A visor can be manually positioned in a number of directions such that it is manually rotatable about an axis of rotation, and wherein that axis of rotation is itself manually pivotable through a range of angles about a pivot member. The visor manually repositionable, and includes a visor blade, a blade holder for securing the visor blade, a visor clip, and a pivot ball for connecting the blade holder and the visor clip. The pivot ball is repositionable throughout a range of angular motion; and the pivot ball has an axis.

A vehicle sun visor has a sun visor body including an electrical component, an arm including a cylindrical-end portion with contact parts of a pair of conductors and rotatably holding the sun visor body, a mounting bracket for mounting the arm to a vehicle, and a connector including a pair of terminals to contact with a corresponding contact part of the pair of conductors. On the upper side and the lower side of the cylindrical-end portion exposed outside an arm-supporting portion of the mounting bracket, a small-diameter cylindrical-end portion and a large-diameter cylindrical-end portion are provided. The small-diameter cylindrical-end portion and the large-diameter cylindrical-end portion are provided with cutouts provided at alternate positions. First arcuate plate shape contact part is arranged on an outer peripheral surface of the small-diameter cylindrical-end portion, and second arcuate plate shape contact part is arranged on an outer peripheral surface of the large-diameter cylindrical-end portion.

A vehicle sun visor has a sun visor body including an electrical component, an arm including a cylindrical-end portion on which contact parts of a pair of conductors are arranged and rotatably holding the sun visor body, a mounting bracket for mounting the arm to a vehicle, and a connector attached to the mounting bracket and including a pair of terminals each having a contact portion to contact with a corresponding contact part of the pair of conductors. The mounting bracket includes an arm-supporting portion rotatably supporting a cylindrical-end portion of the arm. The connector is provided with an engaging protrusion. The arm is provided with an annular projection formed on an outer peripheral surface of the cylindrical-end portion exposed outside the arm-supporting portion and configured to engage with the engaging protrusion of the connector. The annular projection has a cutout to guide the engaging protrusion.

A vehicle sun visor has a sun-visor body including an illumination lamp, a non-conductive arm including a cylindrical-end portion with contact parts of a pair of conductors rotatably holding the sun visor body, a mounting bracket for mounting the arm to a vehicle, and a connector detachably attached to the mounting bracket and including a pair of terminals each having a contact portion to contact with a corresponding contact part of the pair of conductors. An arm-supporting portion of the mounting bracket rotatably supports a cylindrical-end-portion side of the arm. The contact parts of the pair of conductors are in arcuate-plate shape and provided with a cutout on an outer-peripheral surface of the cylindrical-end portion exposed outside the arm-supporting portion. A terminal-fixing portion provided in a housing of the connector fix a base portion of each contact portion, and a terminal-support portion supports a free end of each contact portion.

A vehicle sun visor has a sun visor body including an electrical component, a non-conductive arm including a cylindrical-end portion on which contact parts of a pair of conductor are arranged and rotatably holding the sun visor body, a mounting bracket configured to mount the non-conductive arm to a vehicle, and a connector detachably attached to the mounting bracket and including a pair of terminals each having a contact portion to contact with a corresponding contact part of the pair of conductors and configured to supply electric power. The mounting bracket includes an arm-supporting portion rotatably supporting a cylindrical-end-portion side of the non-conductive arm. The contact parts of the pair of conductors are formed in an arcuate-plate shape. The contact parts in arcuate-plate shape are arranged via a gap on an outer peripheral surface of the cylindrical-end portion exposed outside the arm-supporting portion of the non-conductive arm.

A vehicle sun visor including: a sun visor main body that is formed in a substantially rectangular plate shape that extends in a vehicle transverse direction, the sun visor main body having one long-side edge portion that is pivotably supported at a front portion of a ceiling inside a vehicle cabin, and the sun visor main body being set in a storage position along the ceiling as a result of another long-side edge portion being pivoted towards a vehicle body rear side; and a protruding portion that is formed on a bottom surface of the sun visor main body in a case in which the sun visor main body has been set in the storage position, and that protrudes towards a vehicle bottom side when seen in a side view from the vehicle transverse direction.

A multifunction accessory for an electronic device is provided. The multifunction accessory may include a back member, a shade member, a mirror, a plurality of support members, and a plurality of brackets. A hinge mechanism may connect the back member to the shade member and hinges may connect the shade member and support members. The mirror may be coupled to the shade member. The brackets may be coupled to the back member and the support members may be removably coupled to the brackets.

A sun visor assembly may include a visor having a first attachment including a first magnet, and a second attachment arranged on a vehicle headliner and including a pair of spaced supports and a pin maintained therein, wherein the pin includes a second magnet and is rotatable with respect to the supports, wherein the first attachment is configured to selectively attach to the second attachment via the first and second magnets, and further wherein the pin is rotatable in an attached state to adjust an angle of the visor.

A vehicle sun visor including: a sun visor main body that is formed in a substantially rectangular plate shape that extends in a vehicle transverse direction, the sun visor main body having one long-side edge portion that is pivotably supported at a front portion of a ceiling inside a vehicle cabin, and the sun visor main body being set in a storage position along the ceiling as a result of another long-side edge portion being pivoted towards a vehicle body rear side; and a protruding portion that is formed on a bottom surface of the sun visor main body in a case in which the sun visor main body has been set in the storage position, and that protrudes towards a vehicle bottom side when seen in a side view from the vehicle transverse direction.

A deployment device includes a body portion in which a sunshade is wound and accommodated therein, a shade bar disposed at one end of the sunshade, a rail portion disposed on one side or the other side of the body portion, a first wire assembly at least partially disposed within the body portion, a second wire assembly at least partially disposed within the rail portion, one end of the shade bar being disposed in the second wire assembly, and a driver disposed in the body portion and slidably moving the first wire assembly. The first wire assembly includes a first wire and a first connection portion, the second wire assembly includes a second wire and a second connection portion, and the first wire assembly and the second wire assembly are connected by the first connection portion and the second connection portion.