An information handling system may include a chassis, a bay within the chassis for receiving a modular information handling resource, and a pulley assembly within the chassis and adjacent to the bay, the pulley assembly comprising a handle mechanically rotatable between a closed position and an open position, a pulley subsystem comprising a pulley cable mechanically coupled to the handle, and a carrier mechanically coupled to the pulley subsystem and configured such that the modular information handling resource rests on the carrier when the modular information handling resource is installed in the information handling system. The pulley assembly may be arranged such that force applied to the handle when the handle is in the open position provides a mechanical advantage via the pulley subsystem to mechanically translate the carrier in accordance with the force and the mechanical advantage to cause at least partial removal of the modular information handling resource from the bay in response to the force.

An equipment rack, mounting rails for the equipment rack, and associated methods. The mounting rails are selectively movable on a frame of the equipment rack and can be clamped to secure the mounting rails to the frame. A clamp of the mounting rail can include a clamp arm having a clamped position and an unclamped position and a lever arm for moving the clamp arm between the clamped and unclamped positions.

A storage device module for a server includes a rack, a backplane and at least one storage device assembly. The rack has an opening and an accommodation space connected to the opening, wherein the accommodation space includes at least one recess for 2.5-inch storage device. The backplane is fixed to the rack and located on an opposite side of the opening. The at least one storage device assembly includes a carrier and two ruler SSDs, wherein the carrier is removably disposed in the at least one recess. The carrier is insertable into the at least one recess through the opening and removable from the at least one recess through the opening, the ruler SSDs are disposed on the carrier, and the ruler SSDs are electrically connected to the backplane.

An expansion card frame is configured to be mount on a casing of a server chassis and is configured for installations of a riser card and an expansion card. The expansion card frame includes a side plate and a top plate. The side plate is configured for the installation of the riser card. The riser card is configured for an insertion of the expansion card. The top plate is connected to a side of the side plate and configured to cover the riser card. The top plate has at least one assembling structure, and the at least one assembling structure of the top plate is configured to be assembled with at least one assembling structure of an assembling frame so that the top plate, the side plate, and the assembling frame together form an accommodation space for accommodating a disk drive.

A rack arrangement for a data center includes at least one row of racks including a plurality of computer racks and an air handler rack. Each computer rack includes a computer rack frame including a housing unit for housing computer equipment. The air handler rack includes an air handler rack frame, a heat exchanger and at least one fan. The at least one fan is configured for pulling air into the air handler rack via an air inlet side and discharging air via an air outlet side of the air handler rack, directing air through the heat exchanger. An air inlet side of any one of the computer racks and the air outlet side of the air handler rack are on a cold aisle side of the at least one row of racks. At least one selected rack is stacked atop the air handler rack.

An assembly for a computer system includes an insert housing with a housing floor; a power supply unit arranged on the housing floor and having a plug contact; a main circuit board arranged within the insert housing substantially parallel to the housing floor; and an angle plug having a mating plug contact and a connection region for connection of the power supply unit to the main circuit board, wherein the angle plug, when connected to the main circuit board via the connection region, connects to a top face of the main circuit board at a first installation height of the main circuit board and connects to a bottom face of the main circuit board at a second installation height of the main circuit board so that height compensation with respect to the plug contact of the power supply unit is established in each case.

A system for performing computing operations includes a rack, one or more shelves coupled to the rack, and two or more computing modules. Each computing module may include a chassis, one or more circuit board assemblies in a primarily vertical orientation, and one or more hard disk drives in a primarily vertical orientation. The circuit board assemblies and the hard disk drives are coupled to the chassis of the computing module.

A rack anti-tip system includes an elongated member that includes a first end, a second end located opposite the elongated member from the first end, and a plurality of coupling members that are provided on the elongated member between the first end and the second end and that are each configured to couple the elongated member to a respective adjustable foot subsystem of a rack having a first tip angle. A plurality of anti-tip members extend from the elongated member. The plurality of anti-tip members are positioned relative to the plurality of coupling members to cause the rack to have a second tip angle that is greater than the first tip angle when the elongated member is coupled to the rack.

A door assembly comprises a rectangular door frame that has a first, second, third, and fourth frame member. The first frame member has an outer surface that has a first pair of parallel slots. A first parallel flange protrudes from and perpendicular to the outer surface between the parallel slots. A vane extends from the first frame member to the second frame member between the third and fourth frame members. The vane has a first end that includes a pair of parallel flanges fitted into the parallel slots such that a rear surface of the first planar flange is arranged between rear edges of the first parallel flanges. A bar is mounted to the rear surface of the first planar flange and configured to hold the rear edges of the first parallel flanges in substantially the same plane as the rear surface of the first planar flange.

An apparatus comprising at least one extendable hard drive drawer for replacement and maintenance of at least one hard drive. The apparatus comprises a chassis comprising a front side and a rear side, and a first hard drive carrier and a second hard drive carrier housed within the chassis. The first hard drive carrier can be housed at the front side of the chassis, and the second hard drive carrier can be located behind the first hard drive carrier. The first hard drive carrier and the second hard drive carrier can each be adapted to house at least one hard drive. The first hard drive carrier can be adapted to slide from a closed position to a first open position, and from the first open position to a second open position, such that the second hard drive carrier can be accessed in the second open position.