An exhaust finisher assembly for a vehicle includes an exhaust finisher and a deflector. The exhaust finisher is configured to be connected to a rear bumper fascia of the vehicle. The deflector is connected to the exhaust finisher. The deflector includes a first portion connected to the exhaust finisher and a second portion extending outwardly from the first portion.

A heat-shielding device with at least one flat shielding layer, the heat-shielding device being equipped and embodied to be suitable for shielding a protected component or region from the heat of a heat source wherein a passive cooling module is connected to the shielding layer in a thermally conductive fashion in at least one area of the at least one shielding layer that is subjected to a high thermal load.

An off-road vehicle having a frame, a plurality of ground engaging members operably coupled to the frame, a seat supported by the frame and configured to support an operator, an engine supported by the frame, a body supported by the frame, and a liner coupled to the body, where the liner is configured to be positioned between the body and a heat source of the off-road vehicle, and an air gap extends between the liner and the body.

An assembly includes a vehicle component and a heat shield. The vehicle component includes a main body, a first plurality of teeth projecting from a first side of the main body, and a second plurality of teeth projecting from a second side of the main body opposite of the first side. The heat shield includes a first shell and a second shell. The first shell defines a first plurality of windows configured to receive the first plurality of teeth. The second shell defines a second plurality of windows configured to receive the second plurality of teeth. The heat shield is attachable to the vehicle component by positioning the heat shield such that the first plurality of teeth projects through the first plurality of windows and the second plurality of teeth projects through the second plurality of windows.

Multifunction noise suppression and crash structures are disclosed. In one aspect of the disclosure, the multifunction structure includes a body, inlet and outlet pipes, and a plurality of walls within the body that bound resonator cells and that are configured to suppress exhaust noise passing through the resonator cells from the inlet to the outlet pipes. The structure may be positioned between crash rails at the rear of the vehicle and between the engine and bumper. The walls may be generally aligned with, or near, the predicted impact direction and they may crumple in a controlled manner during an impact. In various embodiments the structure is 3D printed to enable construction of a wide diversity of geometric topologies and to minimize mass.

A fastening device for fastening a shielding part to a partnered fastening part, having: a sleeve with a through opening for a fastener; at least two bridging elements, which are equipped with outer regions in a radial direction for indirect or direct contact with the opposing outsides of the shielding part and are fastened to the sleeve with inner regions in the radial direction; a damping element is positioned between the bridging elements in an axial direction and outside of the sleeve in the radial direction, characterized in that the damping element is embodied as a spring element and has at least one spring arm, which is resiliently flexible in the radial direction and is equipped to cooperate in a supporting way with a hole rim of a hole of the shielding part.

A underbody structure includes a tunnel brace (22) laid on a floor tunnel (18) of a vehicle. The tunnel brace (22) has a front convex section (71), a central groove section (72) and a rear convex section (73). The front convex section (71), the central groove section (72) and the rear convex section (73) are formed to have equal width dimensions with each other. The tunnel brace (22) is formed so as to have an M-shaped cross section by the front convex section (71), the central groove section (72) and the rear convex section (73). The tunnel brace (22) is formed such that the width dimension of the tunnel brace in the vehicle body forward/rearward direction has a maximum value at right and left end portions (22a, 22b) and has a minimum value at a central section (22c).

An insulation system for a vehicle includes a vehicle component that operates at an operating temperature that is higher than an initial temperature, an insulation member thermally coupled to the vehicle component and thermally coupled to an ambient medium, the insulation member including an enclosed chamber, the enclosed chamber including a chamber wall that defines an interior volume, and carbon dioxide positioned within the interior volume of the enclosed chamber, where the chamber wall prevents flow of the carbon dioxide out of the enclosed chamber.

Textile hose for encasing elongated objects, characterised by having a radially elastic outer layer made from wear-resistant material and at least one inner layer made from thermally insulating material.

A fastening device for fastening a decoupling device relative to a hole rim of a hole opening of a shielding part; to achieve the vibration-decoupling connection of a bushing to the shielding part, the decoupling device has at least one bridge element, which, at its radially outer edge, has fasteners for producing a fastening connection of the bridge element to the hole rim of the shielding part, wherein the fasteners comprise at least four tabs which, starting from the bridge element, protrude radially outward and a subset of at least two tabs of the bridge element is provided to rest against a first outside of the shielding part and a remainder of at least two tabs is provided to rest against an opposite second outside of the shielding part and the hole rim can be immobilized with a force fit relative to the decoupling device by means of the tabs of the subset and the tabs of the remainder.