Coin processing device and corresponding method for classifying coins

The invention claimed is: 1. A coin processing device with a computer control ( 9 ), wherein the computer control ( 9 ) comprises a storage unit ( 36 ), the coin processing device having at least one coin channel ( 34 ) for conveying a coin ( 35 ), wherein the at least one coin channel ( 34 ) has at least one sensor ( 37 ) suitable for measuring a throughput time of the coin ( 35 ), wherein the sensor ( 37 ) is an optical measurement device, the optical measurement device having at least one photoelectric barrier ( 40 ) having a light source ( 45 ) and two light receivers ( 46 ) in a throughput direction of the coin ( 35 ), the light receivers ( 46 ) being arranged on both sides of the light source ( 45 ) for receiving light radiation reflected on a peripheral edge of the coin ( 35 ), and wherein the sensor ( 37 ) is coupled with the computer control ( 9 ), and the coin processing device further having an accelerating device ( 43 ), which is coupled with the computer control ( 9 ) and is designed for a reproducible acceleration of the coin ( 35 ), and wherein a target velocity value for a particular coin ( 35 ) is stored in the storage unit ( 36 ), the target velocity value being comparable with an actual velocity value calculated on the basis of the throughput time detected by the sensor ( 37 ) such that therefrom the class of the coin ( 35 ) can be determined. 2. The coin processing device according to claim 1 , characterized in that the accelerating device ( 43 ) for the coin ( 35 ) is designed mechanically, pneumatically or electromagnetically. 3. The coin processing device according to claim 1 , characterized in that the computer control ( 9 ) activates an optically and/or acoustically perceptible alarm mechanism when the actual velocity value impermissibly deviates from the target velocity value. 4. The coin processing device according to claim 1 , characterized in that the coin channel ( 34 ) has, at least in the area of the sensor ( 37 ), a friction-minimizing surface or surface coating. 5. A game apparatus for entertainment with a coin processing device ( 10 ) of claim 1 . 6. A process for classifying coins in a coin processing device ( 10 ), wherein the coin processing device ( 10 ) comprises a computer control ( 9 ) with a storage unit ( 36 ), an accelerating device ( 43 ) designed for a reproducible acceleration of a coin ( 35 ) and at least one sensor ( 37 ) mounted in a coin channel ( 34 ) for detecting a throughput time of the coin ( 35 ), wherein the coin ( 35 ) with the aid of the accelerating device ( 43 ) in the coin channel ( 34 ) is conveyed ( 110 ) past the sensor ( 37 ) and in doing so the throughput time of the coin ( 35 ) is detected ( 120 ) by the sensor ( 37 ) and sent ( 130 ) to the computer control ( 9 ), wherein an actual velocity value for the coin ( 35 ) is calculated on the basis of the throughput time by the computer control ( 9 ), wherein then by the computer control ( 9 ) the actual velocity value of the coin ( 35 ) is compared with a target velocity value for the coin and therefrom a coin class of the coin ( 35 ) is determined ( 140 ), wherein the target velocity value for a particular coin ( 35 ) is stored in the storage unit ( 36 ), characterized in that the sensor ( 37 ) is an optical measurement device having at least one photoelectric barrier ( 40 ), wherein the photoelectric barrier ( 40 ) comprises a light source ( 45 ) and two light receivers ( 46 ) in a throughput direction of the coin ( 35 ), the light receivers ( 46 ) being arranged on both sides of the light source ( 45 ), and that the throughput time of the coin ( 35 ) is detected by the sensor ( 37 ) as light radiation of the light source ( 45 ) reflected on a peripheral edge of the coin ( 35 ) is successively received by the two light receivers ( 46 ) and in case of reception of the reflected light radiation a measurement signal is sent to the computer control ( 9 ). 7. The process according to claim 6 , characterized in that the target velocity value for the coin ( 35 ) is determined by experiments in a learning mode of the computer control ( 9 ) and then stored in the storage unit ( 36 ). 8. The process according to claim 6 , characterized in that the target velocity value for the coin ( 35 ) is determined mathematically by the computer control ( 9 ) and then stored in the storage unit ( 36 ). 9. The process according to claim 6 , characterized in that each target velocity value is assigned allowable tolerances which are stored in the storage unit ( 36 ) with the respective target velocity value. 10. The process according to claim 6 , characterized in that a visually and/or acoustically perceptible alarm device is activated by the computer control ( 9 ) at exceeding a tolerance level in comparison of the actual velocity value with the respective target velocity value ( 140 ). 11. The process according to claim 6 , characterized in that the accelerating device ( 43 ) is activated by the computer control ( 9 ) by means of an applied signal ( 110 ).