Security devices

The invention claimed is: 1. A security device comprising a first pattern of elements and a reflective surface spaced by a transparent layer, the reflective surface providing a virtual pattern in the form of a reflected image of the first pattern of elements, the first pattern of elements obstructing the passage of light reflected to a viewer by the device to a varying degree depending on the viewing position, wherein the first pattern of elements is configured to define at least three regions of the device, where each of the at least three regions exhibits a maximum rate of change in the degree of obstruction with tilt angle when the device is tilted relative to the viewer about different respective tilt axes, whereby as the tilt direction is changed relative to the viewer, a different one of the at least three regions of the first group exhibits its maximum degree of obstruction in turn; the first pattern of elements comprising: a first region that exhibits a maximum rate of change in the degree of obstruction with tilt angle when the device is tilted relative to the viewer about a first tilt axis, and a second region that exhibits a maximum rate of change in the degree of obstruction with tilt angle when the device is tilted relative to the viewer about a second tilt axis which is not parallel to the first tilt axis, wherein the at least three regions are adjacent to each other and comprise the first and second regions, and each respective pattern direction of the at least three adjacent regions makes an angle with a reference direction which successively increases from one region to the next adjacent region in series, whereby as the tilt direction is changed relative to the viewer, the adjacent regions exhibit their maximum or minimum obstruction in sequence; and the first pattern of elements is configured such that upon tilting or rotating the device, the maximum degree of obstruction exhibited by the device appears to move from one region of the at least three adjacent regions to the next adjacent region as a wave across or around the device. 2. A security device according to claim 1 , wherein when the device is tilted about the first tilt axis, and the second region of the device exhibits substantially no change in the degree of obstruction. 3. A security device according to claim 1 , wherein the first and second tilt axes are substantially perpendicular to one another. 4. A security device according to claim 1 , wherein the first and second regions exhibit substantially no contrast between them when the device is viewed from the normal position. 5. A security device according to claim 1 , wherein for each region, the tilt axis about which the region exhibits a maximum rate of change in the degree of obstruction exhibited with tilt angle is determined by a pattern direction of the region, lying in the plane of the device, which pattern direction is defined by anisotropy of the first pattern of elements, the pattern direction of the first region being non-parallel to that of the second region. 6. A security device according to claim 5 , wherein the pattern direction of the first region makes an angle of between 5 and 90 degrees with that of the second region. 7. A security device according to claim 1 , wherein the first and second regions abut one another or are spaced from one another by no more than 1 cm. 8. A security device according to claim 1 , wherein the first region or the second region, or both in combination, define one or more items of information selected from the group consisting of a letter, digit, symbol, image, graphic and alphanumerical text. 9. A security device according to claim 1 , wherein the first region surrounds at least a part, of the second region. 10. A security device according to claim 1 , wherein the first and/or second region comprises a plurality of sub-regions, each sub-region forming part of one region exhibiting the same variation in degree of obstruction as the device is tilted. 11. A security device according to claim 1 , wherein the pattern is configured such that, as the viewing position is changed, a respective maxima viewing position or a respective minima viewing position for each of the at least three regions of the first group is reached in the same order as that in which the corresponding regions are arranged spatially across the device in a first continuous direction. 12. A security device according to claim 1 , wherein the tilt axes about which each respective region exhibits its maximum rate of change in degree of obstruction with tilt angle lie at angles which successively increase relative to a reference direction from one region to the next adjacent region in series, whereby as the tilt direction is changed relative to the viewer, adjacent regions exhibit their maximum or minimum obstruction in sequence. 13. A security device according to claim 1 , wherein at least one of the at least three regions of the first group is located between the first and second regions. 14. A security device according to claim 13 , wherein the first group comprises N regions, of which (N−2) regions are located between the first and second regions, the respective tilt axes about which each of the N regions exhibits its maximum rate of change in obstruction with tilt angle being angularly separated from one another by approximately 90/(N−1) degrees. 15. A security device according to claim 14 , wherein the angle of the respective tilt axes about which each of the N regions of the first group exhibits its maximum rate of change in obstruction with tilt angle, relative to that of the first region, increases from each region to the next region of the first group towards the second region. 16. A security device according to claim 1 , wherein the elements of the first pattern are formed of multiple layers, where the appearance of the outermost layer is different from that of the innermost layer facing the transparent layer. 17. A security device according to claim 1 , wherein the reflective surface is specularly reflective. 18. A security device according to claim 1 , wherein the reflective surface comprises a reflective layer adjacent the transparent layer. 19. A security article comprising a security device according to claim 1 , wherein the security article is a member selected from the group consisting of a security thread, strip, patch, label and transfer foil. 20. A security device comprising a first pattern of elements and a reflective surface spaced by a transparent layer, the reflective surface providing a virtual pattern in the form of a reflected image of the first pattern of elements, the first pattern of elements obstructing the passage of light reflected to a viewer by the device to a varying degree depending on the viewing position, wherein the first pattern of elements is configured to define at least three regions of the device, of which a first region exhibits a maximum rate of change in the degree of obstruction with tilt angle when the device is tilted relative to the viewer about a first tilt axis, and a second region exhibits a maximum rate of change in the degree of obstruction with tilt angle when the device is tilted relative to the viewer about a second tilt axis which is not parallel to the first tilt axis, wherein the first pattern of elements is configured such that upon tilting or rotating the device, the maximum degree of obstruction exhibited by the device appears to move from one region to the next as a wave across or around the device, wherein the elements of the fi