A passenger compartment element is provided for a motor vehicle. The passenger compartment element includes a crossmember and a strut. The strut is provided with a first end and a second end. The first end is secured to the crossmember. The second end is configured to be fastened to a firewall of the vehicle.

Provided are a vehicle body and a vehicle. The vehicle body includes: two A pillars; a front impact beam; two front longitudinal beams having front ends connected to the front impact beam, and each of the front longitudinal beams being connected to the A-pillar at the same side therewith by means of a plurality of force transmission paths; a dash panel having lower portion provided with a dash centre aisle and connected to the two A-pillars; an dash upper cross member provided at an upper portion of the dash panel; a dash lower vertical member having an upper end connected to the dash upper cross member and a lower end extending to the dash centre aisle; and two front floor longitudinal beams.

A cowl cross bar assembly with a reduced weight and an increased stiffness and a method of manufacturing a pipe of the cowl cross bar assembly. The cowl cross bar assembly includes a pipe disposed laterally inside a chassis and a winding material which is wound at different winding ratios around a surface of a first section of the pipe which needs stiffness and a surface of a second section of the pipe which needs flexibility. The method includes transferring, by a transfer device, a pipe disposed laterally inside a chassis to a winding device and winding, by the winding device, a winding material around only a surface of a section of the pipe which needs stiffness.

A cowl cross bar assembly with a reduced weight and an increased stiffness. The cowl cross bar assembly includes a first pipe and a second pipe that are hollow and disposed laterally inside a chassis, a dash mounting member disposed between both ends of the first pipe, and a stiffener accommodated in an internal space of the dash mounting member and configured to absorb collision energy generated in a collision of a vehicle.

A cowl cross bar assembly of reduced weight and increased stiffness. The cowl cross bar assembly includes a first pipe and a second pipe which are hollow and disposed laterally inside a chassis, pipe caps coupled to one end of the first pipe and the second pipe, and pipe stiffeners accommodated in the first pipe and the second pipe and configured to absorb collision energy generated in a collision of a vehicle.

A chassis for an electric vehicle, comprises a left side frame and a right side frame made of a material comprising carbon fibre, at least one lower structural member connected with and extending across the left side frame and the right side frame, and a plurality of upper structural members connected with and extending across the left side frame and the right side frame. The lower structural member provides support for one or more rechargeable battery packs.

A method for manufacturing a lightweight cowl crossbar includes: producing an inner pipe, laminating a plurality of composite material layers wound around the inner pipe, and extruding an outer pipe on the winding layer, in which the plurality of composite material layers adjacent to each other are wound in different directions.

The present invention relates to a vehicle cockpit module assembly in which a center speaker is seated, and the vehicle cockpit module assembly includes a cowl crossbar assembly fixed to a side portion and a dash panel in a vehicle body, a duct connecting part integrally coupled to the cowl crossbar assembly, an air conditioning module coupled to the duct connecting part to supply external air to the duct connecting part, a defrost duct coupled to an upper portion of the duct connecting part, and a connection duct having a center duct coupled to a front surface of the duct connecting part and a side duct coupled to each of both side portions of the duct connecting part.

A front body for a vehicle includes: a front dash cross member disposed under a dash panel and having first and second ends respectively connected to front side members; a front lower cross member extending in a transverse direction of the vehicle; a front center support member extending in a longitudinal direction of the vehicle and located under an engine room of the vehicle; and a center member having a front end connected to the front dash cross member, and extending rearward along a floor of the vehicle. In particular, the front center support member have a front end connected to the front lower cross member and a rear end connected to the front dash cross member.

A vehicle structure includes a plurality of front side bars that extend toward a front of a vehicle and are spaced apart from each other and arranged at sides of the vehicle with respect to a center of the vehicle, and a front cross bar that extends in a transverse direction of the vehicle and connects front ends of the plurality of front side bars to each other. The vehicle structure further includes a plurality of fender apron bars, where each of the plurality of fender apron bars extends from a coupling portion between the front cross bar and one of the plurality of front side bars in the transverse direction and in a direction rearward and upward relative to the front cross bar.