Helmet

The invention claimed is: 1. A helmet comprising: an energy absorbing layer; an outer layer that is harder than the energy absorbing layer and is formed outward of the energy absorbing layer; a plurality of outer plates formed from a material that is harder than the energy absorbing layer, the plurality of outer plates mounted on an outer surface of the outer layer, such that a whole outer plate is located outward of the outer layer; and a plurality of connectors associated with each outer plate, each respective plurality of connectors configured to secure each respective outer plate to the outer layer in the absence of an impact; wherein the outer plates are mounted on the outer layer such that, under an oblique or tangential impact to at least one outer plate of the plurality of outer plates, the whole at least one outer plate is free to slide across the outer layer, with said at least one outer plate directly contacting the outer layer, and move relative to other outer plates of the plurality of outer plates, so as to redirect rotational impact energy and reduce the transfer of rotational forces to the remainder of the helmet; the plurality of connectors associated with the at least one outer plate are configured to permit the at least one outer plate to slide across the outer layer under the oblique or tangential impact to the at least one outer plate; a low friction interface is provided between the outer surface of the outer layer and at least a part of the surface of the outer plates that is capable of contacting the outer surface of the outer layer under the oblique or tangential impact to an outer plate, and the friction is sufficiently low that, under the forces associated with an impact that the helmet is designed to withstand, the oblique or tangential impact to the at least one outer plate causes the at least one outer plates to slide relative to the outer layer so as to redirect rotational impact energy and reduce the transfer of rotational forces to the remainder of the helmet; and sliding of the at least one outer plate relative to the outer layer, under the oblique or tangential impact to the at least one outer plate, comprises translation of the at least one outer plate relative to the outer surface of the outer layer. 2. A helmet according to claim 1 , wherein the plurality of outer plates form the outermost layer of the helmet. 3. A helmet according to claim 1 , wherein each respective plurality of connectors is configured to secure each respective outer plate to the energy absorbing layer and the outer layer in the absence of the impact. 4. A helmet according to claim 1 , wherein at least one of said plurality of connectors is provided in a central region of the associated outer plate. 5. A helmet according to claim 1 , wherein at least one of said plurality of connectors is provided at an edge of the associated outer plate. 6. A helmet according to claim 1 , further comprising at least one connector associated with at least one outer plate, the at least one connector configured to secure the at least one outer plate to an adjacent outer plate in the absence of an impact. 7. A helmet according to claim 1 wherein at least one connector of said plurality of connectors is configured to deform under an impact to the outer plate associated with the at least one connector. 8. A helmet according to claim 7 , wherein the at least one connector is configured to deform elastically under an impact to the outer plate associated with the at least one connector. 9. A helmet according to claim 7 , wherein the at least one connector is formed from an elastic fabric. 10. A helmet according to claim 1 , wherein at least a first connector of said plurality of connectors is configured to rupture under an impact to the outer plate associated with the at least one connector. 11. A helmet according to claim 10 , wherein the first connector is an adhesive. 12. A helmet according to claim 1 , wherein at least one connector of said plurality of connectors is configured to secure at least one of the plurality of outer plates in an initial position by at least one of a snap-fit, screw, mechanical fixing, magnet or a friction fit element in the absence of an impact to the at least one outer plate associated within the at least one connector; and the at least one snap-fit, screw, mechanical fixing, magnet or friction fit element is configured to release the at least one outer plate under an impact to the at least one outer plate. 13. A helmet according to claim 1 , wherein at least one outer plate of said plurality of outer plates is configured such that, in the absence of an impact to the at least one outer plate, the at least one outer plate has a convex shape when viewed from outside of the helmet and, under an impact to the at least one outer plate, changes to a concave shape when viewed from outside of the helmet. 14. A helmet according to claim 3 , wherein at least one outer plate of said plurality of outer plates is configured such that, in the absence of an impact to the at least one outer plate, the at least one outer plate has a convex shape when viewed from outside of the helmet and, under an impact to the at least one outer plate, changes to a concave shape when viewed from outside of the helmet; and wherein the plurality of connectors are configured such that the change of shape of the at least one outer plate releases the at least one outer plate to slide relative to the outer layer. 15. A helmet according to claim 13 , wherein the at least one outer plate is connected to an associated inner plate provided on the inner surface of the outer layer; and when said outer plate is in a convex shape, the inner plate is pressed against the inner surface of the outer layer which at least partially secures the at least one outer plate to the outer layer in the absence of an impact to the at least one outer plate. 16. A helmet according to claim 15 , further comprising a recess formed in the inner surface of the outer layer, configured to receive and secure the position of the inner plate relative to the outer layer in the absence of an impact to the at least one outer plate. 17. A helmet according to claim 13 , wherein the at least one outer plate deforms elastically between said convex and concave shapes. 18. A helmet according to claim 13 , wherein, when the at least one outer plate is in said convex shape, it is elastically deformed relative to an unstressed state. 19. A helmet according to claim 1 , further comprising an outer layer of material provided outside of the plurality of outer plates; wherein the outer plates are connected to the outer layer of material at respective locations; and the outer layer of material is configured to be able to deform to enable movement of the outer plates relative to each other and relative to the outer layer under an impact to an outer plate. 20. A helmet according to claim 1 , wherein the outer plates include a repeating pattern of one or two outer plate shapes. 21. A helmet according to claim 20 , wherein at least one outer plate shape is a triangle, a square, a rectangle, a diamond, a pentagon, a hexagon, a circle, an ellipse and a teardrop. 22. A helmet according to claim 1 , wherein at least one outer plate is mounted on the outer layer such that, in order to release the at least one outer plate to slide across the outer layer in response to an oblique impact, the required force component of the oblique impact on the at least one