SU113417A1 - Device for uniform loading of phases in a three-phase network - Google Patents

Description

The known devices for balancing the voltages of a three-phase network with a single-phase load using a ballast throttle connected to the unloaded phase of the network and to one naz of the other two phases, provide stability balancing when the magnitude of this load changes.

In the described device, in order to prevent the effects of single-phase load changes, for example, welding current, on the degree of its alignment across the network phases, a saturation choke is used as a ballast throttle, the control winding of which is connected via a rectifier to a current transformer in the load circuit and parallel to the capacitive circuit. the resistance includes a second saturation throttle, in which one control winding is fed through a rectifier or a current transformer in the load circuit, and the other from a voltage transformer, connecting parallel to the ballast choke.

The drawing shows the basic electrical circuit of the proposed device for uniform loading of phases in a three-phase network.

In this device, an alternating-current winding of saturation pressure DN- is used as an inductive ballast. The rectified current of the CT current transformer flows through the bias winding of this droplet, the primary winding of which is connected to the current / A circuit in the circuit section composed of parallel-connected primary windings of the welding transformer TC and the i capacitor K. With increasing current / l, the magnetized droplets JJ- D that leads to an increase in IO current / s in the ballast resistance, equal to the value of current IA.

Similarly, a decrease in current IA entails a corresponding decrease in current / s.

No. 113417

The second saturation throttle DN-2 has two oppositely connected bias windings; its AC winding is connected to the capacitor voltage / C.

The rectified secondary current of the voltage transformer TN, which remains constant, independent of the welding condition, flows through one winding of the magnetisation of the throttles DN-2.

The rectified current of the CT current transformer secondary current flows through the other winding of the bias.

When the secondary circuit of the welding transformer TC is open, the secondary current of the current transformer can be neglected. The magnetisation of the core of the throttles increases so much that the alternating current flowing through the DN-2 choke becomes comparable with the current of the capacitor / С, remaining somewhat less.

The current at the output of the parallel section, made up of an alternating current winding Drossel DN-2 and capacitor K., reaches the lowest value. Accordingly, the welding load current (i.e., the current equal to the geometric sum of alternating current of the DN-2 droplets, capacitor / C and the primary winding of the welding transformer of the vehicle is also negligible.

As the load increases, the bias of the throttles DN-2 decreases, which leads to the decrease of the alternating current of the throttles. The current at the output of the parallel section composed of an alternating current winding DN-2 drossel and a capacitor / () increases. The latter is equivalent to an automatic increase in the capacity of the parallel section. At a nominal load of the welding transformer, the dms windings of the magnetic bias DN2 are equal, which corresponds to the greatest throttle inductance and the largest equivalent capacitor capacitance.

Thus, the DN-2 choke provides automatic regulation of the equivalent capacitance over the entire range of variation of the welding load.

The advantages of the proposed device for uniform loading of phases in a three-phase network under single-phase load are that it balances the three-phase network voltages with any change in single-phase load that is not disturbed even at idle welding transformer, and ensures the operation of a single-phase (welding) transformer at Relatively high AC power factor of 0.86.

AGROUND OF THE INVENTION

A device for) uniform load of phases in a three-phase network with a single-phase electric power receiver, for example, a welding machine, containing a ballast choke connected to the unloaded phase of the network and to one of the other two phases, and an electric capacitor connected in parallel to the energy receiver, characterized in that, in order to prevent the influence of single-phase load changes on the degree of its alignment across the network phases, a saturation choke is used as a ballast throttle, in which the winding The control unit is connected via a rectifier to a current transformer in the load circuit, and a second saturation choke is connected parallel to the capacitive impedance, in which one control winding is fed through a rectifier from a current transformer to the load circuit, and the other from a voltage transformer connected in parallel to the ballast choke.