DE2048994C3 - Method of filling high voltage power lines - Google Patents

Description

The invention relates to a method for filling high-voltage lines with a high-voltage liter surrounding metal encapsulation, with a pressurized insulating gas, in particular with Sulfur hexafluoride (SFb),

From the journal "IEEE-Transactions on power apparatus and systems", 1970, pp. 17 to 23, is one High-voltage line known, which has a high-voltage conductor and a metal encapsulation surrounding it having. The metal enclosure is filled with pressurized sulfur hexafluoride as an insulating gas. For this purpose, the high-voltage line is composed of individual sections that are in a Factory completed., Evacuated and then with the insulating gas be filled. The sections are therefore completely transported from the factory to the place of operation. There they are put together with the help of connecting pieces.

The object of the invention, on the other hand, is to reduce the considerable effort involved in transporting the fully assembled Parts of a high-voltage line of the type mentioned above arise to reduce. This object is achieved according to the invention solved in that the metal encapsulation after the installation of the conductor at the operating site is filled with the insulating gas from one end, with a from the encapsulation ins Free leading outlet is open so that the outlet is closed when predominantly iso-outlet is discharged from the outlet, and that after closing, insulating gas

is refilled until the operating pressure is reached.

The invention makes it possible to separate metal encapsulation, conductors and insulators without great effort to deliver to the place of operation. The tubes of the metal enclosure can, for. B. delivered directly from the manufacturer will. Only then does the assembly take place. There is no special evacuation. Rather, it should the insulating gas entering from one end of the enclosure displace the air from the enclosure. The new

ίο The procedure is particularly beneficial for acting as an insulating material well-known sulfur hexafluoride, because this heavy gas with a considerable difference of its specific Weight versus air is well suited to displacing the air from a metal enclosure without that a substantial loss of insulating gas occurs through mixing.

When filling the insulating gas according to the method according to the invention, initially practically only atmospheric pressure present in the enclosure. Of the

ίο Overpressure of the insulating gas is kept as low as possible, so that no excessive flow velocities arise, the turbulence and thus mixtures of the insulating gas with the air contained in the enclosure. Only after the complete Fill, d. H. when the insulating gas escapes from the enclosure in significant quantities at the other end, the encapsulation is completely closed. Then as much insulating gas is filled in until the operating pressure is reached is. Even if only a few atmospheres are overpressured, this leads to a metal encapsulation, the air and is filled with sulfur hexafluoride, to a SFb-air mixture, the air content of which is only 10 up to 20%.

The method according to the invention can be assisted with a pump which is arranged at the outlet and a slight negative pressure is generated through which the insulating gas is sucked into the enclosure. Under Under certain circumstances, the negative pressure can also be established before the insulating gas is filled. With that, however it is not meant to attempt to completely remove the air from the enclosure; because an evacuation of high voltage lines of the type mentioned above at the place of operation is with those used in a factory Resources uneconomical. Rather, a simple pump, such. B. rotary pumps or Fans, attainable negative pressure of no more than 1/3 atmosphere. This negative pressure, which deals with beneficial can be achieved with little effort, can be used to suck in the insulating gas and

so early the proportion of air in the insulating gas-air mixture finally contained in the encapsulation. The first Filling in the insulating gas can then even work without any overpressure.

The method according to the invention can still be perfect that the insulating gas from a The gas mixture emerging at the outlet is separated and collected. Here, too, you can z. B. Weight differences between the insulating gas and the air to exploit the insulating gas in a centrifugal process recover from the mix. The insulating gas collected can then be returned to the encapsulation be filled.

Claims (5)

Patent claims: 1. A method of filling high-voltage power lines with a surrounding high-voltage conductor Metal encapsulation, with a pressurized insulating gas, in particular with sulfur hexafluoride (SFb), characterized in that the metal encapsulation after installing the The conductor at the operating site is filled with the insulating gas from one end, with one at the other end The outlet leading from the enclosure into the open is open, that the outlet is closed when insulating gas predominantly emerges from the outlet, and that insulating gas is refilled after closing, until the operating pressure is reached. 2. The method according to claim 1, characterized in that the filling of the insulating gas by a pump is supported, which is arranged at the outlet. 3. The method according to claim 2, characterized in that a negative pressure in the pump with the Encapsulation is generated. 4. The method according to claim 1, 2 or 3, characterized in that the insulating gas from an am Outlet exiting gas mixture is separated and collected. 5. The method according to claim 4, characterized in that collected / ies insulating gas again in the Encapsulation is filled.