Provided is a charger, comprising a charger body, a plug and a tooth ring; the charger body is provided with a receiving cavity for receiving the plug, and the tooth ring is arranged in the charger body; the plug comprises a connecting part, a positioning part and a pin, an upper surface of the connecting part exposes the receiving cavity, and the pin is installed on the upper surface, one end of the positioning part is connected to a lower surface of the connecting part, and another end of the positioning part extends into a central through hole of the tooth ring, which is provided with a clamping tooth, the positioning part is provided with a plurality of clamping grooves, and when the plug in the receiving cavity is rotated, the clamping tooth is clamped into one of the clamping grooves to limit the rotation angle of the plug.

A rotatable power strip outlet assembly that includes a power strip housing, a plurality of electrical sockets formed on a front surface of the power strip housing, and a rear plug support member rotatably coupled to the power strip housing, that includes a front surface, a rear surface, and an electrical plug disposed on the rear surface of the rear plug support member and with electrical prongs extending outwardly away from the rear surface of the rear plug support member and electrically coupled to the plurality of electrical sockets, wherein the power strip housing is operably configured to selectively rotate at least 270° with respect to the rear plug support member to reorient the power strip housing while plugged into an electrical outlet.

A rotatable power strip outlet assembly that includes a power strip housing, a plurality of electrical sockets formed on a front surface of the power strip housing, and a rear plug support member rotatably coupled to the power strip housing, that includes a front surface, a rear surface, and an electrical plug disposed on the rear surface of the rear plug support member and with electrical prongs extending outwardly away from the rear surface of the rear plug support member and electrically coupled to the plurality of electrical sockets, wherein the power strip housing is operably configured to selectively rotate at least 270° with respect to the rear plug support member to reorient the power strip housing while plugged into an electrical outlet.

The present disclosure relates to the technical field of data cables, more particularly to a unidirectional free-pulling data cable that includes a first wire, a second wire and a hollow housing in which a wheel core, a follow-up circuit board, a clamping assembly, and a fixed conductive board disposed on one side of the housing corresponding to and electrically connected to the follow-up circuit board are arranged. The wheel core, with an elastic member disposed therein and a wheel cover disposed at the opposite side thereof, rotates relative to the housing. The first and second wires are exposed out of the housing partially. The clamping assembly cooperates with the wheel cover to position the wheel core to limit the rotation thereof, which solves the problem that the input and output ends of the existing telescopic data cable need to be stretched simultaneously when using, and is more convenient to use.

The present disclosure relates to the technical field of data cables, more particularly to a unidirectional free-pulling data cable that includes a first wire, a second wire and a hollow housing in which a wheel core, a follow-up circuit board, a clamping assembly, and a fixed conductive board disposed on one side of the housing corresponding to and electrically connected to the follow-up circuit board are arranged. The wheel core, with an elastic member disposed therein and a wheel cover disposed at the opposite side thereof, rotates relative to the housing. The first and second wires are exposed out of the housing partially. The clamping assembly cooperates with the wheel cover to position the wheel core to limit the rotation thereof, which solves the problem that the input and output ends of the existing telescopic data cable need to be stretched simultaneously when using, and is more convenient to use.

Provided is a wall power outlet extender that may be positioned or mounted on a wall and that may relocate the wall power outlet to a different position on the wall without requiring electrical work or professional installation and without cluttering adjacent surfaces. The wall power outlet extender may be positionable along a surface of a wall adjacent to a wall power outlet and may allow a user to semi-permanently relocate the wall power outlet. The wall power outlet extender may be made fixed and stationary at a particular position and relatively unmovable unless acted on or repositioned by a user. The wall power outlet extender may be selectively rotatable and/or telescopic, and include a spinning or ambidextrous plug, to be adaptable to the specific location and to provide a myriad of different positions in which the new outlet may be placed. The wall power outlet extender may feature multiple outlets, USB ports, and surge protection, as well as Bluetooth and wireless capabilities.

An electronic hinge system is provided, including a first component and a second component. The first component may include a first enclosure, a first substrate extending within the first enclosure, a first connector, and a plurality of curved elements disposed in the first connector. The first substrate may have electrically conductive elements and microelectronic devices electrically connected with the electrically conductive elements. The curved elements may be electrically conductive and spaced apart from one another. Each curved element may be electrically connected with a respective one of the electrically conductive elements of the first component. The second component may include a second enclosure and a second connector disposed at an end of the second enclosure. The first connector may be configured to mate with the second connector, such that when the first component is engaged with the second component, the first connector is rotationally coupled with the second connector.

A rotatable power strip outlet assembly that includes a power strip housing, a plurality of electrical sockets formed on a front surface of the power strip housing, and a rear plug support member rotatably coupled to the power strip housing, that includes a front surface, a rear surface, and an electrical plug disposed on the rear surface of the rear plug support member and with electrical prongs extending outwardly away from the rear surface of the rear plug support member and electrically coupled to the plurality of electrical sockets, wherein the power strip housing is operably configured to selectively rotate at least 270° with respect to the rear plug support member to reorient the power strip housing while plugged into an electrical outlet.

A rotatable power strip outlet assembly that includes a power strip housing, a plurality of electrical sockets formed on a front surface of the power strip housing, and a rear plug support member rotatably coupled to the power strip housing, that includes a front surface, a rear surface, and an electrical plug disposed on the rear surface of the rear plug support member and with electrical prongs extending outwardly away from the rear surface of the rear plug support member and electrically coupled to the plurality of electrical sockets, wherein the power strip housing is operably configured to selectively rotate at least 270° with respect to the rear plug support member to reorient the power strip housing while plugged into an electrical outlet.

The present disclosure provides a rotatable electrical plug including a non-rotating assembly configured for receiving and being coupled with power lines of the rotatable electrical plug, the non-rotating assembly comprising a substrate, a first ring-shaped conductor and a second ring-shaped conductor; a rotating assembly being rotatable 360 degrees relative to the non-rotating assembly, the rotating assembly comprising at least two electrode terminals; a first rotating conductor and a second rotating conductor connected to the first ring-shaped conductor and the second ring-shaped conductor respectively, at least one of the first rotating conductor and the second rotating conductor comprising a base and two arms extending from the base and extending in two non-parallel directions, each of the two arms including a contacting portion having a contacting surface, the contacting surfaces of the two arms contact two different positions of a same ring-shaped conductor of the first and the second ring-shaped conductors.