CS199820B1 - Heavy-current electrical insulator - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrical power feedthrough extending from a pusher through an aperture in a housing of an electromagnetic and non-rotating electromagnetic apparatus through an aperture in an inner insulating body having an atrium. The passage of the bolt through the opening in the outer insulating body is a sealed bolt by a pushed and compressed annular seal.

In the presently known electrical current feed-throughs, the sealing of the anchor transition through the opening in the outer insulating body is first effected by a surface seal applied against the upper surface of the outer insulating body by the bottom and top washers and slid onto the bolt. Conical recesses are provided in the bottom and top pads to initiate the pressing of the annular tint onto the bolt. As a further variant of sealing the transition of the bolt through the opening in the outer insulating body aa, it performs that there is a conical recess in the upper surface of the outer insulating body, in which an annular tune fits into the bolt and is supported by the washer and the conical recess.

[0003] The known solutions of electrical current feedthroughs have the disadvantage that the height of the washers, which exert the pratenoid tinting, can be longer bolts, the material increases the material consumption and increases the electrical losses. The necessity of making pads, as well as the preloaded tinnitus increases the cost of producing electrical current feedthroughs.

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These disadvantages are substantially eliminated by the present invention. It is an object of the present invention that the outer insulating body is disposed perpendicularly at a location protected from the direct impact of atmospheric collisions perpendicular to the axis of the lamp on the upper and lower portions between which an annular seal is disposed on the bolt. a conical recess is provided in the lower flat upper part of the outer insulating body and a conical recess is also provided in the upper flat lower part of the outer insulating body

The invention achieves a shortening of the fastener of the high-current electrical bushing, which results in the saving of narrow-profile non-ferrous metal and the reduction of electrical wires. The invention aa achieves cost savings associated with the production of washers, which force the annular seal. The costs associated with splitting the outer insulating body into the upper part and the lower part and making conical recesses represent only about 5 to 10% of the savings achieved. A further advantage of the invention is that when the annular seal is pressed between the upper part and the lower part of the outer insulating body, this will have the same dimensions as the outer insulating body used hitherto. This makes it possible to replace the damaged upper insulating bodies on the transformers produced so far by the insulating bodies according to the invention.

The attached figure shows a clean cross-sectional view of the electrical feedthrough according to an exemplary embodiment of the invention.

The high-current electrical bushing 4 consists of a bolt 2 extending through an opening J in the housing of the electromagnetic machine non-rotating, through an opening 6 ^{in the} outer insulating body 8 facing the outer side of the housing 7 of the electromagnetic machine non-rotating. non-rotating electromagnetic machine. The bolt 2 is provided with a brazed shaped nut 10 on the inner cone, pressing the inner insulating body 8 disposed between the washers 11 and 12 against the housing 4 of the non-rotating electromagnetic machine. Thus, the end 13 of the bolt 2 is provided with washers 14, 15 and a nut 16 urging the outer insulating body 6 against the seal 17 providing a seal between the outer insulating body 6 and the housing 8 of the non-rotating electromagnetic machine. The outer insulating body 6 is provided with a sheath 18 which ensures the interruption of the path of the rain droplets. The outer insulating body 8 is below the sheath 18 at a place protected from direct impact by rain drops, distributed perpendicular to the axis 19 of the bolt 2, on the upper part 20 and the lower part 21 between which an annular seal * 22 is inserted. By pressing the annular teanenis 22 onto the bolt 2, a conical recess 24 is formed in the lower surface 23 of the upper part 20 of the outer insulating body 6 and in the upper flat 25 of the lower part 21 of the outer insulating body 6 is a conical recess 26.

Claims (1)

Heavy current electrical bushing, in particular for non-rotating electromagnetic machines, consisting of an indicator passing through a hole in the non-rotating electromagnetic machine housing through an opening in the inner insulating body and an opening in the outer insulating body which is provided with a roof. a bolt by an annular seal which is compressed, characterized in that the outer insulating body (6) is divided perpendicularly to the upper part (1) under a roof (18) at a location protected from direct impact of atmospheric precipitation (2) 20), and an annular portion (21) between which an annular teen (22) is pushed onto the bolt (2), wherein the annular seal (22) is pushed onto the bolt (2) to lower the flat (23) of the upper portion (20). / outer insulating body / 6 / conical recess / 24 / and in upper surface A conical recess (26) is provided in the lower part (21) of the outer insulating body (6).