Device for effecting an axial shift of a rotary shaft for use in a variable camshaft drive mechanism

The invention claimed is: 1. A device for effecting an axial shift of a rotary shaft comprising: a first component having a shaft and a head; a second component having a first end and a second end and a bore extending longitudinally therethrough, the first end of the second component being countersunk so as to define inclined ramps in walls as a portion of the second component; the shaft of the first component being inserted into the bore of the second component; a detent for coupling the first component to the second component such that rotation of the second component causes the first component to rotate; one or more rollers disposed in between the head of the first component and the first end of the second component in rolling contact with the inclined ramps; the device being configured such that as the second component is rotated about a longitudinal axis the rollers move along the inclined ramps and act upon the first component to move it axially with respect to the second component; and wherein the detent comprises a groove and a bearing seated therein, the groove arranged to effect a rotation of the first component with respect to the second component as the first component is moved axially with respect to the second component. 2. A device according to claim 1 wherein the groove is arranged parallel to a longitudinal axis of the shaft of the first component so as to restrict movement of the first component to be axially within the bore of the second component. 3. A device according to claim 1 comprising a resilient biasing device biased against the first component to resist axial movement of the first component with respect to the second component. 4. A device according to claim 3 wherein the resilience of the resilient biasing device is dependent upon temperature. 5. A device according to claim 4 wherein the resilient biasing device comprises a bi-metallic spring disposed in thermal contact with a reservoir of liquid and wherein in response to a change in the temperature of the liquid in the reservoir, the resilience of the bi-metallic spring changes and thereby the device can be de-activated by the resilient biasing device at certain temperatures. 6. A device according to claim 1 wherein the inclined ramps comprise one or more tracks defined in and extending radially across the walls of the second component, each track being configured to receive a portion of one of the rollers to restrict movement of the roller such that the roller cannot move circumferentially. 7. A device according to claim 1 wherein the first component comprises a spline for coupling to a camshaft to effect rotation thereof. 8. A vehicle comprising the device of claim 1 . 9. A variable drive mechanism for a camshaft comprising: a first component having a shaft and a head, the shaft comprising a spline for coupling the first component to a camshaft; a second component having a first end and a second end and a bore extending longitudinally therethrough for receiving the shaft of the first component, the second component comprising a sprocket for being coupled to a crankshaft to effect rotation of the second component; a detent for coupling the first component to the second component such that rotation of the second component causes the first component to rotate; one or more actuators disposed in between the head of the first component and the first end of the second component; wherein in response to rotation of the second component, about a longitudinal axis, a centrifugal or centripetal force causes the one or more actuators to act upon the head of the first component to move it axially with respect to the second component; and wherein the detent comprises a groove and a bearing seated therein, the groove arranged to effect a rotation of the first component, with respect to the second component, as the first component is moved axially with respect to the second component. 10. A variable drive mechanism according to claim 9 , wherein the first end of the second component is countersunk so as to define inclined ramps in walls of the second component and the one or more actuators comprise one or more rollers disposed in between the head of the first component and the first end of the second component in rolling contact with the inclined ramps. 11. A variable drive mechanism according to claim 10 , wherein the inclined ramps comprise one or more tracks defined in and extending radially across the walls of the second component, each track being configured to receive a portion of the one or more rollers to restrict movement of the roller such that the roller cannot move circumferentially. 12. A variable drive mechanism according to claim 9 , wherein the groove is arranged parallel to a longitudinal axis of the shaft of the first component so as to restrict movement of the first component to be axially within the bore of the second component. 13. A variable drive mechanism according to claim 9 , comprising a resilient biasing device biased against the first component to resist the axial movement of the first component with respect to the second component. 14. A variable drive mechanism according to claim 13 , wherein the resilience of the resilient biasing device is dependent upon temperature. 15. A variable drive mechanism according to claim 14 , wherein the resilient biasing device comprises a bi-metallic spring disposed in thermal contact with a reservoir of liquid and wherein in response to a change in the temperature of the liquid in the reservoir, the resilience of the bi-metallic spring changes and thereby the mechanism can be de-activated by the resilient biasing device at certain temperatures. 16. A vehicle comprising the variable drive mechanism of claim 9 . 17. An engine for a vehicle comprising: one or more cylinders; the or each cylinder comprising a piston slideably mounted therein; the or each piston being coupled to a crankshaft by a connecting rod; a first sprocket mounted upon the crankshaft; the or each cylinder comprising one or more openings; the or each opening comprising a valve for closing the opening; a camshaft comprising one or more cams for actuating a respective valve; a variable drive mechanism coupled to the camshaft; the variable drive mechanism comprising: a first component having a shaft and a head, the shaft comprising a spline coupling the first component to the camshaft; a second component having a first end and a second end and a bore extending longitudinally therethrough in which the shaft of the first component is mounted, the second component comprising a second sprocket coupled to the first sprocket such that rotation of the crankshaft effects rotation of the second component; a detent coupling the first component to the second component such that rotation of the second component causes the first component to rotate; one or more actuators disposed in between the head of the first component and the first end of the second component; the engine being configured such that in response to rotation of the second component, about a longitudinal axis, a centrifugal or centripetal force causes the one or more actuators to act upon the head of the first component to move the first component axially with respect to the second component thereby changing a control parameter of the operation of the or each valve; and wherein the detent comprises a groove and a bearing seated therein, the groove arranged to effect a rotation of the first component with respect to the second component as the first component is moved axially with respect to the sec