An electrical box comprising an adjustable voltage divider may include a housing comprising an inner surface and ribs or threads integrally formed on the inner surface of the rectangular housing. A voltage divider plate may be disposed within the housing with vertical edges of the voltage divider plate extending along and held in place between the ribs or threads integrally formed on the inner surface of the housing, the voltage divider plate dividing the housing into a high voltage area and a low voltage area. The voltage divider plate area may comprise a plurality of horizontal guide lines vertically offset from each other, and a plurality of vertical guide lines horizontally offset from each other and intersecting the plurality of horizontal score lines. Upper outer corners of the voltage divider plate may be inwardly disposed from the vertical edges of the voltage divider plate.

A self-leveling floor mounted electrical outlet assembly may include a cylindrical housing with a threaded inner surface. A mounting frame may be rotatably coupled to the threaded inner surface of the cylindrical housing to adjustably position the mounting frame within the housing and provide for a rough elevation adjustment of an electrical receptacle or wiring device. The mounting frame may further comprise a first portion or outer disk comprising an edge mateably coupled with the threaded inner surface of the cylindrical housing, and a second portion or yoke support comprising at least one threaded fastener extending from the second portion to the threaded opening, the at least one threaded fastener coupled to the threaded opening to adjustably position the second portion with respect to the first portion and configured to provide for a fine elevation adjustment. A wiring device may be coupled to the second portion of the mounting frame.

A support base includes a connector hub having a top end, a bottom end spaced apart from the top end, and a chamber wall extending between the top and bottom ends. The chamber wall defines a chamber within the connector hub. An interface may be positioned in the chamber. The interface is dimensioned such that a support gap is formed between the interface and the chamber wall. The support gap may be dimensioned for receiving a wall of a support structure having a hollow interior into which the interface is received.

An outdoor enclosure provides weather protection for electrical equipment. More particularly, an outdoor enclosure having a cover flush with the floor or the ground and an interior space beneath the floor or ground is provided. The interior space is maintained in a water-tight condition when the cover of the enclosure and a door within the cover are closed and a drain is provided in the floor of the interior space to allow water to drain from the interior space if and when such water enters the enclosure. Electrical cables and a receptacle with ground fault protection are stowed within the enclosure and pulled through the door in the cover when a user needs access to electrical power via the receptacle.

An electrical power and/or electronic data unit is mountable in a floor, and is fitted with an upper bezel that is openable and closable to provide selective access to an interior of the unit, which is optionally fitted with one or more electrical power or data outlets. A lower insert including an intumescent block is supported below an upper housing, and is angularly adjustable relative to the upper housing. One or more bores or openings formed in the lower insert allow the passage of cords into a pass-through opening in the upper housing, and out through an upper bezel cover.

A power distribution system includes a track having a first end, a second end opposite the first end, and a longitudinal axis extending through the first and second ends. The track defines a channel extending along the longitudinal axis. A plurality of power cables is positioned within the channel. The power distribution system further includes an electrical hub having a body coupled to the second end of the track. A plurality of wafers is supported by the body and stacked on top of each other to define a set of terminals. The set of terminals is electrically connected to the plurality of power cables. A power receptacle is supported by the body and electrically connected to the plurality of wafers.

A support base includes a connector hub having a top end, a bottom end spaced apart from the top end, and a chamber wall extending between the top and bottom ends. The chamber wall defines a chamber within the connector hub. A power interface set may be positioned in the chamber. The power interface set is dimensioned such that an annular support gap is formed between the power interface set and the chamber wall. A cover plate may be coupled to the top end of the connector hub.

A pop-up outlet includes a lower housing configured to receive one or more conductors. A middle housing is connected to the lower housing. An upper housing is moveably connected to the middle housing. An outlet is positioned in the upper housing having an outlet body and at least one receptacle opening. A raise/lower mechanism is configured to move the upper housing with respect to the middle housing from a first position where the outlet body is positioned in the middle housing to a second position where the outlet body is exposed to a user.

An integrated latching mechanism includes a slider button. At least one curved elastic arm extends from the slider button and is configured such that in response to an external force urging the slider button in a first direction, the curved elastic arm is distorted such that upon removal of the external force, the curved elastic arm moves the slider button in a direction opposite to the first direction. A locking part is contiguous with the slider button and extends away from the slider button. In response to the external force urging the slider button in the first direction, the locking part moves in the first direction, and upon removal of the external force, the curved elastic arm moves the locking part in the direction opposite to the first direction. The at least one curved elastic arm, the slider button, and the locking part form a single piece of elastic material.