SU57618A1 - Device for converting high voltage direct current into alternating current - Google Patents

Description

The subject of this author's certificate is a device for converting high voltage direct current into alternating current, which, in the opinion of the author, is designed to solve in a simple way the problem of using high voltage direct current by small consumers of energy in places where there are no sources nearby. low voltage current, and the installation of conventional converters is unprofitable (for example, on electric railways).

In the proposed device for current conversion, an electromagnetic chopper is used that converts a direct current into a pulsating one and a transformer that converts a pulsating current into an alternating desired voltage.

A disadvantage of the known converters of this type is the fact that all the load current to be applied passes through the moving parts of the chopper, which leads to their rapid failure. In the proposed device, the indicated disadvantage is absent.

The invention consists in supplying the chopper with two additional windings, one of which is connected to the primary winding of the transformer in series with the working arc gap, and the second parallel to it, as shown in the drawing, which shows the circuit diagram of the proposed device.

The device consists mainly of an electromagnetic chopper L, a transformer T and an arc gap G. The high voltage winding of the transformer is sequentially connected with an additional winding and the chopper is driven through the arc gap G and self-induction S to high voltage DC B (for example, contact network of electric railways). The main winding from the breaker A is connected to the network B through the resistance R (in the order of hundreds of thousands of ohms), and the second additional winding b the breaker is adventure through the resistance r in parallel to the horns of the arc gap G.

The high voltage current from the network B cannot pass into the winding of the transformer T, since the magnitude of the arc gap G is chosen such that it does not penetrate under the voltage of the network.

When the high-voltage switch Z is closed, the current flows through the winding c and contact d of the breaker L to earth E. The breaker will begin to vibrate, creating a high voltage in the secondary winding exceeding the voltage of the network B and therefore easily penetrating the gap G and ionizing it.

Following this, a normal arc is excited in the gap G and a high voltage from the network 5 flows through the magnetic coil M to blow into the transformer winding T and from there, through the winding and the chopper consisting of several turns of thick wire, to the ground.

Excitation of the winding a leads to the attraction of the hammer of the Vibrator chopper vibrator to the opening of the winding circuit c. Thereby, the supply of ionizing voltage to the arc gap G, the arc of which, by injecting magnetic coils of the M rollers stretching on the horns and extinguishes, is interrupted, interrupts the power circuit. Until the arc is completely extinguished, the winding a continues to hold the vibrator hammer in the open position and therefore the arc cannot reappear. After the final termination of the supply voltage from the network to the transformer T, the winding a releases the vibrator hammer to its initial position (when the contacts d are closed) and the process repeats from the beginning.

The intermittent (pulsating) current of the primary winding of the transformer T is transformed in its secondary winding into alternating current of the desired voltage and in this form enters the circuit of the energy receiver served by the described converter.

Switching off the unit from operation is achieved by opening the winding circuit with the breaker with a high-voltage switch Z.

The subject matter of the invention.

A device for converting high voltage direct current into alternating current using an electromagnetic chopper and a transformer whose pulsating current is supplied to the primary circuit, characterized in that the core of said chopper is provided with two additional windings a and & from which high voltage winding The nips clamps of the arc gap G, which is located in the primary winding circuit of the main transformer, are turned on, and are designed to supply a high voltage that penetrates the gap G, and the winding a p consequently enabled with the primary winding of the main transformer and serves for the passage of current through the latter, for tightening the attraction of the armature chopper and thereby rupturing its primary winding circuit.

to the author's testimony A. G. Earaeva

No. 75618

// f /////// at / 7. t