An elongated supporting pillar for a high-strength structural component is designed to absorb bending forces that act transversely to a longitudinal direction of extension of the supporting pillar. The supporting pillar comprises a wall which at least partially encloses an elongated cavity of the su
An elongated supporting pillar for a high-strength structural component is designed to absorb bending forces that act transversely to a longitudinal direction of extension of the supporting pillar. The supporting pillar comprises a wall which at least partially encloses an elongated cavity of the supporting pillar. A reinforcement structure is arranged within the cavity and transversely to the direction of longitudinal extension in such a manner that the reinforcement structure can absorb at least some of the bending forces. The reinforcement structure is designed integrally with the wall, wherein both the wall and the reinforcement structure comprise a meltable material. The supporting pillar has a conical shape, and wherein a first end of the supporting pillar is wider than a second end of the supporting pillar.
대표청구항▼
1. A curved elongated supporting pillar for a high strength structural component, which is configured to absorb bending forces that act transversely to a longitudinal direction of the supporting pillar, the supporting pillar comprising: a wall at least partially enclosing an elongated cavity of the
1. A curved elongated supporting pillar for a high strength structural component, which is configured to absorb bending forces that act transversely to a longitudinal direction of the supporting pillar, the supporting pillar comprising: a wall at least partially enclosing an elongated cavity of the supporting pillar and forming a tubular structure;a disc-shaped reinforcement structure arranged within the elongated cavity and transversely to the longitudinal direction of the elongated supporting pillar to improve flexural rigidity;wherein the reinforcement structure is formed integrally with the wall;wherein both the wall and the reinforcement structure are formed from a meltable material;wherein the supporting pillar has a conical shape, and wherein a first end of the supporting pillar is wider than a second end of the supporting pillar. 2. The supporting pillar of claim 1, wherein the elongated cavity comprises at least one aperture connecting the elongated cavity to a medium surrounding the supporting pillar. 3. The supporting pillar of claim 2, wherein the at least one aperture is dimensioned for allowing removal of a granulate comprising a meltable material from the elongated cavity, the granulate being used to manufacture the supporting pillar. 4. The supporting pillar of claim 2, wherein the at least one aperture is arranged in the reinforcement structure. 5. The supporting pillar of claim 1, wherein the wall is curved at least in one sub-region. 6. The supporting pillar of claim 1, wherein the thickness of the wall varies. 7. The supporting pillar of claim 1, wherein the meltable material comprises at least one material selected from the group consisting of stainless steel, tool steel, titanium, aluminium, cobalt, nickel, alloys and a combination thereof. 8. The supporting pillar of claim 1, wherein the disc-shaped reinforcement structure includes a peripheral edge and is connected over an entire surface of the peripheral edge to an inside structure of the wall. 9. The supporting pillar of claim 1, wherein the reinforcement structure is proximal to a first end of the supporting pillar, wherein a first distance between the reinforcement structure and the first end is less than a second distance between the reinforcement structure and a second end of the supporting pillar. 10. The supporting pillar of claim 1, wherein one of the first and second ends of the supporting pillar is open to connect the cavity enclosed by the wall with the medium surrounding the supporting pillar. 11. A structural component comprising a supporting pillar comprising: a wall at least partially enclosing an elongated cavity of the supporting pillar and forming a tubular structure;a disc shaped reinforcement structure arranged within the elongated cavity and transversely to the longitudinal direction of the elongated supporting pillar to improve flexural rigidity;wherein the reinforcement structure is formed integrally with the wall,wherein both the wall and the reinforcement structure are formed from a meltable material,wherein the structural component is formed integrally with the supporting pillar and wherein the structural component comprises at least first and second receiving devices,wherein forces exerted on the first receiving device are transferred to the second receiving device while also generating bending forces at the supporting pillar, andwherein the supporting pillar has a conical shape, and wherein a first end of the supporting pillar is wider than a second end of the supporting pillar. 12. The structural component of claim 11, further comprising a structural support connected to the wall of the supporting pillar; and wherein the reinforcement structure within the elongated cavity of the supporting pillar is arranged such that the reinforcement structure resists the bending force exerted on the supporting pillar to inhibit buckling of the supporting pillar.
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이 특허에 인용된 특허 (18)
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