A mounting assembly is configured to join a vehicle body to a vehicle chassis with a bolt. The mounting assembly includes an outer tube and an inner sleeve. The outer tube defines a sleeve channel, and is configured to be fixed to one of the vehicle chassis and the vehicle body. The inner sleeve is disposed within the sleeve channel of the outer tube, and defines a bolt hole configured to receive the bolt. The outer tube, the inner sleeve, and the bolt cooperate to join the vehicle body to the vehicle chassis. An initiation slot is defined in the outer tube, such that the sleeve channel is an incomplete cylindrical shell.

A first reinforcing reinforcement that is formed of a fiber reinforced resin material is continuously superposed with and adhered to an inner wall surface of a front wall portion, an inner wall surface of an outer wall portion, and an inner wall surface of a rear wall portion of an outer reinforcement. A pair of superposed portions of a second reinforcing reinforcement are superposed, via the first reinforcing reinforcement, with the inner wall surface of the front wall portion and the inner wall surface of the rear wall portion of the outer reinforcement. The second reinforcing reinforcement is directly joined to the front wall portion and the rear wall portion of the outer reinforcement, and the pair of superposed portions are connected by a connecting portion.

A first reinforcing reinforcement that is formed of a fiber reinforced resin material is continuously superposed with and adhered to an inner wall surface of a front wall portion, an inner wall surface of an outer wall portion, and an inner wall surface of a rear wall portion of an outer reinforcement. A pair of superposed portions of a second reinforcing reinforcement are superposed, via the first reinforcing reinforcement, with the inner wall surface of the front wall portion and the inner wall surface of the rear wall portion of the outer reinforcement. The second reinforcing reinforcement is directly joined to the front wall portion and the rear wall portion of the outer reinforcement, and the pair of superposed portions are connected by a connecting portion.

A system for robotic collaboration, including: a first robotic chassis and a second robotic chassis, each including wheels; a control system; a power supply; at least one sensor; a processor, and a medium storing instructions that when executed by the respective processor effectuates operations including: capturing data of an environment and data indicative of movement; generating a map of the environment based on at least some of the captured data; inferring a current location of the respective robotic chassis based on at least some of the captured data; and executing a portion of a task, the second robotic chassis executing a second part of the task after the first robotic chassis completes a first part of the task.

A loading system laterally loads and unloads an upper body structure onto a vehicle platform of a motor vehicle. The system includes two loading arms pivotably mounted on lengthwise ends of the vehicle platform. The loading arms jointly swivel between upward and lateral orientations with respect to the vehicle platform and jointly extend and retract. Each loading arm has an engaging portion at a distal end of the respective loading arm to engage a corresponding support portion at a respective lengthwise end of the upper body structure. The loading arms engage and release the upper body structure by swiveling into the lateral orientation and extending and retracting within the lateral orientation. The loading arms mount the engaged upper body structure on top of the vehicle platform by swiveling with the engaged upper body structure into the upward orientation and retracting with the engaged upper body structure within the upward orientation.

A rotatable trailer bed includes a frame, a trailer bed, a turntable swivel assembly, and a plurality of swivel casters. The frame includes a bed section, a hitch section, and two wheel sets. The hitch section is adjacently connected a front end of the bed section. The two wheel sets is rotatably mounted to the bed section. The plurality of swivel casters is mounted to the bed section is perimetrically positioned around the bed section. The trailer bed is rotatably mounted to the bed section through the turntable swivel assembly as the plurality of swivel casters maintain the balance and level of the trailer bed.

A motor vehicle includes a body, which body has at least two rear longitudinal members each forming a primary load path for collision forces, wherein the motor vehicle has a rear-end module that can be pre-assembled as a sub-assembly, which rear-end module can be connected to the body as part of the vehicle assembly after the completion of the body-in-white and has at least a supporting structure for fastening chassis components of a rear wheel suspension and a beam structure extending from the supporting structure toward the motor-vehicle rear for absorbing collision forces, wherein the supporting structure and the beam structure form at least one second load path for collision forces.

A motor vehicle includes a body, which body has at least two rear longitudinal members each forming a primary load path for collision forces, wherein the motor vehicle has a rear-end module that can be pre-assembled as a sub-assembly, which rear-end module can be connected to the body as part of the vehicle assembly after the completion of the body-in-white and has at least a supporting structure for fastening chassis components of a rear wheel suspension and a beam structure extending from the supporting structure toward the motor-vehicle rear for absorbing collision forces, wherein the supporting structure and the beam structure form at least one second load path for collision forces.

A vehicle mount may comprise a member attach to a frame of a vehicle. Another mount member may comprise limbs. A space between limbs may receive an arm attachable to a component of the vehicle. The second member may attach to the first member such that the space between the first and second limbs forms an opening for receipt of the arm.

A vehicle mount may comprise a member attach to a frame of a vehicle. Another mount member may comprise limbs. A space between limbs may receive an arm attachable to a component of the vehicle. The second member may attach to the first member such that the space between the first and second limbs forms an opening for receipt of the arm.