Rooftop device for delivering electrical power, plumbing, lines and other systems from the inside of a building to the outside of the building to equipment and systems installed on the rooftop. The device comprises a powder coated white NEMA 4 enclosure to reduce corrosion and minimize the effects of heat buildup in the enclosures during high temperature exposure. A GFCI circuit breaker in the enclosures allows electricians to move electrical power from the closes source, which reduces installation costs. The device comprises MCB or MCP disconnect switches which will provide faster and more precise protection to equipment and the circuits that supply them, and ethernet cable, coaxial cable, conductor thermostat wire. A mounting assembly, comprising a flashing and a cleat, and a vice assembly cooperate to apply pressure from the outside of the rooftop and from the inside of the roof, providing a more secure, dryer fit for roof penetrations.

This disclosure relates to pole bases, specifically to light pole base cabinets that can house items. The pole base cabinets can be positioned between a light pole and a footing. The pole base cabinets provide a base to a light pole while adding additional functionality. The cabinets can include a main opening allowing access to a cavity in which items can be stored. Access to the cavity can be restricted with a door that uncovers and covers the main opening. The pole base cabinets can include support panels, internal stiffening panels, external stiffening panels, support tabs, flanges, tabs, a peripheral wall, and other features to provide structural support and enclose the contents in the pole base cabinet.

The present disclosure relates to a charging gun conduit structure, including a main post erected on the ground, a first conduit rotatably attached to a top portion of the main post, an L-shaped second conduit with one end rotatably attached to an end of the first conduit and the other end extended toward the ground, a third conduit with one end attached to the second conduit through an extendable corrugated pipe, a fourth conduit with one end rotatably attached to the other end of the third conduit, a charging gun with one end connected to the other end of the fourth conduit through an elastic connection unit allowing a bending within a predetermined range at an arbitrary direction, and a plurality of charging cables with one or more signal lines disposed to be unconstrained inside the first through fourth conduits to allow easy rotation and extension of the conduit structure.

The present disclosure describes devices and assemblies for holding cables. A device adapted for holding one or more discrete cables may include a flexible main body formed of a polymeric material having a length, a width, a thickness, and a longitudinal axis, the main body including a wrapping portion and a mounting portion, wherein the wrapping portion is configured to be wrapped such that the main body circumscribes the one or more discrete cables; a securing feature attached to or integral with the mounting portion of the main body and configured to be secured to a mounting structure; and a plurality of apertures along the longitudinal axis of the wrapping portion of the main body, wherein the securing feature is configured to be received through one of the plurality of apertures when the main body is wrapped around the one or more discrete cables. Methods of holding cables are also provided.

A protective hood for outdoor electrical outlets or receptacles has an angled top surface, two side panels, and an angled bottom surface having an aperture. In one variant of the protective hood, the aperture in is configured to receive power cords for connection to an electrical outlet over which the protective hood has been mounted, such as an existing electrical outlet installed on a building wall or a power pedestal. In another variant of the protective hood, the aperture in the angled bottom surface is configured to allow an electrical outlet to be installed directly therein, but with the protective hood still being mountable over an electrical outlet on a building wall or power pedestal instead of having an electrical outlet installed in the aperture.

A connection arrangement for a floor power distribution system includes a hub arrangement configured to distribute electrical power and including a hub housing and an electrical connector, the hub housing configured to abut a floor, and an adapter configured to engage the hub housing of the hub arrangement and configured to abut the floor, wherein at least a portion of the adapter is cantilevered over at least a portion of the hub housing, wherein the portion of the adapter that is cantilevered over the portion of the hub housing is vertically aligned with the electrical connector of the hub arrangement.

A strain release connector for an overhead electrical wire includes a first connector part securable to the overhead electrical wire with a fixed clamping force, and a second connector part cooperable with the first connector part and securable to a service cable with an adjustable clamping force, less than the fixed clamping force. The second connector part has at least one strain adjustment screw for modifying the adjustable clamping force. The adjustable clamping force is set by the at least one strain adjustment screw such that the second connector part is configured to release the service cable upon an application of a predetermined tension force.

A floor power distribution system that includes a power distribution junction assembly including a first housing configured to abut a floor surface, a pair of receptacle junction assemblies each including a second housing configured to abut the floor surface, and a pair of raceway assemblies each including an elongated raceway including a longitudinally extending channel, a pair of ramps each coextending with the elongated raceway on opposite sides thereof, each ramp including a proximate edge that engages the elongated raceway and having a first thickness, and a distal edge having a second thickness that is less than the first thickness, wherein the elongated raceway and the elongate ramp are configured to be located between the floor surface and a floor covering in an area frequented by foot traffic.

The application relates to a charging station for electric vehicles, comprising at least one charging column with a charging column housing, wherein at least one is arranged in the charging column housing, set up to receive a charging device corresponding to the receptacle with a charging device housing, wherein at least one charging technology module is integrated in the charging device housing, and wherein of the charging device housing and the charging column housing only the charging device housing is completely sealed.

A recessed floor box system is provided herein. The recessed floor box system includes a housing having a set of walls defining an interior chamber; a riser; a non-use cover; and an in-use cover. The riser is connected to the housing and includes an interior opening connected to the interior chamber. The non-use cover is positioned on the riser and across the interior opening. The in-use cover is positioned on the riser and at least partially defines an egress opening that provides access to the interior opening. The in-use cover includes an upper portion having a substantially planar surface and a lower portion having a latch mechanism to secure the cover over the riser.