A mud flap system is provided comprising a mounting device having a top and bottom including a walled recess extending into an inner volume of the mount and exiting out the bottom. The assembly also includes an elongated suspension bracket having a proximal end to the recess, a distal end defining a length and a thru slot running along the length, a stem extending from a bottom of the bracket at the proximal end, enabled to be inserted into the recess and out of the mounting device. A mud-flap is provided having a top having a thickness and a bottom of the mud flap is inserted through the slot and the thickness at the top suspends the mud flap until force applied to the mud flap causes the thickness at the top to deform and pass through the slot thereby releasing the mud flap from the suspension bracket.

A crash attenuation system having an improved, controlled axle release mechanism for a truck trailer mounted attenuator. The axle release mechanism has an axle release insert disposed within an outer bursting tube which is urged downstream by a mandrel resulting in controlled shearing of the fasteners passing through different size elongated slots in the insert and retaining the insert within the bursting tube. Differential shear forces cause the fasteners to shear at different times as the insert is urged downstream resulting in a controlled release of the breakaway axle assembly.

A rotating mudguard assembly having fixed and rotating parts includes a locking mechanism to limit the relative movement between the fixed and rotating parts of the assembly. The locking mechanism has a locking pin which can selectively engage with a locking plate, the pin and the plate on respective parts of the rotating mudguard assembly. The locking mechanism may be an integral part of the assembly, or the locking mechanism may be a kit of parts for installation on or retrofitting to an assembly.

An inwardly disposed trailer skirt panel assembly disposed laterally inset toward the longitudinal centerline of the vehicle. The trailer skirt panel assembly is suspended underneath a rearward body component of a truck or semitrailer, extending forwards in front of a rearward wheel assembly. The trailer skirt panel assembly stabilizes the generally static air passing under the central portion of the moving vehicle, further increasing the effective air pressure being developed immediately behind the vehicle to reduce drag thereon. See in particular FIGS. 26-50 and 52.

An inner wheel skirt panel centrally located under the body of a vehicle reduces overall vehicle drag by inhibiting air from otherwise being displaced laterally inward by the passing wheels of the moving vehicle. Maintaining air to remain generally static while passing under the vehicle through the central open-space between the wheels increases the effective air pressure developed immediately behind the vehicle to reduce overall drag developed between the front and rear of the vehicle. See FIGS. 21-24.

It is contemplated to arrange a plurality of operational levers without inviting complications of the arrangements or enlargement of the vehicle body, intensively for better operability between the driver's seat and one of the right and left rear fenders. In a riding work vehicle, a plurality of operational levers 25, 26 are disposed adjacent on the right and left sides between a driver's seat and one of right and left rear fenders 7. Of the plurality of operational levers 25, 26, an inner operational lever 25 disposed on the side of the driver's seat is displaceable in a front-rear direction of a vehicle body. Of the plurality of operational levers 25, 26, an outer operational lever 26 disposed on the side of the rear fender has an entire grip portion 26A thereof disposed more upwardly of the vehicle body than a grip portion 25A of the inner operational lever 25, the outer operational lever being displaceable in the front-rear direction of the vehicle body between a first operational position on more vehicle body front side than an operational range of the inner operational lever 25 and a second operational position on more vehicle body rear side than the operational range of the inner operational lever 25, the outer operational lever being position-retainable at the first operational position and the second operational position, respectively.

A work vehicle and a commodity tank configured for mounting on a work vehicle and storing material are provided. The commodity tank includes an inboard portion extending vertically and configured to be positioned at an inboard location of the work vehicle. The commodity tank further includes an outboard portion extending horizontally from an upper end of the inboard portion and configured to extend at least partially over a ground-engaging member of the work vehicle.

A fender assembly having a non-metallic fender panel configured in a curved manner generally prevents material from accumulating on surfaces thereof, reduces weight of the vehicle, and provides a necessary level of protection from flying rocks and other debris that the wheels of a truck may generate. A non-metallic material is used to form the fender panel, which has a desired level of strength, durability, pliability and coefficient of friction. By carefully selecting this material, the fabrication and installation of the fender assembly is further simplified, thus providing additional efficiency. When applied to a cement mixer truck, the curved fender assembly is particularly beneficial as it provides the necessary level of protection, while also discouraging a build-up of concrete on any surface since the non-metallic material will not generally allow concrete to adhere to the surface.

A fender for a lawn mower having tire and wheel assemblies that are mounted to a yoke of a swivel caster assembly, whereby the yoke pivots through 360 degrees of rotation, includes an arcuate fender body. The fender body is attached to the yoke by a bracket so that it is rotatably carried by the rotating yoke. As such, the fender body is maintained at an optimal position relative to the mower tire and thereby provides desirable deflection of lawn clippings and other debris from the various operational components provided upon the mower deck. This prevents the premature wear of such operational components, thereby decreasing down time and reducing maintenance costs of the mower.

Drag reducing systems for vehicles are provided. In one aspect, a drag reducing system generally includes a flow restricting deflector couplable to a mount and positioned upstream in a path of airflow to an object. The flow restricting deflector generally includes a body portion and a plurality of flow choking orifices configured to provide a choked airflow condition. In another aspect, the drag reducing system is configured for positioning adjacent a wheel and tire combination of a vehicle upstream in a path of airflow to the wheel and tire combination. The flow restricting deflector may be coupled to and extending downward from a splash shield adjacent the wheel and tire combination.

A fender assembly for an agricultural tractor including a carrier bracket which supports a wheel fender adjacent to a vehicle wheel. A steering mechanism is provided as part of the fender assembly, such that the wheel fender can be rotated relative to the carrier bracket. Accordingly, the rotation of the wheel fender can be controlled based on a steering signal generated by the vehicle steering system, to ensure that the wheel fender accurately follows the movement of the adjacent tractor wheel.