A vehicle body includes: side sills coupled to opposite sides of the vehicle body in a forward-rearward longitudinal direction of the vehicle body, rear lower members coupled between the side sills and front side members, and a lower bar coupled to the side sills while being coupled to the rear lower members in a lateral direction of the vehicle body.

This member includes a first sheet material and a second sheet material overlapped with the first sheet material, and the first sheet material and the second sheet material are joined to each other at an interface therebetween by three joint line portions. A first joint line portion includes an A portion whose shortest in-plane distance from a second joint line portion is 20 times or more and 120 times or less a sheet thickness of the first sheet material, a second joint line portion includes a B portion whose shortest in-plane distance from the first joint line portion is 20 times or more and 120 times or less the sheet thickness of the first sheet material, a third joint line portion is in a region interposed between the A portion and the B portion, and has a length of a length component of 250 mm or more in an extension direction of an intermediate line between the first joint line portion and the second joint line portion.

A structural panel joining part for a vehicle having an underbody hold-down panel, a floor panel, a dash panel, and a cowl side panel includes an underbody coupling first portion configured to couple to at least one of the underbody hold-down panel and the floor panel, a dash panel coupling second portion configured to couple to the dash panel, and a cowl side coupling third portion configured to couple to the cowl side panel. The structural panel joining part maintains structural integrity between the underbody hold-down panel, the floor panel, the dash panel, and the cowl side panel to provide structural reinforcement during small overlap rigid barrier impacts to facilitate reducing structural intrusion into an occupant compartment of the vehicle.

A structural panel joining part for a vehicle having an underbody hold-down panel, a floor panel, a dash panel, and a cowl side panel includes an underbody coupling first portion configured to couple to at least one of the underbody hold-down panel and the floor panel, a dash panel coupling second portion configured to couple to the dash panel, and a cowl side coupling third portion configured to couple to the cowl side panel. The structural panel joining part maintains structural integrity between the underbody hold-down panel, the floor panel, the dash panel, and the cowl side panel to provide structural reinforcement during small overlap rigid barrier impacts to facilitate reducing structural intrusion into an occupant compartment of the vehicle.

The invention relates to a method, performed by a first control device, for controlling physically connecting a first and a second module to assemble a vehicle, wherein the first control device is comprised in the first module, the method comprising: activating a sensor device in the first module; identifying an area between the two modules by means of the sensor device; transmitting information about the identified area to the second module; continuously determining the position of the second module in relation to the first module, by means of the sensor device, while the second module is moving towards the first module, and transmitting the determined position to the second module; and physically connecting the modules when the second module has reached the first module.

The invention relates to a method, performed by a first control device, for controlling physically connecting a first and a second module to assemble a vehicle, wherein the first control device is comprised in the first module, the method comprising: activating a sensor device in the first module; identifying an area between the two modules by means of the sensor device; transmitting information about the identified area to the second module; continuously determining the position of the second module in relation to the first module, by means of the sensor device, while the second module is moving towards the first module, and transmitting the determined position to the second module; and physically connecting the modules when the second module has reached the first module.

A fiber composite body, in particular a structure stiffening element, has a number of struts which are formed by reinforcing fibers which are embedded in a polymer matrix and which in a region of the respective strut run substantially parallel to one another. The struts are arranged in a truss-like profiled structure which is produced by winding or intertwining the reinforcing fibers.

A fiber composite body, in particular a structure stiffening element, has a number of struts which are formed by reinforcing fibers which are embedded in a polymer matrix and which in a region of the respective strut run substantially parallel to one another. The struts are arranged in a truss-like profiled structure which is produced by winding or intertwining the reinforcing fibers.

A side-by-side off-road vehicle has a cockpit, a storage compartment disposed rearward of the cockpit, a motor compartment disposed rearward of the storage compartment, a frame, four ground engaging members, a motor, and a pivotable cargo bed. In a lowered position, the cargo bed extends over at least a portion of the motor and storage compartments. At least one first partition defines at least in part a front of at least a portion of the storage compartment. At least one second partition defines at least in part a rear of at least a portion of the storage compartment. A floor defines at least in part a bottom of the storage compartment. The storage compartment has left and right access apertures defined in left and right sides of the vehicle. A method of assembling a vehicle of a family of vehicles is also contemplated.

A side-by-side off-road vehicle has a cockpit, a storage compartment disposed rearward of the cockpit, a motor compartment disposed rearward of the storage compartment, a frame, four ground engaging members, a motor, and a pivotable cargo bed. In a lowered position, the cargo bed extends over at least a portion of the motor and storage compartments. At least one first partition defines at least in part a front of at least a portion of the storage compartment. At least one second partition defines at least in part a rear of at least a portion of the storage compartment. A floor defines at least in part a bottom of the storage compartment. The storage compartment has left and right access apertures defined in left and right sides of the vehicle. A method of assembling a vehicle of a family of vehicles is also contemplated.