Arrangement and method for the automatic transfer of crops from a harvesting machine to a transport vehicle

The invention claimed is: 1. An arrangement for the automatic transfer of agricultural crops from a harvesting machine to a transport vehicle with a transfer device of the harvesting machine, the transfer device being adapted and operated to discharge crops from the harvesting machine into a loading container of the transport vehicle, the arrangement having: an image capture device of the harvesting machine, being adapted and operated to optically detect one or more features of the transport vehicle; and, a computer, which, with a transfer of signals, is connected to the image capture device and programmed to control at least one actuator to at least one of adjust the transfer device relative to the harvesting machine and change the position of the loading container relative to the harvesting machine on the basis of signals of the image capture device in such a way that the crops arrive at the loading container; wherein the computer is programmed, with the use of the signals of the image capture device, to continuously set up a virtual movement model of the loading container, and in the case that the signals of the image capture device are no longer sufficient to recognize the transport vehicle because of an impairment of the visibility conditions, to control the actuator with the aid of extrapolated data for an expected position of the loading container derived from the movement model, until after a specific time period has elapsed since the last virtual movement model was set up, then the automatic transfer discontinues and an error message is given for the operator to undertake manual control. 2. An arrangement according to claim 1 , wherein the image capture device is placed on the transfer device, which is adjusted by way of at least one actuator relative to the harvesting machine, and wherein the computer with the transmission of signals is connected to sensors to determine the alignment of the transfer device relative to the harvesting machine. 3. An arrangement according to claim 1 , wherein information regarding the actual speed of the harvesting machine is supplied to the computer. 4. An arrangement according to claim 1 , wherein the movement model contains at least one of the actual speed and acceleration of the loading container relative to the ground. 5. An arrangement according to claim 1 , wherein the computer is programmed to produce the movement model using a Kalman filter. 6. An arrangement according to claim 1 , wherein the computer is programmed, with evaluable signals of the image capture device also, to control the actuator with the aid of data derived from the movement model. 7. An arrangement according to claim 1 , wherein the computer is programmed to derive from the movement model a site on an image collected by the image capture device where an identifiable feature of the loading container is located and to search there for the identifiable feature of the loading container. 8. An arrangement according to claim 1 , wherein at least one of: the harvester machine and the transport vehicle is self-propelled. 9. A method for the automatic transfer of agricultural crops from a harvesting machine to a transport vehicle having a transfer device which discharges crops from the harvesting machine onto a loading container of the transport vehicle, an image capture device of the harvesting machine, which optically detects one or more features of the transport vehicle, and a computer, which, with a transmission of signals, is connected to the image capture device and controls at least one actuator to one of adjust the transfer device relative to the harvesting machine, and change the position of the loading container relative to the harvesting machine based on signals of the image capture device, in such a way that the crops arrive at the loading container, the method comprising the steps of: using the signals of the image capture device in the computer to continually set up a virtual movement model of the loading container; and, in the case that because of an impairment of visibility conditions, the signals of the image capture device are no longer sufficient to recognize the transport vehicle, controlling the actuator with the aid of extrapolated data for an expected position of the loading container derived from the movement model, until after a specific time period has elapsed since the last virtual movement model was set up, then the automatic transfer discontinues and an error message is given for the operator to undertake manual control. 10. The arrangement of claim 1 , wherein the specific time period is about 10 seconds. 11. The method of claim 9 , wherein the specific time period is about 10 seconds.