RU2383097C1 - Method for generation of electric load from primary and secondary windings of transformer - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention is related to electrical engineering, namely to methods for production of alternating current of high and low voltages from transformer secondary winding and may be used in the field of tele-, radio - and electrical engineering. Transformer is used with open magnetic conductor, conductors of primary and secondary windings of which are wound on each other. Outputs of transformer primary winding are connected to electronic control instrument (ECI) and to circuit of electric power supply source, and output of the secondary winding - to circuit of electric load. Source of ECI current is connected, and DC pulse is sent to primary winding till maximum is achieved via ECI switches along electric circuit of electric power supply source, accumulating magnetic energy in inductance with time control. Current pulse of opposite direction is induced in the secondary winding, DC pulse in primary winding is interrupted, and saved magnetic energy of inductance is spent, varying direction of current in the secondary winding, to electric load of which alternating current is supplied. Ends of each of two outputs of the primary windings are separated into two parts and, by connection of each part of separated conductors to ECI switches, additional electric circuit of electric load of primary winding is arranged, which is connected at the moment of power supply source electric circuit disconnection, spending accumulated magnetic energy in pause between pulses of current.

EFFECT: provision of electric load pickup from primary and secondary windings, reduced dimensions of electric power sources dimensions, reduction of their capacity.

1 dwg

Description

The present invention relates to electrical engineering, and in particular to methods for producing alternating current of high and low voltages from the secondary winding of a transformer, and can be used in the field of television, radio and electrical engineering.

A widely known method for producing high-voltage alternating current using a Rumkorf induction coil including an open-circuit transformer containing primary and secondary windings whose conductors are wound on top of each other, a switch and a power source. In the known method, the conclusions of the primary winding of the transformer are connected to the switch and to the power supply circuit, and the conclusions of the secondary winding are connected to the electric load circuit. After switching on the switch current source, a direct current pulse is applied to the primary winding until the maximum is reached through the switch keys through the power supply circuit and accumulate magnetic energy in the inductance with time control, then the opposite current pulse is induced in the secondary winding, the direct current pulse is interrupted in the primary winding and spend the stored magnetic energy in the inductance, changing the direction of the current in the secondary winding, the electrical load of which an alternating current.

The main disadvantage of this method is the ability to relieve electrical load only from the secondary winding, without using the electrical load of the primary winding of the transformer in the pause between current pulses. In addition, the implementation of this method involves the use of an electric power source of significant size and a high level of its power.

The basis of the invention is the task of improving the method of obtaining electrical load from the primary and secondary windings of a transformer, in which the additional electrical circuit of the electrical load of the primary winding, which is turned on when the electrical circuit of the power source is turned off, spending the stored magnetic energy in the pause between current pulses, provides electrical load from both windings of the transformer, not interconnected, this ensures an increase in the removal of ele ctric load by 1/3, which leads to a decrease in the dimensions of the power source and a decrease in its power.

The problem is solved in that in the method of obtaining electrical load from the primary and secondary windings of the transformer, using a transformer with an open magnetic circuit having primary and secondary windings, the conductors of which are wound on each other, providing for the connection of the terminals of the primary winding of the transformer to an electronic control device (ECU ) and to the circuit of the electric power source, and the terminals of the secondary winding - to the circuit of the electric load, as well as the inclusion of the current source of the ECM and supplying it direct current pulse to the primary winding until it reaches its maximum through the ECM keys along the electric circuit of the electric power source, accumulation of magnetic energy in the inductance with time control, subsequent induction of the opposite current pulse in the secondary winding, interruption of the direct current pulse in the primary winding, and expenditure of the stored magnetic energy in inductance, changing the direction of the current in the secondary winding, according to the invention, the following differences are provided:

- the ends of the conductor of each of the two conclusions of the primary winding are divided into two parts and, connecting them with ECU keys, get an additional electric circuit of the electrical load of the primary winding;

- an additional electric circuit of the electrical load of the primary winding is turned on at the time of disconnection of the electric circuit of the power source;

- spend the stored magnetic energy in a pause between current pulses.

The method is performed using a device - an electric generator, shown schematically in the drawing.

This device for implementing the inventive method of producing electrical load from the primary and secondary windings of a transformer comprises an open-circuit transformer in which the conductors of the primary winding 1 and the secondary winding 2 are wound on top of each other, an electronic control device 3 made in the form of a switch with semiconductor devices and with a direct current source (not shown), an electric power source 4, terminals 5, 6 of the winding 1 connected to the ECM terminals and to a power source 4, terminals 7, 8 of the coil 1. According to the invention, the ends of the conductor of each of the terminals 7, 8 are divided into two parts, connected by four keys 9 and receive an additional electrical circuit 10 of the electrical load of the winding 1, the electrical load 11 of the winding 1 and the electrical load 12 of the winding 2.

In accordance with the proposed method, the conclusions 5, 6 of the primary winding 1 of the transformer with an open magnetic circuit, in which the windings 1 and 2 are wound on each other, are connected to the ECU 3 and to the power supply circuit 4, the leads of the winding 2 are connected to the electric load circuit 12. Ends the conductor of each of the two leads of the winding 1 is divided into two parts and connected to four keys 9 of the ECM 3, forming an additional electrical circuit 10 to the electrical load 11 of the winding 1, turn on the ECM 3 from a constant current source and supply a constant pulse Eye on the winding 1 through the electrical circuit of the power supply 4 and ECU, through the conclusions 5, 6 of the winding 1, accumulate magnetic energy in the inductance with time control. Induce a current pulse of the opposite direction in the winding 2, interrupt with the help of ECU 3 the current pulse of the winding 1 at maximum.

After that, the electrical circuit of the winding 1 from the power supply 4 is turned off, the circuit 10 of the electrical load 11 of the winding 1 is turned on, and the stored magnetic energy is spent in the inductance of the transformer, changing the direction of the current in the winding 2. An alternating current is supplied to the electrical load of the winding 2, and the stored magnetic energy in the inductance in the pause between pulses, inducing in the winding 1 a current pulse flowing along the connected circuit 10 of the electric load 11. Then, the electric circuit 10 e ektricheskoy load winding 11 1 and also include using EUP electrical circuit 3 from the power source 4, and then fed to pulse direct current to the winding 1 and the loop receiving the electrical load to the primary and secondary transformer windings is repeated.

Example.

As a transformer with an open magnetic circuit containing a primary coil 1 and a secondary coil 2, a two-spark ignition coil of a BA3-21083 automobile can be used, which is connected to ECU 3 (switch with semiconductor devices) with its terminals 5, 6 (see Fig. 1) and to power supply 4. The conclusions of the winding 2 are connected to the electric load 12, each of the conclusions 7, 8 of the winding 1 is connected to two keys 9 of the ECM 3, while an additional electric circuit 10 of the electric load 11 is formed, the DC source of the ECM 3 is turned on and a DC pulse is applied to the winding 1 along the electric circuit of the power supply 4 and ECM 3, while the magnetic energy is accumulated in the inductance with time control, it induces a current pulse of the opposite direction in winding 2, the current pulse of winding 1 is interrupted by ECM 3 the maximum and winding 1 is disconnected from the power supply 4, the circuit 10 of the electrical load 11 of the winding 1 is turned on and the stored magnetic energy in the inductance (transformer) is consumed, changing the direction of the current in the winding 2, and alternating current is supplied to its electrical load, and the stored magnetic energy is consumed in inductance in a pause between current pulses. The electric load from the primary winding 1 is removed due to the stored magnetic energy in the inductance and is supplied after the voltage regulator to the on-board system of the car.

As a result of using the generated electrical load of the winding 1 of the vehicle’s ignition coil, the obtained additional power is calculated.

With a voltage of 14 volts and a current strength of 2.5 amperes, the additional power of the car’s ignition coil will be: M = 14 · 2.5 = 35 W, where M is the power.

The total power of the ignition coil of the VA3-21083 is 120 watts. Using the additional accumulated power of 35 W, obtained due to the accumulated magnetic energy of the primary winding, will reduce the size of the electric generator, reduce the vibration of the magnetic poles in it, and reduce the noise level.

Using the proposed method for producing an electric load from the primary and secondary windings of a transformer increases the removal of electric load by 1/3, which reduces the dimensions of the electric power sources and their power.

Claims (1)

A method of obtaining an electrical load from the primary and secondary windings of a transformer using an open transformer with a primary and secondary windings whose conductors are wound on each other, which involves connecting the terminals of the primary winding of the transformer to the electronic control device and to the circuit of the electric power source, and the terminals of the secondary windings - to the electric load circuit, as well as the inclusion of the current source of the electronic control device and the supply of a constant pulse of the current to the primary winding until the maximum is reached through the keys of the electronic control device through the electric circuit of the electric power source, the accumulation of magnetic energy in the inductance with time control, the subsequent induction of a current pulse of the opposite direction in the secondary winding, the interruption of the direct current pulse in the primary winding and the consumption of the stored magnetic energy in the inductance, changing the direction of the current in the secondary winding, the electric load of which is alternating th current, characterized in that the ends of the conductor of each of the two terminals of the primary winding are divided into two parts and, connecting each part of the separated conductors to the keys of the electronic control device, they get an additional electric circuit of the electrical load of the primary winding, which is turned on when the electric circuit of the power source is turned off, spending the stored magnetic energy in a pause between current pulses.