A handle structure includes a handle board, a pair of washers and a fastener set. The handle board includes a plate, a fixing section, and a holding section. The fixing section is formed with a through hole. The pair of washers includes a first washer and a second washer. The fastener set includes a first fastener and a second fastener. The first fastener passes through the first washer, the through hole, the second washer and a connecting hole in order. The first fastener is fixed on the panel by the second fastener. The handle board is rotatable about the through hole. The handle structure of a server case may be simplified.

A transport support structure comprises a platform, a first frame side on the platform, a second frame side on the platform and a third frame side on the platform. The second frame side is disposed opposite and spaced apart from the first frame side, and the third frame side extends between the first and second frame sides. The transport support structure further comprises first and second support receiving members disposed under the platform. The first support receiving member includes a first opening configured to receive a first lifting device support element, and the second support receiving member includes a second opening configured to receive a second lifting device support element.

A data center rack system includes a rack housing that includes side panels and a top panel coupled to the side panels, the top and side panels defining a rack volume sized to enclose a plurality of data center server rack trays, each of the data center server rack trays configured to support a plurality of heat generating electronic devices; and a rack bottom coupled to the side panels to at least partially define the rack volume, the rack bottom including a bottom panel having a top surface coupled to the side panels and a plurality of blocks coupled to a bottom surface of the bottom panel opposite the top surface, at least one pair of the plurality of blocks defining an opening between the blocks and below the bottom surface of the bottom panel and sized to receive a lifting member of a lifting machine.

Embodiments are disclosed of an information technology (IT) rack. The IT rack includes an equipment enclosure with a front, a rear, and one or more partitions, each partition adapted to receive one or more pieces of liquid-cooled information technology (IT) equipment. One or more cooling doors are positioned on the back of the equipment enclosure, each having therein a heat exchanger, the heat exchanger that is fluidly coupled to at least one of the one or more pieces of liquid-cooled IT equipment forming liquid cooling loops. Each of the one or more cooling doors is movable between a first position where the cooling door extends across the back of at least one partition so that air from the interior of the at least one partition flows through the cooling door, and a second position where air from outside the equipment enclosure flows through the cooling door. Fans are used in the middle section of rack or between two enclosures for assisting airflow management. Dedicated space for the fans are designed on the rack.

A cable manager includes a backbone assembly and at least one side wall extending from the backbone assembly. The at least one side wall optionally includes one or more cable finger units. The backbone assembly includes a spine member having an extruded construction. The spine member includes one or more channels extending substantially an entire length thereof to facilitate easy attachment, removal and/or repositioning of a structure relative to the spine member. The cable manager optionally includes an accessory rod, a half-spool assembly, a cable finger accessory, a strap/buckle accessory, and/or a door assembly having an interference-free hinge set.

A rack system for a data center includes: a plurality of racks configured to house electronic equipment therein, at least one rack column being formed by at least some of the racks being disposed above one another, each rack having a rack depth measured in a front-to-rear direction; and at least one supporting pedestal disposed below the at least one rack column in order to support the at least one rack column, the at least one supporting pedestal being configured to be positioned on a ground surface of the data center to distribute a load of the at least one rack column on the ground surface, each of the at least one supporting pedestal having a pedestal depth measured in the front-to-rear direction, the pedestal depth being greater than the rack depth, a ratio of the pedestal depth over the rack depth being between 1.2 and 2.5 inclusively.

A chassis for a storage device includes a chassis body and an installation frame slidably installed in the chassis body by using a sliding assembly. The installation frame is configured to slide out from two ends of the chassis body. The sliding assembly includes a first sliding rail, a second sliding rail, and a first limiting assembly. The first sliding rail is fastened to the chassis body, the second sliding rail is fastened to the installation frame, and the first sliding rail and the second sliding rail are slidably assembled. The first limiting assembly includes a first clamping part and a second clamping part that fit with each other. A first drive component drives the first clamping part to be clamped with the second clamping part, and a second drive component drives the first clamping part to be detached from the second clamping part.

A chassis for housing information handling resources of an information handling system may include an enclosure, a plurality of bays formed within the enclosure, each bay of the plurality of bays configured to receive a corresponding modular information handling resource, and a hem comprising a ledge extending from the enclosure and running proximate to at least a portion of the plurality of bays. The hem may have formed therein a recess sized and shaped in accordance with physical dimensions of an interchangeable labeling strip and a plurality of retention features, each retention feature configured to receive a corresponding engagement feature of the interchangeable labeling strip, in order to retain the interchangeable labeling strip within the recess.

A system may include a chassis comprising a plurality of bays, each of the plurality of bays configured to receive a respective modular information handling system, a shared infrastructure comprising a plurality of components which are shared by modular information handling systems received in the plurality of bays, and a chassis management controller communicatively coupled to the plurality of bays and configured to determine a power consumption for each respective modular information handling system and if the power consumption for a respective modular information handling system exceeds a maximum sled connector current limit for the respective modular information handling system, communicate a message to the respective modular information handling system to power down the respective modular information handling system.

A computing device of an information handling system includes a computing component and a chassis for housing the computing component. The computing components may be, for example, a portion of a circuit card, hardware device, or other physical structure. The chassis includes an air exchange for receiving gases for thermal management of the computing component and a corrosion management component, physically connected directly to the air exchange, that reduces a rate of corrosion of the air exchange due to the gases.