Sensor arrangement for detecting the density of harvested crops in a silo and compaction vehicle provided therewith

The invention claimed is: 1. A sensor arrangement for detecting a density of harvested crops deposited as silage in a silo, comprising: a source of a pressurized gaseous medium; an opening connected by a line to the source and which is movable along a surface of the silage, the gaseous medium being guided out of the opening from the source into the silage; a sensor for detecting a property of the medium flowing through the line; and an evaluation device connected to the sensor and configured to provide an output signal including information based on the signal of the sensor regarding the density of the silage. 2. The sensor arrangement as claimed in claim 1 , wherein the sensor detects a variable influenced by a flow resistance applied by the silage against the medium flowing out through the opening. 3. The sensor arrangement as claimed in claim 2 , wherein the sensor derives the output signal from the variable. 4. The sensor arrangement as claimed in claim 2 , wherein the sensor detects the volumetric flow of the medium through the line. 5. The sensor arrangement as claimed in claim 4 , wherein the evaluation device is connected to an adjustable valve arranged between the source and the opening. 6. The sensor arrangement as claimed in claim 5 , wherein the valve is positioned to influence the pressure of the medium at the opening. 7. The sensor arrangement as claimed in claim 5 , wherein the evaluation device activates the valve to control the pressure of the medium such that the volumetric flow rate detected by the sensor corresponds to a target value. 8. The sensor arrangement as claimed in claim 7 , wherein the evaluation device determines the output signal based on the pressure measured upstream or downstream of the valve. 9. The sensor arrangement as claimed in claim 2 , wherein: the pressure of the medium at the opening is adjustable to a predetermined pressure by a valve arranged between the source and the opening; and the evaluation device determines the output signal on the basis of the volumetric flow rate detected by the sensor. 10. The sensor arrangement as claimed in claim 2 , wherein the sensor detects the flow rate of the medium through the opening. 11. The sensor arrangement as claimed in claim 10 , wherein the sensor comprises two pressure sensors arranged at different locations along the line between the source and the opening, the evaluation device determining the output signal on the basis of the pressure difference detected by the two pressure sensors. 12. The sensor arrangement as claimed in claim 1 , further comprising a bearing element for guiding the opening on the silage in the form of a runner or a rotatable wheel provided with a perforated lateral surface and which is guided with a defined bearing force over the silage. 13. The sensor arrangement as claimed in claim 12 , wherein the dimensions of the open end of the line adjacent to the silage approximately corresponds to the dimensions of the perforated lateral surface of the wheel. 14. The sensor arrangement as claimed in claim 13 , wherein the evaluation device is connected to a rotary angle sensor for detecting the rotary angle of the wheel, the evaluation device outputting an output signal when, based on the signal from the rotary angle sensor, that the perforation is aligned with the open end of the line. 15. A compaction vehicle, comprising: an operator interface; and a sensor arrangement for detecting a density of harvested crops deposited as silage in a silo, the sensor arrangement including a source of a pressurized gaseous medium, an opening connected by a line to the source and which is movable along a surface of the silage such that the gaseous medium is guided out of the opening from the source into the silage, a sensor for detecting a property of the medium flowing through the line, and an evaluation device connected to the sensor and outputting an output signal including information based on the signal of the sensor regarding the density of the silage; wherein, the operator interface displays a density value dependent on the output signal of the sensor arrangement or an instruction derived on the basis of the output signal of the sensor arrangement to an operator. 16. The compaction vehicle as claimed in claim 15 , further comprising a control device for automatically influencing a compaction carried out by the compaction vehicle. 17. The compaction vehicle as claimed in claim 15 , wherein the sensor detects a variable influenced by a flow resistance applied by the silage against the medium flowing out through the opening, the sensor deriving the output signal from the variable. 18. The compaction vehicle as claimed in claim 15 , wherein the evaluation device is connected to an adjustable valve arranged between the source and the opening, the valve being positioned to influence the pressure of the medium at the opening. 19. The compaction vehicle as claimed in claim 18 , wherein the evaluation device activates the valve to control the pressure of the medium such that the volumetric flow rate detected by the sensor corresponds to a target value. 20. A sensor arrangement for detecting a density of harvested crops deposited as silage in a silo, comprising: a source of a pressurized gaseous medium, an opening connected by a line to the source and which is movable along a surface of the silage, the gaseous medium being guided out of the opening from the source into the silage, a sensor for detecting a property of the medium flowing through the line, an evaluation device connected to the sensor and configured to provide an output signal including information based on the signal of the sensor regarding the density of the silage, and a valve positioned between the source and the opening, the pressure of the medium at the opening being adjustably controlled to a predetermined pressure by the valve, wherein, the evaluation device determines the output signal on the basis of a volumetric flow rate detected by the sensor.