A device for moving a window glass for a vehicle, may include a glass holder disposed on a door panel for the vehicle and supporting the window glass, and a curved rail guiding vertical movement of the glass holder and curved to form a hinge shaft.

A detachable hinge assembly configured to rotatably couple a window assembly to a vehicle body includes a support hinge member configured to couple to the vehicle body and including a hinge pin, and a window hinge member having a main body configured to couple to the window assembly, and one or more knuckles configured to removably receive the hinge pin. A cover is rotatably coupled to the window hinge member and includes a pin retaining arm. The cover is configured to move between a closed position where the pin retaining arm is positioned to retain the hinge pin within the one or more knuckles, and an open position where the pin retaining arm is positioned to allow the hinge pin to be removed from the one or more knuckles.

The principles and embodiments of the present disclosure relate generally to complexly curved laminates made from a complexly curved substrate and a flat substrate, such as automotive window glazings, and methods of cold forming complexly-curved glass products from a curved substrate and a flat substrate. In one or more embodiments, the laminate includes first complexly-curved glass substrate with a first surface and a second surface opposite the first surface, a second complexly-curved glass substrate with a third surface and a fourth surface opposite the third surface with a thickness therebetween; and a polymer interlayer affixed to the second convex surface and third surface, wherein the third surface and fourth surface have compressive stress values respectively that differ such that the fourth surface has as compressive stress value that is greater than the compressive stress value of the third surface.

A removable panel assembly for a vehicle window, the panel assembly includes a removable panel sized and shaped to overlie at least a portion of an outward-facing surface of a vehicle window. A first retainer is configured to secure the panel in abutting relation to the window, the first retainer including a first engagement element configured to engage a first edge of the window and a second engagement element configured to engage an inward-facing surface of the window. A second retainer is configured to secure the panel in abutting relation to the window, the second retainer including a third engagement element configured to engage a second edge of the window and a fourth engagement element configured to engage the inward-facing surface of the window.

The principles and embodiments of the present disclosure relate generally to complexly curved laminates made from a complexly curved substrate and a flat substrate, such as automotive window glazings, and methods of cold forming complexly-curved glass products from a curved substrate and a flat substrate. In one or more embodiments, the laminate includes first complexly-curved glass substrate with a first surface and a second surface opposite the first surface, a second complexly-curved glass substrate with a third surface and a fourth surface opposite the third surface with a thickness therebetween; and a polymer interlayer affixed to the second convex surface and third surface, wherein the third surface and fourth surface have compressive stress values respectively that differ such that the fourth surface has as compressive stress value that is greater than the compressive stress value of the third surface.

In various aspects, the present disclosure provides a component. The vehicle component includes a polymer matrix, a plurality of fibers in the polymer matrix, and a heating element embedded in the polymer matrix. The heating element may be (i) a discrete heating element, (ii) at least a portion of the plurality of fibers, or both (i) and (ii). The heating element is configured to be coupled to an external circuit to generate heat. In one aspect, the vehicle component is a vehicle header including an elongated body extending between a first side and a second side.

Disclosed are compositions comprising: a) one or more isocyanate functional components; b) one or more alkoxyalkyl benzoates; and c) one or more catalysts for the reaction of isocyanate moieties with hydroxyl groups. Disclosed is a method of bonding two or more substrates together comprising contacting two or more substrates together with a composition disclosed herein disposed along at least a portion of the area wherein the substrates are in contact. At least one of the substrates may be window glass. One of the other substrates may be a building or a vehicle.

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.

The window frame member has a horizontal bar shape, disposed between the upper window panel and the lower window panel and supports a lower end of the upper window panel and an upper end of the lower window panel. The window frame member has opposite longitudinal ends fixed to a B pillar and a C pillar, vertical pillars of the vehicle cabin, respectively. The seat cross member also has opposite longitudinal ends fixed to the B pillar and the C pillar. The window frame member and the seat cross member overlap each other at least partially in a portion along a vehicle height, and extend with a horizontal gap disposed therebetween over their entire lengths. The horizontal gap is less than a horizontal width of each of the window frame member and the seat cross member.

In various aspects, the present disclosure provides a component. The vehicle component includes a polymer matrix, a plurality of fibers in the polymer matrix, and a heating element embedded in the polymer matrix. The heating element may be (i) a discrete heating element, (ii) at least a portion of the plurality of fibers, or both (i) and (ii). The heating element is configured to be coupled to an external circuit to generate heat. In one aspect, the vehicle component is a vehicle header including an elongated body extending between a first side and a second side.