RU77447U1 - SHORT-CIRCUIT CONTROL DEVICE IN AC CONTACT NETWORK - Google Patents

Abstract

The utility model relates to devices for improving the reliability of power supply of electric railways, namely to devices for monitoring short circuits in the contact AC network of railways. The purpose of the utility model is to increase the reliability of the device in the process of finding a short circuit due to the use of induced voltage and the elimination of false operation with a magnetic effect on a disconnected contact network. A short-circuit control device (short circuit) in the contact network of the double-track section of the contact network for alternating current of electric railways contains 27.5 kV buses of the traction substation connected through the switches of the contact network of the first and second paths and a longitudinal power supply line ДПР-27.5 kV, and the contact the network is in the zone of electromagnetic influence of the longitudinal power supply line DPR-27.5 kV and the mutual influence between the contact network of the first and second paths. In addition, the device includes a voltage transformer with primary and secondary windings, a voltage relay with a make contact, a low-pass filter and a signal device, and the primary winding of the voltage transformer is connected with one terminal to the switch on the side of the contact network of one path, and the other with a terminal, and the secondary winding is connected to the input of the low-pass filter, the output of which is connected to the coil of the voltage relay through the contact of the relay-repeater of the disconnected state of the switch. One terminal of the make contact of the voltage relay is connected to the “+” power source, and the other terminal is connected to the signaling device.

Description

The utility model relates to devices for improving the reliability of power supply of electric railways, namely to devices for monitoring short circuits in the contact AC network of railways.

A device for monitoring a short circuit (short circuit) in the contact network of a two-track section of the contact alternating current network of electric railways, containing 27.5 kV bus traction substation connected through the switches of the contact network of the first and second path and the longitudinal power supply line DPR-27.5 kV, moreover, the contact network is in the zone of electromagnetic influence of the longitudinal power supply line DPR-27.5 kV and the mutual influence between the contact network of the first and second ways [1, p.243, Fig.16.21 - prototype].

In this device, the control of the presence or absence of a short circuit in the process of searching for it in an accidentally disconnected contact network is determined by periodically testing it by turning on the switch. The disadvantage of this short-circuit monitoring device is that in connection with the possible inclusion of a circuit breaker on a stable short-circuit, the likelihood of burning the contact network increases and the wear of the circuit breaker increases.

The application No. 2007111014 (01197100 for the invention “Short circuit monitoring device in the contact network” made an attempt to correct this drawback, however, the subject of this application is a single-track section of the contact network, and here is a double-track section where magnetic influence from the second-line contact network is added. A this adds to the difficulty in solving the task.

A detailed schematic diagram of an electrified section of alternating current with a DPR line and with a cut along the double-track section is given in [2, p.137, Fig. 5.2].

In the inventions [3], the presence of a short circuit is determined only for no more than 1 ... 2 seconds after an emergency shutdown of the contact network circuit breaker. However, in case of stable faults in the process of searching for damage, information on the state of the contact network for a long time (measured in hours) is needed.

The purpose of the utility model is to increase the reliability of the device in the process of finding a short circuit due to the use of induced voltage and the elimination of false operation with a magnetic effect on a disconnected contact network.

This goal is achieved by the fact that in the device for monitoring a short circuit in the contact network of the two-track section of the contact network of the alternating current of electric railways, containing 27.5 kV bus traction substation connected through the switches of the contact network of the first and second path and the longitudinal power supply line DPR-27, 5 kV, and the contact network is in the zone of electromagnetic influence of the longitudinal power supply line DPR-27.5 kV and the mutual influence between the contact network of the first and second paths, additional wearable devices. These include a voltage transformer with primary and secondary windings, a voltage relay with a make contact, a low-pass filter and an alarm device, the primary winding of the voltage transformer connected by one output to the switch on the side of the contact network of one path, and the other output to the rail, and the secondary

the winding is connected to the input of the low-pass filter, the output of which is connected to the voltage relay coil through the contact of the relay-repeater of the off state of the circuit breaker, one terminal of the make contact of the voltage relay is connected to the “+” power source, and the other terminal to the signaling device.

This embodiment of the device eliminates the false operation of the device and, therefore, increase the reliability of its operation.

A short circuit monitoring device in the contact network is shown in FIG. 1.

The contact network of the first 2 and second 3 railways through the switches 4 and 5, respectively, and the longitudinal power supply line 6 through the switch 7 are connected to the tires 1 of the traction substation.

The contact network of the first path is influenced by the induced voltage due to the electrical influence of the contact network of the second path and the DPR-27.5 kV line due to the distributed capacitance: “2-way contact network - 1-way contact network”, “DPR-27.5 kV - contact network 1 of the path "," contact network 1 of the path - rails "(the equivalent values of the distributed capacity 8, 9, 10 are shown in Fig. 1).

Induced voltage on the contact network of the first path due to magnetic influence can be in the presence of a load current along the first path. The magnetic effect from the DPR-27.5 kV is insignificant due to its small load.

The voltage transformer 11 is connected to the contact network of the first path 2 and the rail 12. Similarly, the same device is connected to the second path of the railway - is not considered here.

The voltage relay 13 is connected to the voltage transformer 11 through the make contact 14 of the relay-relay of the off state of the switch and the low-pass filter 15.

The make contact 16 of the voltage relay connects the signal device 17, which in the simplest embodiment can be a signal light.

The drawing shows one of the possible short circuit (short circuit) 18 in the contact network.

The device operates as follows.

In the initial state, all switches 4, 5, 7 are turned on to power the contact network 2 and 3 and the line of the DPR 6.

When short circuit at point 18, the switch 4 is turned off, contact 12 closes. After that, in accordance with [4], the current collectors are lowered for 2 minutes in accordance with [4] on the electric rolling stock (EPS).

After lowering the current collectors, we consider two states of the contact network.

1. Short-circuit sustainable.

If there is no current along the second path, then there is no magnetic influence, and in case of short circuit on the first path, the voltage from the electric influence is zero. Therefore, the relay 13 and the signal device 17 will not work.

In the presence of a traction load current in the second path (non-sinusoidal character with a clear separation of the 3rd, 5th and other higher harmonics), the induced voltage from the magnetic influence will also have a pronounced non-sinusoidal character. The filter 15 filters out the higher harmonics of the voltage and at zero voltage value from the electrical influence of the relay 13 will not work, and the signal device 17 will not work either.

So, with a stable short circuit, the signal device 17 will not work, and this indicates the prohibition of the repeated switching on of the circuit breaker and the need for a subsequent search for a short circuit location, for example, by alternately disconnecting the longitudinal disconnectors located along the contact network. Wherein

after disconnecting the next disconnector, it is not necessary to turn on the switch to test the contact network. The operation of the alarm device after disconnecting the next disconnector will indicate the place of damage - short circuit.

It is important to note the following. If there was no filter 15, then from a magnetic influence, the signal device 17 would have worked falsely. Therefore, the main thing in the utility model is the filtering of higher harmonics in the voltage of the contact network, which allows you to block the false response of the device.

2. Short circuit passing. (that is, after the 4 short-circuit breaker 4 is turned off, it self-destructs, for example, when the arc of insulators is blocked by an arc), the current collectors of the EPS are lowered within two minutes and then the induced voltage from the electric influence appears in the contact network, which has an almost sinusoidal character. Therefore, the relay 13 will work and the signaling device 17 will work. It indicates the absence of a short circuit and the need for the circuit breaker 4 to be turned on again.

Tests of the device were performed on double-track sections of the contact network of the Gorky railway. Bobylskaya - Sergach (2 × 25 kV system) and the Sejm - Dzerzhinsk (25 kV system). The measurements were performed using a voltage transformer ТН - 27.5 kV.

In the absence of short-circuit, the induced voltage of almost sinusoidal shape is 2.3 ... 2.7 kV in the section of the 2 × 25 kV system and 2.6 ... 7.1 kV in the section of the 25 kV system.

In a fault, the induced voltage of a strongly distorted shape was 160 ... 360 V (the fault was at a distance of 15 ... 40 km, with a load of the adjacent path up to 160 A.).

In the absence of short circuit in the contact network and the lowered current collectors of the EPS, the signal device 17 reliably worked.

In the case of a short circuit in the contact network (simulated by a curtain of a grounding rod), the voltage in the contact network was 360 V, and after filter 15, relay 13 is practically zero. The signaling device did not work.

Naturally, with an increase in the actual load along the adjacent path, for example, up to 1000 ... 1200 A, the induced voltage from the magnetic influence can increase to 2500 V or more. Therefore, in order to not falsely trigger the device from the induced voltage of the magnetic influence, it is necessary to install a low-pass filter 15.

Information sources:

1. Handbook of Power Supply for Railways. T.1 / Ed. K.G. Marquardt. - M.: Transport, 1980 .-- 256 s.

2. Electric railways. Textbook for high schools / V.A. Kislyakov, A.V. Plaks, V.N. Pupynin, etc., ed. A.V. Plaksa and V.N. Pupynina. M .: Transport, 1993 .-- 280 s.

3. A.S. 2316777 and A.S. 2316779.

4. Instruction on the procedure for locomotive crews and employees of power supply distances in case of damage to current collectors, the contact network and their commission consideration. No. ЦЦ-ЦЭ-860. M .: MPS RF, - 2001. - 32 p.

Claims (1)

A short-circuit monitoring device in the contact network of a two-track section of the contact network for alternating current of electric railways, containing 27.5 kV bus of the traction substation connected through the switches of the contact network of the first and second path and a longitudinal power supply line DPR-27.5 kV, and the contact network is in the zone of electromagnetic influence of the longitudinal power supply line DPR-27.5 kV and the mutual influence between the contact network of the first and second paths, characterized in that a voltage transformer is introduced I have primary and secondary windings, a voltage relay with a make contact, a low-pass filter and an alarm device, the primary winding of the voltage transformer connected by one output to the switch on the side of the contact network of one path and the other by the rail, and the secondary winding is connected to the input of the low-pass filter , the output of which is connected to the coil of the voltage relay through the contact of the repeater relay of the off state of the circuit breaker, one output of the make contact of the voltage relay is connected to the “+” of the source Tania and the other terminal - to a signaling device.