A door assembly for a motor vehicle comprised of an outer door panel and an inner door panel interconnected to define a door panel structure having an internal door cavity. A collapsible carrier module is configured to be oriented in a collapsed arrangement to facilitate installation into the door cavity through an opening in the inner door panel. The collapsible carrier module can be moved from its collapsed arrangement into an expanded arrangement upon installation within the door cavity to facilitate subsequent mounting to the door panel structure. The collapsible carrier module includes a two-piece carrier plate formed to integrally include a pair of laterally-spaced glass run channels and a pair of laterally-spaced slider rails.

A vehicle and method for lowering a window pane of a door of a vehicle to make it easier for the vehicle occupant to enter and exit the vehicle. The door has a door unlocking apparatus and a drive device for lowering and raising the window pane. The vehicle has an unlocking sensor, which registers the operation or the imminent operation of the door unlocking apparatus and converts the operation or imminent operation into corresponding unlocking signals, and a control unit, which receives the unlocking signals and converts the signals into operating signals for triggering the drive device. The method checks whether the door unlocking apparatus is operated or operation is imminent and, if the door unlocking apparatus is operated or operation is imminent, triggers the drive device with the control unit to lower the window pane to a position which is easier for the vehicle occupant to enter and exit the vehicle.

A vehicle and method for lowering a window pane of a door of a vehicle to make it easier for the vehicle occupant to enter and exit the vehicle. The door has a door unlocking apparatus and a drive device for lowering and raising the window pane. The vehicle has an unlocking sensor, which registers the operation or the imminent operation of the door unlocking apparatus and converts the operation or imminent operation into corresponding unlocking signals, and a control unit, which receives the unlocking signals and converts the signals into operating signals for triggering the drive device. The method checks whether the door unlocking apparatus is operated or operation is imminent and, if the door unlocking apparatus is operated or operation is imminent, triggers the drive device with the control unit to lower the window pane to a position which is easier for the vehicle occupant to enter and exit the vehicle.

The invention relates to a sheath stop including: a hole through which a window lift cable is to pass; and a sheath abutment for locking the sheath of the window lift cable on one side of the sheath stop and wherein, on the other side of the sheath stop, the sheath stop includes a shaft provided so as to be mounted onto a bracket of the sheath stop such that the sheath stop has a freely rotatable mounting configuration on the bracket. The shaft extends transversely to the main orientation of the passage hole, and the passage hole has a partial side clearance that allows the cable a degree of bending freedom within a plane perpendicular to the shaft when the sheath stop freely pivots about the shaft.

The invention relates to a sheath stop including: a hole through which a window lift cable is to pass; and a sheath abutment for locking the sheath of the window lift cable on one side of the sheath stop and wherein, on the other side of the sheath stop, the sheath stop includes a shaft provided so as to be mounted onto a bracket of the sheath stop such that the sheath stop has a freely rotatable mounting configuration on the bracket. The shaft extends transversely to the main orientation of the passage hole, and the passage hole has a partial side clearance that allows the cable a degree of bending freedom within a plane perpendicular to the shaft when the sheath stop freely pivots about the shaft.

A vehicle window system includes a vehicle door that has a window region. The system includes a fixed window having an exterior surface and an interior surface, a division bar, and a movable window. The fixed window is arranged in a first portion of the window region, and the division bar is arranged along a first region of the interior surface. The movable window is arranged in a second portion of the window region and is configured to close against the division bar. The division bar is not directly visible from outside of the vehicle door when viewed at an elevation of the fixed window. To illustrate, the movable window can be configured to move vertically within the first portion of the window region and the fixed window arranged at the top of the window region and the division bar is arranged substantially horizontally along the interior surface.

A vehicle window system includes a vehicle door that has a window region. The system includes a fixed window having an exterior surface and an interior surface, a division bar, and a movable window. The fixed window is arranged in a first portion of the window region, and the division bar is arranged along a first region of the interior surface. The movable window is arranged in a second portion of the window region and is configured to close against the division bar. The division bar is not directly visible from outside of the vehicle door when viewed at an elevation of the fixed window. To illustrate, the movable window can be configured to move vertically within the first portion of the window region and the fixed window arranged at the top of the window region and the division bar is arranged substantially horizontally along the interior surface.

A holder to be attached to a vehicle window plate includes a bottom portion, a first side portion provided to extend in a first direction perpendicular to the bottom portion and a second side portion opposite to the first side portion. A value t/w is 1.5 or more when a smallest value of distances between end portions of the first side portion and end portions of the second side portion is expressed by w, and a distance between a central portion of the first side portion and a central portion of the second side portion is expressed by t.

A holder to be attached to a vehicle window plate includes a bottom portion, a first side portion provided to extend in a first direction perpendicular to the bottom portion and a second side portion opposite to the first side portion. A value t/w is 1.5 or more when a smallest value of distances between end portions of the first side portion and end portions of the second side portion is expressed by w, and a distance between a central portion of the first side portion and a central portion of the second side portion is expressed by t.

A vehicle described in the present specification is configured such that a door includes an outer panel, a door trim, window glass configured to be manually raised and lowered, a belt molding, and a knob. The window glass is supported movably between an upper limit position at which the window glass closes an opening of a window frame and a lower limit position at which the window glass opens the opening of the window frame. The knob is configured to be gripped by a user who operates the window glass. The door trim includes a recess configured to face the knob and form a space when the window glass is placed at the lower limit position, the space being formed to receive a hand of the user, the hand gripping the knob.