According to an example, a device housing may have a support structure to hold a removably mounted computing component. The support structure may comprise a first rotatably mounted arm comprising a first post and a resilient biasing element attached to the arm. The resilient biasing element may bias the first arm in a direction towards engagement with the computing component such that the first post such that the first post holds the computing component in place.

According to an example, a device housing may have a support structure to hold a removably mounted computing component. The support structure may comprise a first rotatably mounted arm comprising a first post and a resilient biasing element attached to the arm. The resilient biasing element may bias the first arm in a direction towards engagement with the computing component such that the first post such that the first post holds the computing component in place.

Adapters for mounting patch panels to data center racks enable the patch panels to be repositioned with respect to the racks in a rotatable or pivotable manner. A patch panel mounted to an adapter has a jack or port on one side of the adapter, and a jack or port on another side of the adapter. With the adapter aligned at an obtuse angle with respect to a front edge of a rack, a component may be inserted into the rack, or removed from the rack. Subsequently, the adapter aligned at an acute angle, or any other angle, with respect to the front edge of the rack. Mounting patch panels to the adapters enables the patch panels to be maintained outside of the rack, and increases a number of components that may be installed within the rack, or space or volume that may e occupied by components within the rack.

Adapters for mounting patch panels to data center racks enable the patch panels to be repositioned with respect to the racks in a rotatable or pivotable manner. A patch panel mounted to an adapter has a jack or port on one side of the adapter, and a jack or port on another side of the adapter. With the adapter aligned at an obtuse angle with respect to a front edge of a rack, a component may be inserted into the rack, or removed from the rack. Subsequently, the adapter aligned at an acute angle, or any other angle, with respect to the front edge of the rack. Mounting patch panels to the adapters enables the patch panels to be maintained outside of the rack, and increases a number of components that may be installed within the rack, or space or volume that may e occupied by components within the rack.

Connectors for a networking device may be provided. A networking device may comprise a first plurality of switch bars each comprising a first switch type arranged parallel to one another, a second plurality of switch bars each comprising a second switch type arranged parallel to one another, and a third plurality of switch bars each comprising a third switch type arranged parallel to one another. The first plurality of switch bars, the second plurality of switch bars, and the third plurality of switch bars may be arranged orthogonally. A first one of the first plurality of switch bars may be connected to a first one of the second plurality of switch bars via a retractable mechanical connector mechanism.

Connectors for a networking device may be provided. A networking device may comprise a first plurality of switch bars each comprising a first switch type arranged parallel to one another, a second plurality of switch bars each comprising a second switch type arranged parallel to one another, and a third plurality of switch bars each comprising a third switch type arranged parallel to one another. The first plurality of switch bars, the second plurality of switch bars, and the third plurality of switch bars may be arranged orthogonally. A first one of the first plurality of switch bars may be connected to a first one of the second plurality of switch bars via a retractable mechanical connector mechanism.

A rack assembly unit for mounting a control unit to a vehicle rack system is provided; a rack chassis and a tray are configured to receive the control unit for coupling to a vehicle system. The tray is movably coupled to the rack chassis at a coupling mechanism, which provides for movement of the tray relative to the rack chassis between open and closed positions. At the open position, the tray is spaced apart from rack chassis to facilitate user access to the tray and receiving the control unit therein. At the closed position, the tray is located fully inserted relative to the rack chassis and such that the control unit located in the tray is provided at a control unit operating position thermally coupled to a cold plate of a cooling system to provide for cooling of components of the control unit.

A rack assembly unit for mounting a control unit to a vehicle rack system is provided; a rack chassis and a tray are configured to receive the control unit for coupling to a vehicle system. The tray is movably coupled to the rack chassis at a coupling mechanism, which provides for movement of the tray relative to the rack chassis between open and closed positions. At the open position, the tray is spaced apart from rack chassis to facilitate user access to the tray and receiving the control unit therein. At the closed position, the tray is located fully inserted relative to the rack chassis and such that the control unit located in the tray is provided at a control unit operating position thermally coupled to a cold plate of a cooling system to provide for cooling of components of the control unit.

Systems for unlocking and locking a riser cage to a computing device are described herein. Such systems may include: a riser cage in a computing device; an axis member coupled to a first side of the riser cage and adapted to rotate about an axis; a handle coupled to the axis member and adapted to rotate the axis member about the axis; a cam, coupled to the axis member, and adapted to rotate about the axis when the axis member rotates; and a lever coupled to a second side of the riser cage and adapted to rotate about a pivot point when the cam rotates, wherein the lever engages with a stabilizing feature when the handle is in a first handle position.

Systems for unlocking and locking a riser cage to a computing device are described herein. Such systems may include: a riser cage in a computing device; an axis member coupled to a first side of the riser cage and adapted to rotate about an axis; a handle coupled to the axis member and adapted to rotate the axis member about the axis; a cam, coupled to the axis member, and adapted to rotate about the axis when the axis member rotates; and a lever coupled to a second side of the riser cage and adapted to rotate about a pivot point when the cam rotates, wherein the lever engages with a stabilizing feature when the handle is in a first handle position.