A locking arrangement can be used for securing electric module cards between two side walls of a housing. The locking arrangement includes two side members for fixed arrangement with the respective side walls. An opening defined between the side members accommodates electric contacts of the electric module cards. A first and a second transverse member form a frame with the side members in order to lock the electric module cards within the housing. A locking mechanism is detachably connects at least one of the transverse members to at least one of the side members by means of a snap-fit.

A drive carrier for a cold plug device of an information handling system includes a handle, a first latch, and a second latch. The handle rotates between a locked position and an unlocked position. The first latch includes first and second ends, and slides between first and second positions. The handle is held in the locked position when the first latch is in the first position. The second latch includes first and second ends. The first end of the second latch is pivotally attached to the second end of the first latch and the second end of the second latch snap fits over a first end of the handle. The second latch prevents the first latch from sliding from the first position to the second position when the second end of the second latch is snap fitted over the first end of the handle.

Systems and methods for improved circuit board removal and/or reinstallation are provided. A circuit board removal system can include a frame including a channel arranged in a plate of the frame. A disengagement slider can include a mounting surface and a first portion including a first cam surface, where the disengagement slider is arranged within the frame. A separator can include a second cam surface and can be arranged in the channel of the plate. The first cam surface and the second cam surface can be nested with each other when the disengagement slider is in an inserted position. The disengagement slider can be configured to slide the separator in the longitudinal direction when the disengagement slider is removed from the frame due to the interaction of the first cam surface with the second cam surface.

A chassis for housing a computing device of an information handling system includes a receiving portion of an expansion card receiver that receives an expansion card and operably connects the expansion card to another component of the computing device while the expansion card is received by the receiving portion. The chassis further includes a management portion of the expansion card receiver that receives a force from a user and, in response to receiving the force: transitions the management portion from a first state to a second state. In the first state, a handle, that enables the expansion card to be removed from the chassis is disposed inside of the management portion and the expansion card receiver is locked to the chassis. In the second state, the handle is disposed outside of the management portion and the expansion card receiver is unlocked from the chassis.

A locking device is provided adjacent to a side opening of a container and includes a handle having a driving section and being pivotally turnably mounted to a top of the container; a long bar-shaped locking member having two opposite ends pivotally connected to the top and a bottom of the container to be turnable toward or away from the side opening; and a return spring mounted on the handle. The locking member includes an upper section located adjacent to the driving section. When the handle is pivotally turned from a horizontal to a vertical position relative to the top, the driving section is turned to drive the upper section for the locking member to pivotally turn toward the side opening. A container using the above locking device is disclosed. When the container is lifted at the handle, the locking member is driven to automatically lock the side opening.

A drive carrier for a cold plug device of an information handling system includes a handle, a first latch, and a second latch. The handle rotates between a locked position and an unlocked position. The first latch includes first and second ends, and slides between first and second positions. The handle is held in the locked position when the first latch is in the first position. The second latch includes first and second ends. The first end of the second latch is pivotally attached to the second end of the first latch and the second end of the second latch snap fits over a first end of the handle. The second latch prevents the first latch from sliding from the first position to the second position when the second end of the second latch is snap fitted over the first end of the handle.

A fluid distribution system is incorporated into a server chassis. Connector plates have fluid connectors designed to connect with fluid cooling receptacles on server boards. A linkage system can be manually manipulated to translate the connector plates so as to engage the electronics boards and connect the fluid connectors to the receptacle. A pair of main connectors connect to the rack's fluid manifold to circulate cooling fluid to cool devices mounted onto the server boards. A locking mechanism can be included to mechanically lock the chassis to the rack to prevent accidental dismount of the chassis from the rack. Also, an anchor mechanism may be provided to apply counter force when engaging the connector plates with the server boards so as to prevent accidental dismount of the server board by the moving connector plate.

A locking arrangement can be used for securing electric module cards between two side walls of a housing. The locking arrangement includes two side members for fixed arrangement with the respective side walls. An opening defined between the side members accommodates electric contacts of the electric module cards. A first and a second transverse member form a frame with the side members in order to lock the electric module cards within the housing. A locking mechanism is detachably connects at least one of the transverse members to at least one of the side members by means of a snap-fit.

An upper portion of an aisle containment system for a data center. The upper portion includes spaced vertical supports aligned in two parallel rows and horizontal supports that extend between and are connected to adjacent vertical supports to form the basic framework of the upper portion. The upper portion also includes (1) at least one pair of arms that extend outwardly from opposite longitudinal sides of the basic framework and are configured to support services and (2) at least one busbar casement that is attached to the vertical supports and extends substantially the length of the upper portion. Each arm of the at least one pair of arms includes a segment that is rotatable between a first position in which the segment is substantially parallel to the vertical supports and a second position in which the segment is substantially perpendicular to the vertical supports.

A disclosed apparatus may include (1) a retractable guide rail movably coupled to a chassis, wherein the retractable guide rail is configured to support a field-replaceable unit when the field-replaceable unit is installed in the chassis, (2) a support bracket coupled to the chassis and aligned with the retractable guide rail within the chassis and (3) a locking bracket movably coupled to the support bracket, wherein the locking bracket is configured to (A) engage the retractable guide rail in an expanded position within the chassis when the field-replaceable unit is not installed in the chassis and (B) disengage the retractable guide rail such that the retractable guide rail moves to a retracted position when the field-replaceable unit is installed in the chassis. Various other apparatuses, systems, and methods are also disclosed.