Control system, agricultural utility vehicle and method for controlling an agricultural utility vehicle

The invention claimed is: 1. A control system for an agricultural utility vehicle, comprising: a distributor linkage for applying material, the distributor linkage extending transversely to a direction of travel, and comprising a center part and two lateral extension arms which are connected to the center part by joints and having a plurality of linkage sections connected by additional joints, which are configured to be folded in relative to one another in a transport position and folded out in a working position, wherein the center part is arranged movably along a vertical axis for height adjustability of the distributor linkage, wherein at least one hydraulic device is assigned to each of the extension arms, whereby a respective one of the extension arms is configured to be pivoted about a horizontal axis, wherein at least three sensors are assigned to the distributor linkage, wherein a first sensor is configured to determine a first distance, the first distance being between the center part and the ground; wherein a second sensor is configured to determine a second distance, the second distance being between a first lateral extension arm and the ground; wherein a third sensor is configured to determine a third distance, the third distance being between a second lateral extension arm and the ground; wherein the control system comprises a processor which is configured such that measurement signals of the sensors are processed as actual values so as to generate an actuating signal for the hydraulic device for adaptation to a target distance, and wherein the target distance for pivoting the extension arms is formed by a current actual value of the center part, and wherein the processor is configured to: calculate a mean value from the actual values representative of the second distance and the third distance; and compare the mean value with the current actual value of the center part. 2. The control system according to claim 1 , wherein the target distance for pivoting the extension arms is configured to be adapted dynamically to the current actual value of the center part of the processor. 3. The control system according to claim 1 , wherein the first sensor, the second sensor, and the third sensor are at least one of ultrasonic sensors, optical sensors, or radar sensors. 4. The control system according to claim 1 , wherein the current actual value of the center part is detectable via a plurality of sensors arranged on the center part. 5. The control system according to claim 4 , wherein the current actual value of the center part is detected by the plurality of sensors on the center part by averaging in the processor. 6. The control system according to claim 1 , wherein at least one of the second sensor or the third sensor comprises a plurality of sensors and a current actual value of at least one of the first lateral extension arm or the second lateral extension arm is formed by a smallest distance to the ground measured by the second sensor or the third sensor. 7. The control system according to claim 1 , wherein, based on the measurement signals of at least one of the first sensor, the second sensor, or the third sensor, at least one of a height adjustment of the distributor linkage or pivoting of the extension arms is set by the processor via the hydraulic device. 8. The control system according to claim 1 , wherein the hydraulic device comprises a hydraulic cylinder, a hydraulic line which is connected to the hydraulic cylinder for supplying hydraulic fluid, and at least one hydraulic valve unit for adapting a cylinder position, the valve unit being adjustable via an actuating signal of the processor. 9. The control system according to claim 8 , wherein the hydraulic valve unit is formed by a proportional valve. 10. The control system according to claim 8 , wherein the processor forms a single unit with the first sensor, the second sensor, the third sensor and the hydraulic device. 11. An agricultural utility vehicle for applying material, comprising: the control system according to claim 1 . 12. A method for controlling an agricultural utility vehicle comprising: applying material, by a distributor linkage, the distributor linkage extending transversely to a direction of travel, and comprising a center part and two lateral extension arms which are connected to the center part by joints and having a plurality of linkage sections connected by additional joints which are configured to be folded in relative to one another in a transport position and folded out in a working position, wherein the center part is arranged movably along a vertical axis for height adjustability of the distributor linkage, wherein at least one hydraulic device is assigned to each of the extension arms, whereby a respective one of the extension arms is configured to be pivoted about a horizontal axis, wherein at least three sensors are assigned to the distributor linkage, wherein a first sensor is configured to determine a first distance, the first distance being between the center part and the ground; wherein a second sensor is configured to determine a second distance, the second distance being between a first lateral extension arm and the ground; wherein a third sensor is configured to determine a third distance, the third distance being between a second lateral extension arm and the ground; wherein the control system comprises a processor which is configured such that measurement signals of the sensors are processed as actual values so as to generate an actuating signal for the hydraulic device for adaptation to a target distance, and wherein pivoting of the extension arms is based on the target distance which is formed by the current actual value of the center part, and wherein the processor is configured to: calculate a mean value from the actual values representative of the second distance and the third distance; and compare the mean value with the current actual value of the center part. 13. The method according to claim 12 , wherein the target distance for pivoting the extension arms is dynamically adapted to the current actual value of the center part by the processor. 14. The method according to claim 12 , wherein the current actual value of the center part is detected via the a plurality of sensors arranged on the center part. 15. The method according to claim 12 , wherein the current actual value of the center part is detected by the plurality of sensors on the center part by averaging in the processor. 16. The method according to claim 12 , wherein, based on the measurement signals of at least one of the first sensor, the second sensor, or the third sensor, at least one of a height adjustment of the distributor linkage or the pivoting of the extension arms is set by the processor via the hydraulic device. 17. The control system according to claim 1 , wherein the material applied by the distributor linkage is at least one of fertilizer, plant protection agent, or seed. 18. The method according to claim 12 , wherein the material applied by the distributor linkage is at least one of fertilizer, plant protection agent, or seed. 19. The control system according to claim 1 , wherein, if the mean value of the two extension arms deviates from the current actual value of the center part, the processor is configured to generate a control signal for the hydraulic devices for pivoting the extension arms. 20. The method according to claim 12 , wherein, if the mean value of the