A vehicle battery tray includes a floor assembly that has elongated tray sections that attach together at lateral edge portions of adjacent tray sections to form a floor structure that supports vehicle batteries contained in the vehicle battery tray. The elongated tray sections each have a substantially consistent cross-sectional shape that extends longitudinally along a length of the respective tray section. A first tray section includes a first attachment feature at the lateral edge portion thereof and a second tray section includes a second attachment feature at the lateral edge portion thereof that corresponds with the first attachment feature. The first and second attachment features engage together at a longitudinal seam between the lateral edge portions of the first and second tray sections, such as to align upper surfaces of the first and second tray sections.

For improved attachment of an energy accumulator to an underbody of a motor vehicle, an attachment device has a top side that is designed to be attached to the underbody via attachment fasteners and an underside that is designed to be connected to a top side of the energy accumulator. The underside of the attachment device and the top side of the energy accumulator are integrally bonded by an adhesive at least in a region remote from outer edges of the top side of the energy accumulator.

A vehicle battery tray includes a floor assembly that has elongated tray sections that attach together at lateral edge portions of adjacent tray sections to form a floor structure that supports vehicle batteries contained in the vehicle battery tray. The elongated tray sections each have a substantially consistent cross-sectional shape that extends longitudinally along a length of the respective tray section. A first tray section includes a first attachment feature at the lateral edge portion thereof and a second tray section includes a second attachment feature at the lateral edge portion thereof that corresponds with the first attachment feature. The first and second attachment features engage together at a longitudinal seam between the lateral edge portions of the first and second tray sections, such as to align upper surfaces of the first and second tray sections.

A vehicle battery tray has a floor assembly with elongated tray sections that attach together at edge portions of adjacent tray sections of the elongated tray sections to form a floor structure that supports vehicle batteries contained in the vehicle battery tray. The elongated tray sections may have substantially consistent cross-sectional shapes that extends along a length of the tray sections. A thickness of the tray sections at a central area of the floor structure may be greater than a thickness of another one of the elongated tray sections at an outboard area of the floor structure, such as to withstand an equal or greater transverse bending moment than the outboard area of the floor structure.

The disclosure relates to a battery carrier for accommodating at least one electric battery module in a vehicle. The battery carrier may include at least one first wall, at least one second wall arranged at an angle with respect to the first wall, wherein the second wall is joined to the first wall by a joining region, wherein an adhesive region is formed in the joining region, and the adhesive region is configured to condition the joining region for a materially bonded connection to a seal, and at least one seal materially bonded to the adhesive region in order to fluidically seal the joining region.

A composite material with an insert-molded attachment steel is provided. The composite material includes a plurality of burring apertures, each of which has a flange in one direction on the attachment steel and is inserted between fibers. A resin is then introduced between the fibers in each burring aperture and external to the flange.

For improved attachment of an energy accumulator to an underbody of a motor vehicle, an attachment device has a top side that is designed to be attached to the underbody via attachment fasteners and an underside that is designed to be connected to a top side of the energy accumulator. The underside of the attachment device and the top side of the energy accumulator are integrally bonded by an adhesive at least in a region remote from outer edges of the top side of the energy accumulator.

A vehicle battery tray has a floor assembly with elongated tray sections that attach together at edge portions of adjacent tray sections of the elongated tray sections to form a floor structure that supports vehicle batteries contained in the vehicle battery tray. The elongated tray sections may have substantially consistent cross-sectional shapes that extends along a length of the tray sections. A thickness of the tray sections at a central area of the floor structure may be greater than a thickness of another one of the elongated tray sections at an outboard area of the floor structure, such as to withstand an equal or greater transverse bending moment than the outboard area of the floor structure.

A vehicle member joining structure has: a metal member that is part of a vehicle; a resin member that is adjacent to the metal member; and an adhesive that is provided between the metal member and the resin member and joins the metal member to the resin member, the adhesive having an elastic modulus that is lower than elastic moduli of the metal member and the resin member, wherein, given that (i) L is a difference in linear expansions of the metal member and the resin member at a time of heating in a drying process after application of the adhesive, (ii) T.sub.0 is a thickness of the adhesive and (iii) T.sub.1 is a length of an end surface of the adhesive, the following predetermined relational expression is satisfied
T.sub.1.sup.2=T.sub.0.sup.2+L.sup.2.

The disclosure relates to a battery carrier for accommodating at least one electric battery module in a vehicle. The battery carrier may include at least one first wall, at least one second wall arranged at an angle with respect to the first wall, wherein the second wall is joined to the first wall by a joining region, wherein an adhesive region is formed in the joining region, and the adhesive region is configured to condition the joining region for a materially bonded connection to a seal, and at least one seal materially bonded to the adhesive region in order to fluidically seal the joining region.