RU99128095A - MULTIPLE BREAKER UNIT, WAY OF OPERATION OF THE DISTRIBUTION SYSTEM AND DISTRIBUTION SYSTEM - Google Patents

Claims (27)

1. A multi-pole block of circuit breakers, comprising: a chopper for each pole, wherein: each chopper has an insulating input that extends along the main direction forming the middle axis of said chopper; the median axis of the circuit breakers of said block are substantially parallel to each other; said breakers together form a single unit and can be moved relative to the external input and output contacts for disconnecting the line; said external input and output contacts include a group of buses substantially parallel to each other; and means for translationally moving said interrupters according to a direction having a main component that is substantially parallel to said median axes, for connecting the line and disconnecting the line, said median axes being substantially vertical and substantially lying in a median vertical plane perpendicular to said tires.  2. The multi-pole interrupter unit according to claim 1, wherein said translational movement means includes at least one lifting device for said interrupters, operating in a direction that is substantially parallel to said median axes.  3. The multi-pole breaker unit according to claim 2, comprising three poles, said external contacts comprising a group of three buses substantially parallel to each other and perpendicular to said middle axes.  4. The multipolar circuit breaker unit according to claim 3, wherein said circuit breakers are placed in a protected type cabinet with metal walls, wherein the required insulation strength between said metal walls and said circuit breakers is provided by a corresponding insulating air gap remaining in the disconnected position in the connection position and in the direction of the working path between the above provisions.  5. The multi-pole circuit breaker unit according to claim 4, wherein said box includes a first cabinet containing said circuit breakers and a second cabinet containing said busbars, the first and second cabinets being separated by a transverse partition having, for each circuit breaker, a corresponding through hole and, at least one shutter configured to synchronously move in accordance with the movement of the breakers and the ability to close said through holes when the breakers are in the disconnected position.  6. The multi-pole circuit breaker unit according to claim 5, wherein each circuit breaker has a corresponding sealing element configured to contact said transverse partition when the circuit breakers are in a connected state, sealing said through holes.  7. The multi-pole breaker unit according to claim 6, wherein said sealing elements are substantially bowl-shaped.  8. The multi-pole circuit breaker unit according to one of claims 5 to 7, wherein said second cabinet is placed on top with respect to said first cabinet and is essentially crossed by an exhaust path having at least one ventilation duct extending between the first ventilation opening, formed in the said transverse partition, and a second ventilation hole formed at the top of the box, which comes out and is closed by at least one corresponding flap.  9. The multi-pole breaker unit of claim 8, wherein said second cabinet is bounded above by a roof having at least one next ventilation opening extending outward and closed by at least one next shutter.  10. The multi-pole circuit breaker unit according to any one of the preceding claims, wherein each of said circuit breakers includes at the top a first external terminal on the line of said middle axis and a second external terminal located on the side of the respective circuit breaker at its bottom.  11. The multi-pole circuit breaker unit according to any one of the preceding claims, wherein said circuit breakers are of a type of circuit breaker with a vacuum vessel placed in an appropriate insulating inlet having a cylindrical structure defining a respective median axis of each breaker.  12. The multi-pole interrupter unit according to claim 11, wherein said interrupters and associated actuator are supported by a supporting platform element, said lifting device being located below said supporting platform element.  13. The multi-pole breaker unit according to claim 12, wherein the lifting device is a type with a mechanical drive.  14. The multi-pole breaker unit according to claim 13, wherein the lifting device is of the type comprising a pantograph system with intersecting arms, the drive of which is carried out by at least one helical shaft, which makes it possible to widely open said intersecting arms.  15. The multi-pole breaker unit according to claim 13 or 14, wherein the lifting device is manually actuated through a drive hole formed in said box.  16. The multi-pole interrupter unit according to any one of the preceding claims, wherein said interrupters belong to the removable device when they are in the disconnected position, said multi-pole interrupter unit including drive means for removing and inserting.  17. The multi-pole interrupter unit according to clause 16, wherein said moving element includes a trolley provided with guide elements that can be inserted into respective guides with grooves related to said extraction and insertion driving means forming an extraction and insertion path.  18. The multi-pole breaker unit according to claim 17, including positioning means along said insertion and extraction path.  19. The multi-pole breaker unit according to claim 18, wherein said first positioning means include respective first movable locking elements that are an integral part of said breakers, and second stationary locking elements that are an integral part of said drive means for removing and inserting, said first and the second locking elements are able to enter into mutual engagement, when the breakers are located, along the said path of insertion and extraction, respectively x external contacts.  20. The multi-pole block of breakers according to claim 19, in which, when said mutual coupling is implemented, it is possible to translate said breakers.  21. The multi-pole block of breakers according to any one of the preceding paragraphs, comprising the following positioning means along the working path between the disconnection position and the connection position of said breakers.  22. The multi-pole breaker unit according to claim 21, wherein said next positioning means include respective and next first movable locking elements, which are an integral part of said breakers and the following second stationary locking elements, said first and second locking elements being able to enter the next mutual engagement when the breakers are in the connected position.  23. The multi-pole breaker unit according to claim 22, wherein, when the aforementioned following mutual coupling is implemented, it is possible to close the corresponding electrical circuit.  24. The method of operation of the distribution system for the main station, which includes at least one multi-pole block of breakers, including for each pole a breaker having an insulating input extending along the main direction forming the middle axis of the said breaker, wherein: the middle axis of the breakers said multi-pole block circuit breakers are essentially parallel to each other; said interrupters together form a single unit and can be moved relative to the respective input and output external contacts to make the connection and disconnection of the line; said external input and output contacts include a group of buses substantially parallel to each other; and said method includes the steps of arranging said interrupters, in which their external terminals are placed on a straight path substantially parallel to the median axes of said interrupters and intersecting the respective input and output external contacts, the median axes being essentially vertical and essentially lying in the middle vertical plane perpendicular to the mentioned tires, for the implementation of the separation, the said breakers are moved, while their respective external e conclusions are moved along the said path from the position of the electrical connection until they are installed at a predetermined separation distance; and for making the connection, said circuit breakers are moved, while their respective external terminals are moved along said path from said predetermined separation distance to make an electrical connection.  25. The medium voltage distribution system for the main stations, comprising at least one multi-pole block of breakers, as described according to any one of claims 1 to 23.  26. The distribution system of claim 25, comprising at least one of said multi-pole chopper blocks as a transformer block and a plurality of said multi-pole chopper blocks as linear blocks, with the same buses passing through said linear and transformer blocks .  27. The distribution system according to claim 26, wherein said transformer and linear units are placed in respective units, which, in turn, are installed “shoulder to shoulder” in two rows, occupying a width that is in the road dimension.