KR20020001675A - Tester of direct current protecting equipment - Google Patents

Abstract

PURPOSE: A tester for SEPCOS is provided to monitor load current of 50F DDL and a feeder so as to detect overload and short thereof, thereby cutting off a circuit breaker in case of train trouble. CONSTITUTION: A tester for SEPCOS serves to identify load current and fault direct current of a train so as to cut off a circuit breaker using 50F DDL and 76D, thereby detecting long-distance fault of DC supplied to the train line. The 50F DDL cuts off a circuit breaker for security of the train and train line in case of train trouble. The 76D monitors load current of a feeder so as to detect overload and short thereof. The tester comprises an R-C parallel circuit and a power supply(20) for supplying power to the R-C parallel circuit. The R-C circuit consists of condenser and resistance parallel to each other to form current curve in detecting with 50F and 76D.

Description

TESTER OF DIRECT CURRENT PROTECTING EQUIPMENT}

The present invention relates to a tester of the DC protection device, and more specifically, to the safety of the train and the catenary when a failure of a normal train as a protection function for detecting a remote failure of the DC power supply (DC 1500V) supplied to the catenary. It is a tester capable of testing 50F (DDL) which cuts a circuit breaker and 76D which detects an overload and short circuit condition by measuring / analyzing the load current of a feeder.

In general, unlike the alternating current, since a direct current detects a fault current by calculating a current magnitude and a slope, a special protection device (SEPCOS) is required and a test apparatus for testing the same is required.

These test apparatuses of the related art have a problem that they cannot be used because they are expensive enough to be used as necessary.

Another problem of the conventional test apparatus is that various accident detection tests of SEPCOS have been tested using current and voltage generators, but there are some items that cannot be tested depending on the type of voltage generator.

Accordingly, an object of the present invention is to provide a tester that can test the SPECOS simply and accurately.

Another object of the present invention is to provide a tester that can be easily used for SEPCOS and test all kinds of items.

Another object of the present invention is to provide a low cost tester.

1 is a feeder current detection circuit diagram of SEPCOS, a DC protection device according to the present invention;

2 is a circuit diagram of a tester of a direct current protection device according to the present invention,

3 is a DDL T TEST result using a DC protection device according to the present invention,

4 is ΔI TEST results using a DC protection device according to the present invention,

5 is an Imax (+) TEST results using a DC protection device according to the present invention,

6 is an Imax (-) TEST result using a DC protection device according to the present invention.

Explanation of symbols on the main parts of the drawings

10: BUS 12: SHUNT

14: MIU 16: SEPCOS

20: power supply 22: toggle switch 1

24: toggle switch 2 28: power switch

30: LED 32: variable resistor 1

The present invention relates to a tester of the DC protection device,

50F (DDL; Line Fault Detection) and feeder to cut the circuit breaker for the safety of trains and train lines in the event of a normal train breakdown. In the DC protection device such as SEPCOS having a protection function such as breaking the circuit breaker by distinguishing the vehicle load current and the DC fault current by using 76D for detecting overload and short circuit condition by measuring / analyzing the load current of

An R-C parallel circuit connecting a capacitor (C) and a resistor (R) in parallel to make a current curve detected by the DC protection device by the 50F and 76D; And

And a power supply unit for supplying power to the R-C parallel circuit.

The RC parallel circuit connects a resistor 1 (RV1) and a capacitor 2 (C2) in series, electrically connects one end of the resistor 1 to one point (4, 5) of a toggle switch 1 and connects the resistor connected in series. 76D for connecting a midpoint between 1 and condenser 2 to one end (1, 2) of the toggle switch 1 and outputting a fault current through one end of the condenser 2 and one end (1, 2) of the toggle switch 1 A circuit section; Connect resistor 2 (RV2), resistor 3 (RV3) and capacitor 1 (C1) in series, electrically connect one end of resistor 2 to one end (5, 6) of toggle switch 1, and connect the resistor 3 and capacitor connected in series A 50F ΔI circuit section that connects an intermediate point between 1 to one end (2, 3) of the toggle switch 1 and outputs a fault current through one end of the condenser 1 and one end (2, 3) of the toggle switch 1. ; And a toggle switch 2 for connecting resistor 4 (RV4) in parallel with resistor 3 connected in series between resistor 2 and capacitor 1 of the 50F DELTA I circuit unit, and selecting either resistor 3 or resistor 4. 50F DDL T circuit unit for outputting a fault current through one end of the condenser 1 and one end (2, 3) of the toggle switch 1 by excluding the resistor 3 and connecting it to the resistor 4; do.

The resistor 1, the resistor 2, the resistor 3 and the resistor 4 of the R-C parallel circuit may be a variable resistor capable of adjusting voltage.

The 76D circuit unit may be tested by reversing only the polarity of Imax (+) and Imax (-).

The power supply unit is applied to the voltage unnecessarily long to prevent the excessive protection of the DC protection device, the power switch using a push switch (PUSH SWITCH) for extending the life of the power supply; do.

And a power display unit in which LEDs are connected in parallel to a circuit of the power supply unit so as to check an ON / OFF state of the voltage output from the power supply unit.

50F (DDL, Line Fault Detetion) is an auxiliary function to detect the remote fault of DC power supply (DC 1500V) supplied to the train line. In case of occurrence, the circuit breaker is cut off for the safety of train and tram line.

The protection by △ Imin designates the upper limit of the general current used as the auxiliary power of the vehicle (AUX.), And does not detect the current increase rate below that value.It is calculated by considering the number of trains running in the substation feeding section. do.

The detection by the duration of the di / dt signal detects the initial slope (Slope E) and the end value of the slope (Slope F) at which the current begins to increase, and the current increase duration (the duration from E to F) is corrected. If the time (T max) is exceeded, the breaker is shut off.

The detection by ΔI indicates that the breaker will be activated if the current increase (differential current) from the slope E of di / dt to before the F value rises above the set value (ΔImax) and lasts more than the settling time (t △ Imax). Block it.

76D (Imax ±) detects overload and short circuit condition by measuring / analyzing feeder load current If, and if measurement is SEPCOS VPC Board AN3 through Shunt (R301: 3000A / 30mV) and Isolator (U301: 60mV / 5V) Measured by (J3). The 76D operates when the current is lower than Ids and exceeds the set time T with a current value greater than the Imax value.

With reference to the accompanying drawings, the tester of the DC protection device according to the present invention will be understood by the embodiments described in detail below.

Referring to the feeder current sensing circuit of SEPCOS according to FIG. 1, a precision resistor (10 uΩ = 60 mV ÷ 6000 A) of SHUNT 12 is applied to the MIU 14 in the BUS 10 through which DC 1500 V flows. The MIU 14 converts it back to the J3 terminal of the SEPCOS 16, and the SEPCOS 16 converts the received value into a calculated value.

For example, if 3000A current flows in the BUS 10, 30mV is output from the SHUNT 12, 2.5V is output from the secondary side of the MIU 14, and the SEPCOS 16 recognizes this as 3000A.

The DC protection device tester capable of testing the SEPCOS 16 according to FIG. 2 is an RC parallel circuit using a capacitor and a resistor and a power supply unit for supplying power to create a current curve detected by the SEPCOS 16 at 50F / 76D. 20).

The power supply unit 20 uses a 9V battery for power supply inside the circuit, and can be easily selected by attaching SW3 (22) which is a toggle switch 1 (Toggle Switch 1) to test 50F and 76D.

SW4 (24), a toggle switch 2, can be used to select and test △ I and DDL T in 50F, and test can be performed by reversing the polarity of Imax (+) and Imax (-) in 76D only. Do.

In addition, the voltage was distributed by using a resistor so that the test can be performed on both the MIU primary side and the secondary side, and it can be selected using SW2 (26) which is a toggle switch 3.

In addition, by applying a long voltage unnecessarily to prevent excessive force on equipment such as SEPCOS, and for extending the life of the battery of the power supply unit 20, the power switch 28 is configured as a push switch.

The LED 30 was connected in parallel to the power supply 20 so that the voltage was output, and the variable resistor (△ I, DDL, 76D, MIU) (RV3, RV4, RV1, RV5) are used.

Referring to the operation of the circuit based on the circuit diagram configured as described above, the circuit uses a 9V battery as the power supply of the power supply unit 20, select each function using the toggle switches 22, 24, 26. It was made. In addition, it was possible to output using the power switch 28, LED 30 is turned on at the time of power supply to check the output.

Looking at the function of each variable resistor, variable resistor 1 (RV1) 32 sets the current slope of 76D, variable resistor 2 (RV2) 34 sets the output voltage of 50F, variable resistor 3 (RV3) 36 sets the current slope of ΔI in 50F, variable resistor 4 (RV4) 38 sets the current slope of DDL T in 50F, and variable resistor 5 (RV5) 40 is the MIU. Set the voltage ratio between the primary and secondary sides.

Looking at the function of each switch, SW1 (28) is a power switch 28 using a push switch, and supplies power to the circuit connected to the power supply unit 20, SW2 (26) is a MIU primary And one of the MIU secondary sides, SW3 (A, B) 22 selects one of 76D and 50F as toggle switch 1 22, and SW4 24 as toggle switch 2 24. Select one of ΔI and DDL T.

Referring to the setting method using the circuit configuration and functional characteristics as described above, as follows.

First, connect the tester to the output terminal, select the function to be set, select MIU 1/2 order using SW2 (26), and press the power switch (28).

When DDL T is set in 50F, the variable resistor 4 (RV4) 38 is set so that the output becomes 2.7V on the secondary side and 33mV on the primary side.When △ I in 50F is set, the output is on the secondary side 3.1V, on the primary side. Variable resistor 3 (RV3) 36 is set to be 38.6mV, and when 76D is set, the voltage gradually rises at output and after about 5 to 10 seconds, the variable resistance is about 5.65V on the secondary side and about 69mV on the primary side. 1 (RV1) 32 is set.

The variable resistor 2 (RV2) 34 can adjust the 50F output voltage, but care must be taken without setting it. At the same time, the variable resistor 5 (RV5) 40 can also adjust the voltage output to the MIU primary side. Do not set.

The test method after setting the circuit as described above is as follows.

It depends on the test at the MIU primary side and at the MIU secondary side, which is selected by SW2 (26).

First, when testing on the MIU primary side, use the SW2 (26) to select the MIU primary side, check the polarity of the MIU, connect it to IN + (line number 31), IN- (line number 32) of the MIU, and toggle it. Place the switches 1, 2 (22, 24) in the desired position and test by pressing the power switch (28).

When testing on the secondary side of MIU, use the SW2 (26) to select the secondary side of the MIU, and connect the output terminal to the X315 terminal block / No. 1 (+) and No. 2 (-) in the MIU. Except for the wires, the other wires of terminals 1 and 2 are to be removed from the terminal block for accurate testing. Then place the toggle switches 1, 2 (22, 24) in the desired position and test by pressing the power switch (28).

3 to 6 will be described the test results using the tester of the DC protection device.

If the setting is properly adjusted, the test results of the MIU primary side and the secondary side are the same, and the test results of FIGS. 3 to 6 are the results of the MIU secondary test.

According to the DDL T TEST result of FIG. 3,

Detecting more than 50kA / s of initial slope and maintaining more than 12kA / s of slope for more than 55ms, DDL T operates to trip the breaker.

According to ΔI TEST results of FIG. 4,

If the initial slope is detected over 50kA / s and the set current value is exceeded 3000A within 10ms, the breaker will trip.

According to the Imax (+) TEST result of FIG. 5,

If the initial slope is gradually increased with the slope below 50kA / s and maintains the set current value of 5000A or more for more than 10000ms, it is judged as an accident and trips the breaker.

According to the Imax (-) TEST result of FIG. 6,

If the initial slope is gradually increased to the slope of 50kA / s or less and keeps the set current value 5000A or more over 5000ms, it is judged as an accident and trips the breaker.

As described above, embodiments of the present invention have been described in detail, but the scope of the present invention is not limited thereto, and the scope of the present invention extends to the range substantially equivalent to one embodiment of the present invention.

As can be seen from the above description, since the tester of the DC protection device according to the present invention uses only simple components such as a resistor, a variable resistor, a capacitor, a switch, and an LED, there is an effect of providing an inexpensive breaker test equipment.

In addition, since it uses a low-cost tester, it has the effect of securing and using as many as necessary.

Claims (6)

50F (DDL; Line Fault Detection) and feeder to cut the circuit breaker for the safety of trains and train lines in the event of a normal train breakdown. In the DC protection device such as SEPCOS having a protection function such as breaking the circuit breaker by distinguishing the vehicle load current and the DC fault current by using 76D for detecting overload and short circuit condition by measuring / analyzing the load current of An R-C parallel circuit connecting a capacitor (C) and a resistor (R) in parallel to make a current curve detected by the DC protection device by the 50F and 76D; And And a power supply unit for supplying power to the R-C parallel circuit. The method of claim 1, wherein the R-C parallel circuit Connect resistor 1 (RV1) and capacitor 2 (C2) in series, and electrically connect one end of resistor 1 to one point (4, 5) of toggle switch 1, and A 76D circuit unit for connecting a midpoint between the one end (1, 2) of the toggle switch 1 and outputting a fault current through one end of the condenser 2 and one end (1, 2) of the toggle switch 1; Connect resistor 2 (RV2), resistor 3 (RV3) and capacitor 1 (C1) in series, electrically connect one end of resistor 2 to one end (5, 6) of toggle switch 1, and connect the resistor 3 and capacitor connected in series A 50F ΔI circuit section that connects an intermediate point between 1 to one end (2, 3) of the toggle switch 1 and outputs a fault current through one end of the condenser 1 and one end (2, 3) of the toggle switch 1. ; And Using a toggle switch 2 to connect resistor 4 (RV4) in parallel with resistor 3 connected in series between resistor 2 and capacitor 1 of the 50F DELTA I circuit part and selecting either resistor 3 or resistor 4 And a 50F DDL T circuit unit for outputting a fault current through one end of the capacitor 1 and one end (2, 3) of the toggle switch 1 by excluding the resistor 3 and connecting to the resistor 4. Tester of DC protection device. The method of claim 2, Resistor 1, resistor 2, resistor 3 and resistor 4 of the R-C parallel circuit is a variable resistor capable of adjusting the voltage. The method of claim 2, The 76D circuit unit is a tester of the DC protection device, characterized in that the test is possible by reversing the polarity of Imax (+) and Imax (-) only. The method of claim 1, The power supply unit is applied to the voltage unnecessarily long to prevent the excessive protection of the DC protection device, the power switch using a push switch (PUSH SWITCH) for extending the life of the power supply; DC protection device tester. The method of claim 1, And a power display unit in which LEDs are connected in parallel to the circuit of the power supply unit so as to check an ON / OFF state of the voltage output from the power supply unit. Testing machine.