RU95115518A - TRANSMISSION LINE SYSTEM - Google Patents

Claims (30)

1. A system of power lines, in which in addition to at least two conductors for transmitting electrical energy in the form of direct current or low-frequency current, at least one other is provided, at least parallel to the conductors of the system, during operation, a conductor which is streamlined in common with the other conductors, which in cooperation with the other conductors of the power line system, it reduces the magnetic field emanating from it in a region of space that runs approximately parallel to the electric line system power transmission, characterized in that the currents in the individual conductors and their distances from the point lying in the specified area of space and passing approximately parallel to the system of power lines, the effect on which is calculated, and the spatial distribution of the conductors with respect to the point on which the effect is calculated, in the space are chosen in such a way that the vector sum of the magnetic field components emanating from the streamlined conductors at the point on which the effect is calculated is practically sume zero.  2. The transmission line system according to claim 1, characterized in that the transmission line system has one common conductor in such a way that there is one conductor split into at least two single conductors and one non-split conductor and the single conductors of each of the split conductors are located relative to them geometrical position depending on the currents flowing in the conductors so that the magnetic field due to the transmitted energy of the current in the unbroken conductor is at least almost compensated by gnitnymi fields currents in single conductors in a region extending approximately parallel to the system of transmission lines.  3. The system of power lines according to claim 2, characterized in that, when the currents are in phase in single conductors, the latter are located on opposite sides of the surface, determined by the longitudinal extension of the unsplit conductor and a point lying in the compensation region.  4. The system of power lines according to claim 3, characterized in that the single conductors of a separate split conductor at the ends are short-circuited with each other.  5. The system of power lines according to claim 3 or 4, characterized in that the single conductors have at least almost equal electrical resistance and are preferably positioned with angular symmetry to the surface, determined by the longitudinal extension of the unbroken conductor and a point lying in the compensation region.  6. The system of power lines according to one of claims 2 to 5, characterized in that when the currents are antiphase in single conductors, the latter are located on the same side of the surface, determined by the longitudinal extension of the undisclosed conductor and a point lying in the compensation region.  7. The system of power lines according to claim 6, characterized in that between the single conductors of the split conductor a current source is included, in-phase with the electric energy transmitted in the system of power lines.  8. A system of power lines according to one of claims 1 to 7, characterized in that in several systems of power lines running at least almost parallel that act with their magnetic fields on a specified area of space, the implementation of magnetic field compensation is provided only for part of the systems of power lines and in systems of power lines made for compensation, such a spatial displacement of the conductors is provided that at least partial compensation of the magnetic fields of the other takes place systems of transmission lines.  9. The system of power lines according to one of claims 1 to 8, characterized in that the individual conductors are located one above the other and / or one after the other with respect to a plane defined by the indicated area of space and the system of power lines.  10. The system of power lines according to one of claims 1 to 9, characterized in that the spatial arrangement of the individual conductors and the distribution of currents flowing in them are selected so that the magnetic field is compensated in at least two separated regions of space.  11. The system of power lines according to claim 1, characterized in that the single conductors of the individual split conductors are located with at least almost circular symmetry around the undigested conductor.  12. The system of power lines according to claim 11, characterized in that when made in the form of a single-phase cable with sheath insulation, one of both conductors provided for conducting current is made as a split conductor, single conductors of which, like the non-split conductor, are insulated individually and the single conductors of the split conductor surround the un split conductor symmetrically on all sides.  13. The system of power lines according to claim 11 or 12, characterized in that when made in the form of a cable for multiphase current with sheath insulation, each of the conductors belonging to the corresponding phase of the current is made in the form of a split conductor with single conductors, each isolated separately, and single the conductors of the split conductors are arranged with at least almost circular symmetry, and in the presence of an additionally provided neutral wire (neutral wire), preferably with circular symmetry of the wok rug neutral wire.  14. The system of power lines according to one of paragraphs.11 to 13, characterized in that the neutral wire is also made in the form of a split conductor and its single conductors surround the circularly arranged single conductors of the conductors, each of which relates to the corresponding phase of the current, as a screen against the formation of an external electric field, and in a system with a protective conductor, it is preferable so that the latter is centrally located and surrounded by single conductors.  15. The system of power lines according to one of claims 11 to 14 with a protective wire, characterized in that the protective wire is also made in the form of a split conductor and its single conductors surround other cable conductors as a shield against the formation of an external electric field, and in the system with neutral wire - preferably so that the latter is centrally located and surrounded by single conductors.  16. The system of power lines according to one of paragraphs.11 to 15, characterized in that the cable is in a known manner provided at the ends with connecting devices, in particular plugs, and electrical connection of single conductors of each of the split conductors in the connecting device of each cable end is provided.  17. The power line system according to clause 16, characterized in that the separate plug and its mating part are made in a known manner so that the plug can be inserted into its mating part only in the position in which the connecting element of the neutral wire of the plug is in contact with the socket for neutral wires in the mating part.  18. The system of power lines according to one of paragraphs.11 to 17, characterized in that the cable is made in the form of a flat wire with a separation base, preferably so that the single conductors are slightly offset in height compared with an undivided conductor relative to a plane defined by a flat wire with a separation base.  19. The system of power lines according to claim 18, characterized in that the single conductors are located in at least two planes extending at least approximately parallel to one another, and in a multiphase system, all conductors are split into single conductors.  20. The system of power lines according to one of claims 1 to 19, characterized in the form of an underground cable, preferably for high voltage transmission so that single conductors are provided in the form of separate conductors.  21. The system of power lines according to one of claims 1 to 8, characterized in that in the traction current system in which the air contact wire, respectively the side contact wire forms one conductor, and the track rails form the other conductor, one of both conductors is supplemented with split conductor.  22. The system of power lines according to claim 21, characterized in that the track rails are supplemented with a single conductor to a split conductor and the spatial arrangement of the single conductor is selected depending on the current flowing in it so that compensation occurs in the specified spatial region.  23. The system of power lines according to claims 21 or 22, characterized in that one of the single conductors formed as a result of the splitting is laid in the ground and parallel to the route of the electrified railway line.  24. The system of power lines according to item 21 or 23, characterized in that the single conductors are connected to each other at one end, and their other ends are connected to a transformer that gives compensation current.  25. The system of power lines according to one of paragraphs.21 to 24, characterized in that to the ends of the single conductors is connected to one transformer giving compensating current between the single conductors.  26. The system of power lines according to one of paragraphs.21 to 25, characterized in that the single conductor, supplementing one conductor from a split conductor, is divided into short sections, a sensor device is provided that determines which of the formed by the air contact wire, respectively, the side contact wire and rail, a section of a conductor is loaded with current, switching devices are provided at the points of transition from one section of a single conductor to the next, which supply only those from cutting single conductors in which current flows in the air, respectively the side contact wire.  27. The system of power lines according to claim 26, characterized in that a magnetic sensor is provided as a sensor device.  28. The system of power lines according to one of paragraphs.21 to 27, characterized in that there are several single conductors laid at least almost parallel to the external power lines of electrified railways.  29. A system of power lines according to one of the preceding claims, characterized in that the single conductors respectively have preferably a substantially smaller cross-sectional area as compared to an un-split conductor, in particular the sum of the cross-sectional areas of the single conductors is at least approximately equal to the cross-sectional area of the corresponding non-split conductor .  30. The system of power lines according to one of claims 1 to 29, characterized in that the single conductors forming the respectively split conductor are provided with the same marking, in particular the color of their insulation.