RU2583819C1 - High-speed, energy-conservation, ecologically clean and safe for people - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: invention relates to electric locomotives and motor cars. Electric train comprises head and trailer cars with DC or AC 3-11 traction motors and power of up to 500-1,800 kW, supplied by catenary system. Every DC electric motor is connected with AC circuit through current collector, connected with transformer, with thyristor converters, with excitation winding, with solenoid and with storage batteries. Each AC traction electric motor is connected with AC circuit through current collector, connected with transformer, with thyristor converters, with independent voltage inverter (IVI), with IVI control system and independent voltage rectifier (IVR) control system. IVI control system in traction mode operates as inverter, and in braking mode IVI switches to rectifier mode. IVR in traction mode operates in rectifier mode while in braking mode IVR switches to inverter mode. Each stator winding of asynchronous electric motor is connected with separate 1-10 high-capacity capacitors banks.

EFFECT: technical result consists in improvement of energy saving and environmental friendliness of vehicle.

1 cl, 3 dwg

Description

The high-speed electric train, energy-saving, environmentally friendly and safe for people belongs to the field of railway transport and is intended for the transportation of people, equipment and various cargoes.

Known electric train, which contains an electric locomotive and electric cars, to which the contact wire supplies electric energy of direct or alternating current to drive a traction electric motor of direct current and wheel pairs (see Sidorov N.I. How the electric locomotive is arranged and works. - M .: Transport, 1974 . - 224 p.).

An analogue is the ER2-A6 contact battery train, which contains an electric locomotive in which DC traction motors are powered on electrified sections of the railway from a direct current or AC contact network through thyristor valves, and on non-electrified sections of the railway, from alkaline iron-nickel batteries , and trailed cars, under the body of which batteries are placed (see Kalinin V.K. et al. General course of railways. - M: Transport, 1977. - 388 p. and p. 223-224).

Known diesel train, which contains a diesel locomotive with diesel generators, with DC traction motors that drive the wheelset of the diesel locomotive, and passenger or freight cars (see Mikhalenko AA Diesel type DR. - M .: Transport, 1990 , - 336 p.).

The Velaro high-speed train is known, which contains a head car with traction asynchronous AC motors, connected through a gearbox with wheel pairs, powered by a contact network, batteries with chargers and coupling cars (see Velaro / A. High-speed train Lipp, D. Ion, R. Mangler, Siemens. - World Railways - 2009, No. 1, pp. 36-50).

Known AC electric drives with frequency regulation (G. G. Sokolovsky. - M.: Publishing Center "Academy", 2006. - 278 S., Figure 4.13.

An analogue is a wind turbine generator that contains a turbine, a gearbox, and an electric generator (see Wind Energy / Ed. By D De Renzo. - M.: Energoatomizdat, 1982. - 272 p.).

The prior art electric train with a locomotive containing batteries with chargers, DC traction motors connected to the wheelsets of the locomotive, and a wind generator installed in front of the locomotive (see patent GB 1501383 A, publ. 15.02.1978 for 5 l. )

The prior art electric train is environmentally friendly and safe for people and the environment, containing the head and trailer cars with traction engines, characterized in that it is equipped with wind turbine generators with differential devices with grids that are installed in front of the head car and on its roof and on the roof of trailed wagons, with traction electric motors of direct or alternating current, which are connected by bolts rigidly from the bottom side of the trolley frame, the shaft of each electric motor la is connected to the left and right sides with semi-axes and a pair of wheels, which on examination Ratings more close analogue (see. patent RU 2461470. Publ. 10.06.2012. Bul. №26 the same applicant).

The disadvantages of the known electric trains and diesel trains are:

- when transporting people and goods by electric trains over long distances, there is not enough electric power supplied through the same wires, therefore it is required to build substations on the railway sections;

- when 1 kg of diesel fuel is burned, 1.5 kg of oxygen necessary for human life is burned, while a large amount of carbon dioxide, smoke and various harmful substances, such as lead, are released into the atmosphere, which have a harmful effect on people's health and life expectancy.

The technical result is the creation of an electric train of high speed, energy-saving, environmentally friendly and safe for people.

An electric train containing head and trailer cars with traction asynchronous AC motors connected via a gearbox with wheel pairs powered from the contact network, batteries with chargers, characterized in that it is equipped with 3-11 traction motors of direct or alternating current with a capacity of up to 500 1800 kW, the composition of the electric train contains 10-11 passenger cars, each DC traction motor of the head and trailed cars, which are made of aluminum or titanium alloys s, connected to the AC mains through a current collector, with a transformer, thyristor converters, field winding, solinoid and batteries or each traction electric motor of the head and trailer cars is connected to the mains through a current collector, with a transformer, thyristor AC to DC converters , with an autonomous voltage inverter, with an AIN control system, which in the motor mode works in inverter mode, with an autonomous system AVN voltage, which operates in the rectifier mode, and in the braking mode, the AIN switches to the rectifier mode, and the AVN operates in the inverter mode, inverting the voltage across the capacitor, an autonomous voltage inverter is connected to each four-pole traction asynchronous electric motor with a squirrel-cage rotor with an AC main fan wagon and trailed wagons, with field winding and with batteries, the stator of each traction electric motor of direct or alternating current is connected to the frame of the trolley through its windows with brackets coated with a layer of highly resistant polymeric material, for example Teflon, cast on the stator surface from the top or bottom side or with brackets fixed to the stator by bolts to prevent its angular movement, and its shaft is connected to the wheels and the rails of the railway, each the shaft of the traction motor on both sides is mounted on cylindrical roller bearings or on tapered roller bearings of the cassette type, the stator windings of each induction motor alternating current are connected to separate 1-10 blocks of high-voltage voltage capacitors, which are installed under the body of the head and trailed passenger cars to accumulate electric energy during free driving and braking and transfer the accumulated electric energy of voltage capacitors to the windings of traction electric motors, during starting an electric train, its acceleration, the process of moving it by rail and into an electric network with a reduced voltage, or the accumulation of electric energy gii in blocks of capacitors and accumulators from the general electric network during the period of stagnation of the electric train in the hangar of the railway station.

In FIG. 1 shows a general view of an electric train with head and trailed passenger cars. In FIG. 2 shows an electrical circuit for converting an alternating current of an electrical network to direct current for a direct current traction motor. In FIG. 3 shows the structure of the power section of a frequency converter with a rectifier for a traction asynchronous AC motor with a squirrel-cage rotor.

The electric train is equipped with 3-11 traction electric motors 1 of direct or alternating current with a capacity of up to 500-1800 kW, the composition of the electric train contains 10-11 passenger cars, each traction DC electric motor of the head 2 and trailed cars 3, which are made of aluminum or titanium alloys, is connected with AC electric network 4 through current collector 5, with transformer 6, thyristor converters 7, field winding 8, solinoid 9 and with batteries 10 or each traction electric motor 1 of alternating current 2 and trailed cars 3 is connected to the electric network 4 through a current collector 5, with a transformer 6, thyristor converters 7 AC to DC, with an autonomous voltage inverter, with the control system AIN 11, which in motor mode operates in inverter mode, with an autonomous system voltage control AVN 12, which operates in the rectifier mode, and in the braking mode the AIN switches to the rectifier mode, and the AVN operates in the inverter mode, inverting the voltage across the capacitor 13, the autonomous inverter yazheniya connected to each driving four-pole asynchronous motor with cage rotor 1 with fan alternating current head carriage 2 and trailer cars 3, with an excitation winding (FIG. 3, the field winding is not shown) and with batteries 10, the stator of each traction electric motor 1 of direct or alternating current is connected to the frame of the trolley 14 through its windows 15 with brackets 16 covered with a layer of highly resistant polymer material, for example Teflon, cast on the stator surface from the top or bottom side or brackets fixed to the stator by bolts to prevent its angular movement, and its shaft 17 is connected to the wheels 18 and the rails 19 of the railway, each shaft of the traction motor 1 with two Roron is mounted on cylindrical roller bearings or on tapered roller bearings of cassette type 20, the stator windings of each AC asynchronous electric motor 9 are connected to individual 1-10 blocks of capacitors 21 of high-voltage voltages, which are installed under the body of the head and trailed passenger cars to store electrical energy in periods of free pasture and braking and transmission of the stored electric energy of voltage capacitors to the windings of traction motors, in the period moving away from the place of the electric train, its acceleration, the process of moving it by rail and into the electric network with a reduced voltage, or the accumulation of electric energy in capacitor banks and accumulators from the general electric network during the period when the electric train stays in the hangar of the railway station.

The electric train operates as follows.

In the electrified sections of the electric road, direct current traction motors 1 are powered from a contact electric network 4 of an alternating current through a current collector 5, a transformer 6 that reduces current, thyristor valves 7, in which the alternating current is converted to direct current. The shaft 17 of each traction electric motor 1 and the wheels 18, due to the friction forces with the rails 19, drive the cars of the electric train.

Consider the operation of an electric train with a traction electric motor of alternating current.

At the initial moment of operation of the electric train, the driver releases the brake pads of the wheels with a contact switch with an automatic control panel for the rotation speed of the traction motor shaft (in Fig. 1, a contact switch with an automatic control panel is not shown), connects the electric network to each traction induction motor with a squirrel-cage rotor 1 of an alternating variable current.

Electric current with alternating voltage from the mains is supplied through a current collector 5 to a transformer 6 to reduce the alternating current, by thyristor valves 7 to convert it to direct current, to chargers and batteries 10, to a stand-alone voltage inverter with an AIN 11 control system, which is in the motor the mode operates in the inverter mode, and with the control system ABH 12, which operates in the rectifier mode, and in the braking mode the AIN switches to the rectifier mode, and the AVN operates in the inverter mode, the inverter By varying the voltage across the capacitor 13 and each traction induction motor 1. Due to the electric current, electromagnetic forces drive the rotor of each traction asynchronous electric motor 1, its shaft 17 and wheels 18, which drive the head carriage and trailed cars, to move the train backward by the contact switch the poles of the windings of the traction asynchronous AC motor change.

The use of commercially available asynchronous motors with a squirrel-cage rotor of an alternating current allows to simplify its assembly and reduce the manufacturing cost, it has high reliability and simplicity of its design, associated with the absence of brushes and slip rings compared to the assembly of a DC motor, and the use of the structural power part of the frequency converter with a rectifier allows you to control the automatic speed control system of a traction asynchronous electric motor AC eat exactly the same as the DC control DC motor.

When transmitting torque from the shaft of each traction AC electric motor to the wheels, it allows you to develop an electric train speed at an asynchronous electric motor shaft speed of 3000 rpm, a wheel diameter of 950 mm, from 0 to 540 km / h.

To change the direction of movement of the electric train, the poles of the stator of the traction asynchronous short-circuited electric motor are changed with a contact switch.

The accumulated electric energy in the blocks of voltage capacitors allows you to charge the batteries in the process of moving the train and in the parking lot continuously and save electricity.

When transmitting torque from the motor shaft to the wheels of the head and trailed cars, it increases the efficiency of the electric train, reduces the manufacturing cost of the drive and extends the life of the electric train without repair, and the use of inertial forces of the cars makes it possible to smooth out mechanical losses in the efficiency of the electric motor.

In the electric network of the direct current railway, the contact switches installed in the head and trailed cars automatically turn off the transformer and thyristor valves and the electric current is supplied to each traction electric motor of alternating current, and in the electric network of the alternating current contact switch automatically turns on the transformer and thyristor converters (in Fig. 1, the contact switch is not shown).

Batteries are used for lighting, for powering electrical appliances and other control systems.

Using blocks of voltage capacitors allows you to save the consumption of electric energy from a common electrical network and increase the efficiency of traction motors.

For the composition of a passenger electric train of 10-11 cars, 3-6 traction asynchronous AC electric motors with a power of up to 500-1800 kV are enough.

Claims (1)

An electric train containing head and trailer cars with traction asynchronous AC motors connected via a gearbox with wheel pairs powered from the contact network, batteries with chargers, characterized in that it is equipped with 3-11 traction motors of direct or alternating current with a capacity of up to 500 1800 kW, the composition of the electric train contains 10-11 passenger cars, each DC traction motor of the head and trailed cars, which are made of aluminum or titanium alloys s, connected to the AC mains through a current collector, with a transformer, thyristor converters, field winding, solinoid and batteries or each traction electric motor of the head and trailer cars is connected to the mains through a current collector, with a transformer, thyristor AC to DC converters , with an autonomous voltage inverter, with an AIN control system, which in the motor mode works in inverter mode, with an autonomous system AVN voltage, which operates in the rectifier mode, and in the braking mode, the AIN switches to the rectifier mode, and the AVN operates in the inverter mode, inverting the voltage across the capacitor, an autonomous voltage inverter is connected to each four-pole traction asynchronous electric motor with a squirrel-cage rotor with an AC main fan wagon and trailed wagons, with field winding and with batteries, the stator of each traction electric motor of direct or alternating current is connected to the frame of the trolley through its windows with brackets coated with a layer of highly resistant polymeric material, for example Teflon, cast on the stator surface from the top or bottom side or with brackets fixed to the stator by bolts to prevent its angular movement, and its shaft is connected to the wheels and the rails of the railway, each the shaft of the traction motor on both sides is mounted on cylindrical roller bearings or on tapered roller bearings of the cassette type, the stator windings of each induction motor alternating current are connected to separate 1-10 blocks of high-voltage voltage capacitors, which are installed under the body of the head and trailed passenger cars to accumulate electric energy during free driving and braking and transfer the accumulated electric energy of voltage capacitors to the windings of traction electric motors, during starting an electric train, its acceleration, the process of moving it by rail and into an electric network with a reduced voltage, or the accumulation of electric energy gii in blocks of capacitors and accumulators from the general electric network during the period of stagnation of the electric train in the hangar of the railway station.

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