Systems, assemblies, and an adapter arm are disclosed for connecting a tow bar assembly to a vehicle baseplate. The adapter arm comprises a forked end including a first prong and a second prong defining a slotted opening for receiving a lug connector of the tow bar assembly. The adapter arm further comprises a locking portion configured to removably secure the adapter arm to the vehicle baseplate.

A tow hook has a front portion extending forwardly from a front side of a side frame rail of an automotive vehicle and a rear portion received in a channel of the frame rail. The tow hook is releasably mounted to the side frame rail so that it releases at low impact force. The rear portion of each tow hook has at least one open slotted mounting member having a slot therein that extends rearwardly from an open front end of the slot. Each open slotted mounting member of the rear portion of each tow hook is secured to a wall of the side frame rail to which it is mounted. A vehicle has the tow hook mounted to a left side frame rail and another such tow hook mounted to a right side frame rail.

An assembly is provided. The assembly comprises a towing hook orifice covering plate (10) and a skin (20), wherein the towing hook orifice covering plate comprises a covering plate modeling surface (10a) facing the outside of a bumper and a covering plate structural surface (10b) facing the inside of the bumper. The covering plate structural surface has oppositely arranged rotary lugs (13a, 13b) that are perpendicular to the covering plate structural surface and extend therefrom, and the rotary lugs have arc surfaces (131a, 131b) away from the covering plate structural surface. The skin (2) has grooves (21a, 21 b) for accommodating the rotary lugs, and the grooves comprise first arc sections (211a, 211b), linear sections (212a, 212b) and second arc sections (213a, 213b), wherein the linear sections are located between the first arc sections and the second arc sections. The assembly has a rotating axis defined by the rotary lugs and solves the interference problem in the prior art by changing the position of the rotating axis. The assembly maintains the vehicle outlook by not changing the appearance of the covering plate modeling surface, and can satisfy the requirements for the opening of the towing hook orifice covering plate and for the gap between the towing hook orifice covering plate and the skin.

An attachment plate and towing lug combination for a vehicle having a crush can and a bumper beam includes a plate and a towing lug. The plate has a central portion and a flange portion. The towing lug is attached to the central portion of the plate and extends from an outer surface of the central portion of the plate. The flange portion of the plate is attachable to an end portion of the crush can. The central portion of the plate is attachable to a first side portion of the bumper beam. The towing lug extends to at least an outer surface of a second side portion of the bumper beam when the flange portion of the plate is attached to the end portion of the crush can and the central portion of the plate is attached to the first side portion of the bumper beam.

A method for manufacturing a tow hook assembly begins with heating a first steel blank to within a range of 2200° F. and 2300° F. to create a first heated steel blank. A second steel blank is heated to within the range of 2200° F. at 2300° F. to create a second heated steel blank. The first heated steel blank is forged into a tow hook. The second heated steel blank is forged into a flange plate. The tow hook in the flange plate are welded together to form the tow hook assembly. This method reduces waste by minimizing the size of the first and second steel blanks.

A method for making a crush can for a vehicle which has an internal moulded structure can include providing a crush can with a hole, filling the hole in the crush can with a fibre-reinforced material and compression moulding the fibre-reinforced material using the internal shape of the crush can as an outer shell of a split mould.

The disclosure relates to a bumper arrangement on a motor vehicle, having a crossmember and crash boxes, by means of which the crossmember is coupled to a motor vehicle, wherein a receptacle for a towing eye is formed in the bumper arrangement and the receptacle is produced in the form of an extruded profile component, wherein the receptacle is inserted into the crossmember and/or into a crash box and is fixed by clinching.

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 vehicle front-end assembly having a vehicle frame, a first tow hook and a skid plate. The vehicle frame has a first front side member with a front-end portion. The first tow hook has a forward portion and a rearward portion. The rearward portion of the first tow hook is attached the front-end portion of the first front side member by a first mechanical fastener. The skid plate has a main section, a first attachment flange extending from a first lateral side of the main section, the first attachment flange being fixed to the first front side member by the first mechanical fastener.

Hybrid energy absorbing assembly for attachment to a vehicle for a vehicle, comprising a bumper beam comprising a plastic material; and a towing assembly, wherein the towing assembly comprises a metal insert. The invention also relates to a metal insert for such a hybrid energy absorbing assembly. Moreover, the invention relates to a vehicle provided with such a hybrid towing bumper beam assembly, wherein the metal insert is connected to a body-in-white of the vehicle. Furthermore, the invention relates to a method for manufacturing such a hybrid towing bumper beam assembly for a vehicle, the method comprising placing the metal insert in a mold; introducing molten thermoplastic material, to a mold to in site form the energy absorbing assembly and thus overmolding the metal insert with the thermoplastic material, thereby embedding the metal insert in the bumper beam.