A storage device frame assembly is configured to be mounted on a first side plate. The storage device frame assembly includes a support frame and a handle. The support frame is configured to be removably mounted on the first side plate. The handle includes a pivotable component and a slidable component. The pivotable component is pivotably disposed on the support frame. The slidable component is slidably disposed on the pivotable component.

There are disclosed a display device including a display module configured to display a screen, a case configured to mount the display module therein, a mount plate coupled to a back surface of the case, with a lower portion comprising an arch-shaped handle having a predetermined curvature, and a mount fixer fixed to a wall, the mount fixer comprising a seating portion having the same curvature as the handle, such that an installation angle can be changed to make the display device leveled even after the mount device is installed so as to relieve difficulty in leveling the display device when it is mounted to the wall.

A ruler device module is disclosed that includes top and bottom plates that are parallel, with the bottom plate defining a tray where the bottom plate extends beyond the top plate. The module further includes a pair of side plates on opposite sides of, and extending between, the top and bottom plate, with each side plate including a slot. Partitions are perpendicular to and between the top and bottom plates forming bays between adjacent partitions and the top and bottom plates. A handle structure is between the top and bottom plates and includes a handle configured to rotate between a recessed position and a use position. A nut structure is between the top plate and the bottom plate. The nut structure includes an aperture configured to engage a fastener of a chassis to secure the ruler device module to the chassis.

Motor control centers have units or buckets with an extendable/retractable power connection (stab) assembly and one or more operating lever interlocks that include a unit latch to latch to a cabinet and a power connection position interlock that blocks the handle of the units or buckets based on position of the power connection assembly, optionally also including a shutter cam that slides a shutter right and left.

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.

A portable battery box is described. The portable battery box is suitable for charging and housing a battery and comprises: a housing having a lid, a battery removably disposed within the housing, an inverter, a computer processing system, and a display screen. The computer processing system is configured to be powered by the battery and used for receiving measured charge parameters of the battery and estimating other battery parameters.

A structural subassembly for use in an information handling system chassis may include a first portion, a second portion, a common wall, and one or more mechanical features. The first portion may be configured to receive one or more of a first type of information handling resource. The second portion may be configured to receive one or more of a second type of information handling resource. The common wall may divide the first portion from the second portion. The one or more mechanical features may be configured to engage with one or more respective mechanical features of the information handling system chassis in order to perform at least one of guiding of the subassembly relative to the information handling system chassis during insertion or removal of the subassembly into or from the information handling system chassis and retention of the subassembly relative to the information handling system chassis.

A portable information handling system manages thermal conditions of an external surface based upon context that indicates user presence versus use in a standalone mode, such as based upon movements sensed by an accelerometer, touches sensed by a capacitive sensor, and the rotational orientation of the system housing. In one embodiment, a motorized hinge varies a time to close the housing so that the housing external surface cools sufficiently for an end user touch. A color coded light illuminates that the housing to provide the end user a visual indication of the housing temperature.

A portable information handling system rejects excess thermal energy from within a housing by blowing a cooling airflow with a cooling fan across first and second sets of cooling fins and out an exhaust. The cooling fins have an interleaved position with higher impedance and a separated position with a lower impedance that can increase cooling airflow. In one example embodiment, a central processing unit couples to a first circuit board and the first set of cooling fins and a graphics processor couples to a second circuit board and the second set of cooling fins so that movement of the circuit boards moves the cooling fins between the interleaved and separated positions.