An electrical connector including: a magnetic element having a cavity; a contact protector movably accommodated in the cavity, the protector defining a front end and a plurality of slots through the front end; a plurality of contacts accommodated in the slots, each contact being retractable and having a front end located in the front end of the contact protector; and an elastic element urging the contact protector to extend the front end thereof out of the cavity.

The present disclosure is directed to an improved energy storage system. The energy storage system includes an energy storage device having positive and negative terminals, a battery management system configured to monitor and control the energy storage device, and a power connector configured to electrically couple the battery management system with the energy storage device. The power connector includes a housing and positive and negative bus bars, each containing a positive and negative interface pin, respectively. The interface pins are operatively coupled to the positive and negative terminals of the energy storage device to form a power connection. The housing contains separate, opposing side walls defining an open passageway therebetween. Thus, the open passageway provides air cooling across the power connection.

The present disclosure is directed to an improved energy storage system. The energy storage system includes an energy storage device having positive and negative terminals, a battery management system configured to monitor and control the energy storage device, and a power connector configured to electrically couple the battery management system with the energy storage device. The power connector includes a housing and positive and negative bus bars, each containing a positive and negative interface pin, respectively. The interface pins are operatively coupled to the positive and negative terminals of the energy storage device to form a power connection. The housing contains separate, opposing side walls defining an open passageway therebetween. Thus, the open passageway provides air cooling across the power connection.

A predetermined set of connector maintenance functions may be accomplished subsea using a connector maintenance panel which comprises a panel and a plurality of fixed connector interfaces disposed through a predetermined portion of the connector maintenance panel. The connector maintenance panel subsea may be deployed and powered subsea, such as from an external source, and a predetermined set of connector related functions performed in a sequence by sequentially using the connector interface operable to perform a connector related function of the predetermined connector related functions in the predetermined sequence.

An electrical power and/or electronic data unit is mountable in a floor, and is fitted with an upper bezel that is openable and closable to provide selective access to an interior of the unit, which is optionally fitted with one or more electrical power or data outlets. A lower insert including an intumescent block is supported below an upper housing, and is angularly adjustable relative to the upper housing. One or more bores or openings formed in the lower insert allow the passage of cords into a pass-through opening in the upper housing, and out through an upper bezel cover.

A shockproof electrical socket is connected to a plug comprising a first latch and a second latch. The socket comprises a shell, a first elastic sheet, a second elastic sheet, a first elastic contact mechanism configured to connect the first elastic sheet and the first latch, and a second elastic contact mechanism configured to connect the second elastic sheet and the second latch. The first elastic contact mechanism comprises a first insulation block connected to the shell through a first elastic piece. The first elastic sheet is connected to the shell through a second elastic piece. The second elastic contact mechanism comprises a second insulation block connected to the shell through a third elastic piece. The second elastic sheet is connected to the shell through a fourth elastic piece.

A shockproof electrical socket is connected to a plug comprising a first latch and a second latch. The socket comprises a shell, a first elastic sheet, a second elastic sheet, a first elastic contact mechanism configured to connect the first elastic sheet and the first latch, and a second elastic contact mechanism configured to connect the second elastic sheet and the second latch. The first elastic contact mechanism comprises a first insulation block connected to the shell through a first elastic piece. The first elastic sheet is connected to the shell through a second elastic piece. The second elastic contact mechanism comprises a second insulation block connected to the shell through a third elastic piece. The second elastic sheet is connected to the shell through a fourth elastic piece.

A jack module includes a chassis, a frame, and jacks. The jack module is configured to releasably hold any of a plurality of types of jacks. Each jack is configured to releasably mount to the frame. The frame is configured to couple to the chassis so that rear portions of the jacks extend rearwardly from the chassis. The jack module mounts to a rear of a patch panel frame by coupling the jack module to a faceplate mounted at a front of the patch panel frame.

The armature of the present invention comprises windings which have ends to be inserted into a tubular terminal, and visually identifiable marks made on the windings to be used for confirming if the ends of the windings have been inserted into the tubular terminal up to a suitable depth. The marks of the armature of the present invention are made on portions of the windings which are always positioned at the outside of the terminal even when the ends of the windings are positioned at the inside of the tubular terminal.

A network jack assembly network connection identification system comprising an identifier receiving cavity extending inward from a surface of a plug body section of the jack and an identifier element designed for insertion into the identifier receiving cavity. The identifier receiving cavity is accessible through any of a sidewall, a top wall, a bottom wall, or a front wall of the plug body section. The cavity may include a lens enabling viewing of the identifier element. The identifier can be a partially or completely colored surface of the identifier element, a shaped feature of the identifier element, etc. The identifier can be a sheet of material, a pin, or any other suitable insertable component. In one variant, the identifier can be formed during installation by reshaping material designated therefore, such as a wax. Alternatively, the identification solution can be applied to a wall plate.