A method for the actuation of an actuating device and to an actuating device with at least one lock, in particular a lock for a front bonnet of a motor vehicle, comprising a rotary latch, wherein the rotary latch can be brought by means of a lock holder into a locked position, with an actuating element connected to the lock, wherein, after a first actuation of the actuating element, the front bonnet can be brought from a locked position into a supported position and wherein, after at least one further actuation of the actuating element, the front bonnet can be brought into a release position, and with an actuation transmission means, in particular a Bowden cable, between the actuating element and the lock, wherein a means for disabling the actuating device is provided, with the result that an actuation of the lock by means of the actuating element can be suppressed.

A method produces a fiber composite component according to which a fiber arrangement having carbon fibers as reinforcing fibers is arranged on a carrier material having a fibrous material in order to form a structure. A covering layer having a non-conductive material is arranged on the structure. The carbon fibers are arranged largely in the load path direction of the fiber composite component to be produced, and regions of the fiber composite component to be penetrated by electromagnetic signals and/or waves are configured such that they are largely free of carbon fibers.

A work vehicle includes an engine provided inwards of a hood; a fuel tank provided extending in a front-back direction from the inside of the hood to the inside of a dashboard of a steering part; a tank support frame that supports the fuel tank; a fixing member that fixes the fuel tank supported by the tank support frame in place; and a rocking support frame that supports the hood such that the hood is capable of rocking vertically. The tank support frame and the rocking support frame are supported by a different member than the member supporting the engine, and include, as a fixing member, a first fixing member fixed extending from the tank support frame to the rocking support frame.

A front trunk (frunk) delivery system is disclosure for a vehicle. For one embodiment, the delivery system includes a vehicle trunk at a front portion of the vehicle. The system includes a vehicle trunk lid covering the vehicle trunk. The system includes a bar code at the vehicle. The bar code is to be captured by a mobile device of a first user to remotely operate the vehicle trunk lid for the vehicle trunk to deliver or retrieve (for returns) a delivery parcel/package. The first user can be a third party delivery operator such as a USPS or an Amazon delivery operator.

An energy absorbing structure includes a base, a loading platform, a pair of side supports, a center support, and a pair of flexible segments. The loading platform is spaced apart from the base. The side supports project from the base toward the loading platform. The center support projects from the loading platform toward the base. The flexible segments extend from the side supports to the center support and connect the side supports to the center support. The flexible segments have straight edges and curved surfaces disposed between the straight edges. The straight edges extend from the side supports to the center support and are oriented at an oblique angle relative to the base. Each of the curved surfaces faces one of the base and the loading platform.

This disclosure relates to a moveable reinforcement assembly for a motor vehicle, such as a motor vehicle with a front trunk (i.e., a “frunk”). An example vehicle includes a front end assembly, a panel moveable relative to the front end assembly between a closed position and an open position, and a reinforcement assembly mounted to the panel and configured to interface with the front end assembly when the panel is in the closed position. The reinforcement assembly effectively absorbs and transfers loads applied thereto while also being moveable so as to not obstruct access to a front trunk.

A robotic vehicle comprising a chassis, a right track assembly and a left track assembly for supporting the chassis, and a battery unit comprising a front portion and a back portion with a center of gravity at the front portion. The battery unit is configured for connection to the chassis with the center of gravity forward of the chassis.

A robotic vehicle comprising a chassis, a right track assembly and a left track assembly for supporting the chassis, and a battery unit comprising a front portion and a back portion with a center of gravity at the front portion. The battery unit is configured for connection to the chassis with the center of gravity forward of the chassis.

An underbody for a vehicle may arrange and couple a plurality of assemblies forming the underbody in a vertically laminating structure. The underbody includes a panel assembly configured to form a floor of a vehicle interior; an upper member assembly configured to be laminated on and coupled to an upper side of the panel assembly; and a lower member assembly configured to be laminated on and coupled to a lower side of the panel assembly and coupled to a side portion of the panel assembly and a side portion of the upper member assembly