RU2677224C1 - Three-phase reactive autotransformer - Google Patents

Abstract

FIELD: electrical engineering.SUBSTANCE: invention relates to electrical engineering and is intended for converting one ac system into another, using reactive power of the network, for the operation of consumers with inductive load. Three-phase reactive autotransformer contains a three-rod magnetic system, on each rod of which there is a phase primary winding with the number of turns for the total phase voltage and a secondary winding made up of a group of series-connected L coils, where L≥2, the ends of the phases of the windings of which are output to the switch of the neutral point. Primary and secondary windings are directly connected and have a galvanic connection at the connection point, which serves to connect the load.EFFECT: technical result consists in expanding the functionality and increasing the efficiency of work by using the reactive power of the network and reducing the consumption of active network power by consumers with inductive load.1 cl, 2 dwg

Description

The present invention relates to electrical engineering and is intended to convert one AC system into another, using the reactive power of the network, for consumers to work with inductive load.

From the current level of technology, various types of autotransformers are widely known and distributed, which operate both in the mode of undervoltage and in the mode of increasing voltage. (MM Katsman. Electric machines. M: Higher school, 2001, p. 71, § 3.2 Autotransformers).

The technical result, the achievement of which the present invention is directed, is to expand the functionality of a three-phase autotransformer and increase the operational efficiency, which consists in using the reactive power of the network and reducing the consumption of active power of the network by consumers with inductive load.

The problem to which the invention is directed is to create a three-phase reactive autotransformer using reactive power of the network in its operation, which will reduce the consumption of active power of the network by consumers with inductive load.

This problem is solved due to the fact that the claimed three-phase reactive autotransformer is characterized by the fact that it contains a three-rod magnetic system, on each rod of which there is a phase primary winding with the number of turns per full phase voltage and a secondary winding made of a group of series-connected L coils, where L ≥2, the ends of the phases of the windings of which are brought to the neutral point switch, the primary and secondary windings are connected directly and have a galvanic connection at the connection point, which puddles to connect the load.

This allows you to reduce the consumption of active power of the network by consumers with inductive load and increase the efficiency of electric energy supplied by the network, significantly expanding the functionality of the autotransformer.

The invention is illustrated by schematic diagrams, which adopted the following notation.

In FIG. 1 presents a schematic diagram of the inventive three-phase reactive autotransformer.

1 - Primary winding;

2 - Secondary winding;

3 - The first coil of the secondary winding group;

4 - The second coil of the secondary winding group;

5 - Galvanic coupling point;

6 - Neutral point switch;

7 - Load connection.

In FIG. 2 is a schematic diagram of a secondary winding of a three-phase reactive autotransformer.

L ₁ - the first coil of the group of the secondary winding;

L ₂ - The second coil of the secondary winding group;

L _n - The last coil of the secondary group.

Where the group of the secondary winding consists of serially connected L coils, where L≥2, and is equal to L ₁ + L ₂ + ... + L _n .

A three-phase reactive autotransformer (Fig. 1) consists of a three-core magnetic system, on each rod of which there is a phase primary winding (1) with the number of turns per full phase voltage and a secondary winding (2) made of a group of series-connected L coils, where L≥ 2, the ends of the phases of the windings of which are brought to the neutral point switch (6), the primary (1) and secondary (2) windings are connected directly and have a galvanic connection at the connection point (5), which serves to connect the load.

The device operates as follows:

A consumer with an inductive load is connected through the contactor to the output of the load (x, y, z), the primary winding (1) with the first coil in the secondary winding group (3) is connected to the device, the consumed electric power is divided into windings, where 30% the total consumed electric power of the network passes through the primary winding (1), and 70% through the secondary winding (2), the consumer starts up smoothly with inductive load with reduced inrush currents, when the current load on the consumer reaches 30% of its full load new load, with the help of the neutral point switch (5), the switch from the first coil of the secondary winding group (3) to the second coil of the secondary winding group (4) is switched on, the current ratio is maintained in the operating mode, but the active and reactive powers consumed by the consumer are redistributed, voltage 65% of the operating voltage of the consumer, while maintaining 100% of the output power of the consumer.

In the design of the inventive three-phase reactive autotransformer, a secondary winding is applied on each rod, which is made from a group of two coils connected in series.

In the proposed design of a three-phase reactive autotransformer, a secondary winding made of a group of series-connected L coils, where L≥2, can be used on each rod.

This design is simple to implement and has advanced functionality, eliminates the need for expensive systems and additional equipment such as electronic soft start, frequency converters, additional costs for compensation equipment and capacitor units, allows you to create a three-phase reactive autotransformer of any power.

A prototype of the inventive three-phase reactive autotransformer was manufactured, the tests of which revealed new functionality of a three-phase autotransformer and confirmed an increase in the efficiency of the autotransformer, which consists in using the reactive power of the network and reducing the consumption of active power by consumers with inductive load.

Claims (1)

A three-phase reactive autotransformer is characterized in that it contains a three-core magnetic system, on each rod of which there is a phase primary winding with the number of turns per full phase voltage and a secondary winding made from a group of L coils connected in series, where L≥2, the ends of the phases of the windings of which are brought to the neutral point switch, the primary and secondary windings are connected directly and at the connection point are galvanically coupled, which serves to connect the load.

Images