Method for unblocking the movement of hollow bodies in a chute conveyor

The invention claimed is: 1. Method for unblocking the movement of hollow bodies, particularly preforms ( 10 ) made of thermoplastic material, moving in a row in a conveyor ( 19 ) having: a guiding chute ( 33 ) in which each hollow body is intended to occupy a freely suspended position; the chute ( 33 ) having two parallel stationary rails ( 46 ) between which each hollow body is received in its freely suspended position; means for continuously driving the hollow bodies along the chute ( 33 ) in a direction of travel; a hollow body that can occupy a position in which it finds itself jammed against a stationary surface ( 44 , 54 ) of a supplemental element of the chute and thus to be a jammed first hollow body causing the blocking of the movement of the hollow bodies that accumulate behind the jammed first hollow body; the method comprising an unblocking step which consists in applying to the hollow bodies of the blocked row an unblocking pushing force against the direction of travel to separate the blocking hollow body relative to the stationary surface ( 44 , 54 ) and to make it possible for the jammed first hollow body to swing to its freely suspended position in the chute ( 33 ). 2. Method according to claim 1 , wherein the unblocking pushing force is produced by a brief reversal of the direction of operation of the drive means. 3. Method according to claim 1 , further comprising a previous step for detection of the blocking of the travel of the hollow bodies, by means of a sensor ( 62 ) for passage of the hollow bodies, and wherein the unblocking pushing force is triggered automatically when a blocking is detected by the sensor ( 62 ). 4. Method according to claim 1 , wherein the drive means consist of at least one brush band ( 48 ) moving parallel to the chute ( 33 ) whose bristles ( 52 ) push the hollow bodies toward the direction (F 1 ) of travel, and wherein the unblocking pushing force is achieved by reversing the direction of travel of the brush bands ( 48 ) during the unblocking step. 5. Method according to claim 1 , wherein the chute ( 33 ) has a stationary surface consisting of an upper retention surface ( 54 ) extending above the necks ( 14 ) of the hollow bodies. 6. Method according to claim 1 , wherein the conveyor ( 19 ) consists of a device for aligning in a row and for uprighting preforms that have a centrifuge bowl ( 20 ) having a horizontal circular plate ( 24 ) rotating around a vertical axis (B); the chute ( 33 ) having a stationary peripheral rail ( 36 ) that retains the preforms ( 10 ) projected by a centrifugal force and a radially dedicated channel ( 34 ) between the rail ( 36 ) and a peripheral edge ( 25 ) of the plate ( 24 ) to receive each preform ( 10 ) in its freely suspended position between the rail ( 36 ) and the peripheral edge ( 25 ) of the plate ( 24 ); a stationary surface consisting of a sorting surface ( 44 ) that is positioned in the bowl ( 20 ) relative to the chute ( 33 ) to prevent by a stop the passing of preforms ( 10 ) that do not occupy the freely suspended position; a means for initiating movement consisting of the rotation of the plate ( 24 ), the unblocking pushing force is triggered by reversal of the rotation of the plate ( 24 ) when a preform ( 10 ) is jammed against the sorting surface ( 44 ) to make it possible for it to swing in the channel ( 34 ) in a freely suspended position. 7. Method according claim 1 , wherein the unblocking pushing force is achieved by blowing jets ( 60 ) of compressed air on a portion of the hollow bodies against the direction (F 1 ) of travel of the hollow bodies using a first ramp ( 56 ) of blowing nozzles that is parallel to the chute ( 33 ). 8. Method according to claim 1 , wherein the rails ( 46 ) are inclined to make it possible for the hollow bodies to slide toward the bottom of the chute ( 33 ) under the influence of gravity. 9. Method according to claim 7 , wherein the movement means consist of a second ramp of nozzles for blowing jets of compressed air on the hollow bodies toward the direction of travel, the ramp being parallel to the chute. 10. Method according to claim 2 , further comprising a previous step for detection of the blocking of the travel of the hollow bodies, by means of a sensor ( 62 ) for passage of the hollow bodies, and wherein the unblocking pushing force is triggered automatically when a blocking is detected by the sensor ( 62 ). 11. Method according to claim 2 , wherein the drive means consist of at least one brush band ( 48 ) moving parallel to the chute ( 33 ) whose bristles ( 52 ) push the hollow bodies toward the direction (F 1 ) of travel, and wherein the unblocking pushing force is achieved by reversing the direction of travel of the brush bands ( 48 ) during the unblocking step. 12. Method according to claim 3 , wherein the drive means consist of at least one brush band ( 48 ) moving parallel to the chute ( 33 ) whose bristles ( 52 ) push the hollow bodies toward the direction (F 1 ) of travel, and wherein the unblocking pushing force is achieved by reversing the direction of travel of the brush bands ( 48 ) during the unblocking step. 13. Method according to claim 2 , wherein the chute ( 33 ) has a stationary surface consisting of an upper retention surface ( 54 ) extending above the necks ( 14 ) of the hollow bodies. 14. Method according to claim 3 , wherein the chute ( 33 ) has a stationary surface consisting of an upper retention surface ( 54 ) extending above the necks ( 14 ) of the hollow bodies. 15. Method according to claim 2 , wherein the conveyor ( 19 ) consists of a device for aligning in a row and for uprighting preforms that have a centrifuge bowl ( 20 ) having a horizontal circular plate ( 24 ) rotating around a vertical axis (B); the chute ( 33 ) having a stationary peripheral rail ( 36 ) that retains the preforms ( 10 ) projected by a centrifugal force and a radially dedicated channel ( 34 ) between the rail ( 36 ) and a peripheral edge ( 25 ) of the plate ( 24 ) to receive each preform ( 10 ) in its freely suspended position between the rail ( 36 ) and the peripheral edge ( 25 ) of the plate ( 24 ); a stationary surface consisting of a sorting surface ( 44 ) that is positioned in the bowl ( 20 ) relative to the chute ( 33 ) to prevent by a stop the passing of preforms ( 10 ) that do not occupy the freely suspended position; a means for initiating movement consisting of the rotation of the plate ( 24 ), the unblocking pushing force is triggered by reversal of the rotation of the plate ( 24 ) when a preform ( 10 ) is jammed against the sorting surface ( 44 ) to make it possible for it to swing in the channel ( 34 ) in a freely suspended position. 16. Method according to claim 3 , wherein the conveyor ( 19 ) consists of a device for aligning in a row and for uprighting preforms that have a centrifuge bowl ( 20 ) having a horizontal circular plate ( 24 ) rotating around a vertical axis (B); the chute ( 33 ) having a stationary peripheral rail ( 36 ) that retains the preforms ( 10 ) projected by a centrifugal force and a radially dedicated channel ( 34 ) between the rail ( 36 ) and a peripheral edge ( 25 ) of the plate ( 24 ) to receive each preform ( 10 ) in its freely suspended position between the rail ( 36 ) and the peripheral edge ( 25 ) of the plate ( 24 ); a stationary surface consisting of a sorting surface ( 44 ) that is positioned in the bowl ( 20 ) relative to the chute ( 33 ) to prevent by a stop the passing of preforms ( 10 ) that do not occupy the freely suspended position; a means for initiating movement consisting of the rotation of the plate ( 24 )