This installation has at least one electric cable (12) having three conductors. At least one cable duct contains at least one section of the cable (12) and at least one connection chamber (10) in which two sections of the cable (12) are connected by means of a connection joint (14). The cable (12) is a helical assembly of the three conductors which comprises neither armouring nor sheath around this assembly.

A gel sealing device includes a gel sealing block (5) which provides a sealing section (22) through which the elongate parts (13, 14) extend. The gel sealing block (5) includes an upper flange (11) and a lower flange (12) with a support section (11a, 12a, 12b) disposed therebetween. The upper and lower flanges (11, 12) sandwiches, in direction of extension of the elongate parts (13, 14), a gel inner ring (7) supported by said support section (2) and a gel outer ring (6, 10a) covering the gel inner ring (7) in a radial direction extending transverse to said extension direction. The gel inner ring (7) and the gel outer ring (6, 10a) are made of a gel sealing material.

A Shielded electric cable assembly including a first shielded electric cable (1) having a first shield conductor (8) covering a wire (2, 5) and being covered by a first insulative jacket (9); a second shielded electric cable (10) having a second shield conductor (17) covering a wire (11, 14) and being covered by a second insulative jacket (18), the conductors (3, 6) of the first and second shielded electric cables (1, 10) are joined forming a junction (28, 29); an inner insulator (30) covering the junction (28, 29); a shield element (34) covering the inner insulator (30) in contact to the first and second shield conductors (8, 17); a housing (35) covering the shield element (34) and the first and second insulative jackets (9, 18); a first and a second sealing element (36, 37) between the housing (35) and the first and second insulative jackets (9, 18), respectively.

The disclosure relates to a shielded Y-shaped splice connector having a housing that includes a lower body, an upper cover, and three openings arranged to receive three cable fixing devices on the housing. The periphery of the lower body and the periphery of the upper cover are each formed of a flat surface arranged to form the contact surface of the lower body and the upper cover when the housing is assembled.

The disclosure relates to a shielded Y-shaped splice connector having a housing that includes a lower body, an upper cover, and three openings arranged to receive three cable fixing devices on the housing. The periphery of the lower body and the periphery of the upper cover are each formed of a flat surface arranged to form the contact surface of the lower body and the upper cover when the housing is assembled.

A technique facilitates splicing of a power cable including splicing of a protective lead barrier. According to the technique, the power cable comprises conductors which form individual phases of a multi-phase conductor assembly. The conductors may be individually spliced for each phase of the multi-phase conductor assembly. Subsequently, splicing of the protective lead barrier may be performed by utilizing a lead based tape which is wrapped, e.g. helically wrapped, around the conductors. The wrapping technique provides a gas seal with respect to each individual insulated conductor within the multi-phase conductor assembly. Depending on the specifics of a given application and environment, additional layers may be added to ensure formation of a desirable splice.

A closure enclosing and protecting at least one line splice holder. The closure includes a first housing portion enclosing at least a portion of a hollow interior of the closure, the at least one line splice holder being located within the hollow interior. The first housing portion has a portal through which plural lines extend into the hollow interior. The closure includes a second housing portion actuatable with respect to the first housing portion to provide an additional portion of the hollow interior. The additional portion of the hollow interior is a volume to receive additional of the at least one line splice holder. The closure includes a coupling for connecting the second housing portion to the first housing portion.

An electrical junction box comprises an electrically conductive housing and at least one cable end wherein an everted braided shield section of the cable end is received in a retainer section of the housing and an electrically conductive adhesive is provided.

A cable sealing article has first and second sections, each section having a top wall, a bottom wall, and side walls. The top wall of each section has a plurality of cut-out openings shaped to partially circumscribe one of the plurality of electrical core wire conductors of the service entrance cable. The bottom wall of each section has a single cut-out opening. Each section also has an interior cavity located between the top, bottom, and side walls. In its use position, the article is configured to encapsulate the core wire connectors of the service entrance cable at their meter panel entry location. One of the two sections has a port opening in which silicone material is injected to fill the interior cavities of the first and second sections, thereby providing a waterproof seal to the service entrance cable as it enters the meter panel.

A cable sealing article has first and second sections, each section having a top wall, a bottom wall, and side walls. The top wall of each section has a plurality of cut-out openings shaped to partially circumscribe one of the plurality of electrical core wire conductors of the service entrance cable. The bottom wall of each section has a single cut-out opening. Each section also has an interior cavity located between the top, bottom, and side walls. In its use position, the article is configured to encapsulate the core wire connectors of the service entrance cable at their meter panel entry location. One of the two sections has a port opening in which silicone material is injected to fill the interior cavities of the first and second sections, thereby providing a waterproof seal to the service entrance cable as it enters the meter panel.