A Test DC voltage outputted from / DC converter 1 can be displayed test of the far system device 20 with.

Furthermore, when it is necessary to connect the first display power supply terminal 26 ₁ and the second display power supply terminal 26 ₂ using the lead wire 40 during the display test of the distance control device 20, Even if the contact bar of the lead wire 40 is brought into contact with the first control terminal 27 ₁ instead of the second display power supply terminal 26 _{2 due} to human error, the first to third normal / test switching switches 24 ₁ to 24 ₁ to 24 ₃ is switched to “test” as described above (that is, the first to third normal / test switching switches 24 _{1 to} 24 ₃ are switched so that the common terminal and the test side terminal are connected to each other. Therefore, the current path is interrupted by the first and second normal / test switching switches 24 ₁ and 24 _{2 as} indicated by the one-dot chain line in FIG. As a result, since the first circuit breaker “off” relay 31 _A does not operate, it is possible to prevent the power supply trouble of the first transmission / distribution line due to the first circuit breaker being cut off. .
Similarly, even if the contact rod of the lead wire 40 is brought into contact with the third control terminal 27 ₃ instead of the second display power supply terminal 26 _{2 due} to a human error of the field worker, the current paths are the first and second current paths. Are switched off by normal / test switching switches 24 ₁ and 24 ₂ . As a result, the second circuit breaker “off” relay 31 _B does not operate, so that it is possible to prevent the power supply trouble of the second power transmission and distribution line due to the second circuit breaker being cut off. .

As described above, by using the display test apparatus according to the present embodiment, the field worker can use the first display power terminal 26 ₁ and the second display power terminal 26 ₂ as shown in FIG. Are connected using the lead wire 40, and the first to third normal / test switching switches 24 _{1 to} 24 ₃ are connected to the test side terminal and the common terminal so that the first to third normal / test normal / The test switching switches 24 _{1 to} 24 ₃ are switched, the power plug 2 of the AC / DC converter 1 is inserted into the work outlet 5, and the AC / DC converter 1 is connected to the distance control device 20 from the AC / DC converter 1. By supplying a test DC voltage to the distance control device 20, it is possible to perform a display test of the distance control device 20 without the need to attach a vinyl tape to the control terminal 27 as in the prior art.

  In the above description, the AC / DC converter 1 that converts the commercial AC voltage into the test DC voltage is used as the test DC voltage supply means for supplying the test DC voltage to the distance control device 20 during the display test. However, a battery built-in DC power supply may be used.

1 AC / DC converter 2 power plug 5 working receptacle 10 Control Center 20 far braking device 21 processor 22 transceiver 23 display substrate 24 normal-test switching switch 24 _{1-24 3} first to third normal-test Switching switch 25 Selection control relays 25 _{1 to} 25 ₄ First to fourth selection control relays 26 Display power terminals 26 _{1 to} 26 ₃ First to _third display power terminals 27 Control terminals 27 _{1 to} 27 ₄ first to fourth control terminal 30 power devices 31 _a, 32 _a first and second circuit breaker "off" relay 31 _B, 32 _B the first and second circuit breaker "ON" relay 33 display the relay contact 33 ₁ , 33 ₂ First and second display relay contacts 40 Lead wire P DC positive power supply terminal N DC negative power supply terminal

Claims (4)

A display test device for use in a display test of the remote monitoring control device (20),
A test DC voltage supply means for supplying a test DC voltage to the remote monitoring and control device during the display test;
First and second normal / test switching switches (24 ₂ , 24 ₃ ) provided in the remote monitoring control device,
A normal side terminal of the first normal / test switching switch (24 ₂ ) is connected to a DC positive power supply terminal (P) provided in the remote monitoring and control device;
A test side terminal of the first normal / test switching switch (24 ₂ ) is connected to a positive voltage output terminal of the test DC voltage supply means;
A common terminal of the first normal / test switching switch (24 ₂ ) is connected to an input terminal of a display relay contact (33) of the power device (30) and a first display power supply terminal (26 ₁ ). Connected,
The normal terminal of the second normal / test switching switch (24 ₃ ) is connected to a DC negative power supply terminal (N) provided in the remote monitoring and control device,
A test side terminal of the second normal / test switching switch (24 ₃ ) is connected to a negative voltage output terminal of the test DC voltage supply means;
The common terminal of the second normal / test switching switch (24 ₃ ) is provided in the remote monitoring control device, and the input terminal is the output terminal of the display relay contact and the second power supply terminal (26 ₂ ) connected to the output terminal of the display substrate (23) connected via
A display test apparatus.   The display test apparatus according to claim 1, wherein the first and second normal / test switching switches are unused normal / test switching switches except during the display test.   The test DC voltage supply means is an AC / DC converter (1) for converting a commercial AC voltage input via a power plug (2) into the test DC voltage. Item 3. The display test apparatus according to Item 1 or 2. A display test method for performing a display test of a remote monitoring control device (20) using the display test device according to any one of claims 1 to 3,
A first step of connecting the first display power supply terminal and the second display power supply terminal using a lead wire (40);
A second step of switching the first and second normal / test switching switches so that the test-side terminal and the common terminal of the first and second normal / test switching switches are connected;
A third step of connecting the test DC voltage supply means to the remote monitoring control device and supplying the test DC voltage to the remote monitoring control device;
A display test method, comprising:

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