A vehicle may include: a body including an opening; a door constituted of metal, the door being configured to open and close the opening; a rail garnish constituted of resin, the rail garnish being disposed along an edge of the opening; and a seal member disposed along an edge of the door and configured to seal a gap between the door and the body when the door closes the opening. The rail garnish may include a fixed portion, a contact portion, and a first bend and a second bend disposed between the fixed portion and the contact portion. The first bend and the second bend each may extend along the contact portion in a longitudinal direction of the rail garnish and are bent in different directions. A thickness of the rail garnish may be locally small at one or both of the first bend and the second bend.

In at least some implementations, a vehicle door includes a first section having a first void, a second section having a first projection, a first intermediate member received within the first void and having an inner surface that defines an interior, wherein the first projection is received within the interior, and a first coupler coupled to the first projection. The interior of the first intermediate member has at least a portion that is larger than the portion of the first projection received within that portion of the interior to permit movement of the first projection relative to the intermediate member. The first coupler is coupled to the intermediate member to maintain the position of the first projection relative to the first section. In this way, the position of the second section may be adjusted relative to the first section and the adjusted position can be maintained.

The subject invention includes a fixed window assembly for a vehicle comprising a fixed glass, a trim portion having a polymeric base and a decorative member bonded to the polymeric base. An encapsulation is coupled to the fixed glass and the polymeric base to mount the trim portion in a spaced and adjacent position relative to the fixed glass. A method of manufacturing is also provided using first and second molding apparatuses. Polymeric material is injected into a first mold cavity of the first molding apparatus to form the polymeric base bonded to the decorative member. Polymeric material is injected into a second mold cavity of the second molding apparatus to form the encapsulation coupled to the fixed glass and simultaneously coupled to the polymeric base to mount the trim portion in an adjacent position to the fixed glass.

A door frame for a vehicle includes an inner frame configured such that a roof part corresponding to a roof of a vehicle body and a pillar part corresponding to a pillar of the vehicle body extend to be integrated with each other. A first outer frame is configured to extend along the roof part of the inner frame and to be coupled to the roof part so that a first glass run is fixed to the first outer frame. A second outer frame is configured to extend along the pillar part and to be coupled to the pillar part so that a second glass run is fixed to the second outer frame. The first glass run and the second glass run are both capable of absorbing impact when the door glass is inserted thereinto.

A motor vehicle side door includes a glass panel, a frame, and an elastomer run seal. The elastomer run seal includes at least one protruding rib that is located and dimensioned so as to be able to come into abutment against a free end of an inner wall of the frame when the at least one ascending strand is in a preliminary mounting position on the frame, and to be able to come into abutment against an inner wall of the frame when the at least one ascending strand is in a final mounting position on the frame, a gap between both inner and outer walls having a size which is higher when the run seal is in the preliminary mounting position than when it is in the final mounting position.

A fixed window glass with a division bar, includes a fixed window glass adapted to be fixed to a vehicle and having an edge portion; and a division bar attached to the edge portion, the division bar comprising a guide portion formed in a U-shaped in section configured to guide elevating and lowering movement of an elevating window glass; wherein the division bar further comprises a first member fixed to the edge portion of the fixed window glass, and a second member to be attachable to the first member from an exterior side of the vehicle; and wherein the second member is attached to the first member, and the division bar has an exterior side surface exposed on the exterior side of the vehicle such that the exposed exterior side surface forms a flush surface.

A system for reducing strain on a vehicle door comprises the vehicle door. The vehicle door comprises an inner panel and a division bar comprising a first portion and a second portion. The system further comprises a relief bracket configured to reduce strain on the inner panel when the vehicle door is closed. The relief bracket comprises a first portion coupled to the second portion of the division bar, a second portion coupled to the inner panel, and a relief portion extending between the first portion and the second portion.

A cab for a refuse vehicle includes a cab body defining a first door opening and a second door opening, a first door positioned over the first door opening, and a second door positioned over the second door opening. Each of the first door and the second door includes a door panel and a peep window positioned proximate a lower end of the door panel. The peep window includes an interior windowpane and exterior windowpane. Portions of the interior windowpane and the exterior windowpane are vertically offset and horizontally offset.

A guiding device for a sliding glass of a side door of a motor-vehicle comprises a sealing and guiding gasket guiding the sliding glass, secured to the structure of the door, and having a part extending along a door upright and into the lower structure of the door. This gasket part comprises two separate portions, namely an upper gasket portion, which extends along the door upright and is secured within a space defined between the door upright and an aesthetic panel of plastic material; and a lower gasket portion, which is arranged within the lower door structure and is assembled within a channel element of plastic material mounted within the lower door structure. The channel element of plastic material has an upper end portion protruding above the upper end of the lower gasket portion, and having inclined inner surfaces configured to guide the insertion of the glass into the lower gasket portion during assembly of the door.

A vehicle door including: an upright pillar sash extending in elevating/lowering directions of the window glass along one of front and rear edges of window glass; and an elevating/lowering mechanism that operates elevating/lowering movement of the window glass by a driving force of a drive source. The upright pillar sash includes: a design part on a vehicle exterior side; and a main body on vehicle interior side relative to the design part, the elevating/lowering mechanism includes: a slider secured to the glass; a guide rail that guides the slider to move in the elevating/lowering directions; and a transmission member that transmits the driving force from the drive source to the slider, the main body of the upright pillar sash houses the slider, guide rail, and transmission member, and the guide rail regulates movement of the slider in both vehicle interior/exterior directions, on a vehicle interior surface side of the glass.