RU2020142875A - CAPACITIVE POWER TRANSMISSION CABLE - Google Patents

Claims (23)

1. A capacitive power transmission cable containing at least two sets (21.121; 22.122) of conductive cores (23.123; 24.124), while the sets of cores are isolated from each other and are in capacitive interconnection with each other, and the cores of the sets are distributed in cross section of the cable, while two sets (21,121; 22,122) are in capacitive conjugation with each other, characterized in that the capacitance between two or more sets of cores, when all the cores of the respective sets are electrically connected together, is at least 10 nF / m , and the cores are laid in layers (L1, L2, L3, L4, L5, L6, L7) with the opposite twist. 2. Capacitive power transmission cable according to claim 1, characterized in that the capacitance between sets of cores is in the range from 10 to 170 nF / m for a 3.6 kV cable, or from 5.5 to 92.5 nF / m for 72.5 kV cable, or 14 to 235 nF/m for 240 V cable, or 5 to 84 nF/m for 145 kV cable. 3. Capacitive power transmission cable according to claim 1, characterized in that all strands of at least one of the sets have appropriate insulation (25.125; 26.126), the dielectric strength of which is sufficient to ensure that the sets of conductive strands are kept insulated. 4. Capacitive power transmission cable according to claim 3, characterized in that the insulation thickness is at least 10 µm, preferably the insulation thickness is from 20 µm to 540 µm, and usually it is from 17 µm to 1079 µm. 5. Capacitive power transmission cable according to any of the preceding claims, characterized in that the cores (23.123; 24.124) of two or more sets (21.121; 22.122) alternate in their layers (L1, L2, L3, L4, L5, L6, L7) . 6. Capacitive power transmission cable according to any one of paragraphs. 1–5, characterized in that the cores (23.123; 24.124) are laid in alternating layers (L1, L2, L3, L4, L5, L6, L7), one of which consists entirely of one set (21; 121), and the next - completely from another set (22; 122). 7. Capacitive power transmission cable according to any one of the preceding paragraphs, characterized in that at least one of the sets (21.121; 22.122) of conductive cores (23.123; 24.124) is uninsulated, and the insulation is provided by insulating the cores (25.125; 26.126) of another set (21.121; 22.122). 8. Capacitive power transmission cable according to any of the preceding claims, characterized in that it contains insulation (27; 127) between layers (L1, L2, L3, L4, L5, L6, L7) of different sets (21.121; 22.122), while at least two sets are capacitively coupled to each other, the insulation being preferably a flexible polymer insulation between each layer to fill the voids between the individual strands, and the insulation being a tape typically 30 µm to 1.35 mm thick, but preferably from 25 µm to 2.7 mm. 9. Capacitive power transmission cable according to claim 8, characterized in that one set of cores has a certain color, while it preferably consists of tin-plated cores, and the other set has no color, while it preferably consists of uncoated cores. 10. Capacitive power transmission cable according to any one of paragraphs. 1-8, characterized in that the insulation is insulation using insulating coatings (25.125; 26.126) of enamel of the type used for the so-called "winding wire", or the insulating coatings are extruded, twisted or woven. 11. A capacitive power transmission cable according to any one of the preceding claims, characterized in that all sets of cores have their own insulation and the corresponding insulations of the sets are of a different color to allow them to be separated for connection at opposite ends of the cable, the insulation being preferably enamel, and the color of the enamel differs between sets. 12. A capacitive power cable according to any one of the preceding claims, characterized in that there are more than four strands in each set, typically 37 to 397 strands per set, but preferably 19 to 547 strands per set, and preferably the strands are copper or aluminum wire. 13. Capacitive power transmission cable according to any of the previous paragraphs, characterized in that the cores are crimped in layers with a die. 14. Capacitive power transmission cable according to the previous paragraph, characterized in that if the layers are isolated from each other, the thickness of the layers is equal to the diameter of one conductor, or the layers contain two sublayers of conductors laid in one and the other directions, while the sublayers in each layer are preferably combined plexus. 15. Capacitive power transmission cable according to the previous paragraph, characterized in that it contains insulation (7) around the capacitively interconnected sets of cores, and a grounding sheath (5) around the insulation, and the grounding sheath is in capacitive connection with the capacitively interconnected sets of cores, when In this case, the insulation is thick enough to function as a dielectric, resulting in the capacitance of the conductors relative to the sheath being substantially two orders of magnitude or more less than the capacitance between two sets of strands, the sheath being preferably helically laid steel wires for reinforcement and the preferred performance of the function of a grounding conductor. 16. Capacitive power transmission cable according to any of the preceding claims, characterized in that for connection to the supply conductor or load conductor, a terminal block (1007,1008) is provided with terminals (1009) for the first and second sets of conductors (1003,1004) on the respective ends (1005,1006) of the cable, preferably the supply or load terminal is a busbar (1015,1016) permanently connected to it, and preferably one terminal (1019) in each block is insulated without a supply or load connection terminal, while in the other is provided with a supply or load terminal (1017,1018). 17. Capacitive power transmission cable according to claim 16, characterized in that it contains a connector for parallel connection, containing the corresponding terminals (15381/2/3/4) for the respective sets of conductors on both sides and internal interconnections (15481/2), with whereby one conductor of one length is connected to one conductor of a different length, and other conductors are connected in a similar way, or a connector for serial connection, containing a terminal (15391) on one side for one set, connected internally to a terminal (15394) on the other side for either another set of different lengths, and insulated terminals (15392/3) on the respective sides of the connector so that the remaining sets terminate with them. 18. Capacitive power transmission cable according to any one of paragraphs. 1-16 in combination with at least two or more similar cables, at least one parallel connector according to claim 17 and at least one serial connector according to claim 17, characterized in that the cables and connectors are connected in in the form of a long cable with the required capacitance. 19. A capacitive power transmission cable according to any one of the preceding claims, characterized in that the cable comprises at least one additional set of cores to select the capacitance of the cable or to make a direct connection. 20. Capacitive power transmission cable according to claim 1, characterized in that all the cores from one or more adjacent layers constitute one set, and all the following cores laid radially outward from one or more adjacent layers constitute another set, while there is insulation between the layers different sets, wherein at least two sets are capacitively coupled to each other, and wherein the individual strands are not insulated and preferably have a different color depending on their set, with one set of strands usually consisting of tin-plated strands, and the other consists of uncoated strands. 21. Capacitive power transmission cable according to claim 1, characterized in that it contains cores of at least two sets in each layer. 22. A capacitive power transmission cable according to any one of the preceding claims, characterized in that all the cores of the respective sets are connected together, one set at one end and the other set at the other end. 23. The use of a capacitive power transmission cable according to any of the preceding claims for power transmission with one set connected to a power source at one end and a set connected to a load at the other end.