A charging cabinet is disclosed having a frame, a center vertical member, wherein the center vertical member includes a lock plate, a plurality of stock chargers, an exhaust system, configured to vent heat from the charging cabinet to cool the at least one battery, a heater, configured to warm the at least one battery, a pair of duplex receptacles, a pass-thru connector recess box, wherein the pass-thru connector recess box is angled downward, a pass-thru connector mount box, wherein the pass-thru connector mount box is angled upward, an inlet connector recess box, wherein the inlet connector recess box is angled downward, and an inlet connector mount box, wherein the inlet connector mount box is angled upward.

A hanging grounded structure is disclosed and includes a housing, a recessed portion and a hanging groove. The housing includes an opening facing a first direction and a lateral wall extended along a second direction. The lateral wall has a top edge located at a periphery of the opening. The recessed portion is recessed inwardly on the lateral wall. The hanging groove is disposed on the lateral wall and located in the recessed portion. A grounded wire is hung on the housing through the hanging groove. The hanging groove includes a starting point located at the top edge and an ending point. A curved path is formed from the starting point to the ending point. The grounded wire is hung from an interior of the housing. An end of the grounded wire is disposed in the recessed portion through the hanging groove.

A welding system includes power conversion circuitry configured to convert input power to weld power and a first housing surface. The first housing surface includes a first mating geometry configured to mate with a first complementary geometry of a first modular surface of a first modular component of the welding system.

A modularly expandable electronic control unit comprises: an electronic circuit board on which a conductor track is disposed on a side in a region of lateral edges and enclosing an inner region and separating it from an outer region of the side, a housing having two halves for receiving the electronic circuit board. With the housing assembled, at least one housing half has an encircling electrically conductive shielding wall which rests on and establishes electrical contact with the conductor track and/or has at least one receptacle accessible from outside the assembled housing. The receptacle is disposed so the electronic module placed in the receptacle may be electrically connected to a module connection port disposed in the outer region of the electronic circuit board. The electronic circuit board has electrical connections between the module connection port and one or more electronic assemblies disposed on the inner region.

The hinge assembly includes: a rotating assembly and a hovering mechanism. The rotating assembly includes a first rotating part, and the first rotating part comprises a first guide groove extending obliquely around an axial direction of the first rotating part. The hovering mechanism comprises a sliding member and a position limiting member. The sliding member includes a protruding part, the protruding part extends into the first guide groove. The first rotating part drives the sliding member to move along the axial direction of the first rotating part when rotating. One of the position limiting member and the sliding member comprises a first limiting part, the other of the position limiting member and the sliding member comprises a second limiting part cooperated with the first limiting part.

A flexible display device is disclosed. The flexible display device includes a flexible substrate, a display structure, a protective structure and an adhesive. The display structure is disposed on the flexible substrate. The protective structure is disposed on the display structure and forms a first accommodating space. The adhesive is disposed in the first accommodating space.

An electronic device is provided. The electronic device includes a first housing, second housing, a hinge structure rotatably connecting a side surface of the first housing and a side surface of the second housing facing the side surface of the first housing along a folding axis, a flexible display panel including a first display area, a second display area, and a third display area, and a supporting member supporting the flexible display panel. The supporting member includes a flexible region including plural openings having a length in a direction parallel to the folding axis, spaced apart from each other, and corresponding to the third display area, and rigid regions corresponding to the first display area and the second display area. Both ends of each of the openings partially overlapped on the plurality of gears are disposed outside the plurality of gears projected onto the support member.

A system can include a display assembly that includes a display, a display side, a back side, a frame and a serial bus socket; and a cable clip, removably attachable to the back side of the display assembly, that receives a portion of a cable that includes a serial bus connector receivable by the serial bus socket.

A system can include a display assembly that includes a display, a display side, a back side and a frame, where the frame includes frame magnetic material and a frame electronic interface; and a camera assembly that includes a housing, a camera and a tilt mount, where the tilt mount includes mount magnetic material and a mount electronic interface that electronically mates with the frame electronic interface via a magnetic attraction force.

A system may include first and second apparatuses. The first and second apparatuses may each include: an enclosure portion including a plurality of mounting features that are configured to receive information handling systems, wherein dimensions of the enclosure portion define a footprint; a base portion disposed below the enclosure portion and coupled to the enclosure portion; a plurality of casters coupled to the base portion and mounted in respective positions that are laterally displaced from the base portion such that the positions are outside the footprint of the enclosure portion; and a locking mechanism. The first and second apparatuses may be operable to be coupled together via their respective locking mechanisms for transport.