Patent Number: 
Section: claims

1. A multi-layer staggered coupling collimator, comprisinga plurality of collimation layers, wherein:a plurality of collimation holes are provided on each of the plurality of collimation layers; andat least two of the plurality of collimation layers are coupled to each other in a staggered manner;wherein the plurality of collimation layers do not have the same thickness. 2. The multi-layer staggered coupling collimator according to claim 1, wherein any adjacent ones in the collimation layers are staggered with each other. 3. The multi-layer staggered coupling collimator according to claim 2, wherein in the staggered plurality of collimation layers, the odd numbered collimation layers are aligned to each other, and the even numbered collimation layers are aligned to each other. 4. The multi-layer staggered coupling collimator according to claim 1, wherein the plurality of collimation layers are grouped into a plurality of groups in order, and the plurality of groups are staggered with each other. 5. The multi-layer staggered coupling collimator according to claim 4, wherein the plurality of groups do not have the same number of collimation layers. 6. The multi-layer staggered coupling collimator according to claim 4, wherein the plurality of groups have the same number of collimation layers. 7. The multi-layer staggered coupling collimator according to claim 1, wherein a ratio of a minimum thickness to a maximum thickness of the plurality of collimation layers ranges from 1:1 to 1:11. 8. The multi-layer staggered coupling collimator according to claim 1, wherein positions of all of the plurality of collimation layers are unchangeable. 9. The multi-layer staggered coupling collimator according to claim 8, wherein a fixing hole is provided on each of the collimation layers and the collimation layers are fixed to each other by means of a screw in cooperation with the fixing hole. 10. The multi-layer staggered coupling collimator according to claim 1, wherein a position of at least one of the collimation layers is adjustable. 11. The multi-layer staggered coupling collimator according to claim 10, wherein a guide rail is provided in the collimator, to adjust the position of the collimation layer by means of sliding on the guide rail. 12. The multi-layer staggered coupling collimator according to claim 1, whereinthe collimation holes of the plurality of collimation layers have the same type; andthe multi-layer staggered coupling collimator have a collimation layer type of parallel hole collimator, convergent collimator or divergent collimator. 13. The multi-layer staggered coupling collimator according to claim 1, wherein the number of the collimation layers ranges from 2 to 30. 14. The multi-layer staggered coupling collimator according to claim 1, whereinthe collimation holes on the collimation layers have a shape of square;the collimation holes are arranged in a y direction and a z direction and arranged in a square grid, where the y direction is a direction of one group of opposite sides of the square and the z direction is a direction of the other group of opposite sides of the square; andthe collimation layers are staggered with each other in the y direction and/or the z direction, such that a pitch of holes in a squared pattern obtained by projecting the collimator in a direction parallel to the holes is ½ to 1/M of a pitch of holes in the collimation layers, where a value of M ranges from 2 to N, and N denotes the number of the collimation layers. 15. The multi-layer staggered coupling collimator according to claim 1, whereinthe collimation holes on the collimation layers have a shape of regular hexagon;the regular hexagon holes are arranged in a regular triangular grid; andthe collimation layers are staggered such that a center of each of the collimation holes on any one of the collimation layers is aligned with a common vertex of adjacent ones of the regular hexagon holes on an adjacent collimation layer. 16. The multi-layer staggered coupling collimator according to claim 1, whereinthe collimation holes on the collimation layers have a shape of round or any polygon approximate to round;the collimation holes are arranged in a regular triangular grid; andthe collimation layers are staggered such that a center of each of the collimation holes on any one of the collimation layers is aligned with a point on an adjacent collimation layer, the point is located in a region surrounded by three adjacent holes, and distances between the point and centers of the adjacent three holes are the same. 17. The multi-layer staggered coupling collimator according to claim 1, whereinthe collimation holes on the collimation layers have a shape of round or any polygon approximate to round;the collimation holes are arranged in a square grid, each grid unit in the grid is a square, and each grid point in the grid corresponds to a center of one of the collimation holes; andthe collimation layers are staggered with each other in a y direction and/or a z direction by a staggering amount of ½ of a pitch of holes, where the y direction is a direction of one group of opposite sides of the square and the z direction is a direction of the other group of opposite sides of the square. 18. The multi-layer staggered coupling collimator according to claim 1, whereinthe collimation holes on the collimation layers have a shape of regular triangle;the collimation holes are arranged in a hexagon grid, each grid unit in the grid is a regular hexagon, and each grid point in the grid corresponds to a center of one of the collimation holes;the collimation layers are staggered in a direction of a side of the triangular hole by a staggering amount of sqrt(3)/2 of a side length of the hexagon grid unit, sqrt indicates an extraction operation; andan approximate value is assigned to the staggering amount in a case that the staggering amount is an infinite non-repeating decimal or an infinite repeating decimal. 19. A radiator, comprisinga radiation source, andthe multi-layer staggered coupling collimator according to claim 1, configured to collimate rays emitted by the radiation resource. 20. A detection device, comprisinga detector, andthe multi-layer staggered coupling collimator according to claim 1, configured to collimate rays, where the collimated rays are applied to the detector.