Composite flexible coupling

The invention claimed is: 1. A flexible coupling for transmitting torque between parts of a transmission shaft system, comprising: a tubular section of continuous-fibre-reinforced composite material which has been modified to form a living hinge section with reduced bending stiffness to allow flexion of the tubular section, wherein the tubular section is located between and connected to two end sections and wherein: a first of the end sections comprises a first cylindrical portion that is connected via a frustoconical portion to a first end of the tubular section; a second of the end sections comprises a second cylindrical portion that is connected via a frustoconical portion to a second, opposite, end of the tubular section; the tubular section has a larger diameter than each of the first and second cylindrical portions; and the tubular section is formed of a continuous-fibre-reinforced composite material. 2. A flexible coupling according to claim 1 , wherein the tubular section has been modified through the provision of a pattern of formations within the living hinge section, preferably wherein the formations are in the form of apertures and/or recesses in the continuous-fibre-reinforced composite material to create a plurality of living hinges in the material between, and preferably wherein the formations are in the form of slots and/or grooves in the continuous-fibre-reinforced composite material. 3. A flexible coupling according to claim 2 , wherein the pattern of formations divides the living hinge section into consecutive flexible and rigid segments, preferably wherein each flexible segment comprises necks of material forming a living hinge of the living hinge section, and the or each rigid segment comprises a ring of the tubular section linked on each axial side by a living hinge, such that the flexible segments have less continuous-fibre-reinforced composite material per unit axial length compared to the or each rigid segments to reduce bending stiffness locally. 4. A flexible coupling according to claim 2 , wherein the pattern of formations comprises sets of circumferentially extending formations provided at common axial locations along the tubular section, each set of formations being spaced axially with respect to a next set of formations. 5. A flexible coupling according to claim 4 , wherein each set of formations comprises two or three circumferentially extending formations provided at a given axial location, such that ends of the formations define neck sections of continuous-fibre-reinforced composite material therebetween, and preferably wherein the pattern of formations comprises pairs of opposed formations in the continuous-fibre-reinforced composite material separated by pairs of neck sections, each pair of neck sections provided at a different axial position along the tubular section, and preferably each pair of neck sections is angularly offset from a next pair of neck sections by 90°. 6. A flexible coupling according to claim 2 , wherein the pattern of formations defines at least three living hinges in the living hinge section, each allowing flexion of the tubular section in a radial direction; preferably where there are at least five living hinges; more preferably at least eight living hinges. 7. A flexible coupling according to claim 2 , wherein the formations extend in a helical direction to leave helically extending neck sections of continuous-fibre-reinforced composite material between adjacent sides of the formations to provide a living hinge of the living hinge section; preferably wherein there are at least two sets of helically extending formations and the formations of one set extend in an opposed helical direction to another set; and preferably wherein each set of formations comprises at least three formations having the same helical pitch or preferably at least five formations having the same helical pitch. 8. A flexible coupling according to claim 2 , wherein the formations extend in an axial direction separated by neck sections of continuous-fibre-reinforced composite material extending axially therebetween to provide a living hinge of the living hinge section; preferably wherein there are at least two sets of formations, one set extending in an axial direction which is angularly displaced with respect to another set; and preferably wherein each set of formations comprises at least three axially extending formations, or preferably at least five axially extending formations. 9. A flexible coupling according to claim 2 , wherein the tubular section comprises: a first layer of continuous fibres having a first winding angle; and a second layer of continuous fibres having a second winding angle, wherein the first and second winding angles are different and wherein at least one of the layers of continuous fibres has been cut through or is absent to provide at least some of the formations, and/or wherein at least some of the formations have been formed by winding, braiding or laying-up continuous fibres between pegs on a core, said pegs diverting the path of the fibres such that there are no fibre ends at an edge of each formation.