Braking or clutch assembly for rotating shafts

The invention claimed is: 1. A selective shaft engaging assembly comprising: a first shaft; a brake cage being rotatable with the first shaft; a surrounding member extending circumferentially around the brake cage; at least one engagement member coupled to the first shaft; and a braking mechanism configured for selectively applying a force to the brake cage for slowing or preventing rotational movement of the brake cage such that the first shaft rotates relative to the brake cage; wherein the assembly is configured such that when the first shaft rotates relative to the brake cage, said at least one engagement member is urged towards the surrounding member; wherein the brake cage comprises, or is coupled to, a brake plate or brake surface, and the assembly comprises a moveable member that is selectively movable into or out of contact with the brake plate or brake surface for providing a braking force on the brake plate or brake surface and hence to the brake cage; wherein the assembly comprises at least one biasing member coupling the first shaft to the brake cage such that rotation of the first shaft drives rotation of the brake cage; and wherein the at least one biasing member is configured to bias the circumferential position of the brake cage relative to the first shaft such that the engagement member is located on the surface of the first shaft at a first, radially inward position such that rotation of the first shaft is not prevented. 2. The assembly of claim 1 , wherein the selective shaft engaging assembly is a braking assembly; wherein the surrounding member is a static earth ring, and wherein when the first shaft rotates relative to the brake cage, the at least one engagement member is urged towards the static earth ring such that rotation of the first shaft is inhibited or prevented. 3. The braking assembly of claim 2 , wherein the brake cage is configured to prevent circumferential movement of the engagement member relative thereto, wherein the engagement member is arranged on a surface of the first shaft, and wherein the surface of the first shaft is configured such that when the first shaft rotates relative to the brake cage the engagement member is urged towards the static earth ring. 4. The braking assembly of claim 1 , configured such that said rotation of the first shaft relative to the brake cage overcomes a biasing force of the at least one biasing member such that the engagement member is located on the surface of the first shaft at a second, radially outward position such that rotation of the first shaft is inhibited or prevented. 5. The assembly of claim 1 , wherein the selective shaft engaging assembly is a clutch assembly; wherein the first shaft is an input shaft; wherein the surrounding member is an output shaft, and wherein when the input shaft rotates relative to the brake cage, the at least one engagement member is urged towards the output shaft so as to couple the input and output shafts such that rotation of the input shaft drives rotation of the output shaft. 6. The clutch assembly of claim 5 , wherein the brake cage is configured to prevent circumferential movement of the engagement member relative thereto, wherein the engagement member is arranged on a surface of the input shaft, and wherein the surface of the input shaft is configured such that when the input shaft rotates relative to the brake cage the engagement member is urged towards the output shaft. 7. The clutch assembly of claim 6 , comprising at least one biasing member coupling the input shaft to the brake cage such that rotation of the input shaft drives rotation of the brake cage. 8. The clutch assembly of claim 7 , wherein the at least one biasing member is configured to bias the circumferential position of the brake cage relative to the input shaft such that the engagement member is located on the surface of the input shaft at a first, radially inward position such that the input and output shafts are not coupled to the extent that rotation of the input shaft would drive rotation of the output shaft. 9. The clutch assembly of claim 8 , configured such that said rotation of the input shaft relative to the brake cage overcomes a biasing force of the at least one biasing member such that the engagement member is located on the surface of the input shaft at a second, radially outward position so as to couple the input and output shafts such that rotation of the input shaft drives rotation of the output shaft. 10. The assembly of claim 1 , wherein the braking mechanism comprises a brake spring configured to bias the moveable member either towards or away from the brake plate or brake surface. 11. The assembly of claim 1 , wherein the braking mechanism comprises an electromagnet arranged and configured such that when energized the electromagnet urges the moveable member away from or towards the brake plate or brake surface. 12. The assembly of any claim 1 , wherein the movable member is a brake pad. 13. The assembly of claim 1 , wherein the at least one biasing member comprises a plurality of biasing members, wherein each of the biasing members comprises at least one portion that contacts the inner surface of the brake cage such that a rotation of the shaft and the biasing members thereon causes the brake cage to rotate with the shaft. 14. The assembly of claim 13 , wherein the plurality of biasing members are leaf springs.