A clamp assembly is provided for securing a panel or fairing to an I-beam, and comprises a pair of side blocks and a clamping block having a central body and a flat surface at at least one end of the central body. The side blocks and the clamping block are secured together using a single bolt. The flat surface at the end of the central body is positioned at an angle to the central body, so as to provide an angled surface for mounting of a fairing.

A safety guard for a vehicle, such as a school or transit bus, includes a skirt extending below a side body portion of the vehicle and between front and rear wheels along a side of the vehicle. The skirt functions to push individuals and other animate objects out of the path of the wheels for safety purposes, while being mounted for separate linear and arcuate movements relative to the body of the vehicle to protect the guard from damage upon abutting an inanimate object during operation of the vehicle.

A retractable under-guard, for example for dual-purpose trucks that travel on-road and off-road, provides impact protection to other vehicles colliding with the truck, but is raised for off-road travel to avoid obstacles. The under-guard connects by a frame wrap to horizontal frame beam(s) of many different trucks and does not hang down in its retracted position to an extent that it interferes with off-road travel. For entering the road, the guard frame pivots downward to the desired position at or near the outer perimeter of the truck, and typically about half way between the truck frame and the ground in the space into which a lower vehicle would enter in a collision. Hook and pin systems, and/or impact plates, maintain the under-guard in proper position upon an impact. The under-guard system may automatically deploy above a predetermined truck speed, to ensure deployment when the truck re-enters the roads.

A side underride system configured to be coupled to a trailer may comprise a first skirt wall coupled to the trailer, positioned below a first side wall of the trailer, and extending along a first length of the trailer between a skirt wall front end and a skirt wall rear end and a cable system including a first cable coupled to the trailer, positioned below the first side wall, and extending along a second length of the trailer between a cable system front end and a cable system rear end, the skirt wall rear end being positioned forward of the cable system rear end.

The present invention is related to an aerodynamic side skirt assembly for attaching a panel to a trailer or semi-trailer. The present invention comprise a coupler configured to be attached to a frame rail of the trailer and to a panel, a compressible element preferably with a curved shape used as a damper and a bracket with a preferably flat surface connected to the panel and a rib through the length of the bracket.

A safety guard is configured to extend down from a body portion of a vehicle for engaging animate and inanimate objects in order to prevent the objects from going under the vehicle. A detection system is also provided, including a plurality of sensors configured to sense an impact experienced by the safety guard and a control unit for analyzing the impact. The analysis can result in various actions being taken, including issuance of an impact warning, an evaluation on the cause of the impact, an assessment on any operator negligence associated with the impact and/or a notification regarding a need to replace the safety guard due to the impact.

A composite material structural member including a core member, composite material members, and at least one composite material sheet. The members are disposed around the core member and are adhered to each other to form a hollow space. The composite material sheet is disposed between the core member and the members so as to overlap the bonded portion between the members. The composite material sheet forms a hollow composited structure together with the members.

A retractable under-guard, for example for dual-purpose trucks that travel on-road and off-road, provides impact protection to other vehicles colliding with the truck, but is raised for off-road travel to avoid obstacles. The under-guard connects by a frame wrap to horizontal frame beam(s) of many different trucks and does not hang down in its retracted position to an extent that it interferes with off-road travel. For entering the road, the guard frame pivots downward to the desired position at or near the outer perimeter of the truck, and typically about half way between the truck frame and the ground in the space into which a lower vehicle would enter in a collision. Hook and pin systems, and/or impact plates, maintain the under-guard in proper position upon an impact. The under-guard system may automatically deploy above a predetermined truck speed, to ensure deployment when the truck re-enters the roads.

A side underride guard for attachment to the underside of a trailer comprising two guard rails longitudinally positioned below the outer sides of the trailer, with each guard rail attached to the trailer by a plurality of vertical support members and with the two guard rails attached to each other and the trailer by a plurality of diagonal support members. The side underride guard further supports and incorporates an aero skirt for reducing trailer drag.

A fairing assembly for a commercial vehicle is disclosed. The fairing assembly includes a fairing and a mounting system for mounting the fairing on a frame of the commercial vehicle. The mounting system includes a first mounting bracket assembly mounted on the fairing and a second mounting bracket assembly configured to be mounted on the frame. The mounting system is configured to hold the fairing in a covering position for laterally covering at least a major portion of a wheel of the commercial vehicle and allow the fairing and the first mounting bracket assembly to pivot from the covering position into an intermediate position and translationally move along the second mounting bracket assembly in a transverse direction of the commercial vehicle from the intermediate position into a stowed position in which the fairing rests on the second mounting bracket assembly via the first mounting bracket assembly.