An assembly includes a vehicle frame, a base fixed relative to the vehicle frame, and a hook supported by the base and rotatable relative to the base between an extended position and a retracted position. One of the hook or the base has a flange and the other of the hook or the base has a pair of extensions. The flange is between the extensions. A post is fixed relative to the flange and engages both extensions. A spring is connected to the post and one of the extensions. The spring is positioned to bias the hook toward the extended position.

A tow hook includes a monolithic additively manufactured side wall defining a vehicle attachment member, a hollow main body extending from the vehicle attachment member, and a hollow towing member extending from the hollow main body. The vehicle attachment member is configured to rigidly attached to a vehicle and the hollow towing member is configured to securely attach to a towing machine such that the vehicle is towable via the tow hook. The vehicle attachment member can be a threaded shaft with a bore extending along a length of the threaded shaft. The side includes a chamfered plurality of apertures extending from an inner surface of the side wall to an outer surface of the side wall, and having with an inner dimension along a length direction of the hollow main body greater than an inner dimension along a circumferential direction of the hollow main body.

A remotely releasable tow line is provided. The tow line has a releasable latch at a distal end that is removably connected to a race car. The releasable latch is operatively associated with a cable handle adjacent to a proximal end of the tow line. Accordingly, a user disposed on a tow vehicle, to which the proximal end is connected, may manipulate the cable handle so that the release latch disconnects from the race car, in such a way that while the race car is still being towed it is unhooked from the tow vehicle, thereby saving time in getting the race car in a pit area where the race car can be tended to before its soon-approaching next race.

A skid plate for a vehicle may include a continuous unitary plate of material including: a plurality of mounting points configured for mounting the continuous unitary plate to an undercarriage of a vehicle; and a recovery opening proximate an outer edge of the continuous unitary plate and configured to receive a device for recovering a vehicle.

In an embodiment a towing pipe connection structure includes a vehicle body rear member including an aluminum material, a towing pipe at least partially including an aluminum material and a connection bracket including a bumper back beam plate in contact with a back panel of a vehicle body and including an insertion hole into which the towing pipe is inserted, an engage plate having an engage hole to which the towing pipe is connected and a connection plate connecting the bumper back beam plate and the engage plate, wherein the connection bracket is connected to a rear member of the vehicle body, and wherein the connection bracket includes an aluminum material.

A rotating, self-aligning device (“D-ring assembly”) mounted on or associated with a recovery vehicle for supporting and pulling a load, and a method of using this device, which includes an outer housing rigidly attached to the recovery vehicle; and a rotating base plate, with a bearing for supporting a shackle. The device automatically self-aligns along a centerline of the shackle relative to the direction of the load.

Disclosed embodiments include apparatuses, vehicles, and methods for a break- away tow hook. In an illustrative embodiment, an apparatus includes a tow hook configured to extend in a first direction from a surface of a vehicle and to receive a towing line. A mount is configured to displaceably secure the tow hook to the surface. The mount is configured to maintain a position of the tow hook relative to the surface in response to a pulling force being applied to the tow hook in a first direction away from the surface of the vehicle. The mount is further configured to enable the tow hook to move relative to the surface in response to the tow hook incurring a force in a second direction, wherein the second direction is at least partially toward the surface of the vehicle.

A bumper cross member for a motor vehicle, having a crossmember extending transversely to the longitudinal axis of the vehicle, and two crashboxes connected thereto and designed as hollow chamber sections. Each crashbox is connected with its end facing away from the vehicle to the crossmember in a respective end section thereof, and may be connected, with its end facing the vehicle, to a structural component of the vehicle. The crashboxes are supported with their end faces only in sections on the rear side of the crossmember, in particular such that the support is continuous or at least substantially continuous either in the upper and lower end-face areas, or in the two lateral end-face areas, while support of the other end-face areas is provided only in sections or absent. The distance between the end-face areas of the crashboxes, which are unsupported on the crossmember, is set from the rear side of the crossmember, such that only after a first phase of energy absorption with deformation of the crashbox is the end face facing the crossmember supported over its whole surface on the rear side of the crossmember.

A trailer hitch assembly for a vehicle includes a tubular beam, a trailer hitch, and a barrel nut. The tubular beam includes a first end sized for disposal within a first vehicle frame bracket, a second end sized for disposal within a second vehicle frame bracket, and a lowered portion therebetween. The tubular beam defines a through-hole at one of the ends. The trailer hitch is mounted to the lowered portion. The barrel nut extends through the through-hole, is secured to the tubular beam, and defines a cavity. The first vehicle frame bracket may define a first ring sized to receive the first end of the tubular beam. The second vehicle frame bracket may define a second ring sized to receive the second end of the tubular beam.

A bumper crossmember for a motor vehicle having a crossmember extending transversely to the longitudinal axis of the vehicle and two crashboxes connected thereto. Each crashbox is connected with its end facing away from the vehicle to the crossmember in a respective end section thereof, and with its end facing the vehicle is connectable to a structural component of the vehicle, e.g., a longitudinal member. The crossmember has a corrugated structure in the area where a crashbox is connected. A tow sleeve is integrated into the bumper crossmember in the connection area of the crashbox. The tow sleeve is held in a vertex structure of the corrugated structure in a form-fitting manner in the z and y directions, the vertex area of this vertex structure facing away from the crashbox, with the lateral surface of the tow sleeve on the flanks facing one another and forming the vertex structure.