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 motorcycle transport assembly includes a lift that may be removably coupled to a hitch on a vehicle. A rack is removably coupled to the lift and the lift selectively lifts and lowers the rack. Thus, the rack may be selectively lowered onto and lifted upwardly from a support surface. The rack may support a motorcycle thereby facilitating the vehicle to transport the motorcycle when the rack is lifted upwardly from the support surface.

A motorcycle transport assembly includes a lift that may be removably coupled to a hitch on a vehicle. A rack is removably coupled to the lift and the lift selectively lifts and lowers the rack. Thus, the rack may be selectively lowered onto and lifted upwardly from a support surface. The rack may support a motorcycle thereby facilitating the vehicle to transport the motorcycle when the rack is lifted upwardly from the support surface.

A frame system for supporting an associated vehicle for transport within an existing transportable structure having longitudinally extending side structures. The frame system has a transverse supporting frame supported by two vertical posts located one at each end of the supporting frame. Each post has an attachment for securing the top and bottom of the post at a plurality of locations along the length of the associated side structure and the supporting frame is raiseable with or without a vehicle loaded thereon and once raised is fixable to the posts at a chosen location for transport within the transportable structure. Each end of the support frame has an end plate for sliding up and down an inwardly facing surface on the adjacent vertical post as it is raised and lowered. At least one of the end plates has a telescopic connection with the remainder of the support frame.

A frame system for supporting an associated vehicle for transport within an existing transportable structure having longitudinally extending side structures. The frame system has a transverse supporting frame supported by two vertical posts located one at each end of the supporting frame. Each post has an attachment for securing the top and bottom of the post at a plurality of locations along the length of the associated side structure and the supporting frame is raiseable with or without a vehicle loaded thereon and once raised is fixable to the posts at a chosen location for transport within the transportable structure. Each end of the support frame has an end plate for sliding up and down an inwardly facing surface on the adjacent vertical post as it is raised and lowered. At least one of the end plates has a telescopic connection with the remainder of the support frame.

Various disclosed embodiments include systems for securing cargo to a dropdown tailgate of an automotive vehicle, systems for securing a bicycle to a dropdown tailgate of an automotive vehicle, and systems for securing cargo to a tailgate of an automotive vehicle. In an illustrative embodiment, a system for securing cargo to a dropdown tailgate of an automotive vehicle includes: a dropdown tailgate including a first elongated groove running along an inner panel of the dropdown tailgate; a first securing member, the first securing member including a first elongated arm; the first securing member being configured to be inserted into the first elongated groove, the received portion of the first securing member being slidingly moveable to a selectable position in the first elongated groove; and a first attachment mechanism, the first attachment mechanism being configured to secure the securing member to the first elongated groove.

A tire-mounting structure, the tire-mounting structure having a laterally extending end wall, two protrusions longitudinally extending from the end wall, the two protrusions spaced apart from one another, and a recess formed between the two protrusions. The recess is dimensioned such that a first distance between the two protrusions at a distal location relative to the end wall is longer than a second distance between the two protrusions at a proximal location relative to the end wall, where the first distance corresponds to a first tire dimension and the second distance corresponds to a second tire dimension, the second tire dimension being narrower than the first tire dimension.

A tire-mounting structure, the tire-mounting structure having a laterally extending end wall, two protrusions longitudinally extending from the end wall, the two protrusions spaced apart from one another, and a recess formed between the two protrusions. The recess is dimensioned such that a first distance between the two protrusions at a distal location relative to the end wall is longer than a second distance between the two protrusions at a proximal location relative to the end wall, where the first distance corresponds to a first tire dimension and the second distance corresponds to a second tire dimension, the second tire dimension being narrower than the first tire dimension.

A convex wheel chock includes a contact surface generally facing a vehicle tire, a support element connected to the contact surface to transfer a tire load from the contact surface, and a base portion coupled to the support element to provide structural support to the wheel chock and transfer the tire load to a ground surface. The contact surface includes a convex surface to be engaged by the tire, extending generally upwards from the base portion to the support element. The convex wheel chock may further include a concave extension surface joined to an upper end of the convex surface.

A convex wheel chock includes a contact surface generally facing a vehicle tire, a support element connected to the contact surface to transfer a tire load from the contact surface, and a base portion coupled to the support element to provide structural support to the wheel chock and transfer the tire load to a ground surface. The contact surface includes a convex surface to be engaged by the tire, extending generally upwards from the base portion to the support element. The convex wheel chock may further include a concave extension surface joined to an upper end of the convex surface.