NL7909083A - WELDING COUPLING HOUSING WITH SHIELD INTERRUPTION. - Google Patents

Description

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Weld coupler housing with fence interruption.

The invention relates to electrical connectors more particularly to a high voltage welding connector having a shield interruption and even more particularly to an improved housing for such a connector, such that the improved housing forms the shield interrupter.

It is known that the current carrying capacity of cables coupled to shielded high voltage couplers can be improved by shield interruptions.

The present invention provides a way of improving the current carrying capacity of cables coupled to the Silva high voltage splice connector described in U.S. Patent No. 4,034,151 by including a shield interruption in such a connector. The description of the said patent specification is deemed to be included herein, and the coupling grommet from that patent specification is hereinafter referred to as the Silva Coupler.

20 The Silva coupler is used for coupling high-voltage cables, each with a conductor, the conductor surrounding insulation and a shield; around the insulation. The coupling includes a pair of adapter sleeves each mounted on the end of a cable, means 25 for connecting bald portions of the conductors together and a housing which are fitted over the adapter sleeves and the connecting means to engage the adapter sleeves along the interface between each verio sleeve and the housing and to enclose the connection between the bare portions of the conductors. The Silva coupler further includes a heat transfer jacket that is placed over the joint between the stripped portions of the conductors and is of sufficient length to extend longitudinally between the adapter 7909083 *

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-2- sleeves and a sufficient thickness around them. to extend radially between the joint and the housing, the jacket being made of a material having a relatively high thermal conductivity, and complementary means, on the heat transfer jacket and the adapter sleeves to fit the jacket with each adapter sleeve. to lock the adapters in the longitudinal direction relative to each other and to prevent movement thereof.

Each adapter sleeve of the Silva coupling piece further has a portion of electrically conductive elastomer material and a portion of insulating elastomer material. The conductive portion of each adapter sleeve is in contact with the shielding of the associated cable and the adjacent cable insulation and the insulating portion is in contact with the cable insulation. The housing has a central portion of insulating elastomeric material and two end portions of electrically conductive elastomer material The conductive end parts of the housing are in contact with the conductive parts of the adapter sleeves The outer surface of the central portion of the housing is coated with an electrically conductive material the ends of which overlap and contact the conductive end portions of the housing A continuous shielding system over the splice between the shields of the cables is thus obtained by the electrically conductive portions of the adapter sleeve fen, the electrically conductive end parts of the housing and the 'covering layer of electrically conductive material on the' central 'part of the house. at the house. The coating on the central portion of the housing may further be formed by an electrically conductive heat shrinkable tube.

A feature of the present invention is that the shield interruption is achieved by a simple modification of the housing over the S'ilva coupler.

It is therefore an important object of the present invention to talk about the Silva connector. • to modify the current carrying capacity of cables coupled thereto 7 9 0 9 0 8 ï

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Another important object of the present invention is to modify the Silva coupler to include a shield interruption, thereby increasing the current carrying capacity of cables coupled thereto.

Another important object of the present invention is to make a simple modification to the housing of the Silva connector. note that this includes a shield interruption, thereby increasing the jamming capability of cables coupled thereto. "

The welding connector housing of the invention has a central tubular portion of insulating elastomer material and first and second tubular end portions 15 of electrically conductive elastomer material extending coaxially with the central portions. The central housing portion has an outer surface. The first end section has an outer part. axially extending surface that forms an axial continuation of the outer surface of the central housing portion, and the second end portion has an outer, extending. axially extending surface spaced inwardly from the outer surface enclosure from the central portion. The outer surface of the central housing portion extends axially about the outer surface of the second portion over the entire circumference. the central housing portion of which has to be overlapped has an in-walled jacket portion which is radially defined by the outer surface of the central housing portion and the outermost portion. axially extending.

30 surface of the second housing end portion.

The housing according to the invention is provided with a covering layer of electrically conductive material, one end of which overlaps the outer surface of the first housing end section and is in contact therewith. The cover layer 35 stretches. over the outer surface of the central housing portion and the other end of the cover layer is disposed about that outer surface, at a location where the outer surface of the second housing end portion is

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lap radially spaced outwardly therefrom on the annular jacket portion.

By providing the annular jacket portion radially between the outer surface of the second end portion of the housing and the cover layer of electrically conductive material, the desired shielding interruption is obtained. There is no shield gap between the cover layer and the outer surface of the first housing end portion.

When the housing according to the invention is to be used in a weld to be buried directly in the ground, the shield must be insulated from the conductive earth. The housing according to the invention is therefore provided with an outer insulation, preferably formed by an, under the influence of heat-shrinking tube of insulating material, such as polyvinyl chloride or polyethylene, which tube is applied over the conductive coating and over the ends. from the first and second house end portions.

2a With the invention, the above described ends can be achieved, as well as other objects and advantages.

Figure 1 is a longitudinal cross-section of a finished welded joint using a housing according to the invention.

Figure 2 is an enlarged partial view of a portion of what is shown in Figure 1 at its right end.

Figure 3 is a partial, larger-scale view of a portion of what is shown in Figure 1 at its left end.

Figure I shows a finished welded connection using a housing according to the invention, generally indicated by 4.

The splice is formed between a pair of high voltage cables 6 and 8, each. with a central conductor 10 surrounded by insulation. 12, which in turn is surrounded by a conductive shield 14.

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In addition to the housing 4, the other parts of the weld coupling, and their interrelationships, are all described in the aforementioned U.S. Patent. It included a pair of adapter sleeves 16, an electrical contact element in the form of a metal coupling pipe 18 and a heat transfer jacket 20.

Each adapter sleeve 16 includes a portion 22 of insulating elastomeric material and an end portion 24 of electrical. conductive elastomeric material, the portions 22 and 24 being joined together by casting them together. The conductive portion 24 has a bore portion 26 which contacts the shield 14 and forms an electrical connection therewith.

The housing 4 has a central tubular portion 28 of insulating elastomeric material with an outer surface 30 and a first tubular end portion 32 of electrical. conductive elastomeric material coaxial with portion 28. The end portion 32 has an outer one. axially extending surface 34, which forms an axial extension of the outer surface 30-

The housing 4 further has a second tubular end portion 36 of electrically conductive elastomeric material coaxial with the portion 28. The end portion 36 has an outer, axially extending surface 38 spaced radially inwardly from the envelope of the body. outer surface 30.

The outer surface 30 extends. in the axial direction away from the end portion 32, overlapping the outer surface 38 as indicated 40, 30 over its entire circumference. Thus, the central housing portion 28 has an annular sheath portion 42 which is substantially axial together with the outer surface 38 expires. The mantle portion 42 is radially defined by the outer surface 30 of the central portion 28 and the outer surface 38 of the second, end portion. 36.

The outer surface. 30 is provided with a covering layer 44 of electrically conductive material, which extends over the surface 30, and has a first end 46

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C. " -6- that the outer surface. 34 of the first end portion 32 overlaps and is in contact therewith, and a second end portion 48 which overlaps the outer surface 38 of the second end portion 36 but is not in contact therewith, while on the outer surface. 30 is located on the jacket portion 42, approximately half way along the axial ends thereof. The cover layer 44 may be suitably and satisfactorily formed by a heat-shrinkable tube of electrically conductive material.

Preferably, the louse portions 32 and 36 are each connected to the housing 30 by being molded thereto.

Through the casing part 42 radially between the outer. surface. 38 of the second end portion 36 of the housing and applying the cover layer 44, the desired shielding gap is achieved. Between the cover layer 44 and the outer surface. 34 of the first end portion 32 will not have such a shield interruption.

Thus, the shielding system of Let splice connector 20, as shown in Figure 1, is formed by the shielding 14 of the cable 6, the conductive portion 24 of the adapter sleeve 6. associated with the cable 6, the first conductive end portion 32 of the housing 4, the cover 44 and through the shield 14 of the cable 8, the conductive portion 24 of the adapter sleeve. 16 is associated with cable 8 and Let second conductive end portion 36 of Let housing 4. The shielding system is interrupted by Let sheath portion 42 between the second conductive end portion 36 of the cover 44.

30. The jacket portion 42 can be easily formed by a simple casting insert. that the outer surface. 38, resulting in a radial gap that is filled with insulating elastomeric material when the central housing portion 28 is molded, thus forming the jacket portion 42.

The radial dimension of the jacket portion 42 can be about 0.100 inches. (2.54 mm).

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If the housing 4 is to be used with a weld to be buried directly in the ground, the shield must be insulated from the conductive earth. The housing 4 is then provided with an outer insulation, preferably a heat-shrinking tube 40 of insulating material, such as polyvinyl chloride or polyethylene, which overlays and extends over the conductive cover layer 44. extends over the ends of the housing portions 32 and 36 ..

The detailed description 10 given above of an embodiment of the invention is for illustrative purposes only. Various details of the design and construction can be modified without departing from the spirit and scope of the invention, as set out in the appended claims.

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Claims (6)

2. Welded coupling housing according to claim 1, characterized in that the external surface is provided with a covering layer of electrically conductive material, the first end of which overlaps the outer surface of the first end housing section and the second end overlaps the outer surface of the second-end housing portion but is not in contact therewith. Welding coupling housing according to claim 2, 35, characterized in that the second end of the covering layer is on the external surface, on the casing part. 7909083 -9- Welding coupling housing according to claim 2, characterized in that the covering layer is formed by a heat-shrinking tube of electrically conductive material. Welded coupling housing according to claim 2, characterized in that the housing further has an outer insulation over the covering layer which extends over the ends of the first and second end housing sections. 6. Welding coupling housing: according to claim 5, 10, characterized in that the outer insulation is a heat-shrinkable housing of insulating material. Welding coupling housing according to claim 6, with the. characterized in that the outer insulation is polyvinyl chloride or polyethylene, 7909083