An apparatus for protecting connectors protruding from a metal enclosure of a hardware canister includes an enclosure that includes one or more components, wherein a portion of the one or more components protrudes out of a first side of the enclosure. The apparatus further includes a first extendable member assembly coupled to a lower interior surface of the enclosure, wherein the first extendable member assembly includes, a first structure coupled to a first compressible member, wherein a force applied to the first structure at the first side of the enclosure translates to the first compressible member and a lower edge of the first structure located below a lower edge of the one or more components, wherein a length of the first structure in an extended state is longer than a length of the protruding portion of the one or more components.

An electronic device includes a main body, a handle, a fastening block element, a controlling unit, and a driving element. The handle is connected to one side of the main body and has a fastening groove. The fastening block element is disposed in the main body and detachably engaged with the fastening groove. The controlling unit is disposed in the main body and sends an unlocking signal after a shutdown process is performed. The driving element is disposed in the main body and electrically connected to the controlling unit. After the driving element receives the unlocking signal, the fastening block element is released from the fastening groove, thereby enabling the handle to protrude from the main body.

An apparatus for protecting connectors protruding from a metal enclosure of a hardware canister includes an enclosure that includes one or more components, wherein a portion of the one or more components protrudes out of a first side of the enclosure. The apparatus further includes a first extendable member assembly coupled to a lower interior surface of the enclosure, wherein the first extendable member assembly includes, a first structure coupled to a first compressible member, wherein a force applied to the first structure at the first side of the enclosure translates to the first compressible member and a lower edge of the first structure located below a lower edge of the one or more components, wherein a length of the first structure in an extended state is longer than a length of the protruding portion of the one or more components.

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.

An apparatus for protecting connectors protruding from a metal enclosure of a hardware canister includes an enclosure that includes one or more components, wherein a portion of the one or more components protrudes out of a first side of the enclosure. The apparatus further includes a first extendable member assembly coupled to a lower interior surface of the enclosure, wherein the first extendable member assembly includes, a first structure coupled to a first compressible member, wherein a force applied to the first structure at the first side of the enclosure translates to the first compressible member and a lower edge of the first structure located below a lower edge of the one or more components, wherein a length of the first structure in an extended state is longer than a length of the protruding portion of the one or more components.

A motor control unit (MCU) and methods of operating the same are provided. The MCU includes a housing enclosing a retractable stab assembly (RSA) having stabs attached thereto. The MCU further includes a bracket assembly having a mount for securing the bracket assembly to the RSA, guiderails for slideably engaging the RSA to facilitate the extending and retracting motion, and a lead screw accessible via an opening in the front of the housing. Rotating the lead screw causes the RSA to extend and retract which engages and disengages the stabs. The MCU also includes a motor assembly having a drive motor coupled to a drive shaft. The motor rotates the shaft in response to control signals from a remote-device. The motor assembly attaches to the housing such that the rotation of the shaft in response to the signals rotates the lead screw to engage and disengage the stabs.

The present invention provides a device for controlling the time period required to remove a server from a slot. The time period is sufficient for data to be saved from the server prior to power being shut off to the server and its removal from the slot. The device has an arm with a proximal end and a distal end. The arm is mounted for rotation about a first axis from a closed position to an open position. A mechanism applies a motive force to the arm to bias the arm to the open position.

A secure containment enclosure such as an equipment rack is disclosed that includes an electronic locking system. The electronic locking system locks and, upon receipt of a valid credential to a credential input device, unlocks an access door to the secure containment enclosure. The electronic locking system locks the access door during normal operation, and is prevented from unlocking the access door during normal operation and for a predetermined period of time after the secure containment enclosure is powered off to ensure that all data on electronic devices in the secure containment enclosure is erased. Other security features include storage encryption, network encryption, preventing administrative logon access to customers' compute nodes, and dedicated instances in which only virtual machines from specified customer accounts can be located on the same electronic device.

A display unit for products has a mounting frame (10) with mounting profiles (12, 11; 14) disposed parallel and spaced apart from one another. Frame-shaped or box-shaped inserts (30) are fastened releasably to the mounting profiles. The inserts (30) have side walls (31) that form a rectangular frame, and the inserts are fastened releasably by their rear faces on the mounting profiles. Due to the fastening an electrical voltage is supplied simultaneously to the inserts. The inserts can be modules that are fastened individually to the mounting frame and each can be designed differently. The respective inserts are fastened releasably by their rear faces on the mounting profiles. Thus the display unit can be configured variably in a simple manner both in the case of conversions and also in the case of new constructions in sales premises.

A motor control unit (MCU) and methods of operating the same are provided. The MCU includes a housing enclosing a retractable stab assembly (RSA) having stabs attached thereto. The MCU further includes a bracket assembly having a mount for securing the bracket assembly to the RSA, guiderails for slideably engaging the RSA to facilitate the extending and retracting motion, and a lead screw accessible via an opening in the front of the housing. Rotating the lead screw causes the RSA to extend and retract which engages and disengages the stabs. The MCU also includes a motor assembly having a drive motor coupled to a drive shaft. The motor rotates the shaft in response to control signals from a remote-device. The motor assembly attaches to the housing such that the rotation of the shaft in response to the signals rotates the lead screw to engage and disengage the stabs.