Helmet

The invention claimed is: 1. A helmet comprising: an inner shell comprising an energy absorbing material configured to absorb impact energy by compression; an outer shell; an intermediate layer between the inner shell and the outer shell formed from or coated with a low friction material; and at least one connecting member configured to connect the inner shell to the outer shell, and allow sliding between the inner shell and the outer shell, when the outer shell is attached to the rest of the helmet; wherein: when the outer shell is attached, the outer shell and the inner shell are configured to slide relative to one another in response to an impact, a sliding interface being provided between the intermediate layer and one or both of the outer shell and the inner shell at which the outer shell and/or inner shell are configured to slide against the intermediate layer; the connecting member is configured to directly connect the inner shell to the outer shell; the intermediate layer has a hole associated with each of the at least one connecting members and the helmet is configured such that each connecting member between the inner and the outer shell passes through the associated hole, each hole is large enough to allow sliding between the inner shell and the outer shell during an impact without a connecting member passing through it making contact with an edge of the hole; and at least one of the inner shell and the outer shell is detachably connected to the at least one connecting member such that the outer shell is detachable from the inner shell. 2. The helmet of claim 1 , wherein a sliding interface is provided between the intermediate layer and the outer shell; and the helmet is configured such that the intermediate layer remains in a fixed position relative to the inner shell during an impact. 3. The helmet of claim 1 , wherein a sliding interface is provided between the intermediate layer and the inner shell; and the helmet is configured such that the intermediate layer remains in a fixed position relative to the outer shell during an impact. 4. The helmet of claim 1 , wherein the at least one connecting member is deformable to permit sliding between the inner shell and the outer shell. 5. The helmet of claim 1 , wherein a sliding interface is provided between the intermediate layer and both the inner and outer shells. 6. The helmet of claim 1 , wherein the outer shell is formed from a hard material relative to the inner shell. 7. A helmet comprising: an inner shell; a detachable outer shell; an intermediate layer between the inner shell and the outer shell, wherein the intermediate layer is formed from or coated with a low friction material against which the outer shell and/or inner shell are configured to slide; a first member connecting one of the inner shell and the outer shell to the intermediate layer outer shell, and configured to allow sliding between one of the inner shell and the outer shell and the intermediate layer, when the outer shell is attached to the rest of the helmet; and a second connecting member connecting the other of the inner shell and the outer shell to the intermediate layer, and wherein, when the outer shell is attached, the outer shell and the inner shell are configured to slide relative to one another in response to an impact, a sliding interface being provided between the intermediate layer and one or both of the outer shell and the inner shell. 8. The helmet of claim 7 , wherein the first connecting member connects the inner shell to the intermediate layer. 9. The helmet of claim 8 , wherein the outer shell is detachably connected to the intermediate layer. 10. The helmet of claim 8 , wherein at least one of the inner shell and the intermediate layer is detachably connected to the first connecting member. 11. The helmet of claim 7 , wherein the first connecting member connects the outer shell to the intermediate layer and the intermediate layer is detachably connected to the inner shell. 12. The helmet of claim 11 , wherein at least one of the outer shell and the intermediate layer is detachably connected to the first connecting member. 13. The helmet of claim 7 , wherein the intermediate layer is detachably connected to the inner shell. 14. The helmet of claim 7 , wherein the second connecting member is configured to fix the position of the intermediate layer relative to the other of the inner shell and the outer shell, when the outer shell is attached to the rest of the helmet. 15. The helmet of claim 7 , wherein the second connecting member is configured to allow sliding between the intermediate layer and the other one of the inner shell and the outer shell, when the outer shell is attached to the rest of the helmet. 16. The helmet of claim 7 , wherein the at least one first connecting member is deformable to permit sliding between the inner shell and the outer shell. 17. The helmet of claim 7 , wherein the outer shell is formed from a hard material relative to the inner shell. 18. The helmet of claim 7 , wherein the inner shell comprises an energy absorbing material configured to absorb impact energy by compression. 19. The helmet of claim 7 , wherein the first and second connecting members form respective parts of a two-part connecting member and the first and second connecting members additionally detachably connect to each other. 20. The helmet of claim 19 , wherein the two-part connecting member is configured such that the outer shell can be detached from the rest of the helmet by disconnecting first and second members from each other.