Gang angle adjustment for a work machine and method thereof

The invention claimed is: 1. An agricultural implement, comprising: a transversely extending frame forming at least a first frame section, a second frame section, and a third frame section, where the first frame section is disposed between the second and third frame sections; a pair of elongated, generally end-to-end gang assemblies on the first frame section, an elongated gang assembly on the second frame section, and an elongated gang assembly on the third frame section, each of the gang assemblies including a plurality of rotatable tillage tools mounted in such a manner that their axes of rotation extend substantially transverse to a path of travel of the frame; each of the gang assemblies being horizontally adjustable relative to the frame for adjusting the angles between the path of travel of the frame and the axes of rotation of the tools; a hydraulic actuator for each gang assembly for operably controlling the angular adjustment of the gang assemblies; and a fluid source for supplying hydraulic fluid to the hydraulic actuators; wherein, the hydraulic actuator on the second frame section comprises a master hydraulic actuator for one of the hydraulic actuators on the first frame section, and the hydraulic actuator on the third frame section comprises a master hydraulic actuator for the other hydraulic actuator on the first frame section. 2. The implement of claim 1 , wherein the fluid source is fluidly coupled in series with each of the hydraulic actuators. 3. The implement of claim 1 , wherein: each hydraulic actuator comprises a cylinder and piston rod that extends and retracts within a bore of the cylinder; each cylinder comprises equal bore size. 4. The implement of claim 1 , further comprising a gang linkage operably interconnected between the pair of gang assemblies on the first frame section for synchronizing the pair of gang assemblies during their angular adjustment. 5. The implement of claim 1 , further comprising: a reservoir of hydraulic fluid disposed in fluid communication with the fluid source; and a fluid path defined between the fluid source and the reservoir; wherein, hydraulic fluid flows through the flow path such that the hydraulic fluid is directly supplied to a hydraulic actuator on the second frame section and a hydraulic actuator on the third frame section, and hydraulic fluid flows to the reservoir via a return line directly fluidly coupled to another hydraulic actuator on the second frame section and another hydraulic actuator on the third frame section. 6. An agricultural implement, comprising: a transversely extending frame forming at least a first frame section, a second frame section, and a third frame section, where the first frame section is disposed between the second and third frame sections; a front pair of elongated, generally end-to-end gang assemblies on the first frame section, a rear pair of elongated, generally end-to-end gang assemblies on the first frame section, a front elongated gang assembly on the second frame section, a rear elongated gang assembly on the second frame section, a front elongated gang assembly on the third frame section, and a rear elongated gang assembly on the third frame section, each of the gang assemblies including a plurality of rotatable tillage tools mounted in such a manner that their axes of rotation extend substantially transverse to a path of travel of the frame; each of the gang assemblies being horizontally adjustable relative to the frame for adjusting the angles between the path of travel of the frame and the axes of rotation of the tools; a hydraulic actuator for each gang assembly for operably controlling the angular adjustment of the gang assemblies; and a fluid source for supplying hydraulic fluid to the hydraulic actuators; wherein, one of the hydraulic actuators on the second frame section comprises a master hydraulic actuator for two of the four hydraulic actuators on the first frame section, and one of the hydraulic actuators on the third frame section comprises a master hydraulic actuator for the other two hydraulic actuators on the first frame section. 7. The implement of claim 6 , wherein the fluid source is fluidly coupled in series with each of the hydraulic actuators. 8. The implement of claim 6 , wherein: each hydraulic actuator comprises a cylinder and piston rod that extends and retracts within a bore of the cylinder; each cylinder comprises an equal bore size. 9. The implement of claim 6 , further comprising a gang linkage operably interconnected between the rear pair of gang assemblies on the first frame section for synchronizing the rear pair of gang assemblies during their angular adjustment. 10. The implement of claim 6 , further comprising: a reservoir of hydraulic fluid disposed in fluid communication with the fluid source; and a fluid path defined between the fluid source and the reservoir; wherein, hydraulic fluid flows through the flow path such that the hydraulic fluid is directly supplied to a first hydraulic actuator on the second frame section and a first hydraulic actuator on the third frame section, and hydraulic fluid flows to the reservoir via a return line directly fluidly coupled to a second hydraulic actuator on the second frame section and a second hydraulic actuator on the third frame section. 11. The implement of claim 6 , wherein each of the hydraulic actuators for controlling the front gang assemblies on the frame move in an opposite direction for angular adjustment than each of the hydraulic actuators for controlling the rear gang assemblies. 12. The implement of claim 6 , further comprising a hydraulic control system comprising the fluid source, a fluid reservoir, the hydraulic actuator for each gang assembly, and a plurality of fluid lines fluidly coupling the fluid source to each hydraulic actuator in series. 13. The implement of claim 12 , wherein the hydraulic actuator comprises: a first hydraulic actuator for controlling angular adjustment of the rear elongated gang assembly on the second frame section; a second hydraulic actuator for controlling angular adjustment of the front elongated gang assembly on the second frame section; a third hydraulic actuator for controlling angular adjustment of the rear elongated gang assembly on the third frame section; a fourth hydraulic actuator for controlling angular adjustment of the front elongated gang assembly on the third frame section; a fifth hydraulic actuator for controlling angular adjustment of a first front gang assembly of the pair of front elongated gang assemblies on the first frame section; a sixth hydraulic actuator for controlling angular adjustment of a second front gang assembly of the pair of front elongated gang assemblies on the first frame section; a seventh hydraulic actuator for controlling angular adjustment of a first rear gang assembly of the pair of rear elongated gang assemblies on the first frame section; and an eighth hydraulic actuator for controlling angular adjustment of a second rear gang assembly of the pair of rear elongated gang assemblies on the first frame section; wherein, the first hydraulic actuator is the master hydraulic actuator of the fifth hydraulic actuator, and the third hydraulic actuator is the master hydraulic actuator of the sixth hydraulic actuator. 14. The implement of claim 13 , wherein: the fifth hydraulic actuator is a master hydraulic actuator of the seventh actuator, and the seventh hydraulic actuator is a master hydraulic actuator of the second hydraulic actuator; the sixth hydraulic actuator is a master hydraulic actuator of the eighth hydraulic actuator, and the