A vehicle sunvisor assembly includes a support structure, a sunvisor panel and an energy absorbing structure. The support structure is attached to a vehicle body structure adjacent to a first area of a windscreen. The sunvisor panel has first end and a second end. The first end is supported by the support structure and pivots about an upright axis and about an offset axis that is not parallel to the upright axis. The energy absorbing structure is installed to the vehicle body structure adjacent to a second area of the windscreen spaced apart from the first area and has a downwardly extending projection. A second attachment end of the sunvisor panel aligns with the downwardly extending projection. The energy absorbing structure is configured to absorb energy from an object moving in a forward direction contacting the sunvisor panel with the first attachment end being attached to the second attachment end.

A vehicle sunvisor assembly includes a sunvisor panel and an energy absorbing structure. The sunvisor panel has a first end and a second attachment end. The first end is supported to a vehicle for pivotal movement about an upright axis and movement about an offset axis that is not parallel to the upright axis. The energy absorbing structure is installed to the vehicle. The energy absorbing structure has a downwardly extending projection with a second attachment end that aligns with the first attachment end such that with the first attachment end of the sunvisor panel pivoted to the second attachment end, the first attachment end releasably attaches to the second attachment end. The energy absorbing structure is configured to pivot upward in response to an object contacting the sunvisor panel, transferring forward momentum to the second attachment end and to the energy absorbing structure.

A vehicle sun visor has a light source on a light guide plate back side allowing light to be emitted, a visor main body, and a light source inside the body. A light guide plate is installed on a light source front side. The plate has a first exit surface reflecting light inside the plate from a back surface. A second exit surface reflecting light passing along the plate is formed on its back surface. A mirror plate is installed alongside on the plate front side, and has a mirror region covering the light source and the first exit surface from the front side, and a luminous region covering the second exit surface from the front side. A diffusion member is placed in direct and close contact with a luminous region back surface, and the diffusion member diffuses light from the light guide plate toward the front side.

A sun visor connector includes: a bracket; an arm portion having an end inserted through the bracket to be rotatably arranged; a housing fixed to the bracket and arranged in a vicinity of the end of the arm portion inserted through the bracket; a pair of connector terminals accommodated in the housing and connected to counterpart terminals; a pair of arm connection parts provided in an elastically deformable manner on the pair of connector terminals and connected by sandwiching the end of the arm portion by a biasing force; and a preliminary displacement portion provided in the housing, abutting on the pair of arm connection parts, and causing the pair of arm connection parts to be arranged in a separated manner by keeping a biasing force against the end of the arm portion.

A connector terminal for a sun visor includes a body portion accommodated in a housing fixed to one side of an attachment member of a bracket, the bracket configured to be attached to the attachment member, a mating connection portion provided on one end of the body portion and connected to a mating terminal arranged on one side of the attachment member, an arm connection portion provided on the other end of the body portion and connected to an end of an arm portion rotatably supporting a sun visor body arranged on the other side of the attachment member, the end being inserted into the bracket, and a fixed portion provided between the mating connection portion and the arm connection portion of the body portion and fixed to the housing.

A sun visor connector includes: a bracket attached to an attachment member; an arm portion rotatably supporting a sun visor main body and having an end inserted through the bracket to be rotatably arranged; a housing fixed to the bracket and arranged in a vicinity of the end of the arm portion inserted through the bracket; a connector terminal accommodated in the housing and connected to a counterpart terminal; an arm connection part provided in an elastically deformable manner on the connector terminal and connected to the end of the arm portion by a biasing force; an engaging portion including a projecting portion provided in the housing and a recessed portion provided in the bracket and engaged with the projecting portion; and a first restricting portion provided in the projecting portion and pressed against and abuts on the recessed portion in a deformation direction of the arm connection part.

A system includes a computer programmed to detect a first and a second object in received image data, determine a mesh of cells on each of the first and second object surface, upon identifying a cell of the mesh on the first object mismatched to a corresponding cell on the second object to refine the mismatched cell to a plurality of cells, wherein identifying the mismatch is based on a at least one of a mismatch in a color, texture, shape, and dimensions, stop refining the cell upon determining that a refinement of the refined cell of the first object results in a refined cell that is matched to a corresponding refined cell of the second object, and output location data of mismatched cells of the first and second objects. A mismatched cell has at least one of a color mismatch, texture mismatch, and shape mismatch.

A vehicle includes a ceiling structure for a passenger compartment of the vehicle. The ceiling structure has an opening. The vehicle further includes a sunvisor assembly that is mounted to the ceiling structure. The sunvisor assembly has a panel and a swivel rod received by the opening to attach the panel to the ceiling structure. The swivel rod is movable from a first position to a second position upon receiving a predetermined force to the panel. The second position is a position in which the swivel rod is positioned further into the opening of the ceiling structure than when in the first position.

A vehicle sunvisor assembly includes a support structure, a sunvisor panel and an energy absorbing structure. The support structure is attached to a vehicle body structure adjacent to a first area of a windscreen. The sunvisor panel has first end and a second end. The first end is supported by the support structure and pivots about an upright axis and about an offset axis that is not parallel to the upright axis. The energy absorbing structure is installed to the vehicle body structure adjacent to a second area of the windscreen spaced apart from the first area and has a downwardly extending projection. A second attachment end of the sunvisor panel aligns with the downwardly extending projection. The energy absorbing structure is configured to absorb energy from an object moving in a forward direction contacting the sunvisor panel with the first attachment end being attached to the second attachment end.

A vehicle sunvisor assembly includes a sunvisor panel and an energy absorbing structure. The sunvisor panel has a first end and a second attachment end. The first end is supported to a vehicle for pivotal movement about an upright axis and movement about an offset axis that is not parallel to the upright axis. The energy absorbing structure is installed to the vehicle. The energy absorbing structure has a downwardly extending projection with a second attachment end that aligns with the first attachment end such that with the first attachment end of the sunvisor panel pivoted to the second attachment end, the first attachment end releasably attaches to the second attachment end. The energy absorbing structure is configured to pivot upward in response to an object contacting the sunvisor panel, transferring forward momentum to the second attachment end and to the energy absorbing structure.