There are provided a pillar attached to a vehicle-body side separately from a roof, a pillar-side weather strip provided at the pillar, a vehicle-body-side weather strip provided at a vehicle-body side of a lower portion of the pillar, and an engagement portion provided at a lower end portion of the pillar-side weather strip, the engagement portion being configured to engage from an inward side, in a vehicle width direction, of the vehicle-body-side weather strip. The vehicle-body-side weather strip comprises a guide portion which guides the engagement portion of the pillar-side weather strip inward and downward, an engaged portion positioned at a lower portion of the guide portion, and a wall portion which contacts a hanging piece provided at the lower end portion of the pillar-side weather strip from an outward side in the vehicle width direction.

There are provided a pillar attached to a vehicle-body side separately from a roof, a pillar-side weather strip provided at the pillar, a vehicle-body-side weather strip provided at a vehicle-body side of a lower portion of the pillar, and an engagement portion provided at a lower end portion of the pillar-side weather strip, the engagement portion being configured to engage from an inward side, in a vehicle width direction, of the vehicle-body-side weather strip. The vehicle-body-side weather strip comprises a guide portion which guides the engagement portion of the pillar-side weather strip inward and downward, an engaged portion positioned at a lower portion of the guide portion, and a wall portion which contacts a hanging piece provided at the lower end portion of the pillar-side weather strip from an outward side in the vehicle width direction.

A roof side weather strip for an automobile includes: a mounting base portion; and a seal portion, wherein: the seal portion is separately provided with a first seal portion and a second seal portion; the mounting base portion at least has a bottom wall and a vehicle interior side wall, the vehicle interior side wall is formed of a solid material, and a portion of the roof side weather strip other than the vehicle interior side wall is formed of a sponge material; the bottom wall has a bottom wall vehicle exterior portion and a bottom wall connecting portion; and the vehicle interior side wall has a vehicle interior side wall root portion, a vehicle interior side wall distal end portion, and a vehicle interior side wall main body portion, and a vehicle interior side wall engaging projection is formed in the vehicle interior side wall root portion.

A roof side weather strip for an automobile includes: a mounting base portion; and a seal portion, wherein: the seal portion is separately provided with a first seal portion and a second seal portion; the mounting base portion at least has a bottom wall and a vehicle interior side wall, the vehicle interior side wall is formed of a solid material, and a portion of the roof side weather strip other than the vehicle interior side wall is formed of a sponge material; the bottom wall has a bottom wall vehicle exterior portion and a bottom wall connecting portion; and the vehicle interior side wall has a vehicle interior side wall root portion, a vehicle interior side wall distal end portion, and a vehicle interior side wall main body portion, and a vehicle interior side wall engaging projection is formed in the vehicle interior side wall root portion.

Disclosed embodiments may include a vehicle without a B-pillar that has barn doors and partially frameless windows. The barn doors may include a window seal system having a primary seal for creating a watertight barrier when the window is in a first closed position. Upon the vehicle exceeding a predetermined speed threshold, the vehicle may automatically raise the window from the first closed position to being in a second closed position in which a secondary seal secures the window to prevent buffeting of the window. Disclosed embodiments may further include a seal and door structure that provides a pair of seals (an inner seal and an outer seal) between the front and rear barn doors that provide a watertight barrier when the doors are closed together and that also allows for each of the front and rear doors to be independently opened and closed in a barn-door fashion.

Disclosed embodiments may include a vehicle without a B-pillar that has barn doors and partially frameless windows. The barn doors may include a window seal system having a primary seal for creating a watertight barrier when the window is in a first closed position. Upon the vehicle exceeding a predetermined speed threshold, the vehicle may automatically raise the window from the first closed position to being in a second closed position in which a secondary seal secures the window to prevent buffeting of the window. Disclosed embodiments may further include a seal and door structure that provides a pair of seals (an inner seal and an outer seal) between the front and rear barn doors that provide a watertight barrier when the doors are closed together and that also allows for each of the front and rear doors to be independently opened and closed in a barn-door fashion.

This disclosure relates to a window system for a motor vehicle. The window system is configured to move one or more windows to a pre-drop position. A corresponding method is also disclosed. In some aspects, the techniques described herein relate to a window system for a motor vehicle, including: a window moveable between a fully closed position, a pre-drop position, and a short drop position; a sensor system configured to generate signals indicative of a presence of a recognized user adjacent the motor vehicle, and indicative of a proximity of the recognized user to the motor vehicle; and a controller configured to instruct the window to move from the fully closed position to the pre-drop position when a signal from the sensor system indicates the recognized user is adjacent the motor vehicle.

This disclosure relates to a window system for a motor vehicle. The window system is configured to move one or more windows to a pre-drop position. A corresponding method is also disclosed. In some aspects, the techniques described herein relate to a window system for a motor vehicle, including: a window moveable between a fully closed position, a pre-drop position, and a short drop position; a sensor system configured to generate signals indicative of a presence of a recognized user adjacent the motor vehicle, and indicative of a proximity of the recognized user to the motor vehicle; and a controller configured to instruct the window to move from the fully closed position to the pre-drop position when a signal from the sensor system indicates the recognized user is adjacent the motor vehicle.

Disclosed embodiments may include a vehicle without a B-pillar that has barn doors and partially frameless windows. The barn doors may include a window seal system having a primary seal for creating a watertight barrier when the window is in a first closed position. Upon the vehicle exceeding a predetermined speed threshold, the vehicle may automatically raise the window from the first closed position to being in a second closed position in which a secondary seal secures the window to prevent buffeting of the window. Disclosed embodiments may further include a seal and door structure that provides a pair of seals (an inner seal and an outer seal) between the front and rear barn doors that provide a watertight barrier when the doors are closed together and that also allows for each of the front and rear doors to be independently opened and closed in a barn-door fashion.

Disclosed embodiments may include a vehicle without a B-pillar that has barn doors and partially frameless windows. The barn doors may include a window seal system having a primary seal for creating a watertight barrier when the window is in a first closed position. Upon the vehicle exceeding a predetermined speed threshold, the vehicle may automatically raise the window from the first closed position to being in a second closed position in which a secondary seal secures the window to prevent buffeting of the window. Disclosed embodiments may further include a seal and door structure that provides a pair of seals (an inner seal and an outer seal) between the front and rear barn doors that provide a watertight barrier when the doors are closed together and that also allows for each of the front and rear doors to be independently opened and closed in a barn-door fashion.