The present disclosure provides improved media patching systems, and related methods of use. The present disclosure provides improved systems/methods for the design and use of patching systems configured to support multiple media connections (e.g., high density media connections). More particularly, the present disclosure provides advantageous systems/methods for the design and use of media patching systems that include improved features and structures (e.g., camming door; stackable cable manager members; tool-less mounting attachments; cable/fiber retention grommets; pivotable cable management arms; removable panel members; sliding label fields). Moreover, exemplary media patching systems disclosed herein advantageously provide improved access to the media connectors and/or cabling elements.

A fiber distribution hub configured to house a patch panel includes a plurality of walls forming a chamber, a first shelf attached to a first wall of the plurality of walls in the chamber, a first track supported by the first shelf, and a frame body configured to support the patch panel and to be coupled with the first shelf via the first track. The frame body is configured to shift along the first track between a stored position, a front-exposed position, and a back-exposed position.

A cable management unit including a support assembly for mounting a patch panel, such as to a wall. The support assembly may include first and second anchor members adapted to be anchored to the wall, and first and second support arms hingedly coupled to the first and second anchor members at first and second hinge points, respectively. The first and second support arms may be adapted to be coupled to the patch panel. A chassis the patch panel may be supported by the first and second support arms. The first and second support arms may be configured to pivot about the first and second hinge points respectively between storage and access positions. The first and second support arms may extend outward from the wall in the access position and may be substantially parallel to the wall in the storage position.

The present disclosure provides improved media patching systems, and related methods of use. The present disclosure provides improved systems/methods for the design and use of patching systems configured to support multiple media connections (e.g., high density media connections). More particularly, the present disclosure provides advantageous systems/methods for the design and use of media patching systems that include improved features and structures (e.g., camming door; stackable cable manager members; tool-less mounting attachments; cable/fiber retention grommets; pivotable cable management arms; removable panel members; sliding label fields). Moreover, exemplary media patching systems disclosed herein advantageously provide improved access to the media connectors and/or cabling elements.

A termination field and a guide member are independently pivotally coupled to a base body. The termination field pivots relative to the base body along a path of travel. The guide member is coupled to the base body to provide bend radius protection to cables plugged into the termination field. The guide member defines a channel leading the cables from the termination field towards a first side of the base body at an exterior of the base body. In certain examples, the guide member and termination field pivot relative to the base body about different hinge axes. In other examples, the termination field pivots with the guide member for part of the path of travel and relative to the guide member for another part of the path of travel.

A termination field and a guide member are independently pivotally coupled to a base body. The termination field pivots relative to the base body along a path of travel. The guide member is coupled to the base body to provide bend radius protection to cables plugged into the termination field. The guide member defines a channel leading the cables from the termination field towards a first side of the base body at an exterior of the base body. In certain examples, the guide member and termination field pivot relative to the base body about different hinge axes. In other examples, the termination field pivots with the guide member for part of the path of travel and relative to the guide member for another part of the path of travel.

A universal cable bracket that enables one or more cables to be secured to a telecommunications chassis accommodates cables of various sizes and styles. The cable bracket is configured to be mounted in one of multiple orientations relative to the chassis. One or more fasteners can be inserted through apertures in the bracket and a chassis mounting surface to secure the bracket into the desired orientation. Cables or fanout arrangements can be secured to a platform of the bracket via cable ties or other windings.

A communication patching system includes a platform configured to support a plurality of cables and a first panel pivotably mounted to the platform, the first panel having at least one holder for securing communications adapters to the first panel. A first set of communications adapters is connected to the platform, and a second set of communications adapters mounted in the at least one holder. The first panel is pivotable between a first position in which the second set of communications adapters is spaced from the first set of communications adapters by a first distance and a second position in which the second set of communications adapters is spaced from the first set of communications adapters by a second distance greater than the first distance.

A foldable patch panel assembly includes a front frame comprising two front panels that are connected by a hinge assembly to thereby permit folding of the front panels relative to each other, wherein each front panel includes one or more slots for receiving therein one or more arrays of jacks; and a rear bracket comprising two bracket sections that are foldable relative to each other, wherein each bracket section comprises at least one clamp for receiving a cable therethrough; and wherein each bracket section further comprises an arm that is foldable relative to the bracket section and configured to snap into an outer end of the front panel.

A patch panel assembly, bezel and modular jacks are disclosed which allow modular jacks to be positioned closer together to increase patch panel density. In particular the modular jacks are equipped with features which engage openings which are offset, allowing for the modular jacks to be positioned closer together, in particular when arranged in adjacent parallel rows.