Method of emptying trays filled with rod-shaped articles of the tobacco industry

The invention claimed is: 1. A method of emptying trays filled with rod-shaped articles of a tobacco industry, the method comprising the following steps: conveying trays designated for emptying to an input area of a hopper containing adjacent channels separated by dividers; transferring rod-shaped articles from the trays to the channels of the hopper using support plates; filling the channels of the hopper with the rod-shaped articles; retracting the support plates from the channels of the hopper; emptying successively the channels of the hopper into a chute adapted to move between channel outlets of the hopper; transferring the rod-shaped articles from the channels of the hopper and through the chute onto a discharge conveyor moving towards a receiving device; characterized in that during emptying at least one channel ( 7 ) of the hopper ( 2 ), the hopper ( 2 ) moves linearly in a direction (S 2 ) opposite to a direction (T) in which the rod-shaped articles are transported by the discharge conveyor ( 19 ); and after the channel ( 7 ) has been completely emptied, the hopper ( 2 ) moves in the direction (S 1 ) concurrent with the direction (T) in which the rod-shaped articles are transported by the discharge conveyor ( 19 ), until the hopper ( 2 ) achieves a position in which the outlet of a next channel ( 7 ) filled with rod-shaped articles (R) is aligned with an inlet ( 21 ) of the chute ( 20 ), whereas the hopper ( 2 ) moves at a variable velocity while moving in the direction (S 1 ) concurrent with the direction (T) in which the rod-shaped articles are transported by the discharge conveyor, and the chute ( 20 ), in order to empty the rod-shaped articles from at least one channel ( 7 ) of the hopper ( 2 ), moves linearly in the direction (G 2 ) opposite to the direction (T) in which the rod-shaped articles are transported by the discharge conveyor ( 19 ), until all the rod-shaped articles (R) have been emptied from the channel ( 7 ), further characterized in that while the hopper ( 2 ) is moving in the direction (S 1 ) concurrent with the direction (T) in which the rod-shaped articles are transported by the discharge conveyor ( 19 ), the hopper ( 2 ) moves at a first velocity, and as a result of receiving a signal from an accumulation sensor ( 27 ) that rod-shaped articles have accumulated near the inlet ( 21 ) of the chute ( 20 ), the hopper ( 2 ) moves at at least one second velocity, whereas the second velocity is lower than the first velocity, before the hopper ( 2 ) achieves a position in which the outlet of the next channel filled with rod-shaped articles (R) is aligned with the inlet ( 21 ) of the chute ( 20 ). 2. The method according to claim 1 , characterized in that after the hopper ( 2 ) has moved in a direction (S 1 ) concurrent with a direction (T) in which the rod-shaped articles (R) are transported by the discharge conveyor ( 19 ), the velocity of the hopper ( 2 ) reaches zero. 3. The method according to claim 1 , characterized in that while the hopper ( 2 ) is moving in the direction (S 1 ) concurrent with the direction (T) in which the rod-shaped articles are transported by the discharge conveyor ( 19 ), the velocity of the hopper ( 2 ) decreases until the hopper ( 2 ) achieves a position in which the outlet of the next channel filled with rod-shaped articles (R) is aligned with the inlet ( 21 ) of the chute ( 20 ). 4. The method according to claim 1 , characterized in that the direction of movement of the hopper ( 2 ) changes as a result of receiving a signal from a channel fill sensor ( 25 ) indicating a change in an extent to which the hopper is filled with rod-shaped articles, from the direction opposite to the direction in which the rod-shaped articles are transported by the discharge conveyor ( 19 ), to the direction concurrent with the direction in which the rod-shaped articles are transported by the discharge conveyor. 5. The method according to claim 1 , characterized in that the direction of movement of the hopper ( 2 ) changes as a result of receiving a signal from the channel fill sensor ( 25 ) indicating alignment of the next filled channel ( 7 ) of the hopper ( 2 ) with the inlet ( 21 ) of the chute ( 20 ), from the direction concurrent with the direction in which the rod-shaped articles are transported by the discharge conveyor ( 19 ), to the direction opposite to the direction (T) in which the rod-shaped articles are transported by the discharge conveyor ( 19 ). 6. The method according to claim 5 , characterized in that the chute ( 20 ) moves linearly in a direction (G 2 ) opposite to the direction (T) in which the rod-shaped articles are transported by the discharge conveyor ( 19 ) at an instantaneous velocity equal to the velocity of movement of the hopper ( 2 ). 7. The method according to claim 1 , characterized in that the chute ( 20 ), as a result of receiving a signal from the channel fill sensor ( 25 ) indicating that the rod-shaped articles have been emptied from the channel ( 7 ) of the hopper ( 2 ), starts to move linearly in a direction (G 1 ) concurrent with the direction (T) in which the rod-shaped articles are transported by the discharge conveyor ( 19 ), until the next filled channel ( 7 ) of the hopper ( 2 ) is aligned with the inlet ( 21 ) of the chute ( 20 ). 8. The method according to claim 7 , characterized in that the chute ( 20 ) moves in the direction (G 1 ) concurrent with the direction (T) in which the rod-shaped articles are transported by the discharge conveyor ( 19 ) at an instantaneous velocity lower than the velocity of movement of the hopper ( 2 ). 9. The method according to claim 7 , characterized in that the chute ( 20 ) moves in the direction (G 1 ) concurrent with the direction (T) in which the rod-shaped articles are transported by the discharge conveyor ( 19 ) with a velocity equal to the velocity at which the rod-shaped articles are transported by the discharge conveyor ( 19 ).