Adjustable support structure for display tile

The invention claimed is: 1. A tiled display, comprising: display tiles, each of the display tiles are fastened to a support structure using at least one support substructure; wherein a mechanism is used to control movements of the at least one support substructure allowing each of the display tiles to move in a plane parallel to the nominal plane (XY); wherein each of the display tiles having one or more contact elements, wherein the one or more contact elements are configured to exert a force from one display tile to another display tile allowing adjacent display tiles to self-align. 2. The tiled display of claim 1 , wherein the one or more contact elements are arranged on the display tile to form contact to a surface of a side of the other display tile adjacent to the display tile. 3. The tiled display of claim 1 , wherein the one or more contact elements of each of the display tiles are arranged on a corner of the display tile. 4. The tiled display of claim 2 , wherein the one or more contact elements are arranged to protrude from a circumference of the display tile, a width of a seam between the adjacent display tiles is defined by a size of a protrusion of the one or more contact elements from the display tile. 5. The tiled display of claim 2 , wherein the one or more contact elements are arranged to be flush with a circumference of the display tile resulting in a seam between adjacent tiles being absent. 6. The tiled display of claim 1 , wherein the display tiles are arranged in columns and rows, wherein a force exerted to push the display tile upward is transferred from the display tile to the other display tile disposed above the display tile using the one or more contact elements. 7. The tiled display of claim 1 , wherein the mechanism is driven by a motor or a hand crank or key. 8. The tiled display of claim 1 , wherein the mechanism is used to transform a rotary movement into a translation of the at least one support substructure. 9. The tiled display of claim 1 , wherein the mechanism includes a quadrant gear and a pin, the quadrant gear being for applying a force to the at least one support substructure via the pin. 10. The tiled display of claim 1 , wherein the at least one support substructure is fastened to the support structure through another support substructure, the other support substructure is fastened to the support structure using an alignment mechanism, the alignment mechanism is configured to align the adjacent display tiles. 11. The tiled display of claim 10 , wherein the alignment element comprises guiding means for controlling the direction and/or amplitude of a movement of the at least one support substructure. 12. A display tile, comprising: one or more contact elements, wherein the display tile is configured to, on contacting an adjacent display tile, move in a plane parallel to a nominal plane (XY), the one or more contact elements are configured to transfer a force from the display tile to the adjacent display tile causing the adjacent display tiles to self-align in the plane parallel to the nominal plane (XY). 13. The display tile of claim 12 , wherein the one or more contact elements are each arranged on a different corner of the display tile. 14. The display tile of claim 12 , wherein the one or more contact elements are arranged to protrude from a circumference of the display tile. 15. The display tile of claim 12 , wherein the one or more contact elements are arranged to be flush with a circumference of the display tile. 16. A method for manipulating display tiles, wherein each of the display tiles are fastened to a support structure using at least one support substructure; wherein a mechanism is used to control movements of the support substructure allowing each of the display tiles to move in a plane parallel to the nominal plane (XY); wherein each of the display tiles has one or more contact elements, the method comprising: exerting a force from one display tile to another display tile through the one or more contact elements allowing adjacent display tiles to self-align. 17. The method of claim 16 , wherein the display tiles are arranged in columns and rows, wherein a force exerted to push the display tile upward is transferred from the display tile to the other display tile disposed above the display tile using the one or more contact elements. 18. The method of claim 16 , wherein the mechanism is driven by a motor or a hand crank or key. 19. The method of claim 16 , wherein the mechanism transforms a rotary movement into a translation of the at least one support substructure. 20. The method of claim 16 , wherein the mechanism includes a quadrant gear and a pin, the quadrant gear is used to apply a force to the at least one support substructure via the pins. 21. The method of claim 16 , wherein the at least one support substructure is fastened to the support structure through another support substructure, which is fastened to the support structure using an alignment mechanism, wherein the alignment mechanism aligns adjacent display tiles with respect to each other.