A side rail for a cargo bed of a vehicle comprising an elongate body that defines a longitudinal axis; an axially extending drive channel disposed at a medial side of the body and defining an opening therein for receiving a drive chain, the drive channel having a recessed inner portion and a stepped outer portion adjacent the opening; a first receiving channel disposed within an upper wall of the outer portion of the drive channel and extending axially therealong; a first sealing member disposed within the first receiving channel; a second receiving channel disposed opposite the first receiving channel within a lower wall of the outer portion of the drive channel and extending axially therealong; and a guide element disposed within the second receiving channel and projecting upwardly therefrom, the guide element having an upper contact surface for slidably contacting a surface of the drive chain.

An automobile includes a body side panel including: a first pillar disposed rearward of a door of the automobile; a second pillar disposed rearward of the first pillar; an interior panel connecting the first pillar and the second pillar; a rear quarter panel attached to the exterior of the body side panel and forming a cavity between the rear quarter panel and the interior panel; and a retractable window disposed between the first pillar and the second pillar; wherein the retractable window is configured to move between a first position and a second position, the first position being defined by a roof of the automobile, the first pillar, and the second pillar, and the second position being inside the cavity.

An automobile includes a body side panel including: a first pillar disposed rearward of a door of the automobile; a second pillar disposed rearward of the first pillar; an interior panel connecting the first pillar and the second pillar; a rear quarter panel attached to the exterior of the body side panel and forming a cavity between the rear quarter panel and the interior panel; and a retractable window disposed between the first pillar and the second pillar; wherein the retractable window is configured to move between a first position and a second position, the first position being defined by a roof of the automobile, the first pillar, and the second pillar, and the second position being inside the cavity.

A vehicular slider window assembly for a vehicle includes at least one fixed window panel and a movable window panel that is movable along an upper rail and a lower rail at the at least one fixed window panel between a closed position and an opened position. The upper rail includes a channel, and a filler is disposed in the channel of the upper rail. The filler includes a filler body having opposite side walls and at least one obliquely angled end, and the filler includes compressible and flexible and deformable elements along respective ones of the side walls. The obliquely angled end or ends of the filler provide an indication as to whether the filler is disposed in the channel of the upper rail at the correct orientation relative to the upper rail or the incorrect orientation relative to the upper rail.

In attachment system provided with an industrial robot having a hand movable at an arm tip, a base is attached to the hand. The base supports a plurality of suction pads such that angles of virtual suction surfaces including suction pad ends intersect each other in a hand operating space. Under control of a control device, the respective pads suction a sealing material at the respective suction surfaces, and the position and orientation of the base is controlled in the operating space such that partial suction surfaces face a designated attachment position on the object. Further, an attachment surface of the sealing material is partially attached to the designated attachment position on the object, in a state the sealing material to part of which the partial suction pads are suctioned is still faced to the designated attachment position. Such steps are repeated for the remaining attachment positions of the object.

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 motor vehicle includes a body component defining a trunk and a trunk gutter, a weather strip attached is a distal end of the trunk gutter, a trunk lid adapted to be disposed in the trunk gutter when in a closed position, and a tail light assembly affixed to the body component. The tail light assembly includes a housing defining an inner surface of the tail light assembly affixed to the body of the motor vehicle by a fastener, a bracket disposed in the housing, a light source affixed to the bracket, an inner lens overlaying the light source, an opaque lens extension extending from a distal end of the inner lens obscuring the bracket and housing from a view rearward of the motor vehicle, and an outer lens overlaying the inner lens and the opaque lens extension.

A seal includes a base portion, a first retaining member extending from the base portion, and a second retaining member extending from the base portion. Each of the first and second retaining members is structured to be resiliently deflectable with respect to the base portion. A portion of the first retaining member extends opposite the base portion so as to define a first cavity therebetween. A portion of the second retaining member extends opposite the base portion so as to define a second cavity therebetween. The first cavity has an open side opening in a first direction toward the second cavity, and the second cavity has an open side opening in a second direction toward the first cavity.

A device for aligning a door seal when the door seal is applied to a door of a motor vehicle includes a receiving device for receiving the door in a defined manner, a holding device arranged on the receiving device for holding the door, a guiding device arranged on the receiving device and having a guiding strip for aligning the door seal in relation to the door when the door seal is applied to the door, and a rotation device for turning the receiving device about at least one axis of rotation.

A tool head assembly for crimping, the assembly including an internal cam that spins freely on a stationary shaft in one direction and locks onto the shaft in the other direction. That cam rotates against the moving slide forcing to move away from the stationary shaft opening a gap between rollers. A controller is programmed to have the drive rotate in one direction for a set time period, then reverse the rotation to begin the crimp process. The start rotation of the drive rotates the cam and opens the roller gap. The forward rotation allows the cam to swing, closing the gap and rotating the rollers around a seal. The tool eliminates the air cylinder and related pneumatic hoses and valve making the head smaller and allows a controller to communicate with any OEM production system to verify the tool has been used and was used correctly.