RU183214U1 - Power device for individual control of arrows - Google Patents

Abstract

The utility model relates to the field of electrical engineering and is intended to power circuits for remote railway transfers. shooter of intermediate stations in case of disconnection of external power supply. The power supply device for individual control of the arrows contains a rectifier (1), a battery (2), a switch (3), a relay (4), inverters (5, 6), converters (7, 8), relay contacts (9-17). In case of violation of the external power supply of the electric centralization station, the switch (3) connects inverters (5, 6), converters (7, 8) with its contacts to the battery (2), as a result of which the necessary output voltages for typical switch circuits begin to form, and also turns on relay (4), as a result of which the relay contacts (9-17) are closed, and the generated voltages enter the standard control and monitoring circuit of the arrow. If it is necessary to transfer the arrow, the operator makes an individual choice of the arrow and the direction of its translation, as a result of which the typical control and control circuit transfers and controls the selected arrow from the battery energy (2), which ultimately eliminates the need to manually translate each arrow along the set route. The technical result is to increase the throughput of the station. 1 ill.

Description

The utility model relates to the field of electrical engineering and is intended for the purpose of remote railway transfer. shooter of intermediate stations in case of disconnection of external power supply.

The closest technical solution is a typical power supply unit with a battery-free power supply system for electrical centralization (EC) of intermediate stations (Fundamentals of designing electrical centralization of intermediate stations: A manual for specialists / Edited by Prof. AB Nikitin - M .: FSBEI “Educational methodological center for education in railway transport ", 2013, section 10.4, p. 280), containing a battery and as part of the distribution panel PR2-EC (Technical description No. 36251-201-00 TO1 developed." VNIIeloratomatiza tion ”approved. MPS 11.1991) rectifier and relay. In this system, the battery is installed only for a limited number of loads and does not provide redundancy for the supply of the working circuits of the arrows, so when the power is turned off, the arrows can only be translated manually - with the plugs. Thus, the disadvantage of this technical solution is the increased time for preparing routes for trains, which reduces the throughput of the station.

The objective of the utility model is to increase the capacity of the station by creating a power supply device for individual control of the switches, which is built into the power supply unit with a battery-free power supply system for the EC of intermediate stations.

The technical result is achieved in that the power supply device for individual control of the arrows, containing a rectifier, a battery, a relay, further comprises a switch, a three-phase inverter, a single-phase inverter and the first and second converters, while the rectifier, the inputs of which are the inputs of the device, is connected in series with the battery, to the outputs of which a switch is connected, the first output of the switch being connected to a common connection point of the first output of the relay, the first output of a three-phase inverter, the first output of a single-phase inverter, the first output of the first converter, the first output of the second converter, and the second output of the switch is connected to a common connection point of the second relay output, the second output of the three-phase inverter, the second output of the single-phase inverter, the second output of the first converter, the second output of the second converter. In addition, the first output of the three-phase inverter is connected to the first output of the first relay contact, the second output of the three-phase inverter is connected to the first output of the second relay contact, the third output of the three-phase inverter is connected to the first output of the third relay contact, while the first output of the single-phase inverter is connected to the first output the fourth relay contact, the second output of the single-phase inverter is connected to the first output of the fifth relay contact, the first output of the first converter is connected to the first output of the sixth relay contact, the second the output of the first converter is connected to the first output of the seventh relay contact, the first output of the second converter is connected to the first output of the eighth relay contact, the second output of the second converter is connected to the first output of the ninth relay contact, and the second outputs of the first, second and third relay contacts are device outputs that provide power supply of the working circuit of the arrow, the second terminals of the fourth and fifth relay contacts are the outputs of the device, providing power to the control circuits of the arrow, the second conclusions of the sixth and gray forward relay contacts are output devices providing power control circuits arrows, the second terminals of the eighth and ninth relay contacts are output devices providing power control panel indicators.

The essence of the utility model is illustrated in the drawing, which shows a structural diagram of the inventive device.

The inventive power supply device for individual control of arrows includes a rectifier 1, a battery 2, a switch 3, a relay 4, a three-phase inverter 5, a single-phase inverter 6, a first converter 7, a second converter 8, a first relay contact 9, a second relay contact 10, a third relay contact 11 the fourth relay contact 12, the fifth relay contact 13, the sixth relay contact 14, the seventh relay contact 15, the eighth relay contact 16, the ninth relay contact 17.

The power supply device for individual control of the arrows has the following connections.

The rectifier 1, the inputs of which are the inputs of the device, is connected in series with the battery 2, to the outputs of which a switch 3 is connected, and the first output 3.1 of the switch 3 is connected to a common connection point of the first terminal 4.1 of the relay 4, the first terminal 5.1 of the three-phase inverter 5, the first terminal 6.1 of the single-phase inverter 6, the first terminal 7.1 of the first converter 7, the first terminal 8.1 of the second converter 8, and the second terminal 3.2 of the switch 3 is connected to a common connection point of the second terminal 4.2 of the relay 4, the second terminal 5.2 of the three-phase inverter 5, the second in water 6.2 of a single-phase inverter 6, second terminal 7.2 of the first converter 7, second terminal 8.2 of the second converter 8. The first output 5.3 of the three-phase inverter 5 is connected to the first terminal 9.1 of the first relay contact 9, the second output 5.4 of the three-phase inverter 5 is connected to the first terminal 10.1 of the second relay contact 10, the third output 5.5 of the three-phase inverter 5 is connected to the first terminal 11.1 of the third relay contact 11. The first output 6.3 of the single-phase inverter 6 is connected to the first terminal 12.1 of the fourth relay contact 12, the second output 6.4 of the single-phase inverter RA 6 is connected to the first terminal 13.1 of the fifth relay contact 13. The first output 7.3 of the first converter 7 is connected to the first terminal 14.1 of the sixth relay contact 14, the second output 7.4 of the first converter 7 is connected to the first terminal 15.1 of the seventh relay contact 15. First output 8.3 of the second converter 8 connected to the first terminal 16.1 of the eighth relay contact 16, the second output 8.4 of the second converter 8 is connected to the first terminal 17.1 of the ninth relay contact 17. The second terminals of the first 9.2, second 10.2 and third 11.2 relay contacts are the outputs of the device TWA, providing power to the operating circuit of the arrow, the second terminals of the fourth 12.2, fifth 13.2 relay contacts are the outputs of the device, providing power to the control circuits of the arrows, the second terminals of the sixth 14.2 and the seventh 15.2 relay contacts are outputs of the device, providing power to the control circuit of the arrows, second conclusions of the eighth 16.2 and the ninth 17.2 relay contacts are the outputs of the device that provide power to the indicators of the control panel.

The power device for individual control of the arrows works as follows.

An alternating voltage is applied to the input of the power supply device for individual control of the switches connected to the output of the guaranteed power source of the EC station, which is converted into direct voltage by the rectifier 1, which provides charge to the battery 2, the outputs of which are disconnected from the load circuits by the switch 3. In case of violation or full the lack of power from a guaranteed source of fasting, the EC switch 3 connects with its contacts to the battery 2 the input circuit of a three-phase inverter 5, single-phase in the rotor 6, the first converter 7 and the second converter 8, as a result of which the necessary output voltages for the typical control and control circuitry begin to form, and relay 4 is turned on, as a result of which relay contacts 9-17 are closed and these generated voltages enter the standard circuit arrow control and control. If it is necessary to transfer the arrow, the operator uses the standard means of the EC remote control to make an individual choice of the arrow and the direction of its translation, as a result of which the typical control and control circuit transfers and controls the arrow from battery 2, which eliminates the need to manually translate each arrow along the set route.

Thus, the power supply device for the individual control of the switches when the external power is turned off allows remote transfer of the switches along the set route, which reduces the time of its preparation and thereby increases the throughput of the station.

Claims (1)

A power supply device for individual control of arrows, comprising a rectifier, a battery, a relay, characterized in that it further comprises a switch, a three-phase inverter, a single-phase inverter and first and second converters, the rectifier, the inputs of which are the inputs of the device, connected in series with the battery, to the outputs of which a switch is connected, the first output of the switch being connected to a common point of connection of the first output of the relay, the first output of the three-phase inverter, the first output of the odnof the inverter, the first output of the first converter, the first output of the second converter, and the second output of the switch is connected to a common connection point of the second output of the relay, the second output of the three-phase inverter, the second output of the single-phase inverter, the second output of the first converter, the second output of the second converter, in addition, the first the output of the three-phase inverter is connected to the first output of the first relay contact, the second output of the three-phase inverter is connected to the first output of the second relay contact, the third output of the three-phase inverter it is connected to the first output of the third relay contact, while the first output of the single-phase inverter is connected to the first output of the fourth relay contact, the second output of the single-phase inverter is connected to the first output of the fifth relay contact, the first output of the first converter is connected to the first output of the sixth relay contact, the second output of the first the converter is connected to the first terminal of the seventh relay contact, the first output of the second converter is connected to the first terminal of the eighth relay contact, the second output of the second converter is connected to the first terminal nine of the relay contact, and the second outputs of the first, second, third, fourth, fifth, sixth, seventh, eighth and ninth relay contacts are the outputs of the device.

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