A structural chassis for an agricultural machine, such as sugarcane and sweet sorghum harvesters, including a removable reservoir to store hydraulic fluid and, therefore, to improve maintenance and increase the useful life and productivity of the agricultural machine. The structural chassis includes a front portion and a rear portion that supports a primary extractor assembly and a hitch for mounting an elevator assembly. The rear portion is configured to form a processing path through side walls provided with openings for mounting lower and upper feed rollers and chopper rollers. The removable reservoir is installed in a housing formed by the side walls. The removable reservoir includes an opening between the primary extractor assembly and the hitch.

A support structure arrangement for a front wall of a dump body comprises a first vertical support structure and a second vertical support structure. The first and second vertical support structures can be elongate structural members spaced in a width direction from each other. Bottom portions of the first and second vertical support structures can form down-facing contact surfaces.

A support structure arrangement for a front wall of a dump body comprises a first vertical support structure and a second vertical support structure. The first and second vertical support structures can be elongate structural members spaced in a width direction from each other. Bottom portions of the first and second vertical support structures can form down-facing contact surfaces.

Provided is a vehicle lower-part structure including a pair of center side members arranged under a floor of a vehicle; a first cross member and a second cross member connecting the pair of center side members; a main battery arranged in an underfloor space; one or more support plates arranged at a corner of the underfloor space; and a water tank placed on the support plate, in which the support plate is connected to both the center side member and the first or second cross member and connects the two.

Provided is a vehicle lower-part structure including a pair of center side members arranged under a floor of a vehicle; a first cross member and a second cross member connecting the pair of center side members; a main battery arranged in an underfloor space; one or more support plates arranged at a corner of the underfloor space; and a water tank placed on the support plate, in which the support plate is connected to both the center side member and the first or second cross member and connects the two.

A hoist structure for a body of a truck can be comprised of a hoist plate arrangement extending in a first direction and configured to be rotatably coupled to a hoist member of the truck; and a plurality of external gussets spaced from each other in the first direction and extending in a second direction perpendicular to the first direction. Each of the external gussets can interface with the hoist plate arrangement, and a portion of each of the external gussets can extend in the second direction from a first side of the hoist structure arrangement.

A hoist structure for a body of a truck can be comprised of a hoist plate arrangement extending in a first direction and configured to be rotatably coupled to a hoist member of the truck; and a plurality of external gussets spaced from each other in the first direction and extending in a second direction perpendicular to the first direction. Each of the external gussets can interface with the hoist plate arrangement, and a portion of each of the external gussets can extend in the second direction from a first side of the hoist structure arrangement.

A vehicle load management system includes, among other things, a traction battery mounted to an underbody structure of a vehicle, a rear subframe of the vehicle and a bushing sleeve of the rear subframe. The bushing sleeve has a convex outer surface. The system further includes a rear rail of the vehicle and a blocker that is disposed along a longitudinal axis of the vehicle between the bushing sleeve and at least a portion of the traction battery. The blocker has a concave surface adjacent the convex outer surface of the bushing sleeve.

A vehicle load management system includes, among other things, a traction battery mounted to an underbody structure of a vehicle, a rear subframe of the vehicle and a bushing sleeve of the rear subframe. The bushing sleeve has a convex outer surface. The system further includes a rear rail of the vehicle and a blocker that is disposed along a longitudinal axis of the vehicle between the bushing sleeve and at least a portion of the traction battery. The blocker has a concave surface adjacent the convex outer surface of the bushing sleeve.

A vehicle frame rail includes a first half having a hole, a second half having a hole, a spacer locating member and a spacer. The second half is connected to the first half such that the hole in the first half is aligned with the hole in the second half and so as to form an enclosed space between the first half and the second half. The spacer locating member has a body section and a hole. The body section of the spacer locating member is spaced apart from the first half and the second half. The spacer has a first end, a second end and a bore extending from the first end to the second end. The spacer is located in the hole of the spacer locating member such that the bore is aligned with the hole in the first half and the hole in the second half.