Embodiments disclosed herein describe systems and methods for a bead lock wheel line in scaled vehicles. The bead lock wheel line may include a wheel center section and a bead lock ring. The bead lock ring may be configured to be overlaid on the wheel center section, wherein screws may be inserted through orifices positioned within the bead lock ring and into orifices positioned on the wheel center section.

Embodiments disclosed herein describe systems and methods for a bead lock wheel line in scaled vehicles. The bead lock wheel line may include a wheel center section and a bead lock ring. The bead lock ring may be configured to be overlaid on the wheel center section, wherein screws may be inserted through orifices positioned within the bead lock ring and into orifices positioned on the wheel center section.

A beadlock to secure a tire to a wheel. The beadlock comprises a first grip element and a second grip element. The first grip element is welded to the outer rim of a wheel. A bead of the tire is positioned over the first grip element. The second grip element has a plurality of rib elements angularly spaced around its periphery. The second grip element is secured to the first grip element such that the ribs grip the bead to hold it in place and secure the tire to the wheel.

An apparatus and methods are provided for a bead-locking wheel for mechanically coupling a tire to a wheel rim of an off-road vehicle. The bead-locking wheel includes a barrel for mounting the tire and a bead lock face for fastening the barrel and tire to a wheel hub of the vehicle. The bead lock face is fastened to a shoulder disposed around an outboard end of the barrel. The shoulder and an outboard flange of the barrel cooperate with a periphery of the bead lock face to mechanically retain an outboard bead of the tire. Mechanically retaining the outboard bead facilitates a relatively low inflation pressure within the tire to accommodate off-road conditions and high tractive forces. The bead lock face maximizes a positive offset and backspacing of the bead-locking wheel to accommodate a relatively wide hub and spindle assembly while maintaining an advantageous steering geometry and track width.

An apparatus and methods are provided for a bead-locking wheel for mechanically coupling a tire to a wheel rim of an off-road vehicle. The bead-locking wheel includes a barrel for mounting the tire and a bead lock face for fastening the barrel and tire to a wheel hub of the vehicle. The bead lock face is fastened to a shoulder disposed around an outboard end of the barrel. The shoulder and an outboard flange of the barrel cooperate with a periphery of the bead lock face to mechanically retain an outboard bead of the tire. Mechanically retaining the outboard bead facilitates a relatively low inflation pressure within the tire to accommodate off-road conditions and high tractive forces. The bead lock face maximizes a positive offset and backspacing of the bead-locking wheel to accommodate a relatively wide hub and spindle assembly while maintaining an advantageous steering geometry and track width.

The rolling assembly has a rotation axis and a rim having rim seats and flanges, an adapter and a tire having beads. The adapter provides the connection between one of the beads and the rim. The rim comprises a portion of a width W extending outwardly from the flange and a connecting introduction portion and a body. The body has a point A that is 10% of W axially inward from an axially outermost of the body or from an axially outermost of the adapter. The portion creates a virtual straight line GD between an innermost of the connecting introduction portion and the point A. The portion and the adapter has a radial distance d at the point A. The body has a maximum radial distance e from the virtual straight line GD at axially inward from the point A, and the body has no contact with the adapter.

A system is disclosed. The system includes an adapter member and a safety member. The adapter member includes a fill valve, an internal passageway and a boss member positioned within a multi-piece wheel. The safety member is removably connected to the adapter member, and covers nuts which removably connect a first piece of the multi-piece wheel to a second piece of the multi-piece wheel.

A system is disclosed. The system includes an adapter member and a safety member. The adapter member includes a fill valve, an internal passageway and a boss member positioned within a multi-piece wheel. The safety member is removably connected to the adapter member, and covers nuts which removably connect a first piece of the multi-piece wheel to a second piece of the multi-piece wheel.

A rim (3) for a rolling assembly has a flexible extender, the rim having an axis of rotation DD, said rim having a rim seat (31) extended axially towards the outside by a rim flange (32), said rim flange (32) having a first portion (321) that is oriented substantially in a plane perpendicular to the axis of rotation DD and situated radially on the outside with respect to said rim seat (31), said first portion (321) being extended radially and axially towards the outside by a connecting portion, characterized in that the radial height measured between the intersection point between the line of the rim seat and the line of the first portion, and the end of the radially outermost portion of the rim flange (32) is less than 10 mm.

Embodiments disclosed herein describe systems and methods for a bead lock wheel line in scaled vehicles. The bead lock wheel line may include a wheel center section and a bead lock ring. The bead lock ring may be configured to be overlaid on the wheel center section, wherein screws may be inserted through orifices positioned within the bead lock ring and into orifices positioned on the wheel center section.