Combine harvester and method for the operation thereof

What is claimed is: 1. A combine harvester comprising: at least one header configured for cutting plants to be harvested with the aid of the combine harvester; at least one feeder configured for conveying the cut plants in a direction of a threshing mechanism, the feeder comprising at least one revolvingly driveable conveying unit which, together with at least one channel wall of the feeder, delimits a conveyor channel, and the conveying unit being configured for conveying the cut plants through the conveyor channel; at least one threshing mechanism configured for removing fruits from the cut plants so that the fruits are then present separately from plant residue of the plants; a measuring unit configured for contactlessly detecting within the conveyor channel a material feed height of plants conveyed with the aid of the feeder, the measuring unit comprising at least one sensor unit comprising multiple sensor elements distributed across a width of the conveyor channel; and at least one evaluation unit which is connected to the sensor unit, the evaluation unit being configured to evaluate information from the individual sensor elements in such a way to obtain at least approximately one piece of information regarding a transverse distribution of the cut plants within the conveyor channel across an entire width of the conveyor channel; wherein each one of the multiple sensor elements comprises an elongated sensor strip having a longitudinal axis that extends transversely to a feed direction of the feeder, and wherein the multiple sensor elements are situated outside the conveyor channel, below a channel wall designed as a channel base. 2. The combine harvester as claimed in claim 1 , wherein the multiple sensor elements comprise at least four sensor elements that are equidistantly arranged across a width of the conveyor channel. 3. The combine harvester as claimed in claim 1 , wherein the conveying unit comprises at least two oppositely positioned rollers and at least one endless belt wrapped around the rollers, wherein at least one of the rollers is designed to be rotatably driveable. 4. The combine harvester as claimed in claim 3 , wherein the conveying unit comprises a plurality of conveyor slats extending transversely to a feed direction. 5. A method for operating a combine harvester, comprising the following steps: a) cutting plants to be harvested with the aid of a header, b) conveying the cut plants with a feeder having a conveyor channel in a direction of a threshing mechanism, c) contactlessly detecting with a measuring unit a material feed height of the plants conveyed through the conveyor channel of the feeder, the measuring unit being designed in the form of a sensor unit comprising multiple sensor elements in the form of sensor strips having a longitudinal axis that extends transversely to a feed direction of the feeder and being distributed across a width of the conveyor channel outside the conveyor channel, below a channel wall designed as a channel base, and d) removing fruits from the cut plants with the aid of the threshing mechanism so that the fruits are then present separately from plant residue of the plants, and e) evaluating with an evaluation unit information gathered with the multiple sensor elements to generate information regarding a transverse distribution of the cut plants within the conveyor channel at least across an entire width of the conveyor channel. 6. The method as claimed in claim 5 , wherein the step of detecting takes place at different measurement points distributed across a width of the conveyor channel. 7. The method as claimed in claim 5 wherein the material feed height is detected exclusively contactlessly. 8. The method as claimed in claim 5 , comprising the steps of forwarding the information regarding the transverse distribution to downstream working elements of the combine harvester and changing at least one operating parameter of at least one downstream working element based on the forwarded information.