A storage apparatus includes: a display room 4 having an opening 4A open to the front and capable of storing an article inside; an input unit into which specified information associated with the article is inputted; and a control unit that associates the display room 4 with the specified information, and the control unit cancels the associated relation between the display room 4 and the specified information in a case in which a specified time has elapsed since the control unit received a specified signal.

A host casing of an electronic device includes a housing, a filler panel, and a disassembly and assembly structure. A front side of the housing has an opening. The dummy cover is disposed in the opening of the housing. The disassembly and assembly structure is disposed inside the housing. In a first state, the disassembly and assembly structure buckles with the dummy cover, thereby fixing the dummy cover. In a second state, the disassembly and assembly structure releases the dummy cover, and simultaneously pushes the dummy cover out of the opening. Therefore, the replacement action between the dummy cover and a pluggable device can be effectively simplified, so that maintenance personnel can easily assemble or disassemble the dummy cover without the assistance of additional tools.

A latch to secure an access panel at an enclosure may include a shuttle component including a latch pin. The latch pin is configured to engage with a corresponding receptacle at the enclosure. A spring retracts the latch pin to within the access panel when the access panel is not positioned for installation at the enclosure, and permits the latch pin to protrude from the access panel to mate with the receptacle in response to magnetic attraction by a magnet positioned within the receptacle when the access panel is positioned for installation at the enclosure. The magnetic attraction of the magnet to the latch pin overcomes the force of the spring to retract the latch pin.

An assembly structure includes a first assembly member, a second assembly member, a first sliding member and a second sliding member. The first assembly member includes a first engaging portion and a second engaging portion. The first sliding member includes a first through hole and a first engaging recess. The first engaging portion is disposed in the first through hole. The second sliding member includes a second through hole and a second engaging recess. The second engaging portion is disposed in the second through hole. The first sliding member slides toward a first direction to drive the second sliding member to slide toward a second direction, such that the first engaging portion engages with the first engaging recess and the second engaging portion engages with the second engaging recess.

This disclosure describes systems for arranging racks within a data center for a smaller and/or more flexible footprint, more efficient and/or resilient cooling, and/or easier installation. In some examples, this disclosure describes a data center rack system that includes an aisle and a plurality of rack stations adjacent to the aisle. The aisle includes an aisle guidance track defining an aisle axis. Each rack station of the plurality of rack stations includes a station guidance track defining a station axis. The station guidance track is configured to receive a rack from the aisle guidance track and position the rack in the respective rack station at a rack angle formed between the aisle axis and the station axis that is less than 90 degrees.

A detachable partition assembly includes a main plate body, a first engaging portion, a second engaging portion, and a first rail. The main plate body has a first edge and a second edge opposite to each other. The first engaging portion and the second engaging portion respectively protrude outwards from the first edge and the second edge. The first rail is located at a side of the main plate body and adjacent to the second engaging portion. The first rail is movably disposed on the main plate body to change a relative position between the first rail and the second edge.

Information Handling Systems (IHSs), such as rack-mounted servers, may support various types of replaceable components that are installed in bays, such as storage drives and computing nodes. Some servers are constructed using a chassis that includes a front row of bays and an inner row of bays. In embodiments, in a closed position, the front row of bays conceals the inner row of bays until the front row of bays is rotated horizontally to an open position that provides access to the inner row of bays. The front row of bays may be divided into two banks of drive bays. The left and right banks of bays may be opened separately by rotating them horizontally about hinges connecting each bank to the chassis. By opening in this manner, the inner bays can be administered safely and limiting the forces placed on the chassis and the rack.

Described herein is a server that includes a server chassis having a front window for providing access to an interior receptacle of the server chassis. A docking station is located in the interior receptacle. The server also includes a PCIe module coupled to the docking station by a coupling element. The PCIe module protrudes externally from the interior receptacle through the front window in the docked position. The PCIe module can be moved to a plurality of undocked positions while remaining coupled to the docking station.

A handle extension structure includes a connection assembly and an operation assembly. The connection assembly has a first end and a second end opposite to each other. The operation assembly is slidably disposed at the connection assembly. The operation assembly includes an extension element and a grip element. The extension element has a first end portion and a second end portion opposite to each other. The first end portion is slidably disposed between the first end and the second end. The grip element is pivoted to the second end portion. An electronic device casing includes a body, a movable apparatus, and the handle extension structure. The handle extension structure is pivoted to the movable apparatus through the connection assembly.

A data center cabinet has an equipment rail movably secured to front-to-back beams by a retaining mechanism. The retaining mechanism has a threaded member extending through a front-to-back beam and the equipment rail and a handle rotatable relative to the threaded member. A first cam disk is positioned between the handle and equipment rail and is fixed to the equipment rail and a second cam disk is positioned between the handle and first cam disk and is fixed to the handle. First and second surfaces of the first and second cam disks are engaged with the handle in a first position to provide a clamping force between the equipment rail and front-to-back beam to prevent movement of the equipment rail and the first and second cam surfaces are disengaged with the handle in a second position to remove the clamping force to allow movement of the equipment rail.