A carrier for releasable retaining a vehicle recovery board or similar cargo including a base plate proportioned, a pivot mount member with a crossbar wherefrom a pivotally connected, activating retainment arm with a fastener end is perpendicularly disposed and a stationary mount member with a receiving latch member. Downwardly disposed planar bottoms of pivot leg(s) and fixed leg(s) proximate to a respective one or another of the pair of opposed side edges of the base plate respectively affix pivot and stationary mount members in substantially longitudinal parallel alignment such that coupled engagement of a fastener end of the retainment arm and a receiving latch member on the stationary mount member securely retains the vehicle recovery board or other cargo on the carrier.

There is described a rack system for displacing a ladder between a loading/unloading position and a stored position respectively on a side and on a rooftop of the vehicle. The ladder rack system comprises a handle lever by which a user applies an input angular movement. A gear assembly is connected to the handle lever and comprises gears to multiply the input angular movement into an output angular movement greater than the input angular movement. A linking member is pivotably connected to the gear assembly and is for undergoing and transmitting the output angular movement. A sliding arm assembly is to receive the output angular movement from the linking member, thereby being pivoted between the loading/unloading position in which the sliding arm assembly extends substantially vertically on the side of the vehicle and the stored position in which the sliding arm assembly extends substantially parallel to the rooftop.

A roof carrier for a vehicle is provided. The roof carrier includes roof side tubes extendedly provided on opposite sides of a vehicle body along a front-rear direction of the vehicle from opposite sides of a cowl in a front side of the vehicle to opposite sides of a rear roof rail in a rear side of the vehicle while providing a closed cross section. The roof carrier further includes at least one middle roof rail extendedly provided along a transverse direction of the vehicle to connect the roof side tubes on opposite sides between the cowl and the rear roof rail while providing a closed cross section.

A roof carrier for a vehicle is provided. The roof carrier includes roof side tubes extendedly provided on opposite sides of a vehicle body along a front-rear direction of the vehicle from opposite sides of a cowl in a front side of the vehicle to opposite sides of a rear roof rail in a rear side of the vehicle while providing a closed cross section. The roof carrier further includes at least one middle roof rail extendedly provided along a transverse direction of the vehicle to connect the roof side tubes on opposite sides between the cowl and the rear roof rail while providing a closed cross section.

An adjustable tower stud assembly is disclosed for securing an object, such as a roof rack, to an external panel such as the roof of a vehicle. The object requires more support than can be provided by the external panel and it is also connected to a sub-surface support. Upper and lower collared studs are connected by a threaded connection that allows the length of the tower stud assembly to be adjusted. Stops on a lower collar ground the tower stud assembly to the sub-surface support after the tower stud assembly is adjusted to the proper length.

An adjustable tower stud assembly is disclosed for securing an object, such as a roof rack, to an external panel such as the roof of a vehicle. The object requires more support than can be provided by the external panel and it is also connected to a sub-surface support. Upper and lower collared studs are connected by a threaded connection that allows the length of the tower stud assembly to be adjusted. Stops on a lower collar ground the tower stud assembly to the sub-surface support after the tower stud assembly is adjusted to the proper length.

The present invention relates to a ladder rack for holding a ladder, the ladder rack comprising an arm extending longitudinally from a proximal end to a distal end; a slidable member which is slidably mounted on the arm; a first clamp fixed to the arm; a second clamp fixed to the slidable member at a distance from the first clamp; a handle pivotally connected to the distal end of the arm; a pivoting member pivotally connected on one end to the handle and on another end to the slidable member; whereby upon pivoting the handle upwardly, the pivoting member is forced to pivot at both ends thereof and to push on the slidable member, which translates toward the proximal end, reducing the distance between the first clamp and the second clamp.

The present disclosure relates to a low profile, highly aerodynamic swing-in-place style vehicle article carrier system for use on a wide variety of passenger cars and trucks. The system makes use of a pair of side rails that are used to support a pair of cross bars in stowed positions thereon where the cross bars are secured parallel to the side rails, or in operative positions where the cross bars are secured perpendicularly between the side rails. The side rails each incorporate a rotating end support subsystem which automatically elevates one end of its associated cross bar when the cross bar is moved pivotally into its operative position. This enables the cross bars to form a very low profile when in their stowed positions, but to be automatically raised a predetermined distance when moved into their operative positions, to thus provide additional clearance between the cross bars and an outer body surface of the vehicle.

A roof rack assembly is provided herein. A pair of support racks are provided on a roof structure of a vehicle. A first light source is coupled to each of the support racks and is disposed to downwardly project a light beam across a hood of the vehicle. A second light source is coupled to each of the support racks and is disposed to downwardly project a light beam to illuminate a corresponding ground area proximate a corner of the vehicle. A third light source is coupled to each of the support racks and is disposed to downwardly project a light beam to illuminate a corresponding ground area proximate a door of the vehicle.

In a first aspect, the present invention relates to a support system for mounting a load to a removable vehicle canopy on a vehicle, comprising a pair of support frames configured to be installed on opposing internal side walls of the removable vehicle canopy, a pair of support feet configured to be installed on an internal surface of the removable vehicle canopy, and a plurality of mounting elements on an external surface of the canopy and arranged for mounting the load thereto, each of the support frames and support feet having one of the plurality of mounting elements affixed thereto by a mechanical fastener extending through a hole in the canopy, wherein the support system is configured to be installable onto the removable vehicle canopy while the canopy is mounted to the vehicle, such that when the canopy having the support system installed is mounted to the vehicle, the support system substantially distributes the mounted load into the vehicle and substantially inhibits distribution into or through the canopy. The invention further includes a second aspect being a method of installation of an embodiment of the first aspect.