A front fender cover attachment assembly for a vehicle includes a windshield molding, a hook assembly, a front fender cover, and an engaging member. The windshield molding is configured to receive a windshield. The hook assembly is connected to an end of the windshield molding. The front fender cover is configured to engage the hook assembly of the windshield molding. The engaging member is connected to the front fender cover and configured to engage the hook assembly. A free end of the hook assembly extends in a vehicle inboard direction.

A front fender cover attachment assembly for a vehicle includes a windshield molding, a hook assembly, a front fender cover, and an engaging member. The windshield molding is configured to receive a windshield. The hook assembly is connected to an end of the windshield molding. The front fender cover is configured to engage the hook assembly of the windshield molding. The engaging member is connected to the front fender cover and configured to engage the hook assembly. A free end of the hook assembly extends in a vehicle inboard direction.

An inflatable gate seal assembly includes a dump box that is mountable on a dump truck for carrying and dumping a load. A gate is hingedly coupled to the dump box for opening and closing the dump box. A conduit is integrated into the dump box and the conduit is fluidly coupled to an air compressor of the dump truck to receive compressed air from the air compressor. A control is positioned in a cab of the dump truck and the control is in electrical communication with the air compressor. A balloon is coupled to the dump box and the balloon is in fluid communication with the conduit. The balloon is inflated when the control is put in an on condition. Thus, the balloon engages the gate when the balloon is inflated and the gate is in the closed position to inhibit debris from passing between the dump box and the gate.

An inflatable gate seal assembly includes a dump box that is mountable on a dump truck for carrying and dumping a load. A gate is hingedly coupled to the dump box for opening and closing the dump box. A conduit is integrated into the dump box and the conduit is fluidly coupled to an air compressor of the dump truck to receive compressed air from the air compressor. A control is positioned in a cab of the dump truck and the control is in electrical communication with the air compressor. A balloon is coupled to the dump box and the balloon is in fluid communication with the conduit. The balloon is inflated when the control is put in an on condition. Thus, the balloon engages the gate when the balloon is inflated and the gate is in the closed position to inhibit debris from passing between the dump box and the gate.

The present invention relates to a profile section molded by the multi-injection molding of thermoplastic materials having different hardnesses, and forming a seal or a molding for the body of a motor vehicle, as well as to a method for manufacturing said profile section. Said profile section (10″) includes at least: an antifriction coating (13″) tightly bonded to a longitudinal sealing surface (12a″) of the profile section and intended enabling the latter to sealingly contact a mobile element of the vehicle, said sealing surface ending, substantially at a right angle at the respective ends thereof, in two transverse sealing edge surfaces of the profile section; and/or a decorative film (14″) tightly bonded to a visible longitudinal surface (11c″) of the profile section and intended for enhancing the appearance of said surface, wherein said visible longitudinal surface is separate from the sealing surface and ends, substantially at a right angle at the respective ends thereof, in two visible transverse edge surfaces of the profile section, characterized in that said materials are overmolded: (i) either on said coating(s) or on said film(s), which is/are tightly bonded, in a continuous manner, to at least one of the visible edge surfaces; (ii) or on said coating(s) and on said film(s), which are optionally tightly bonded, in a continuous manner, to at least one of the sealing edge surfaces and to at least one of the visible edge surfaces.

The present invention relates to a profile section molded by the multi-injection molding of thermoplastic materials having different hardnesses, and forming a seal or a molding for the body of a motor vehicle, as well as to a method for manufacturing said profile section. Said profile section (10″) includes at least: an antifriction coating (13″) tightly bonded to a longitudinal sealing surface (12a″) of the profile section and intended enabling the latter to sealingly contact a mobile element of the vehicle, said sealing surface ending, substantially at a right angle at the respective ends thereof, in two transverse sealing edge surfaces of the profile section; and/or a decorative film (14″) tightly bonded to a visible longitudinal surface (11c″) of the profile section and intended for enhancing the appearance of said surface, wherein said visible longitudinal surface is separate from the sealing surface and ends, substantially at a right angle at the respective ends thereof, in two visible transverse edge surfaces of the profile section, characterized in that said materials are overmolded: (i) either on said coating(s) or on said film(s), which is/are tightly bonded, in a continuous manner, to at least one of the visible edge surfaces; (ii) or on said coating(s) and on said film(s), which are optionally tightly bonded, in a continuous manner, to at least one of the sealing edge surfaces and to at least one of the visible edge surfaces.

A vehicle glazing includes a glazed element, at least one portion of extruded seal, at least one trim having an outer face and an inner face, and a core, having an elongate form and having, in cross section, a head and a foot, wherein the portion of extruded seal is manufactured by molding a plastic material on the glazed element.

A vehicle glazing includes a glazed element, at least one portion of extruded seal, at least one trim having an outer face and an inner face, and a core, having an elongate form and having, in cross section, a head and a foot, wherein the portion of extruded seal is manufactured by molding a plastic material on the glazed element.

A method for manufacturing an automobile weather strip comprises: (a) weather strip manufacturing step wherein the seam material and a thermoplastic elastomer are extruded and molded; (b) pretreatment step wherein the surface of the weather strip manufactured is pretreated; (c) slip agent applying step wherein a slip agent made by mixing silicone and polyurethane is applied to the surface of the weather strip pretreated through the pretreatment step; and (d) curing step wherein the slip agent coating layer formed through the slip agent applying step is cured.

A method for manufacturing an automobile weather strip comprises: (a) weather strip manufacturing step wherein the seam material and a thermoplastic elastomer are extruded and molded; (b) pretreatment step wherein the surface of the weather strip manufactured is pretreated; (c) slip agent applying step wherein a slip agent made by mixing silicone and polyurethane is applied to the surface of the weather strip pretreated through the pretreatment step; and (d) curing step wherein the slip agent coating layer formed through the slip agent applying step is cured.