Embodiments of collapsible wheels and methods of making collapsible wheels are generally described herein. Other embodiments may be described and claimed.

A wheel speed sensor assembly includes a sensor having a housing configured to be received within a bore in a mounting block such that the sensor is spaced from, and faces, an exciter ring and senses rotation of the exciter ring. The housing extends along a longitudinal axis and defines a key on a radially outer surface having first and second portions having different heights. The first portion is configured to be received within a first keyway that is formed in the mounting block and is in communication with the bore in the mounting block. A clamping sleeve is configured to secure the sensor within the bore in the mounting block. The clamping sleeve defines a bore configured to receive the housing of the sensor and a second keyway in communication with the bore in the clamping sleeve. The second portion of the key is received within the second keyway.

A vehicle wheel having a rim, a hub, a plurality of spokes with at least one of the spokes having a first portion connected the rim and a second portion connected to the hub. The rim includes a spoke bed wall with a radially outboard surface and a spoke hole having a radially outboard entrance and perimeter edge. The spoke extends through the spoke hole and is engaged to the spoke bed wall by an overlie engagement at a bearing interface between a bearing surface of the spoke and the radially outboard surface to limit longitudinally inward displacement between the spoke and spoke bed wall. At least a portion of the bearing interface is laterally outwardly spaced from the first perimeter edge by a lateral distance of at least 0.7 millimeters.

A hub assembly includes a retainer housing, a retaining member, a biasing element, and an occlusion. The retainer housing includes a wheel mounting sleeve and a pin sleeve. The wheel mounting sleeve includes an axle bore configured to receive an axle. The pin sleeve has a first end and a second end. The pin sleeve includes a conduit between the first end and the second end. The first end is in fluid communication with the axle bore. The retaining member and the biasing element are in the conduit. The retaining member is configured to engage a groove in an axle. The biasing element is configured to bias the retaining member towards the axle bore. The occlusion is proximate to the second end of the pin sleeve. The occlusion is configured to inhibit the retaining member from exiting the conduit at least prior to coupling the hub assembly to a wheel.

A structure for assembling a tire wheel, a brake rotor, and a hub includes at least one positioning bolt which includes a first head portion and a first shaft portion having a first male screw portion formed thereon; and a plurality of position-fixing bolts each of which includes a second head portion and a second shaft portion having a second male screw portion formed thereon. When an elastic body attached to the first shaft portion is squeezed between the hub and the first head portion of the positioning bolt as a result of the first male screw portion being screwed into a positioning female screw hole of the hub, the elastic body deforms to have an increased outer diameter as compared with the case where the elastic body is in its free state.

This disclosure relates to a wheel component (1, 20) for a wheel of a vehicle, having a hub (2), which can be connected in a rotationally secure manner to a hub flange of the vehicle and which at least partially comprises a metal material, a rim (4, 21) for receiving a tire of the wheel, and spokes (7) which connect the hub (2) to the rim (4, 21). The wheel component includes at least one spoke (7) including a spoke portion (8, 24), which comprises an injection-molded thermoplastic material, and further including a spoke reinforcement element (9, 25) at least partially embedded into the spoke portion. The spoke reinforcement element at least partially comprises a fiber-reinforced plastic material.

Embodiments of collapsible wheels and methods of making collapsible wheels are generally described herein. Other embodiments may be described and claimed.

A wheel speed sensor assembly includes a sensor having a housing configured to be received within a bore in a mounting block such that the sensor is spaced from, and faces, an exciter ring and senses rotation of the exciter ring. The housing extends along a longitudinal axis and defines a key on a radially outer surface having first and second portions having different heights. The first portion is configured to be received within a first keyway that is formed in the mounting block and is in communication with the bore in the mounting block. A clamping sleeve is configured to secure the sensor within the bore in the mounting block. The clamping sleeve defines a bore configured to receive the housing of the sensor and a second keyway in communication with the bore in the clamping sleeve. The second portion of the key is received within the second keyway.

A vehicle wheel having a rim, a hub, a plurality of spokes with at least one of the spokes having a first portion connected the rim and a second portion connected to the hub. The rim includes a spoke bed wall with a radially outboard surface and a spoke hole having a radially outboard entrance and perimeter edge. The spoke extends through the spoke hole and is engaged to the spoke bed wall by an overlie engagement at a bearing interface between a bearing surface of the spoke and the radially outboard surface to limit longitudinally inward displacement between the spoke and spoke bed wall. At least a portion of the bearing interface is laterally outwardly spaced from the first perimeter edge by a lateral distance of at least 0.7 millimeters.

A heat shield for a wheel assembly may comprise a plurality of heat shield segments, a plurality of shield bumpers may be coupled to a radially outward surface of each heat shield segment, and a plurality of heat shield retainers coupled to the plurality of heat shield segments. Each heat shield retainer may include a first bumper standoff and a second bumper standoff located over a first radially outward surface of the heat shield retainer. Each of the first bumper standoff and the second bumper standoff may comprise an attachment portion coupled to the first radially outward surface of the heat shield retainer and a bumper portion defining a bumper opening.