A telescopic pivotable support structure includes a telescopic connecting pipe assembly, wherein the telescopic connecting pipe assembly comprises a first pipe, a second pipe and a first pivotable connection assembly, wherein the first pivotable connection assembly comprises a first pivot part and a second pivot part, the first pivot part comprises a first pivot portion and a first connection portion connected with the first pivot portion, the first connection portion is accommodated in one end of the first pipe to be connected with the first pipe; the second pivot part comprises a second pivot portion and a second connection portion, the second connection portion is configured to be connected with the second pipe, the second pivot portion is configured to be pivotably connected with the first pivot portion.

A low profile lighting adapter can include a first housing section configured to hold an electrical ground connection, and a second housing section configured to couple with the first housing section, the second housing section including a planar surface orthogonal to the first housing section. The low profile lighting adapter can include a second electrical connection disposed in the first housing section and opposite of a first electrical connection, wherein the first housing section is configured to allow individual actuation of the second electrical connection along an axis orthogonal to a planar surface of the second housing section. The low profile lighting adapter can include an extending arm coupled to the second housing section and configured to rotate about the axis. Certain of the disclosed embodiments can permit a live connection to be individually set at different levels to engage different electrical circuits on a light track.

A downlight apparatus includes a driver box, a light source, a light housing, multiple leaf springs, multiple shaft connectors and multiple pads. The light housing has a light holder and a rim. The light holder has a holder plate and a holder wall defining a holder cavity. The multiple leaf springs are placed between the driver box and the light holder. Each pad has a pad hole and a pad scraper surrounding the pad hole. The pad scraper has a protruding part engaging an electric insulation layer on a top side of the holder plate. The shaft connector sequentially passes through a spring hole of the leaf spring, the pad hole and the top plate of the light holder. The protruding part of the pad scraper scraps a portion of the electric insulation layer of the holder plate for connecting the holder plate to ground.

A downlight apparatus includes a driver box, a light source, a light housing, multiple leaf springs, multiple shaft connectors and multiple pads. The light housing has a light holder and a rim. The light holder has a holder plate and a holder wall defining a holder cavity. The multiple leaf springs are placed between the driver box and the light holder. Each pad has a pad hole and a pad scraper surrounding the pad hole. The pad scraper has a protruding part engaging an electric insulation layer on a top side of the holder plate. The shaft connector sequentially passes through a spring hole of the leaf spring, the pad hole and the top plate of the light holder. The protruding part of the pad scraper scraps a portion of the electric insulation layer of the holder plate for connecting the holder plate to ground.

A clamping lamp for clamping a monitor comprises a first light source and a clamping body including a second light source, a first clamping component including a first clamping portion and a lamp connection portion, and a second clamping component including a second clamping portion. The lamp connection portion connects with the first clamping portion and the first light source. The first clamping portion leans against a front surface of the monitor and the second clamping portion leans against a back surface of the monitor when the clamping lamp clamps the monitor so the first light source is located above a top surface of the monitor. The first light source emits light toward a first zone that the front surface faces toward. The second light source emits light toward a second zone that the back surface faces toward.

A clamping lamp for clamping a monitor comprises a first light source and a clamping body including a second light source, a first clamping component including a first clamping portion and a lamp connection portion, and a second clamping component including a second clamping portion. The lamp connection portion connects with the first clamping portion and the first light source. The first clamping portion leans against a front surface of the monitor and the second clamping portion leans against a back surface of the monitor when the clamping lamp clamps the monitor so the first light source is located above a top surface of the monitor. The first light source emits light toward a first zone that the front surface faces toward. The second light source emits light toward a second zone that the back surface faces toward.

A portable light including an elongate body having a hollow frame and a longitudinal axis extending through the hollow frame, and an extension pole slidably received within the hollow frame. The extension pole is movable between an extended position, in which the extension pole is at least partially positioned out of the elongate body, and a retracted position, in which the extension pole is at least partially positioned in the elongate body. The portable light further includes a light assembly coupled to an end of the extension pole. The light assembly includes a base, a center column coupled to the base, and a plurality of light heads disposed around the center column, where each of the plurality of light heads are independently pivotable relative to the center column about a light axis that is perpendicular to and offset from the longitudinal axis. The portable light further includes a collar positioned around a portion of the elongate body and a plurality of legs pivotably coupled to the collar. The light heads are pivotable about the light axes from a default position, in which the light heads surround the center column and emit light in the same direction, to a deployed position, in which the light heads emit light in different directions. The light heads are equally spaced circumferentially about the longitudinal axis by approximately 120 degrees.

A portable light including an elongate body having a hollow frame and a longitudinal axis extending through the hollow frame, and an extension pole slidably received within the hollow frame. The extension pole is movable between an extended position, in which the extension pole is at least partially positioned out of the elongate body, and a retracted position, in which the extension pole is at least partially positioned in the elongate body. The portable light further includes a light assembly coupled to an end of the extension pole. The light assembly includes a base, a center column coupled to the base, and a plurality of light heads disposed around the center column, where each of the plurality of light heads are independently pivotable relative to the center column about a light axis that is perpendicular to and offset from the longitudinal axis. The portable light further includes a collar positioned around a portion of the elongate body and a plurality of legs pivotably coupled to the collar. The light heads are pivotable about the light axes from a default position, in which the light heads surround the center column and emit light in the same direction, to a deployed position, in which the light heads emit light in different directions. The light heads are equally spaced circumferentially about the longitudinal axis by approximately 120 degrees.

A support for holding an electronic device, such as a cellular telephone, that attaches to the electronic device with a magnetic connector. The support may have support arms that can grip the electronic device. A magnetic mounting surface may include an annular magnet at its outer area, which is adapted to magnetically hold an electronic device such as a cellular telephone. The support arms may be able to move from a first position perpendicular to the magnetic mounting surface to a second positions parallel to the magnetic mounting surface. The support arms may be extendible from a central portion and this extension may be resisted by internal springs. A cellular telephone may be held within the extended arms to provide gripping support to the telephone. In the parallel configuration, the extendable arms may provide a further mounting surface for stability of the phone on its magnetic mounting surface.

A support for holding an electronic device, such as a cellular telephone, that attaches to the electronic device with a magnetic connector. The support may have support arms that can grip the electronic device. A magnetic mounting surface may include an annular magnet at its outer area, which is adapted to magnetically hold an electronic device such as a cellular telephone. The support arms may be able to move from a first position perpendicular to the magnetic mounting surface to a second positions parallel to the magnetic mounting surface. The support arms may be extendible from a central portion and this extension may be resisted by internal springs. A cellular telephone may be held within the extended arms to provide gripping support to the telephone. In the parallel configuration, the extendable arms may provide a further mounting surface for stability of the phone on its magnetic mounting surface.