A charging cabinet is disclosed having a frame, a center vertical member, wherein the center vertical member includes a lock plate, a plurality of stock chargers, an exhaust system, configured to vent heat from the charging cabinet to cool the at least one battery, a heater, configured to warm the at least one battery, a pair of duplex receptacles, a pass-thru connector recess box, wherein the pass-thru connector recess box is angled downward, a pass-thru connector mount box, wherein the pass-thru connector mount box is angled upward, an inlet connector recess box, wherein the inlet connector recess box is angled downward, and an inlet connector mount box, wherein the inlet connector mount box is angled upward.

A charging cabinet is disclosed having a frame, a center vertical member, wherein the center vertical member includes a lock plate, a plurality of stock chargers, an exhaust system, configured to vent heat from the charging cabinet to cool the at least one battery, a heater, configured to warm the at least one battery, a pair of duplex receptacles, a pass-thru connector recess box, wherein the pass-thru connector recess box is angled downward, a pass-thru connector mount box, wherein the pass-thru connector mount box is angled upward, an inlet connector recess box, wherein the inlet connector recess box is angled downward, and an inlet connector mount box, wherein the inlet connector mount box is angled upward.

An enclosure for electrical installations includes a bottom and a cover fastened to the bottom by a fastening device including a latch which, supported by a bearing, is turnable in relation to the bottom to open/close the fastening device. An arm is bearing-mounted to the latch. The cover has a detent to receive the arm and to fasten the cover to the bottom by the arm. The detent is located in a recess formed in an edge of the cover. Attached to the arm there is a cover piece to attach to the detent in the recess of the cover. The cover piece includes first and second outer surfaces which at the recess of the cover make the outer surfaces of the cover uniform, such that the discontinuities formed by the recess of the cover on its top and side surfaces are concealed.

A hydraulic fracturing system for fracturing a subterranean formation includes a primary switchgear arranged on a support structure. The system also includes a secondary switchgear, arranged on the support structure, the secondary switchgear positioned separately from the primary switchgear and within an enclosure, the secondary switchgear receiving an electrical input from the primary switchgear and including an plurality of feed connections for supplying electrical power to a plurality of fracturing equipment.

A battery system for an electric vehicle includes a fixed cover, and a removable cover arranged over battery modules and a high voltage distribution system. The battery system includes a busbar arranged at least partially over a region of the battery modules and under the removable cover. The busbar includes a fixed section and a movable section, or a hinge, such that the busbar can be repositioned out of the way. The support tray includes a link between the fixed and movable sections. Floating fasteners, allowing at least one of radial float and axial float are used to secure the link to the support tray, thereby avoiding safety hazards and reducing the potential for short circuits in high voltage distribution systems or conductors thereof. The floating fasteners include a head, a neck, an engagement section, and a washer, which prevent removal from a component once installed.

A battery system for an electric vehicle includes a fixed cover, and a removable cover arranged over battery modules and a high voltage distribution system. The battery system includes a busbar arranged at least partially over a region of the battery modules and under the removable cover. The busbar includes a fixed section and a movable section, or a hinge, such that the busbar can be repositioned out of the way. The support tray includes a link between the fixed and movable sections. Floating fasteners, allowing at least one of radial float and axial float are used to secure the link to the support tray, thereby avoiding safety hazards and reducing the potential for short circuits in high voltage distribution systems or conductors thereof. The floating fasteners include a head, a neck, an engagement section, and a washer, which prevent removal from a component once installed.

The present disclosure relates to an interlock mechanism for automatically locking and unlocking a lock system of an electrical cabinet based on the state of bolted pressure contact switches housed within the electrical cabinet.

A power assembly a base assembly including a power source and a pedestal assembly. The pedestal assembly includes a head that is removably coupleable to the base assembly, a controller positioned within the head and configured to be in electrical communication with the power source when the head is coupled to the base assembly, and a receptacle assembly removably coupleable to the head and configured to be in electrical communication with the controller when the receptacle assembly is coupled to the head for supplying power to a vessel or vehicle.

A power assembly a base assembly including a power source and a pedestal assembly. The pedestal assembly includes a head that is removably coupleable to the base assembly, a controller positioned within the head and configured to be in electrical communication with the power source when the head is coupled to the base assembly, and a receptacle assembly removably coupleable to the head and configured to be in electrical communication with the controller when the receptacle assembly is coupled to the head for supplying power to a vessel or vehicle.

The invention relates to a switch cabinet having a housing and a door which is pivotally secured thereto via at least one hinge and has a door leaf, wherein the door leaf has an aperture and a closing element which closes the aperture and is held in a closed position, counter to its mechanical pretension in the direction of its open position, by an electrically controllable locking element.