An enclosure assembly for electronic equipment using a housing and a sled. The sled is a combination of a bracket with a skid, the skid preferably of a low friction material, where the sled slides into the housing in order to complete the assembly.

A locking bracket system for a pair of line replaceable modules (LRMs) includes a locking bracket assembly including an expanding member configured to be actuated to expand; and an extension bracket attached to the expanding member. The extension bracket extends from the expanding member in a direction opposite that the expanding member expands. Each of the expanding member and the extension bracket are configured to compress against a LRM to retain the pair of LRMs to a chassis when the expanding member is in an expanded position.

An electric device includes a substrate on which electronic components are mounted, and a metal plate to which the substrate is fixed. The metal plate includes first bosses provided at positions corresponding to four corners of the substrate, a second boss provided inside a rectangle that connects the four first bosses, and a slit that is provided adjacent to the second boss, and extends in non-parallel with any side of the rectangle. The substrate is fixed to each of the four first bosses with a first male screw, such that a rubber washer is sandwiched between the substrate and the first male screw. The substrate is fixed to the second boss with a second male screw, such that no rubber washer is sandwiched between the substrate and the second male screw.

An electronics shelving assembly and a method of assembling includes an electronics shelving assembly includes vertical support members that can be coupled with a wall of a vehicle. The vertical support members are conductively coupled with an electrical ground. The electronics shelving assembly also includes shelves, each having a horizontal support member and at least one vertical coupling member coupled with each other. Fastener assemblies mechanically and conductively couple the shelves with the vertical support members. Each of the fastener assemblies includes plural conductive plates sandwiched together and extending around a conductive fastener. The conductive fasteners may be coupled with each of the conductive plates and may be secured to the shelves to create a conductive pathway between the shelves and the electrical ground via the conductive plates and at least one of the vertical support members.

A circuit mounting assembly can include a circuit board, a chassis, a sheet of thermally conductive dielectric material, and one or more fasteners configured to compress the sheet between the circuit board and the chassis to provide vibration isolation and electrical isolation between the chassis and the circuit board, and to provide thermal conduction between the chassis and the circuit board.

Disclosed embodiments include spacer nuts for use with battery packs and configurations thereof.

A card riser for an information handling system includes a bottom surface, multiple connector slots in physical communication with the bottom surface, and a locking mechanism in physical communication with the bottom surface. Each connector slot is configured to receive a corresponding connector of a different one of multiple cards. When the locking mechanism is in an unlocked position, a different one of the cards is inserted within a different one of the connector slots. When the locking mechanism is in a locked position, the locking mechanism is placed in physical communication with each of the cards to securely hold the cards within the card riser.

A computing unit configured to be mounted in a HPC cabinet, the computing unit comprising an external body, and an internal body comprising secondary electronic components. The internal body is releasably coupled with the external body in order to allow extraction of the internal body when the external body is secured fixedly to the HPC cabinet. The internal body includes a bottom tray, comprising bottom secondary electronic components, a top tray comprising at least one duct for conducting an air flow from the front to the rear, and a plurality of manual coupling members, accessible from the top of the top tray, releasably coupling the top tray with the bottom tray.

A shock absorbing screw includes a locking member, a friction member sleeved on the locking member, and a connecting frame sleeved on the friction member. The shock absorbing screw is connected to a hard disk by a connecting portion of the shock absorbing screw. An abutting portion of the shock absorbing screw is connected to the friction member. The connecting portion is passed through a second through hole defined in the friction member. A first end of the connecting frame includes a first clamping portion, a second end of the connecting frame includes a second clamping portion, and a second groove is defined between the first clamping portion and the second clamping portion. The shock absorbing screw is connected to a hard disk frame in the second groove. The friction member is connected to the connecting frame through a first through hole defined in the connecting frame.

An assembly structure for an open-type tablet computer is disclosed. The open-type tablet computer comprises a computer main body which comprises base, a host system device, and a screen module exposed out of a front opening of the base. The assembly structure comprises locking members formed on a connection part around the base. When the computer main body is mounted on a fastening structure, the base can be embedded into a mounting hole of a body from the front of the fastening structure, and the connection part is stopped by the surface of a fastening part. The locking members can be inserted into a through hole of the body, respectively, and multiple jointing members can be locked, from a rear of the fastening structure, with the locking members, respectively. Therefore, the computer main body can be quickly aligned and assembled on with the fastening structure without extra mounting accessory.