A tribologically modified polyoxymethylene polymer composition is disclosed. The polyoxymethylene polymer composition is comprised of a polyoxymethylene polymer, reinforcing fibers, and at least one tribological modifier. The tribological modifier, in one embodiment, can comprise a graft copolymer. The use of a graft copolymer has been found to unexpectedly and dramatically improve noise generation when tested against various substrates, especially glass substrates.

This disclosure details exemplary adjustable glass track systems for vehicles. In some embodiments, the glass track systems may establish a continuous sealing plane relative to a glass pane of a frameless door. In other embodiments, the glass track systems may additionally establish a continuous sealing plane relative to a vehicle roof structure. Exemplary adjustable glass track systems may include, among other features, a tubular frame rail, a channel rail, appliques, and seals.

A pivoting cursor for a frameless window of a vehicle door, including: a main body portion; a pivoting plate pivotally secured to the main body portion for pivotal movement about an axis; a glass clamping plate; a seal; an adjusting screw for pivoting the pivoting plate with respect to the main body portion, the adjusting screw having a first threaded portion for threadingly engaging an opening in the main body portion; and a locking nut for threadingly engaging a second threaded portion of the adjusting screw, wherein the locking nut is located on an inboard side of the pivoting cursor.

A door assembly for a vehicle is provided. The door assembly includes an inner panel and an outer panel which are joined together to define a central space therebetween. The central space has a front which faces towards the front of a vehicle and a back which faces towards a back of the vehicle. Both the inner and outer panels are made of aluminum, and at least one reinforcement beam made of steel is disposed in the central space between the aluminum inner and outer panels to provide the door assembly with increased impact resistance.

The vehicle door module according to the present invention is provided with: a base attached to an opening of an inner panel; a window glass raising/lowering device attached to the base, the window glass raising/lowering device provided with a window glass cable for pulling a window glass, a window glass drum for winding the window glass cable, a window glass raising/lowering motor for rotating the window glass drum, and at least one pulley for guiding the window glass cable; and a support for supporting the pulley, the support being provided to the base and supported by an edge part of the opening of the inner panel.

A backdoor structure for a vehicle, the backdoor structure comprising an upper window and a lower window, a rear spoiler disposed between the windows and projecting toward the rear of the vehicle, a backdoor frame supporting both windows and the rear spoiler, and a resin panel, wherein the resin panel comprises a window portion functioning as the lower window and a spoiler portion functioning as the rear spoiler, the window portion and the spoiler portion being integrated by resin molding.

This disclosure details exemplary adjustable glass track systems for vehicles. In some embodiments, the glass track systems may establish a continuous sealing plane relative to a glass pane of a frameless door. In other embodiments, the glass track systems may additionally establish a continuous sealing plane relative to a vehicle roof structure. Exemplary adjustable glass track systems may include, among other features, a tubular frame rail, a channel rail, appliques, and seals.

A window regulator module for a motor vehicle includes a pair of window regulator rails operably coupled to one another via at least one cable wrapped about pulleys on the window regulator rails. Each window regulator rail has a body extending lengthwise between opposite ends. The body has a main body portion and a guide edge along which a lifter travels upwardly and downwardly. The main body portion is plastic and the guide edge is metal. The metal guide edge provides the window regulator module with increased stiffness and increased cross-vehicle stability to a window carried by the lifters.

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 vehicle door assembly includes a door housing configured for covering a vehicle access opening. A frame member is disposed within the door housing. A module includes an intrusion beam coupled to the frame member and removable from the door housing. The module is configured to accept attachment of a module hinge and a module latch to provide a secondary door assembly. A modular vehicle door assembly and a method of assembling a door assembly to a vehicle are also disclosed.