Multi-part mud flap adapters include a mounting bracket and a shaped cowling that integrates with and continues styling lines of the vehicles fenders, flares and trim to allow replaceable mud flaps to be secured to wheel wells, with the front face of the mud flap approximately tangent to the curve of the wheel well so that the mud flap does not reduce tire clearance.

A vehicle aerodynamic cover includes an upper body portion, a lower body portion and a boundary. The upper body portion defines a top edge. The lower body portion extends downwardly from the upper body portion and defines a bottom edge. The upper body portion is inclined in an inboard direction relative to the lower body portion when the aerodynamic cover is in an installed state. The boundary connects the upper and lower body portions.

There is provided a bracket which connects an apron reinforcement provided below a bonnet and an upper portion of a fender provided on an outward side, in a vehicle width direction, of the bonnet. The bracket comprises a fender fixing portion fixed to a flange portion of an upper end portion of the fender, a body portion extending downwardly from the fender fixing portion and positioned on the outward side of the apron reinforcement, and an apron-reinforcement fixing portion extending from an inward side, in the vehicle width direction, of the body portion toward the apron reinforcement and fixed to the apron reinforcement. The body portion is provided with a curved part which is configured to be curved outwardly in the vehicle width direction.

Resin plate-shaped mudguards 11 are disposed on vehicle width direction outer sides of left and right side members 7 below a cab. A cab rear member 12 is fixed to a vehicle body frame 5 and extends upward from the vehicle body frame 5 to support a rear end side of the cab from below. Mudguard brackets 17 for supporting the left and right mudguards 11 are fixed to an upper end portion of a support member 15L of the cab rear member 12. The mudguard 11 is disposed forward of the mudguard bracket 17 and supported by the mudguard bracket 17. A BSM radar 10 detects information of an object around a vehicle, is disposed on a vehicle width direction outer end portion behind the mudguard 11, and is fixed to a second bracket 19 of the mudguard bracket 17 via a radar bracket 20.

A wheelchair barrier attachment device prevents contamination of particles picked up from the ground by the wheelchair, by allowing the barrier between the wheel of the wheelchair and the propulsion rim in which the user must touch to operate the wheelchair.

An arrangement for holding a sidewall element on a bodyshell part of a bodyshell for a vehicle, in which arrangement the sidewall element is held on the bodyshell part by way of a bracket which is formed separately from the bodyshell part and separately from the sidewall element. The bracket is connected to the bodyshell part and to the sidewall element, wherein the bracket has a first retaining element connected to the bodyshell part and a second retaining element, which is connected to the sidewall element and is formed separately from the first retaining element and is connected to the first retaining element.

A tractor (1) has a mudguard device (5) including a cover element (50) suitable to surround at least along an arc of circumference the respective wheel assembly (100) and suitable to act as a separation element along a transverse axis (Y-Y) between the respective wheel assembly (100) and an operating area (200) containing components of the tractor (1). A support system (51) is suitable to attach the cover element (50) to the respective axle (10). The cover element (50) can be guided in movement from a covering position in which the cover element covers the respective wheel assembly (100) to an open position in which the operating area (200) is accessible, and vice versa.

A track work vehicle includes a track system. The track system includes a drive wheel supported by an axle housing that drives a continuous ground-engaging track, a saddle assembly that guides the track about the drive wheel and an undercarriage frame that supports one or more idler wheels that guide the track along a ground surface. The track work vehicle includes a fender assembly that includes at least one fender coupled to the track system to overlap a portion of the track.

A mud flap for a wheeled vehicle includes an upper mounting portion and an extended protection portion. The extended protection portion includes at least two areas with slotted air flow openings. An upper slot area includes rows of elongated slots with the slots arranged in columns in each row. A lower slot area includes rows of elongated slots with the slots arranged in columns in each row. The slots in the upper slot area have heights that are greater than the heights of slots in the lower slot area. In some embodiments, a middle slot area is positioned between the upper slot area and the lower slot area. The slots in the middle slot area have different heights in different rows. In some embodiments, at least a portion of the slots in the upper slot area is replaced with diagonal mounting features.

A vehicle structure comprising a body including a wheel house, a fender and an energy absorption member. The fender has an exposed A-side surface and an opposed B-side surface, with the fender including a laterally inner edge extending fore-and-aft that defines a portion of a hood opening, and the B-side surface adjacent to the laterally inner edge spaced from the wheel house in a vertical direction to define a crush gap. The energy absorption member is located in the crush gap between the wheel house and the fender, with the energy absorption member having a fender attachment flange secured to the B-side surface of the fender adjacent to the laterally inner edge, a body attachment flange secured to the wheel house, and an energy absorbing portion extending between the fender attachment flange and the body attachment flange, with the energy absorbing portion being curved in the vertical direction.