A motor vehicle has a chassis on which vehicle wheels of an axle of the motor vehicle that are rearmost in the vehicle longitudinal direction are rotatably held. The chassis has longitudinal members, which are arranged on the rear of the motor vehicle and are mutually spaced apart in the vehicle transverse direction. The longitudinal members each have at least one length region that runs rearward and inward obliquely to the vehicle longitudinal direction behind the respective center points of the vehicle wheels with respect to the vehicle longitudinal direction.

An electric vehicle includes an electric-vehicle battery tray including a frame member elongated along a vehicle-longitudinal axis. The electric vehicle includes a rocker rail elongated along the vehicle-longitudinal axis. The electric vehicle includes a subframe. The electric vehicle includes a bracket connecting the battery tray, the rocker rail, and the subframe.

A front portion of a vehicle body includes front side frames, a subframe, and a vehicle compartment front structure body. The subframe has a subframe body, a front fastening portion fastened to the front side frame in a front region of the subframe body, and a rear fastening portion fastened and fixed to the vehicle compartment front structure body in a rear region of the subframe body. The rear fastening portion has a first convex portion protruding toward a vehicle rear side. A part of a steering gear box constitutes a second convex portion protruding upward from the subframe body. The front fastening portion has a third convex portion protruding upward from the front region of the subframe body. The vehicle compartment front structure body has a first inclined guide portion, a second inclined guide portion, and a third inclined guide portion having front surfaces to contact the convex portions.

The invention relates to a system for mounting an accessory unit to a vehicle. The mounting system comprise at least one side channel attached to the accessory unit, at least one screw-strip comprising a plate with a plurality of screws fitted at pre-defined locations defined by matching mounting positions of at least one bushing. The screw-strip is displaceable fitted in the side channel. The system further comprises at least one bracket arranged to receive the screws fitted on the screw-strip and to receive a nut for each screw arranged to fixate the mounting system by pressing the screws towards a locking arrangement in the side channel and wherein the bracket is arranged to receive a frame-mounted bushing mounted to a side rail of the vehicle frame.

An automobile suspension includes a side rail extending in a front-rear direction of a vehicle body, a lower arm, and a bracket linking the lower arm to the side rail. A front end of the side rail and a rear end of the side rail are linked to a frame of the vehicle body, and the side rail curves such that a middle of the side rail is lower than at least one of the front end and the rear end. The bracket includes a pair of side plates that supports a shaft of the lower arm and is joined to a side face of the side rail, and an upper plate that links the side plates and is joined to an upper face of the side rail.

A front suspension apparatus in which a front side of a suspension arm can be cut off from a subframe at the time of a small overlap collision without a complication of structure and formability. A front suspension apparatus in which a lower arm from which a front wheel is suspended is provided, and a front arm portion and a rear arm portion of the lower arm are axially supported by axially supporting portions of a subframe is characterized in that an axially supporting portion of the front arm portion is joined to the subframe at a joined portion extending in a vehicle width direction, a joined portion extending in an up-down direction, and a joined portion extending in a front-rear direction, and a joining strength of a joined portion in the front-rear direction is lower than a joining strength of the joined portion in the up-down direction.

A vehicle front structure that reduces a shock load applied to immediately under a front grille by using a bumper beam as a support. A vehicle front structure includes a shock absorbing member at an interior of a bumper face on the side near an upper portion thereof which absorbs a load from the diagonally upper front side. The shock absorbing member is at the interior of the bumper face below a front grille, and includes a load receiving portion that receives a load, a locking portion locked to an upper end edge of a bumper beam located behind and below the load receiving portion, at the time of receding of the shock absorbing member, and a connecting portion connecting the load receiving portion and the locking portion. A deformation facilitating portion with respect to a load from the upper front side is thus configured at the connecting portion.

To restrain a retracting stabilizer from interfering with an assist motor located rearward thereof and ensure energy absorption by a subframe, a vehicle front structure includes an engine; a steering rack disposed frontward of the engine; an assist motor for power steering disposed frontward of the steering rack; a suspension stabilizer disposed frontward of the assist motor; and a subframe mounted with the stabilizer. The stabilizer frontward of the assist motor is disposed offset from the assist motor in an up-down direction so as not to overlap the assist motor in vehicle front view.

A support extrusion for a subframe structure of a vehicle and methods of fabricating the same. In one example, a support extrusion can comprise a multicell structure that facilitates coupling the support extrusion with a rear crossmember of the subframe structure. The multicell structure can comprise a front cell column and a rear cell column that intervenes between the front cell column and the rear crossmember in a longitudinal direction of the subframe structure. The front cell column can comprise a trigger that facilitates plastically deforming the front cell column downward in a vertical direction of the subframe structure when subjected to impact forces of a frontal crash.

A guard assembly for a work machine includes at least one guard including a body. The body in part defines a volume, a first opening, at least one second opening, and at least one pair of first retention tabs. The door defines a first end and a second end. In an open position of the door, the door provides access to the volume and, in a closed position of the door, the door limits access to the volume. The door includes a plate removably coupled to the guard proximal to the first end of the door by at least one fastener, and at least one coupling arrangement extending from the plate for pivotably coupling the plate to the guard proximal to the second end of the door. The coupling arrangement includes a first portion coupled to the plate and a second portion extending from the first portion.