SU269290A1 - DEVICE FOR SIMMETRING SINGLE-PHASE LOADS - Google Patents

Description

The invention relates to the field of electrical engineering and can be used for balancing the multiphase network mode when two single-phase loads of an arbitrary nature are connected to it.

At present, balancing of two or several single-phase loads of an arbitrary nature is carried out with the help of balancing devices (SU), made for each load individually.

With this balancing, the overall scheme is different in relative complexity and increased installed capacity, since each of the control systems has an installed power of balancing elements of at least lOOVo of the power of the corresponding load.

In addition, for balancing when changing parameters of loads, it is necessary to adjust several balancing elements, which also leads to complication of the overall scheme and decrease in its reliability.

The purpose of the present invention is to reduce the installed power of the device. This is achieved by connecting the loads to a three-phase network using single-phase transformers, in which the loads symmetrize each other, which allows balancing by one balancing element, installed

the power of which is determined not by the sum but by the difference of the installed powers of the loads.

FIG. 1 shows a diagram of the device; in fig. 2 and 3 - vector diagrams.

The device contains two single-phase transformers / and 2, a reactive balancing element 3, which is switched on by means of an electromagnetic voltage divider 4, and single-phase loads 5 and b.

A, B and C - power supply phases.

The primary windings of the transformers and the divider are connected in a triangle and connected to the phases of the network, and the secondary windings are connected in series with the loads.

As is well known, in order to balance the multiphase network mode when single-phase loads are connected to it, it is necessary to compensate for the pulsating powers generated by these loads.

The pulsating powers due to loads 5 and 6 are respectively equal; L, / 5- / 5-еЯ2- -); b- / b-eA2 "- c),

where x | s - the initial phase voltage,

Ф - phase angles of loads. It is easy to make sure that the ecvin transformer transformation ratios are chosen so that the angle between the voltages on the loads is equal, then the vectors TVs and Mj

Correct towards and for complete balancing it is necessary to compensate the pulsating power equal to the difference of the full powers of the loads with a balancing element.

To achieve this condition when changing the difference in phase angles of loads, it is advisable to change (switch) the transformation ratio in the circuit with a smaller load value. The transformation ratio of a transformer to which the secondary winding is connected to a large load is expediently taken equal to 0.27, which corresponds to the condition of equality of stresses on loads at f5 and 8Pulsing power generated by the balancing element, equal to the difference of pulsating powers of loads, is in antiphase with pulsating power greater of the loads. This is achieved by including a balancing element with a divider so that the angle between the stress vectors on it and the divider is equal to the half-difference of the phase angle of the larger of the loads.

In this case, if the load 5 is greater than the load b, then the inductance should be the balancing element, and if the load 6 is greater than the loading 5, then the capacitance is the balancing element.

If, during operation, the magnitude of the power difference of the loads changes, then the balancing element must be made adjustable.

To ensure balancing at different phase angles of loads, taps are provided in the divider and secondary windings of transformers.

If the balancing element is designed as a circuit of a capacitor bank and chokes, controlled by bias, the proposed device can provide

continuous balancing with an arbitrary change in the magnitude of the loads, regardless of which one prevails over the other. As an example, in FIG. Figure 2 shows the vector diagram of voltages, currents and pulsating powers for the case when the power So is greater than the power 5b with and. In this case, the inductance should be the balancing element.

FIG. 3 shows a diagram for case. Balancing is in this case carried out by the tank.

Subject invention

A device for balancing single-phase loads of an arbitrary nature, connected to a three-phase network, containing single-phase transformers, an electromagnetic voltage divider and a balancing element, characterized in that, in order to reduce the installed power of the device, the primary windings of two single-phase transformers and an electromagnetic voltage divider are connected in triangles and connected to the network, the secondary windings of each transformer are connected to the primary windings of the other transformer at points their connections with a voltage divider,

the balancing element is connected between the common point of the primary windings of the transformers and the tap of the voltage divider, while single-phase loads are connected, between the common point of the primary windings

transformers and free ends of the secondary windings.

(pus 2