SU28581A1 - Electric power transmission device - Google Patents

Description

The present invention relates to D.I. devices for transmitting electrical energy using parallel-connected cable and overhead lines and is aimed at obtaining such a transmission system in which the power of synchronous compensators necessary for adjusting the transmission line itself would be reduced.

Cables and overhead lines of the same phase are offered in parallel. connect at regular intervals using reactive resistances (for example, transformers) or reactive resistances and capacities.

In FIG. 1 depicts the scheme of the proposed device; FIG. 2-modification of the latter; FIG. 3 - the second modification of this device; FIG. 4- form of its implementation.

In the drawing, I and P represent the voltage rise and fall of the device; /, 2, J-wire overhead transmission lines; / 2, Ji-wire cable transmission line. In the circuit of FIG. 1 between the same lines

cable and air networks include either reactive coils 4, b, or combinations of reactive coils with capacitors in parallel or in series. Due to the different propagation speeds, all electrical electromagnetic disturbances along the cable and overhead wire, reactance resistances 4, 5, 6 will make equalization currents, the magnitude of which can be selected by the appropriate 4, 5, 6 reactance.

According to FIG. 2 transformers 4, 5, 6 are used as reactors, the secondary windings of which are connected to the same phases of the transmission line formed by parallel connection of the cable and air systems, while their primary windings are powered from separate synchronous current sources, the phase of which may vary depending on load and the desired distribution between cable and air transmission systems.

In the diagrams of FIG. 3 and 4 of the same phases in the air and cable transmission systems are connected to each other, at certain intervals using transformers 4, 5, 6, 7, in which one of the windings is connected in series to the air line, and the second windings & in the cable line. Depending on the transformation ratio of these transformers, the distribution of currents between the air and. cable lines can be made whatever you want, and this applies to both watt and watt-free currents. Since the transformation ratio can be a function of the load current, it is possible to load more air lines with nice loads, and large loads, so that the power factor of the entire aggregate transmission line is as close as possible to unity. To this end, the wires of the aerial transmission line and cable line at the transformer locations connecting the individual phase lines to each other can be passed through the windings of summing current transformers;

Communication between the air and cable transmission systems using the above-mentioned transformers can be carried out only at the points of supply and reception of energy (Fig. 4). Along: the entire line it is possible to connect the phases of the cable and air systems using jet coils.

. The subject matter of the invention.

Claims (8)

1. A device for the transmission of electrical energy using parallel-connected cable and overhead lines, characterized in that the phases of the same name in the air and cable transmission systems are connected through certain wires (sections with each other using reactive resistances consisting of reactive coils or combinations of jet coils and tanks in parallel or series connections. - 2. The form of the device according to claim 1, characterized in that the reactances that connect the phases of the same name with each other are made variable, 3. The form of the device according to claim 2, wherein the reactance values connecting the phases of the same name with each other are 4 | functions of the transmitted power values. 4. Video device change according to claim 1, characterized in that the phases of the same name in the air and cable transmission systems are connected by means of secondary windings of transformers, the primary windings of which are connected to separate alternating current sources synchronous with the transmission line, phase which, in each of the sources, MQ can be changed depending on, for example, load or other conditions. 5. Video device change according to claim 4, characterized in that the phases of the same name in the air and cable transmission systems are connected to each other at certain intervals using transformers, in which one of the windings is connected in series to the air line, and the second winding-g to cable line.- 6. The form of the device according to claim 5, characterized in that the coefficient of transformation of transformers connecting the lines of the same phase with each other, has a variable value. 7. The form of the device according to claim 6, wherein the transformation ratio of the transformers connecting the lines of the same phase to each other is variable as a function of the total power. 8. The form of the device according to paragraph.n. 5, 6, 7, characterized in that the connection of the air and cable transmission systems using transformers is only at the point of energy supply to the line and at the point of reception of power from the line. figure 1 . ,, .-: З ЗЗСй 1 4ЖЗ-h. t, "; -; zhzhzh.} g fC I -: -.- jg iE aZ3ELli: - J Fig.2 | C ai4lS, K (G  L f n. i -f i- --- D V 41-1 / 3 S §4 .3 - “J, 5“ 7T five - " ia: cEiGL :: o} uJ Hiiiiiraixcn .four -rS, i sQtaf. j.rf. . .-. . --- .. .-- I i HSlX ifflaS- fC I J., GT 1 --- 1-55G5-in-- 1 iLJ