Remote leveling of tillage implements using inclinometers

The invention claimed is: 1. An agricultural implement spanning a lateral distance relative to a forward direction, said implement comprising: a plurality of carrier frames, each for supporting a plurality of soil engaging tools; at least one supporting element carried by each carrier frame for variably positioning the carrier frame relative to the soil; an actuator having a base and an variably positioned element connected between said each supporting element and said respective carrier frame for varying the inclination of said respective carrier frame relative to the vertical reference; at least one sensor determining the inclination of the respective carrier frame relative to the vertical reference and generating a signal; an actuator control unit for each actuator to move said actuator independently in response to a signal input; and an electronic control unit (ECU) receiving the signal from said at least one sensor for each carrier frame and comparing it to the inclination signals from the other of said sensors to send a resultant signal to said actuator control unit for varying the inclination of said at least one sensor to reach the inclination of the other of said sensors. 2. The agricultural implement of claim 1 , in which the said at least one sensor is at least one of a fore and aft inclinometer and a side to side inclinometer. 3. The agricultural implement of claim 2 , in which the said at least one inclinometer senses both fore and aft and side to side inclination. 4. The agricultural implement of claim 1 , wherein each actuator is hydraulic and has a piston and a rod extending from the piston to provide the variably positioned element, said each actuator being hydraulically connected to said actuator control unit. 5. The agricultural implement of claim 4 , further comprising a hydraulic pump for pressurizing hydraulic fluid and delivering it to said actuator control unit. 6. The agricultural implement of claim 5 , in which the ECU controls said actuator control units. 7. The agricultural implement of claim 1 , in which the variable carrier positioning components are wheel assemblies pivotally connected to said carrier frames for varying the distance of said carrier frames relative to the soil. 8. The agricultural implement of claim 1 , in which there is a pivotal connection between the plurality of carrier frames. 9. The agricultural implement of claim 8 , having a center section with a pair of wheels supporting said carrier frame and at least one pair of outer carrier frames each being supported by a wheel assembly. 10. The agricultural implement of claim 1 , in which the tools are gangs of disk blades for tilling the soil. 11. The agricultural implement of claim 1 , in which the ECU controls the rate of displacement for each individual actuator. 12. The agricultural implement of claim 4 , wherein at least a portion of the actuators are hydraulically connected in series but able to be independently controlled. 13. A method of leveling an agricultural implement relative to the soil, said agricultural implement including a plurality of articulated carrier frames, each for supporting a plurality of soil engaging tools, at least one supporting element carried by the carrier for variably positioning the carrier frame relative to the soil and an actuator for each supporting element, the actuator having a base and a variably positioned element connected between the supporting elements and the carrier frame for setting the inclination of the carrier frame relative to the vertical reference, the method comprising the steps of: determining the inclination of each carrier frame relative to the vertical; comparing the inclination of each carrier frame relative to the inclination of the other carrier frames; and, correcting the inclination of said each carrier frame based on the inclination of the other carrier frames. 14. The method of claim 13 , in which the inclination of each carrier frame is determined in at least one of a fore and aft direction and a side to side direction. 15. The method of claim 14 , in which the inclination of the carrier frames is determined in both a fore and aft direction and a side to side direction. 16. The method of claim 13 , in which the agricultural implement has a center section and at least a pair of carrier frames pivotally connected to the center section, with the inclination of the center section being the reference against which the carrier frames are corrected. 17. The method of claim 13 , in which the variable positioning of the carrier frames is through wheel assemblies pivotally connected to said carrier frame and acted on by said actuators to variably position the carrier frames. 18. The method of claim 13 , in which the actuators are hydraulic.