SU1128331A1 - Device for supplying electric power to loads - Google Patents

Abstract

DEVICE FOR ELECTROSNAB-. HArpySKHj asynchronous generator with a multiphase stator winding and a short-circuited rotor, a battery of exciting capacitors with a regulator of the magnitude of the equivalent capacitance, contactors, characterized in that, in order to extend the range of the frequency of rotation of the rotor of the generator at full power output, the synchronous generator is equipped with a zoop circuit. multiphase stator winding, and contactors form in each phase a bridge circuit, the diagonal of which includes an additional multiphase stator winding j Senna in the same slots as the main multiphase stator winding, which is incorporated in the other diagonal of the bridge circuit together with vshodami for connecting a load. IsP 00 09 00

Description

The invention relates to electrical engineering, in particular to autonomous power sources of vehicles with an asynchronous generator having capacitive excitation. $

Known power supply systems with asynchronous generators with both constant and variable speed [lJ.

Stable operation of an asynchronous generator without special measures is possible only if the speed changes in the range 1: 2, which is insufficient for some vehicles with an autonomous power supply system (for example, the speed of the drive of a passenger car generator with alternating current generators varies in the range 1: 4). ₂ o

The closest in technical essence to the proposed one is a device for power supply to the load, containing an asynchronous generator with a multiphase stator winding and a squirrel-cage rotor, a battery of exciting capacitors with an equivalent capacity regulator, contactors ^ 2).

However, in such a device also _ not a wide range of rotor speed of the generator.

This goal is achieved by the fact that in the device for power supply of the load containing an asynchronous generator with a multiphase ³⁵ stator winding and a short-circuited rotor ^ a battery of exciting capacitors with a regulator of equivalent capacitance and contactors, an asynchronous generator is made with an additional 40 multiphase 'stator winding, and the contacts of the contactors form a bridge circuit in each phase, the diagonal of which includes an additional multiphase winding of the stato 45 ra located in the same grooves as the main single-phase stator winding, which is included in another diagonal of the bridge circuit along with the terminals for connecting the load. 5 ° The drawing shows an electrical circuit diagram of a device for power supply to a load.

The device contains the main multiphase winding 1 short-circuited 55 rotor 2, a thyristor diode regulator 3 equivalent capacitance, a battery of 4 exciting capacitors, contacts 5-8, an additional multiphase stator winding 9 and a load 10. (Control units for thyristors and switching equipment do not shown).

The device operates as follows.

When the rotor speed of the generator is insufficient 'to obtain the rated voltage removed from the main winding, the control unit of the switching equipment includes contactors, for example 5 and 8, providing a consistent connection of the main and additional windings.

As a result, the voltage of the generator increases, but at load 10 the voltage does not exceed the nominal value in connection with the operation of the regulator 3 of the equivalent capacitance value. With a further increase in the rotation frequency or a decrease (discharge) of the load due to an increase in the voltage of the generator, the contactors switch (contacts 5, - .7, or -6, 8 are closed) and only the main winding voltage к is applied to the load.

Generator voltage stabilization is still carried out by regulator 3.

The operation of the generator at a high speed, when the control angle of the thyristors is close to the limit value, and a small value of the equivalent capacitance can lead to a breakdown of the excitation, requires an oncoming connection of the main 1 and additional 9 windings of the generator, which is formed when the contactors 6 and 7 are turned on. in the transition process, a decrease in the voltage of the generator leads to a decrease in the control angle, an increase in the equivalent capacity and stable operation of the generator when delivering full power in the high frequency range rotation.

Replacing current generators of DC power systems with asynchronous machines, which are distinguished by the simplicity of manufacture and the absence of a brush-collector assembly, will increase the reliability of both generators and the energy center as a whole, as well as reduce operating costs due to a reduction in the number of employees in the brigade (two people).

Claims (1)

DEVICE FOR ELECTRIC POWER-. LOADING LOADS, containing an asynchronous generator with a multiphase stator winding and a squirrel-cage rotor, a battery of exciting capacitors with a regulator of equivalent capacitance, contactors, characterized in that, in order to expand the rotor speed range of the generator when delivering full power, the asynchronous generator is made with a recharger ^ multiphase stator winding, and contactor contacts form in each phase a bridge circuit, the diagonal of which includes an additional multiphase stator winding, zhennaya in the same slots as the main polyphase stator winding which is included in another diagonal of the bridge circuit together with leads for connection to the load. SU p .. 1128331 1 1128331 1