Hybrid structure and method for manufacturing

The invention claimed is: 1. A hybrid structure, comprising: a first component having a base and an upstanding wall extending from the base, the first component having an interior enclosed between the upstanding wall and the base, and a thermoplastic second component moulded to the first component, the second component comprising a reinforcing portion for structurally reinforcing the first component, the reinforcing portion extending in a longitudinal direction of the first component and located in the interior of the first component, the thermoplastic second component further comprising a locking portion that extends adjacently over at least part of an exterior of the first component, wherein the reinforcing portion and the locking portion are integrally formed, thus interlocking the first component in the thermoplastic second component, wherein at the exterior of the first component, the base comprises a corrugation extending in the longitudinal direction of the first component, wherein the locking portion adjacent to the exterior of the first component extends with the corrugation in the longitudinal direction. 2. The hybrid structure according to claim 1 , wherein the first component comprises a through hole, and the locking portion connects to the reinforcing portion through the through hole. 3. The hybrid structure according to claim 1 , wherein the first component has at least two opposite upstanding walls having end edges and the reinforcing portion extends from one end edge to an opposite end edge of the first component, and wherein the locking portion extends over the exterior of the first component from the one end edge to the opposite end edge of the first component, thus connecting with the reinforcing portion at the end edges of the first component. 4. The hybrid structure according to claim 1 , wherein the first component has at least two opposite upstanding walls having end edges, wherein the locking portion comprises a frame moulded on the end edges of the first component partially covering the exterior of the first component, thereby surrounding and enveloping the end edges of the first component. 5. The hybrid structure according to claim 1 , wherein the reinforcing portion comprises an alveolar structure comprising channels directed transverse to the base of the first component. 6. The hybrid structure according to claim 1 , wherein the first component is a composite component, a metallic component, or a composite/metal hybrid component. 7. The hybrid structure according to claim 6 , wherein the hybrid structure is a reinforcing member for a body frame of a vehicle, and the reinforcing member is connectable to the body frame by means of at least one of a mechanical fastener, a weld and an adhesive. 8. A vehicle comprising the hybrid structure according to claim 1 . 9. The vehicle according to claim 8 , further comprising a structural body frame, wherein the hybrid structure forms part of the structural body frame. 10. A method for manufacturing the hybrid structure according to claim 1 , the method comprising: providing the first component; providing the thermoplastic second component to the first component by moulding the reinforcing portion in the interior of the first component, and moulding the locking portion onto the exterior of the first component to cover at least part of the exterior, wherein the reinforcing portion and the locking portion are integrally moulded, thus interlocking the second component and the first component. 11. The method according to claim 10 , wherein the base and/or the upstanding wall of the first component has a through hole, and the method further comprises moulding the second component through the through hole to form the reinforcing portion or the locking portion. 12. The method according to claim 10 , wherein the first component has at least two opposite upstanding walls having end edges, the method further comprising moulding the reinforcing portion in the interior from one end edge to an opposite end edge of the first component, and moulding the locking portion over the exterior of the first component from the one end edge to the opposite end edge of the first component, thus connecting the locking portion with the reinforcing portion at the end edges of the first component. 13. The method according to claim 10 , wherein the first component has at least two opposite upstanding walls having end edges, the method further comprising moulding a frame on the end edges of the first component to partially cover the exterior of the first component, thereby surrounding and enveloping the end edges of the first component. 14. The hybrid structure of claim 2 , wherein the reinforcing portion comprises an alveolar structure comprising channels directed transverse to the base of the first component. 15. The hybrid structure according to claim 2 , wherein at the exterior of the first component, the base comprises a corrugation extending in the longitudinal direction of the first component, wherein the locking portion adjacent to the exterior of the first component extends with the corrugation in the longitudinal direction; wherein at the interior of the first component the base comprises a corrugation; and wherein the second component extends with the corrugation in the longitudinal direction. 16. The hybrid structure according to claim 2 , wherein the first component is a composite component, a metallic component, or a composite/metal hybrid component; and wherein the hybrid structure is a reinforcing member for a body frame of a vehicle, and the reinforcing member is connectable to the body frame by means of at least one of a mechanical fastener, a weld and an adhesive. 17. A hybrid structure, comprising: a first component having a base and an upstanding wall extending from the base, the first component having an interior enclosed between the upstanding wall and the base, and a thermoplastic second component moulded to the first component, the second component comprising a reinforcing portion for structurally reinforcing the first component, the reinforcing portion extending in a longitudinal direction of the first component and located in the interior of the first component, the thermoplastic second component further comprising a locking portion that extends adjacently over at least part of an exterior of the first component, wherein the reinforcing portion and the locking portion are integrally formed, thus interlocking the first component in the thermoplastic second component, wherein at the exterior of the first component, the base comprises a corrugation extending in the longitudinal direction of the first component, wherein the locking portion adjacent to the exterior of the first component extends with the corrugation in the longitudinal direction, wherein at the interior of the first component the base comprises a corrugation and wherein the second component extends with the corrugation in the longitudinal direction. 18. A hybrid structure comprising, a first component having a base and an upstanding wall extending from the base, the first component having an interior enclosed between the upstanding wall and the base, and a thermoplastic second component moulded to the first component, the second component comprising a reinforcing portion for structurally reinforcing the first component, the reinforcing portion extending in a longitudinal direction of the first component and located in the interior of the first component, the thermoplastic second component further comprising a locking portion th