Assembly and method for separating selected defective objects from a group of objects used in tobacco industry

The invention claimed is: 1. An assembly for separating selected defective objects from a group of objects used in tobacco industry, the group comprising regular objects having the form of a substantially spherical external surface of a determined diameter and the defective objects, the assembly comprising: a generally flat sieve element ( 405 ) having through holes ( 406 ), and a blocking element ( 407 ) located under the sieve element ( 405 ) and spaced therefrom, the blocking element comprising segments ( 407 A) having upper surfaces ( 407 B) and disposed so as to define spaces ( 408 ) between adjacent segments ( 407 A), wherein the sieve element ( 405 ) and the blocking element ( 407 ) are displaceable both in a direction perpendicular and in parallel with respect to each other at least between a first configuration and a second configuration, wherein the segments ( 407 A) each comprise a wall ( 412 ) projecting perpendicularly towards the sieve element ( 405 ) from an upper surface ( 407 B) of the segments ( 407 A) facing the sieve element ( 405 ), wherein in the first configuration the blocking element ( 407 ) is spaced from the sieve element ( 405 ) and the holes ( 406 ) of the sieve element ( 405 ) and the segments ( 407 A) of the blocking element ( 407 ) enable the regular objects to fall through the holes ( 406 ) and through the spaces ( 408 ) between the segments ( 407 A), while holding the selected defective objects between the holes ( 406 ) and the upper surfaces ( 407 B) of the segments ( 407 A), wherein in the second configuration upon translation of the sieve element ( 405 ) and the blocking element ( 407 ) in parallel with respect to each other, the segments ( 407 A) enable said selected defective objects held in the first configuration to exit the holes ( 406 ) and to fall through the spaces ( 408 ) between the segments ( 407 A), and wherein in a third configuration, upon subsequent translation of the sieve element and the blocking element perpendicularly with respect to each other, the walls ( 412 ) are engaged in the holes ( 406 ) so that the segments ( 407 A) of the blocking element ( 407 ) enable, by the walls ( 412 ), the defective objects stopped by the holes ( 406 ) or the spaces ( 408 ) between the segments ( 407 A), to be pushed out of the holes. 2. The assembly according to claim 1 , in which the holes ( 406 ) have a cross-section selected from a group comprising: a circle of diameter (d) and a polygon circumscribing said circle, the diameter (d) being adapted to enable the regular objects and the selected defective objects having one dimension at most equal to the diameter of said regular objects to fall through the holes ( 406 ). 3. The assembly according to claim 1 , in which the holes ( 406 ) of the sieve element ( 405 ) are arranged in equal intervals along parallel lines. 4. The assembly according to claim 3 , in which the holes ( 406 ) of the sieve element ( 405 ) are arranged to form an orthogonal array. 5. The assembly according to claim 1 , in which the holes ( 406 ) have a cross-section selected from a group comprising: a circle of diameter (d) and a polygon circumscribing said circle, the diameter (d) being adapted to enable the regular objects and the selected defective objects having one dimension at most equal to the diameter of said regular objects to fall through the holes ( 406 ). 6. The assembly according to claim 1 , in which the holes ( 406 ) of the sieve element ( 405 ) are arranged in equal intervals along parallel lines. 7. The assembly according to claim 6 , in which the holes ( 406 ) of the sieve element ( 405 ) are arranged to form an orthogonal array.