Industrial truck having a fork and a fork arm camera and method for operating such an industrial truck

What is claimed: 1 . A method for operating an industrial truck having a fork, at least two fork arms, a fork arm camera disposed on the fork such that at least part of a tip of at least one of the two fork arms is present in a field of view of the fork arm camera, a monitor, and a processing unit for processing image data captured by the fork arm camera and for producing and transmitting processed image data for display on the monitor, the method comprising: identifying the at least one tip of the at least one of the two fork arms in the image data captured by the fork arm camera, calculating at least one marking indicating a position of the fork, and reproducing on the monitor the image data captured by the fork arm camera superimposed with the calculated at least one marking. 2 . The method according to claim 1 , wherein the marking indicates one or more of: a top side of the least one of the two fork arms; an outer edge of the at least one of the two fork arms; and a center between the two fork arms. 3 . The method according to claim 1 , wherein the processing unit is configured to receive data relating to an angle of inclination of the fork and to calculate based on said data an auxiliary marking indicating a deviation of the position of the fork from a zero-degree position of the fork, and wherein the auxiliary marking is also superimposed on the image data captured by the fork arm camera and reproduced on the monitor. 4 . The method according to claim 3 , wherein the processing unit is configured to receive data relating to a steering movement angle and to calculate based on said data a further auxiliary marking indicating a future deviation of the position of the fork from a current position thereof in a plane of transport for assumed travel at the steering movement angle, and wherein the further auxiliary marking is also superimposed on the image data captured by the fork arm camera and reproduced on the monitor. 5 . The method according to claim 1 , further comprising capturing a load to be taken up having at least two visible load support areas in the captured image data, calculating target positions of tips of the two fork arms to be inserted into the at least two visible load support areas, and reproducing the image data captured by the fork arm camera superimposed with the calculated target position of the tips of the two fork arms on the monitor. 6 . The method according to claim 1 , wherein live image data is captured by the fork arm camera and the processing unit calculates at least one marking indicating a position of the fork in real time, and wherein the live image data and the superimposed calculated at least one marking indicating the position of the fork in real time is reproduced on the monitor. 7 . An industrial truck comprising an assistance system and a fork comprising at least two fork arms, wherein the assistance system comprises at least one fork arm camera, a monitor, and a processing unit, wherein the fork arm camera is disposed on the fork such that at least part of a tip of at least one of the two fork arms is present in a field of view of the fork arm camera, and wherein the processing unit is configured to: identify the at least a tip of the at least one fork arm in the image data, calculate at least one marking indicating a position of the fork, and reproduce on the monitor the image data captured by the fork arm camera superimposed with the calculated marking, 8 . The industrial truck according to claim 7 , wherein the calculated marking indicates one or more of: the top side of the at least one of the two fork arms; an outer edge of the at least one of the two fork arms; and a center between the two fork arms. 9 . The industrial truck according to claim 7 , wherein the processing unit ( 10 ) is configured to: receive data relating to an angle of inclination of the fork; calculate based on said data an auxiliary marking indicating a deviation of the position of the fork from a zero position of the fork; and display on the monitor image data captured by the fork arm camera superimposed with the calculated auxiliary marking. 10 . The industrial truck according to claim 9 , wherein the processing unit is configured to receive data relating to a steering movement angle and calculate based on said data an additional auxiliary marking indicating a future deviation of the position of the fork from a current position thereof in a plane of transport for assumed travel at the steering movement angle, and to reproduce on the monitor image data captured by the fork arm camera superimposed with the calculated additional auxiliary marking. 11 . The industrial truck according claim 7 , wherein a load to be taken up having at least two visible load support areas is present in the captured image data, wherein the processing unit is configured to calculate target positions of tips of the two fork arms to be inserted into the at least two visible load support areas, and to reproduce the image data captured by the fork arm camera superimposed with the calculated target position of the tips of the two fork arms on the monitor. 12 . The industrial truck according to claim 7 , wherein the fork arm camera is configured to capture live image data and the processing unit is configured to identify the tip of the at least one fork arm in the image data in real time, to calculate the at least one marking indicating the position of the fork in real time, and to reproduce on the monitor the live image data capture by the fork arm camera superimposed with the calculated marking in real time.