An open trailer for carrying an all-terrain vehicle (ATV) has a front hoop assemble that is slidably connected to tongue assembly and a rear hoop assembly that that is fixedly connected to a proximal end of the tongue assembly. The rear hoop assembly comprises an axle to which are attached to tires and two ramps. When in use, the vehicle is driven up the ramps and onto the trailer until the front wheels of the vehicle are supported by the front hoop assembly. As the vehicle continues to be driven onto the trailer, the front wheels push the front hoop assembly toward a distal end of the tongue assembly until the rear wheel of the vehicle are supported by the rear hoop assembly.

In a combination of a securing eye, which has a fastening portion and an eye portion, and a holding plate, the fastening portion includes a first fastening part, which incorporates the eye portion, and a second fastening part. The first fastening part has a fastening element which can be brought into a positive connecting effect with the holding plate by a rotational and/or translational mounting movement of the first fastening part. The second fastening part can be fastened to the holding plate and, in the fastened state, prevents the positive connection between the first fastening part and the holding plate from being released.

A stowage system (14) is provided for stowing a two-wheeled vehicle (30) in a motor vehicle (12), having a loading floor (16) for depositing the two-wheeled vehicle (30), and a lifting device (20) which can be supported on a load-bearing structure (22) of the motor vehicle (12) for moving the loading floor (16) between a loading position and a stowing position. The loading floor (16) has at least one three-dimensionally shaped first centring means (26) for positioning the two-wheeled vehicle (30) at least in a first coordinate direction relative to the loading floor (16). A two-wheeled vehicle (30) can be stowed in a space-saving manner and protected against damage by of the loading floor (16) which can be lowered and the at least one centring means (26).

A vehicle tow assembly includes an elongated, rigid upper member that attaches to a tow vehicle, and a rigid, elongated lower member that attaches, using U-bolts and/or a chain, to a vehicle to be towed. A downwardly-slanting connecting member connects the upper and lower members such that the upper member is higher off the ground than the lower member. A saddle block on the upper member can be turned one way to engage the fifth wheel of the tow vehicle and can be flipped 180 degrees to engage the frame of the tow vehicle when no fifth wheel is present.

A vehicle tow assembly includes an elongated, rigid upper member that attaches to a tow vehicle, and a rigid, elongated lower member that attaches, using U-bolts and/or a chain, to a vehicle to be towed. A downwardly-slanting connecting member connects the upper and lower members such that the upper member is higher off the ground than the lower member. A saddle block on the upper member can be turned one way to engage the fifth wheel of the tow vehicle and can be flipped 180 degrees to engage the frame of the tow vehicle when no fifth wheel is present.

A vehicle restraint system for an auto-rack railroad car which includes an active chock and an anchor chock configured to co-act to secure a vehicle in the auto-rack railroad car. In various embodiments, each chock has a chock body including a substantially diamond shaped elongated tube which includes four integrally connected elongated walls. In various embodiments, for each chock, various components of that chock extend substantially along longitudinal axis that lie in the same or substantially the same vertical plane as the apex and trough of the substantially diamond shaped elongated tube of the chock body. The active and anchor chocks: (a) have a lower height than known commercially available vehicle restraints; (b) have a smaller width than known commercially available vehicle restraints; (c) position the strap and the torque tube closer to the tire of the wheel than any known commercially available vehicle restraints; (d) take up a smaller area of each safe zone adjacent to the wheel than known commercially available vehicle restraints; (e) provide a greater strength to size ratio than known commercially available vehicle restraints; and (f) are easy to operate, install, and remove.

A vehicle restraint system for an auto-rack railroad car which includes an active chock and an anchor chock configured to co-act to secure a vehicle in the auto-rack railroad car. In various embodiments, each chock has a chock body including a substantially diamond shaped elongated tube which includes four integrally connected elongated walls. In various embodiments, for each chock, various components of that chock extend substantially along longitudinal axis that lie in the same or substantially the same vertical plane as the apex and trough of the substantially diamond shaped elongated tube of the chock body. The active and anchor chocks: (a) have a lower height than known commercially available vehicle restraints; (b) have a smaller width than known commercially available vehicle restraints; (c) position the strap and the torque tube closer to the tire of the wheel than any known commercially available vehicle restraints; (d) take up a smaller area of each safe zone adjacent to the wheel than known commercially available vehicle restraints; (e) provide a greater strength to size ratio than known commercially available vehicle restraints; and (f) are easy to operate, install, and remove.

A mobility securement system, and method for securing a wheelchair or other mobility device, and its passenger, within a public or private vehicle. In various embodiments, the system includes one or two attachment members, one or two vehicle anchor assemblies and, potentially, at least one fixed or moveable bumper, and may further include a barrier. A tensioning assembly is operably connected to at least one attachment member and vehicle anchor assembly. One or more moveable bumpers are configured to articulate to in turn apply a force against the mobility device, and one attachment member may be hidden behind a stored position of a moveable bumper.

A mobility securement system, and method for securing a wheelchair or other mobility device, and its passenger, within a public or private vehicle. In various embodiments, the system includes one or two attachment members, one or two vehicle anchor assemblies and, potentially, at least one fixed or moveable bumper, and may further include a barrier. A tensioning assembly is operably connected to at least one attachment member and vehicle anchor assembly. One or more moveable bumpers are configured to articulate to in turn apply a force against the mobility device, and one attachment member may be hidden behind a stored position of a moveable bumper.

A vehicle restraint system for an auto-rack railroad car which includes an active chock and an anchor chock configured to co-act to secure a vehicle in the auto-rack railroad car. In various embodiments, each chock has a chock body including a substantially diamond shaped elongated tube which includes four integrally connected elongated walls. In various embodiments, for each chock, various components of that chock extend substantially along longitudinal axis that lie in the same or substantially the same vertical plane as the apex and trough of the substantially diamond shaped elongated tube of the chock body. The active and anchor chocks: (a) have a lower height than known commercially available vehicle restraints; (b) have a smaller width than known commercially available vehicle restraints; (c) position the strap and the torque tube closer to the tire of the wheel than any known commercially available vehicle restraints; (d) take up a smaller area of each safe zone adjacent to the wheel than known commercially available vehicle restraints; (e) provide a greater strength to size ratio than known commercially available vehicle restraints; and (f) are easy to operate, install, and remove.