UA78961C2 - Method of obtaining electric load from primary and secondary transformer winding - Google Patents

Abstract

A method of obtaining electric load from the primary and secondary transformer winding according to which the following equipment is used: a transformer with open core, which consists of the primary and secondary winding, which wires are winded face-to-face, an electronic control device ECD - a switcher, a power supply. The power supplies are connected to the primary winding leads ESD and electric circuit, secondary winding leads are connected to load circuit, which contain current source ECD. At connecting the winding ends of the primary winding are divided into two parts. Each part is connected to keys of ECD, obtaining additionally circuit of the primary winding load, which switches on atthe moment of switching off power supply circuit, with loss of magnetic energy during the time intervals between current impulses. The current impulses enter to the primary winding through ESD keys and accumulate magnetic energy in inductance with time regulating, then it is necessary to enter current impulse of opposite direction in secondary winding. Then current impulse is interrupted in the primary winding and the accumulated energy in inductance is used changing current direction in secondary winding.

Description

Description of the invention

The alleged invention relates to electrical engineering, namely, to methods of obtaining alternating current of high 2 and low voltage from the secondary winding of a transformer and can be used in the fields of television, radio, electrical engineering, etc.

The closest, in terms of technical essence, to the claimed invention is a method of obtaining high-voltage alternating current using a Rumkorf induction coil, which includes a transformer with an open magnetic circuit and contains primary and secondary windings, the conductors of which are wound on top of each other, a commutator and a source of electric current power supply, at the same time, the terminals of the primary winding of the transformer are connected to the commutator and to the power source, the terminals of the secondary winding are connected to the circuit of the electrical load, after turning on the current source of the commutator, a direct current pulse is applied to the primary winding through the commutator, behind the circuit of the power source, until reaching the maximum and accumulate magnetic energy in the inductor with time regulation, then induce a current pulse 19 of the opposite direction in the secondary winding, interrupt the direct current pulse in the primary winding and spend the stored magnetic energy in the inductor, changing the direction of the current in torin winding, the electrical load of which is supplied with an alternating current (L.S. Zhdanov Physics textbook for secondary special educational institutions, "Nauka", M., 1978, pp. 349-3501.

The main disadvantage of the known method is the removal of the electrical load only from the secondary winding, without using the electrical load of the primary winding of the transformer.

The basis of the invention is the task of improving the method of obtaining an electrical load from the primary and secondary windings of a transformer, in which obtaining an additional electrical circuit of the electrical load of the primary winding, which is turned on at the moment of disconnection of the electrical circuit of the electrical power source and the consumption of magnetic energy in the pause between current pulses provides c 29 removal of the electrical load from both windings of the transformer, which are not connected to each other, this Го) provides an increase in the removal of the electrical load from the transformer by 1/3, which leads to a reduction in the dimensions of the electrical power source and its power.

The task is solved by the fact that in the method of obtaining an electrical load from the primary and secondary windings of a transformer, which includes a transformer with an open magnetic circuit, which contains - 30 primary and secondary windings, the conductors of which are wound one on one, the electronic control device (ECU) in the in the form of a commutator, the source of electrical power, while the terminals of the primary winding of the transformer are connected to the EUP and to the electrical circuit of the power source, the terminals of the secondary winding - to the Me circuit. of the electrical load, turn on the current source of the EUP, apply a current pulse to the primary winding Ge) through the keys of the EUP, behind the electric circuit of the electric power source, until the maximum is reached and 3o accumulate magnetic energy in the inductance with time regulation, then induce a current pulse in the opposite direction in the secondary winding, interrupt the current pulse in the primary winding and spend the accumulated magnetic energy in the inductance, changing the direction of the current in the secondary winding, the electrical load of which is alternating current, according to the invention, the following cancellations are provided: "- the ends of the conductors of each of the two terminals of the primary winding are divided into two parts and connect with 50 each of the parts of the separated conductors to the keys of the EUP, obtaining an additional electric circuit of the electric load of the primary winding; z" - the additional electrical circuit of the electrical load of the primary winding is turned on at the moment of disconnection of the electrical circuit of the electrical power source, consuming the accumulated magnetic energy in the pause between current pulses. 45 The method is performed using a device - an electric generator, which is schematically shown in Fig. 7 Electric generator for performing the method of obtaining an electrical load from the primary and

Ge | secondary winding of the transformer consists of a transformer with an open magnetic circuit, containing a primary winding 1 and a secondary winding 2, the conductors of which are wound one on one, an electronic device control unit (EUP) Z in the form of a commutator with a direct current source (not shown), a source of 4 electric

Gee! 20 power supply, terminals 5, b of winding 1, with which it is connected to the EUP Z and to the power source 4, terminals 7, 8 of winding 1, the ends of the conductors of which are divided into two parts and each of them both conductors, through four and key 9, are connected to EUP 3, receiving at the same time an additional electrical circuit 10 electrical load of winding 1, electrical load 11 of winding 1, electrical load 12 of winding 2.

The method of obtaining the electrical load from the primary and secondary windings of the transformer is performed as follows.

GF) Terminals 5, b of the winding 1 of the transformer are connected to the EUP 3 (switch with semiconductor devices) and to the circuit of the source of electric power 4, the ends of the conductors of each of the two terminals 7, 8 of the winding 1 are divided into two parts and each part of both conductors is connected, Through four keys 9, to the EUP 3, forming an additional electric circuit 10 of the electrical load of the winding 1, turn on the power supply with a current of 60 UE Z'and supply a direct current pulse to the winding 1 behind the electric circuit of the power source 4 and the EUP 3, accumulate magnetic energy in the inductance with time regulation. They induce a current pulse of the opposite direction in winding 2, interrupt the current pulse of winding 1 at the maximum with the help of the EUP Z and disconnect the electrical circuit of winding 1 from the power source 4, turn on circuit 10 of the electrical load of winding 1 and spend the accumulated magnetic energy in the inductance - transformer, changing because direction of current in winding 2, at the same time, its electrical load receives an alternating current, and the accumulated magnetic energy in the inductance is spent in the pause between pulses, inducing a current pulse in winding 1 that flows behind the connected circuit 10 of the electrical load, then it is turned off with the key 9

EUP Z electric circuit 10 winding 1 by time and turn on, also with the help of the key 10 EUP 3, electric

The source circuit 4 supplies winding 1, after which a direct current pulse is applied to winding 1 and the cycle of obtaining an electrical load from the primary and secondary windings of the transformer is repeated.

Example.

As a transformer with an open magnetic circuit, containing primary and secondary windings, a double-spark ignition coil of a VAZ-21083 car was taken, the winding 1 of which is connected by its terminals 5, 6 to the EUP Z 70 (switch with semiconductor devices) and to the power source 4, winding terminals 2 are connected to the electrical load 12, each of the terminals 7, 8 of the winding 1 is connected to two keys 9 of the electronic control unit 3, in this case, an additional electric circuit 10 of the electrical load 11 of the winding 1 is formed, from the connected electronic control unit Z a direct current pulse is supplied to the winding 1 along the electric circuit source 4, while magnetic energy is accumulated in the inductance with time regulation, a current pulse of the opposite direction is induced in winding 2, the current pulse in winding 1 is interrupted at the maximum and disconnected from power source 4, circuit 10 of the electrical load of winding 1 is turned on and the accumulated magnetic energy is consumed in the transformer, changing the current direction in winding 2, the electrical load 12 of which receives alternating current, and spends the accumulated magnetic energy in the pause between current pulses, after the voltage regulator, on the on-board system of the car.

As a result of using the electrical load of winding 1 of the ignition coil of the car, the additional power obtained at a voltage of 14 volts and a current of 2.5 amperes is calculated, it will be:

M-14.2.5-35W, where M is power. with

The total power of the ignition coil of the VAZ-21083 car is 120W. If you use the additional power of the electric load of winding 1, which is 35W, as a result, the dimensions of the electric generator will decrease, and therefore the vibration of the magnetic poles in it will decrease and the noise will decrease.

The use of the proposed method of obtaining an electrical load from the primary and secondary windings of the transformer will increase the removal of the electrical load by almost 1/3, which will allow to reduce the dimensions of the electrical power sources and their power. (Se)

Claims (1)

The formula of the invention is a method of obtaining an electrical load from the primary and secondary windings of a transformer, according to which equipment is used: a transformer with an open magnetic circuit, which contains primary and secondary windings, the conductors of which are wound on each other, an electronic control device (ECD) in the form of a switch , the source of electric power, the ECP is connected to the terminals of the primary winding of the transformer and to the electric circuit of the electric power source, the terminals of the secondary winding - to the circuit of the electric "70 load, which include the current source of the ECP, while supplying a current pulse to the primary winding for 2 s through the switches of the ECP , in the electric circuit of the electric power source, until the maximum is reached and accumulate magnetic energy in the inductance with time regulation, then induce a current pulse of the opposite "from" direction in the secondary winding, interrupt the direct current pulse in the primary winding and spend the accumulated magnetic energy in the inductance, with by changing the direction of the current in the secondary winding, the electrical load of which is supplied with alternating current, which differs in that the ends of the conductors of each of the two terminals -I of the primary winding are divided into two parts, each of the parts of the separated conductors is connected to the ECP keys, while receiving additional electrical the circuit of the electrical load of the primary winding, which is turned on at the moment of disconnection of the electrical circuit of the power source with the possibility of loss of accumulated magnetic energy in the pause between current pulses. b 50 - F) name) 60 b5