A glass run includes a body part including exterior and interior side walls and a bottom wall connecting the exterior and interior side walls; an exterior lip projecting from the exterior side wall toward the bottom wall and configured to slidably contact an exterior side of a door glass; and an interior lip projecting from the interior side wall toward the bottom wall and configured to slidably contact an interior side of the door glass. The interior lip includes a base end portion extending toward the bottom wall and is curved to be oriented toward an exterior of the vehicle as extending to its distal end portion, and the interior side wall includes a protuberance protruding toward the exterior, and the protuberance is positioned to be able to contact the interior lip when the interior lip is pressed toward an interior of the vehicle by the door glass to deform.

A glass run includes a body part including exterior and interior side walls and a bottom wall connecting the exterior and interior side walls; an exterior lip projecting from the exterior side wall toward the bottom wall and configured to slidably contact an exterior side of a door glass; and an interior lip projecting from the interior side wall toward the bottom wall and configured to slidably contact an interior side of the door glass. The interior lip includes a base end portion extending toward the bottom wall and is curved to be oriented toward an exterior of the vehicle as extending to its distal end portion, and the interior side wall includes a protuberance protruding toward the exterior, and the protuberance is positioned to be able to contact the interior lip when the interior lip is pressed toward an interior of the vehicle by the door glass to deform.

A glass run includes: a bottom wall; a vehicle-outer-side side wall; and a vehicle-inner-side side wall. The bottom wall, the vehicle-outer-side side wall and the vehicle-inner-side side wall configure a basic framework being attached to a door frame groove portion formed in a door frame. The glass run guides an up and down movement of a door glass. A thick portion that protrudes to a vehicle inner side, is in sliding contact with the door glass, and has a higher hardness than that of the vehicle-outer-side side wall is formed on a vehicle inner side of the vehicle-outer-side side wall. When a thickness of the thick portion is set to t1 and a sum of thicknesses of the thick portion and the vehicle-outer-side side wall is set to T, t1 is 0.4 T or more and 1.0 T or less.

A door structure of a vehicle includes: an outer panel (4); an inner member (5, 11A) arranged on an inner side of the outer panel in a vehicle width direction; a rigid member (9) arranged between the inner member (5, 11A) and the outer panel (4); and a vibration suppression member (22) arranged between the outer panel (4) and the rigid member (9). The outer panel (4) includes a hem section (10f, 10r, 10u) disposed on a periphery thereof and connected to the inner member (5, 11A) by swaging. The vibration suppression member (22) includes a damping material (22A to 22C) located adjacent to the hem section (10f, 10r, 10u) and being in contact with the outer panel (4) and the rigid member (9).

A door structure of a vehicle includes: an outer panel (4); an inner member (5, 11A) arranged on an inner side of the outer panel in a vehicle width direction; a rigid member (9) arranged between the inner member (5, 11A) and the outer panel (4); and a vibration suppression member (22) arranged between the outer panel (4) and the rigid member (9). The outer panel (4) includes a hem section (10f, 10r, 10u) disposed on a periphery thereof and connected to the inner member (5, 11A) by swaging. The vibration suppression member (22) includes a damping material (22A to 22C) located adjacent to the hem section (10f, 10r, 10u) and being in contact with the outer panel (4) and the rigid member (9).

A window glass for a vehicle capable of suppressing, at a low cost, generation of an abnormal noise caused by entered wind. A window glass for a vehicle according to an aspect of the present disclosure is used for a fixed window of the vehicle and includes a glass plate and a molding made of a resin provided at a peripheral edge of the glass plate. In the molding, a molding lower part disposed on a lower side of the window glass for the vehicle is configured to be disposed on an inside of the door panel when the window glass for the vehicle is mounted to a door panel, and a plate-shaped member projecting toward an outside of the vehicle is provided at the molding lower part.

A window glass for a vehicle capable of suppressing, at a low cost, generation of an abnormal noise caused by entered wind. A window glass for a vehicle according to an aspect of the present disclosure is used for a fixed window of the vehicle and includes a glass plate and a molding made of a resin provided at a peripheral edge of the glass plate. In the molding, a molding lower part disposed on a lower side of the window glass for the vehicle is configured to be disposed on an inside of the door panel when the window glass for the vehicle is mounted to a door panel, and a plate-shaped member projecting toward an outside of the vehicle is provided at the molding lower part.

A roof system for a vehicle comprises a wind deflector member including a wind deflector body which extends in a transverse direction of the vehicle that is movable between a retracted position below a fixed roof and an extended position at least partly above the fixed roof. Wind deflector arms at the lateral ends of the wind deflector body extend substantially in a rearward direction and are at least rotatably connected to a stationary part. A sealing arrangement comprises a first seal is positioned between the wind deflector body and a panel that seals a gap between an the wind deflector body and the panel in its closed position. The first seal is configured to close a gap between the wind deflector arms and the panel. A second seal is closes a gap between the wind deflector member and the stationary part when the panel is in its closed position.

A roof system for a vehicle comprises a wind deflector member including a wind deflector body which extends in a transverse direction of the vehicle that is movable between a retracted position below a fixed roof and an extended position at least partly above the fixed roof. Wind deflector arms at the lateral ends of the wind deflector body extend substantially in a rearward direction and are at least rotatably connected to a stationary part. A sealing arrangement comprises a first seal is positioned between the wind deflector body and a panel that seals a gap between an the wind deflector body and the panel in its closed position. The first seal is configured to close a gap between the wind deflector arms and the panel. A second seal is closes a gap between the wind deflector member and the stationary part when the panel is in its closed position.

A glass run includes at least one of: an exterior sub-lip formed so as to project obliquely from an interior side of the exterior side wall that is closer to the bottom wall than a base portion of the exterior seal lip; an interior sub-lip formed so as to project obliquely in a direction toward a base portion of the interior seal lip from an exterior side of the interior side wall that is closer to the bottom wall than the base portion of the interior seal lip, the interior sub-lip formed with a thick portion on a base portion on a side of the interior seal lip; a thick portion formed on a base portion of the exterior seal lip; or a thick portion formed on a side of the interior seal lip that is not in contact with the door glass.