Example telecommunications apparatus (100) include an enclosure (103) having an enclosure base (101) and a enclosure cover (102) that join together at a sealed interface. The enclosure cover (102) is latchable to the enclosure base (101). A splice tray assembly (106) is disposed within the interior (104) of the enclosure (103). The splice tray assembly (106) includes splice trays (150) mounted to a manager insert. A splitter (192) may be provided on the manager insert. The manager insert also may include a groove plate (160) latched to a base plate (180). One or more port assemblies (107-109) enable cables to enter and/or exit the enclosure (103) through sealed cable ports (145-147). The port assemblies (107-109) may provide anchors (214, 234) for cable strength members and/or organizers (243, 244, 253, 254) for fiber tubes.

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.

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.

An installation tool and methods for installing a splice kit for a heating cable is provided. The installation tool includes a body, a first channel, and a first cavity. The first channel is defined in the body and configured to retain a first insulating tubing of the splice kit. The first cavity is within the first channel and configured to retain a first connector of the splice kit. The body is configured to retain the first insulating tubing and the first connector in a predetermined formation during installation of the first insulating tubing and the first connector to the heating cable, and the body is further configured to be removed from the first insulating tubing and the first connector following installation of the first insulating tubing and the first connector to the heating cable.

A multi-positionable tray assembly (20) for mounting within a chassis (10) of a telecommunications panel (100) is disclosed. The multi-positionable tray assembly (20) may include support arm (24) that pivotally supports a tray (22) and that allows the tray assembly (20) to be installed and removed from the chassis (10). The tray (22) and the support arm (24) cooperatively define a cable routing pathway (208) that extends through a pivot axis (A1) defined by the tray and the support arm. To minimize the required depth of the tray (10) and optimize cable routing, the tray (20) can include a cable management structure (102) with a patch panel (104) having a plurality of adapters (108) arranged along a transverse axis (A2), wherein the transverse axis is non-parallel or oblique to a front plane (A4) of the tray.

A multi-positionable tray assembly (20) for mounting within a chassis (10) of a telecommunications panel (100) is disclosed. The multi-positionable tray assembly (20) may include support arm (24) that pivotally supports a tray (22) and that allows the tray assembly (20) to be installed and removed from the chassis (10). The tray (22) and the support arm (24) cooperatively define a cable routing pathway (208) that extends through a pivot axis (A1) defined by the tray and the support arm. To minimize the required depth of the tray (10) and optimize cable routing, the tray (20) can include a cable management structure (102) with a patch panel (104) having a plurality of adapters (108) arranged along a transverse axis (A2), wherein the transverse axis is non-parallel or oblique to a front plane (A4) of the tray.

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.

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.