RU2760238C1 - Measuring channel of traction current in traction rail network - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to rail electric circuits. A measuring channel of the traction current in a traction rail network contains rail threads of the traction rail network, insulating joints, two shunt resistors, a choke transformer, the first and second half-windings of the main winding of which are connected to two current sensors based on the Hall effect, six fuses with actuation control, shunt resistors, a microcontroller and a calibration module. Each current sensor based on the Hall effect is connected to semi-winding via serially connected fuses and a shunt resistor, and outputs of current sensors based on the Hall effect are connected to the microcontroller integrating the measuring channel into a technical diagnostics and monitoring system. The calibration module is connected to the first and second shunt resistors connected in series with fuses and current sensors based on the Hall effect through two normally open contacts of two electromagnetic relays connected in series with fuses.

EFFECT: increased stability of operation of rail chains.

1 cl, 1 dwg

Description

The invention relates to the railway field of technology, namely to measuring traction current in a traction rail network of electrified railways, and can be used in systems for technical diagnostics and monitoring of railway automation and telemechanics devices, as well as in systems for technical diagnostics and monitoring of a traction rail network.

Known information-measuring device for monitoring traction current in a rail network, containing a choke-transformer of the transmitting end of the rail circuit, a choke-transformer of the receiving end of an adjacent rail circuit, an inter-choke jumper, the first choke jumper of the transmitting end of the rail circuit, the second choke jumper of the transmitting end of the rail circuit throttle jumper of the receiving end of the adjacent rail circuit, the second throttle jumper of the receiving end of the adjacent rail circuit, power supply, the first Hall sensor, the second Hall sensor, the third Hall sensor, the fourth Hall sensor, the fifth Hall sensor, controller, information processing unit, panel [RU No. 188294, IPC B61L 25/08, B61L 1/00, publ. 04/29/19, Bul. No. 13, "Information-measuring device for monitoring traction current in the rail network", authors Basharkin M.V. and etc.].

The disadvantage of this device is the inability to continuously monitor the value of the traction current in the rail lines, as well as to integrate into the systems of technical diagnostics and monitoring.

Known measuring and signaling channel about the presence of asymmetry of the traction current in the rail network, containing the rail threads of the traction rail network, insulating joints, the choke-transformer of the transmitting end of the rail circuit, the choke-transformer of the receiving end of the adjacent rail circuit, the first fuse, the first shunt resistor, the first trimmer resistor, first Hall sensor, second fuse, second shunt resistor, second trimmer, second Hall sensor, third fuse, third shunt resistor, third trimmer, third Hall sensor, fourth fuse, fourth shunt resistor, fourth trimmer, fourth Hall sensor , information processing unit, interface unit. [RU No. 200587, IPC G08B 23/00, B61L 25/00, publ. 30.10.20, Bul. No. 31, "Measuring and signaling channel about the presence of asymmetry of traction current in the rail network", authors Basharkin M.V. and etc.].

The disadvantage of this measuring and signaling channel is the lack of the possibility of self-calibration, as well as monitoring the operation of fuses.

This technical solution was chosen by the authors as a prototype.

The technical result is to increase the stability of the rail circuits by controlling the symmetry of the traction current in the traction rail network.

The technical result is achieved by the fact that a choke-transformer is additionally introduced into the measuring channel, the first and second half-winding of the base of the winding of which are connected to two current sensors on the Hall effect, and each current sensor on the Hall effect is connected to the half-winding through series-connected fuses with operation control and a shunt resistor, and the outputs of the Hall effect current sensors are connected to a microcontroller that integrates the measuring channel into the system of technical diagnostics and monitoring, six fuses with actuation control, the signal contacts of which are connected to the signal source through a Hall effect current sensor, the output of which is connected to the microcontroller, the module calibration, the current source of which through a Hall effect current sensor connected to the microcontroller is connected to the first and second shunt resistors connected in series with the fuses with actuation control and Hall effect current sensors cut two normally open contacts of two electromagnetic relays connected in series with fuses with operation control, closing in the event of a current flowing through their windings from the output of the control unit, the input of which is connected to a microcontroller that transmits logical signals to the control unit.

The introduction of a choke-transformer containing the first and second half-winding of the base of the winding, four current sensors on the Hall effect, two of which are connected to each of the half-windings of the choke-transformer, and each current sensor on the Hall effect is connected to the half-winding through series-connected fuses with operation control and a shunt resistor, a microcontroller that controls the switching process of the calibration module and integrates the measuring channel into the technical diagnostics and monitoring system, a signal source, six fuses with operation control and six signal contacts of fuses with operation control, which are connected to the signal source through a current sensor on the Hall effect, the output of which is connected to the microcontroller, a current source, two electromagnetic relays containing a winding and normally open contacts, two control units, a calibration module, the current source of which is through a Hall effect current sensor, connected to by a microcontroller, connected to the first and second shunt resistors in series with fuses with operation control and current sensors on the Hall effect through two normally open contacts of two electromagnetic relays, connected in series with fuses with operation control, closing in the event of current flowing through their windings from the output of the control unit, the input of which is connected to the microcontroller, which transmits logical signals to the control unit, allows to increase the accuracy of measuring the traction current in the traction rail network, as well as to signal fuses blown.

The drawing shows the traction current measuring channel in the traction rail network.

The measuring channel contains the rail threads of the traction rail network - 1, the insulating joints - 2, the choke-transformer - 3, the first half-winding of the main winding of the choke-transformer - 4, the second half-winding of the main winding of the choke-transformer - 5, the first fuse with operation control - 6, signaling contacts of the first fuse with actuation monitoring - 6.1, the second fuse with actuation monitoring - 7, signaling contacts of the second fuse with actuation monitoring - 7.1, the third fuse with actuation monitoring - 8, signaling contacts of the third fuse with actuation monitoring - 8.1, the fourth fuse with monitoring actuation - 9, signal contacts of the fourth fuse with actuation monitoring - 9.1, the fifth fuse with actuation monitoring - 10, signal contacts of the fifth fuse with actuation monitoring - 10.1, sixth fuse with actuation monitoring - 11, signaling contacts of the sixth fuse with actuation monitoring operation time - 11.1 the first shunt resistor - 12, the second shunt resistor - 13, the first Hall-effect current sensor - 14, the second Hall-effect current sensor - 15, the calibration module - 16, the first electromagnetic relay - 17, the winding of the first electromagnetic relay - 18, normally open contact of the first electromagnetic relay - 19, control unit for the first electromagnetic relay - 20, second electromagnetic relay - 21, winding of the second electromagnetic relay - 22, normally open contact of the second electromagnetic relay - 23, control unit for the second electromagnetic relay - 24, source current - 25, the third current sensor on the Hall effect - 26, the signal source - 27, the fourth current sensor on the Hall effect - 28, microcontroller - 29.

The measuring channel works as follows: to pass the traction current along the rail lines of the traction rail network - 1 bypassing the insulating joints - 2, a choke-transformer - 3 is installed. transformer - 5 through fuses with operation control (6, 7, 8), two shunt resistors (12, 13) and two current sensors on the Hall effect (14, 15) are connected. Calibration module - 16 is connected to the first and second shunt resistors (12, 13) connected in series with fuses with operation control (6, 7, 8) through fuses with operation control (9, 10, 11). In the absence of traction current from the microcontroller - 29, a logical signal "1" enters the control unit of the first electromagnetic relay - 20, as a result of which current begins to flow through the winding - 18 of the first electromagnetic relay - 17 and the normally open contact of the first electromagnetic relay - 19 closes, connecting the current source - 25 to the branch, consisting of two fuses with operation control (6, 7), the first shunt resistor - 12 and the first current sensor on the Hall effect - 14. At the same time, a logical signal "0" is sent to the control unit of the second electromagnetic relay - 24 from the microcontroller through winding - 22 of the second electromagnetic relay - 21 current does not flow, therefore, the normally open contact of the second electromagnet total relay - 23 remains in its original state. After the end of the calibration of the branch, consisting of two fuses with operation control (6, 7), the first shunt resistor - 12 and the first current sensor on the Hall effect - 14, from the microcontroller - 29, the logical signal "0 ", as a result of which current ceases to flow through the winding - 18 of the first electromagnetic relay - 17 and the normally open contact of the first electromagnetic relay - 19 opens, returning to its original state, after which a logical signal is sent from the microcontroller - 29 to the control unit of the second electromagnetic relay - 24" 1 ", current starts to flow through the winding - 22 of the second electromagnetic relay - 21 and the normally open contact of the second electromagnetic relay - 23 closes, connecting the current source - 25 to the branch, consisting of two fuses with operation control (7, 8), of the second shunt resistor - 13 and the second current sensor on the Hall effect - 15. When the traction current, normally open contacts of the first and second electromagnetic relays (19, 23) open, returning to their original state, turning off the calibration unit - 16, and the measuring channel begins to measure the traction current. It is worth noting that the current source 25 used in the calibration module - 16 is not precise, thus, the current value may deviate from the set value, therefore, it is necessary to measure the calibration current with the third Hall effect current sensor - 26 from the output of which the measured value of the calibration current enters the microcontroller - 29, after which the true value of the traction current flowing in the first and second half-windings of the main winding of the choke-transformer (4, 5) is calculated according to the formulas:

where I _p1 - the value of the traction current flowing through the first half-wrap of the main winding of the choke-transformer - 4;

I _о1 - the value of the traction current in the branch, consisting of two fuses with operation control (6, 7), the first shunt resistor - 12 and the first current sensor on the Hall effect - 14, measured by the first current sensor on the Hall effect - 14;

I _to - the value of the calibration current, measured by the third current sensor on the Hall effect - 26;

I _ko1 - the value of the calibration current in the branch, consisting of two fuses with operation control (6, 7), the first shunt resistor - 12 and the first current sensor on the Hall effect - 14, measured by the first current sensor on the Hall effect - 14;

where I _p2 - the value of the traction current flowing through the second half-wrap of the main winding of the choke-transformer - 5;

I _о2 - the value of the traction current in the branch, consisting of two fuses with operation control (7, 8), the second shunt resistor - 13 and the second current sensor on the Hall effect - 15, measured by the first current sensor on the Hall effect - 15;

I _ko2 - the value of the calibration current in the branch, consisting of two fuses with operation control (7, 8), the second shunt resistor - 13 and the second current sensor on the Hall effect - 15, measured by the first current sensor on the Hall effect - 15.

An analog signal about the value of the traction current measured by the first and second current sensors based on the Hall effect (14, 15) is fed to the microcontroller - 29, from the output of which the processed information on the value of the traction current in the traction rail network is transmitted to the system of technical diagnostics and monitoring.

Fuses with actuation monitoring (6, 7, 8, 9, 10, 11) are equipped with signal contacts (6.1, 7.1, 8.1, 9.1, 10.1, 11.1) connected through the fourth Hall effect current sensor - 28 to signal source - 27. If at least one of the fuses with operation monitoring (6, 7, 8, 9, 10, 11) blows out, the signal contact (6.1, 7.1, 8.1, 9.1, 10.1, 11-1) of the corresponding fuse closes, which leads to passing through the fourth current sensor on the Hall effect - 28 signals. Information about the blown fuse with operation control comes from the output of the fourth current sensor on the Hall effect - 28 to the input of the microcontroller - 29, from the output of which the signal about the blown fuse with operation control goes to the technical diagnostics and monitoring system.

The proposed measuring channel makes it possible to determine the value of the traction current in the traction rail network, to carry out self-calibration, to control the operation of fuses, to integrate into the systems of technical diagnostics and monitoring, and to reduce the number of rail circuit failures.

Claims (1)

The measuring channel of the traction current in the traction rail network, containing the rail threads of the traction rail network, insulating joints, two shunt resistors, characterized in that a choke-transformer is additionally introduced into the measuring channel, the first and second half-windings of which are connected by the base of the winding to two current sensors on the effect Hall effect, and each Hall effect current sensor is connected to a half-winding through series-connected fuses with operation control and a shunt resistor, and the outputs of the Hall effect current sensors are connected to a microcontroller that integrates the measuring channel into the system of technical diagnostics and monitoring, six fuses with operation control, signal contacts of which are connected to a signal source through a Hall effect current sensor, the output of which is connected to the microcontroller, a calibration module whose current source through a Hall effect current sensor connected to the microcontroller is connected to the first and second th shunt resistors connected in series with fuses with operation control and current sensors on the Hall effect, through two series-connected with fuses with operation control of normally open contacts of two electromagnetic relays, which close in case of current flowing through their windings from the output of the control unit, input which is connected to a microcontroller that transmits logic signals to the control unit.

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