초록 ▼

Composite pressurizable structures overwound with fibers or braided bundles of fibers are described. The pressurizable structures comprise one or more axial sections which themselves comprise both concave and convex surfaces. The shape characteristics are related to geodesic as well as to non-geodes

Composite pressurizable structures overwound with fibers or braided bundles of fibers are described. The pressurizable structures comprise one or more axial sections which themselves comprise both concave and convex surfaces. The shape characteristics are related to geodesic as well as to non-geodesic trajectories of the fibers. Axial sections of the pressurizable structures can be rotated, expanded, or bended with respect to their longitudinal axis. Such pressurizable structures may be used in pressure vessels, flexible pipelines, spring elements, robotic actuators, adaptive buildings among other uses. Manufacturing techniques facilitated by the present structures allow for the construction of very large structures.

대표청구항 ▼

1. A fibre reinforced pressurizable structure comprising an integrally formed gas or fluid-tight body having a continuous outer circumferential surface with a rotation-symmetrical axis that terminates in axial ends, the body being overwound as an isotensoide with one or more fibre filaments, the one

1. A fibre reinforced pressurizable structure comprising an integrally formed gas or fluid-tight body having a continuous outer circumferential surface with a rotation-symmetrical axis that terminates in axial ends, the body being overwound as an isotensoide with one or more fibre filaments, the one or more fibre filaments having a longitudinal axis defined along their length, wherein radius of the body outer surface varies with respect to the rotation-symmetrical axis, such that said body outer surface defines at least one concave surface section spaced apart from the axial ends, wherein each concave surface section has a local minimum radius, and the outer surface further defines at least one convex surface section spaced apart from the axial ends, wherein each convex surface section has a local maximum radius, wherein the at least one concave surface section about its entire outer surface spanning its local minimum radius is continuously overwound with the one or more fibre filaments. 2. A fibre reinforced pressurizable structure according to claim 1, wherein the pressurizable structure is quasi-geodesically overwound in a continuous fashion. 3. A fibre reinforced pressurizable structure according to claim 1, wherein the longitudinal orientation of the one or more fibre filaments along a finite length thereof is oriented substantially perpendicular with respect to the rotation-symmetrical axis of the structure. 4. A fibre reinforced pressurizable structure according to claim 1, wherein the one or more fibre filaments undergo torsion with respect to the longitudinal center-line thereof when the pressurizable structure is in a pressurized state, whereby substantially one side of the curved fibre circumference remains in contact with the body in the at least one concave surface section. 5. A fibre reinforced pressurizable structure comprising an integrally formed gas or fluid-tight body having a continuous outer circumferential surface with a rotation-symmetrical axis that terminates in axial ends, the body being overwound as an isotensoide with one or more fibre filaments, the one or more fibre filaments having a longitudinal axis defined along their length, wherein radius of the body outer surface varies with respect to the rotation-symmetrical axis, such that said body outer surface defines at least one concave surface section spaced apart from the axial ends, wherein each concave surface section has a local minimum radius, and the outer surface further defines at least one convex surface section spaced apart from the axial ends, wherein each convex surface section has a local maximum radius, wherein the at least one concave surface section about its entire outer surface spanning its local minimum radius is continuously overwound with the one or more fibre filaments as an isotensoide, and the fiber filaments are twisted longitudinally during fabrication of the structure so that one circumferential side of the fiber filaments are in contact with the at least one concave surface section and the other circumferential side of the fiber filaments are in contact with the at least one convex surface section. 6. A fibre reinforced pressurizable structure according to claim 1, wherein the body is flexible, i.e., non-rigid and formed about the one or more fibre filaments. 7. A fibre reinforced pressurizable structure according to claim 1, whereby the axial length of at least one axial section of the pressurizable structure is variable with respect to the longitudinal axis of the pressurizable structure. 8. A fibre reinforced pressurizable structure according to claim 1, wherein at least one axial section of the pressurizable structure is pivotable with respect to the longitudinal axis of the pressurizable structure. 9. A fibre reinforced pressurizable structure according to claim 1, wherein at least one axial section of the structure is pivotable with respect to an axis, wherein the axis is orthogonal to the longitudinal axis of the pressurizable structure. 10. A fibre reinforced pressurizable structure according to claim 7, wherein at least one axial section of the pressurizable structure comprises a combination of at least two of the following technical elements; (i) at least one axial section of the pressurizable structure is pivotable with respect to the longitudinal axis of the pressurizable structure; (ii) the axial length of the at least one axial section of the structure is variable with respect to the longitudinal axis of the pressurizable structure; (iii) the axial section of the structure is pivotal with respect to an axis, wherein the axis is orthogonal to the longitudinal axis of the pressurized structure.