Device and method for controlling a filling machine

The invention claimed is: 1. A method for controlling a filling machine with a clipping machine, comprising a clipping machine and a filling machine exchanging process data via a communication interface, such that functions of the clipping machine, including a movement profile of opposed clipper scissors, and functions of the filling machine, including the speed profile of a feed mechanism, are automatically matched by a controlling system: periodically repeating the speed profile of the feed mechanism in feed mechanism cycles, and determining the starting time (t Start ) of a feed mechanism cycle in response to the position of the clipper scissors, and the controlling system; and the controlling system sending a start signal to the feed mechanism at the earliest when the distance of the clipper scissors with respect to each other is sufficiently long for a produced sausage caliber to fit through the opening of the clipper scissors. 2. The method according to claim 1 , including entering clipper parameters for the function of the clipping machines; entering filling parameters for the function of a feed mechanism of the filling machine; setting up, via a first control system of the controlling system the speed profile of the feed mechanism in response to the filling parameters; and determining, via a second control system of the controlling system in response to the clipper parameters and the speed profile of the feed mechanism, a movement profile for the clipper scissors. 3. The method according to claim 2 , including setting as clipper parameters: sausage caliber and clipper scissor speed. 4. The method according to claim 3 , including additionally setting as clipper parameters clipper scissor geometry. 5. The method according to claim 3 , including additionally setting as clipper parameters clipper scissor acceleration. 6. The method according to claim 2 , including setting as filling parameters: portion volume, filling speed, and acceleration of the feed mechanism to the filling speed. 7. The method according to claim 2 , and sending a corresponding start signal, via the second control system, to the feed mechanism. 8. The method according to claim 1 , and determining for the speed profile of the feed mechanism: a portioning time during which the feed mechanism ejects product, and a filling speed (V fill ), and the ramp times (t up /t down ) during which the feed mechanism is accelerated to the filling speed (V fill ) and the filling speed (V fill ) decreases again. 9. The method according to claim 1 , and adjusting the parameters for the clipping machine and the parameters for the filling machine at an operator panel at the clipping machine. 10. The method according to claim 1 , and combining the first and the second control systems in a common controlling system. 11. The method according to claim 1 , the speed profile of the feed mechanism indicating a speed in response to time, wherein during a portioning time t Portion in a first ramp section during a first ramp time t up , the speed increases from a minimum filling speed V min to a maximum filling speed V fill and is kept on said high level for a filling time t fill , and is decreased again to V min in a second ramp section during a second ramp time t ab , where during a following portioning pause during a period tPause, the filling speed corresponds to V min where during the portioning time (t Portion ), the speed of the clipper scissors is decreased to a passage speed (V passage ), and increases again, where V passage ≠0. 12. The method according to claim 11 , and during the portioning time t portion , when the filling speed decreases again to V min in the second ramp section, V min decreases to V min =0. 13. The method according to claim 11 , and during the following portioning paused period, the filling speed V min =0. 14. The method according to claim 1 , wherein during the portioning time, the speed of the clipper scissors is decreased to 0 during a first time segment (t Clipstopp ), and is kept at 0 during a certain period (t Clippause ), and is then increased again during a second time segment (t rise ). 15. The method according to claim 1 , the movement profile of the clipper scissors representing the degree of movement of the clipper scissors in response to time, and during a portioning time t Portion of the feed mechanism, the clipper scissors ( 4 a, b ) move apart to a maximum distance and then move towards each other again, where the scissors have, during the portioning time (t Portion ) of the feed mechanism, such a distance with respect to each other that the produced sausage caliber fits through the opening between the scissors. 16. The method according to claim 1 , and during the portioning pause of the feed mechanism, moving the clipper scissors towards each other to such an extent that the sausage length is cut through, whereupon the clip or double clip is placed between the clipper scissors, and whereupon the scissors move apart again, where at the beginning of the following portioning time (t portion ), the scissors have such a distance with respect to each other that the produced sausage caliber fits through the opening between the scissors where the corresponding position (P Start ) of the clipper scissors is automatically determined by the control system as a function of the clipper scissor geometry and the set sausage caliber. 17. A system having a device for controlling a filling machine, comprising: a filling machine, a clipping machine, a communication interface between the filling machine and the clipping machine for exchanging process data, and at least one controlling system that automatically matches functions of the clipping machine, and functions of the filling machine, wherein the clipping machine and the filling machine exchange process data via the communication interface, the at least one controlling system periodically repeating the speed profile of the feed mechanism in feed mechanism cycles, and determining the starting time (t Start ) of a feed mechanism cycle in response to the position of the clipper scissors, and the at least one controlling system, and the at least one controlling system sending a start signal to the feed mechanism at the earliest when the distance of the clipper scissors with respect to each other is sufficiently long for a produced sausage caliber to fit through the opening of the clipper scissors. 18. The system according to claim 17 , the at least one controlling system comprising a first control system which sets up a speed profile of a feed mechanism in response to entered filling parameters, and a second control system which determines a movement profile for clipper scissors of the clipping machine in response to entered clipper parameters and the speed profile of the feed mechanism. 19. A system according to claim 17 , and in the at least one controlling system, the starting time of a feed mechanism cycle is determined in response to the position of the clipper scissors. 20. The system according to claim 17 , and in the at least one controlling system that automatically matches functions of the clipping machine and functions of the filling machine the matched functions of the clipping machine include a movement profile of the opposed clipper scissors. 21. The system according to claim 17 , and in the at least one controlling system that automatically matches functions of the clipping machine and functions of the filling machine, the matched functi