Single bolt disc hub for a tiller jump arm assembly

What is claimed is: 1. A jump arm assembly for a tilling machine configured to be towed across a field, the jump arm assembly comprising: a jump arm having a first end configured to be coupled to a frame unit of the tilling machine and a second end opposite the first end; and a disc hub assembly configured to couple a tilling disc to the second end of the jump arm, the disc hub assembly comprising: a hub housing defining an arm end of the disc hub assembly, the arm end configured to be positioned adjacent to said jump arm; an end plate provided in operative association with said hub housing, said end plate defining a disc end of the disc hub assembly, the disc end configured to be positioned adjacent to the tilling disc, said end plate including a plate body having a front surface, a rear surface, and an aperture defined through said plate body between said front and rear surfaces; and a shaft having a first axial shaft section rotatably mounted within said hub housing and a second axial shaft section end extending outwardly from said hub housing, wherein said second axial shaft section is at least partially threaded to receive a threaded nut for securing the tilling disc to said disc hub assembly; wherein: said shaft extends through said aperture of said plate bud such that said second axial shaft section projects outwardly from said plate body said rear surface of said end plate abuts said hub housing; and said front surface of said end plate is configured to abut the tilling disc when the tilling disc is mounted on said shaft. 2. The jump arm assembly of claim 1 , wherein said disc hub assembly further comprises a bearing positioned within said hub housing, said first axial shaft section of said shaft being rotatably supported within said hub housing via said bearing. 3. The jump arm assembly of claim 2 , wherein said first axial shaft section of said shaft is press-fit into said bearing. 4. The jump arm assembly of claim 1 , wherein a first plane defined by said arm end of said disc hub assembly is arranged in non-parallel relation with respect to a second plane defined by said disc end of said disc hub assembly. 5. The jump arm assembly of claim 4 , wherein the first plane is skewed relative to the second plane by an offset angle. 6. The jump arm assembly of claim 5 , wherein the offset angle ranges from about 0.5 degrees to about 30 degrees. 7. The jump arm assembly of claim 4 , wherein a circumferential orientation of the disc hub assembly is adjustable relative to the jump arm to vary a mounting angle of the disc hub assembly relative to the jump arm. 8. The jump arm assembly of claim 7 , wherein at least one of the disc hub assembly or the jump arm includes a visual indicator to provide an indication of the mounting angle of the disc hub assembly. 9. The jump arm assembly of claim 1 , wherein said first axial shaft section of said shaft is press-fit into said aperture defined through said plate body of said end plate. 10. The jump arm assembly of claim 1 , wherein said disc hub assembly further comprises a seal extending between said rear surface of said end plate and an outer surface of said hub housing. 11. The jump arm assembly of claim 10 , wherein said seal comprises an annular seal, and said plate body defines an annular slot relative to the rear surface of said end plate, a portion of said annular seal being received within said annular slot. 12. The jump arm assembly of claim 11 , wherein said plate body further defines a second annular slot spaced radially inwardly from said annular slot, said second annular slot configured to receive a portion of the end plate. 13. The jump arm assembly of claim 1 , wherein said shaft provides the sole connection point between the jump arm and the tilling disc. 14. A jump arm assembly for a tilling machine configured to be towed across a field, the jump arm assembly comprising: a jump arm having a first end configured to be coupled to a frame unit of the tilling machine and a second end opposite the first end; and a disc hub assembly configured to couple a tilling disc to the second end of the jump arm, the disc hub assembly comprising: a hub housing defining an arm end of the disc hub assembly, the arm end being formed by a first planar surface of the hub housing that is configured to abut against said jump arm; an end plate provided in operative association with said hub housing, said end plate defining a disc end of the disc hub assembly opposite the arm end of the disc hub assembly, the disc end being formed by a second planar surface of the end plate that is configured to abut against the tilling disc; and a shaft having a first axial shaft section rotatably mounted within said hub housing and a second axial shaft section end extending outwardly from said hub housing, wherein said second axial shaft section is at least partially threaded to receive a threaded nut for securing the tilling disc to said disc hub assembly, wherein a first plane defined by first planar surface of said hub housing is arranged in non-parallel relation with respect to a second plane defined by said second planar surface of said end plate. 15. The jump arm assembly of claim 14 , wherein said disc hub assembly further comprises a bearing positioned within said hub housing, said first axial shaft section of said shaft being rotatably supported within said hub housing via said bearing. 16. The jump arm assembly of claim 14 , wherein the first plane is skewed. relative to the second plane by an offset angle. 17. The jump arm assembly of claim 16 , wherein the offset angle ranges from about 0.5 degrees to about 30 degrees. 18. The jump arm assembly of claim 14 , wherein a circumferential orientation of the disc hub assembly is adjustable relative to the jump arm to vary a mounting angle of the disc hub assembly relative to the jump arm. 19. The jump ann assembly of claim 14 , wherein the end plate is rotatable with the shaft relative to the hub housing. 20. The jump arm assembly of claim 14 , wherein said end plate includes a plate body having a front surface, a rear surface, and an aperture defined through said plate body between said front and rear surfaces, wherein said shaft extends through said aperture such that said second axial shaft section projects outwardly from said plate body, wherein said rear surface of said end plate abuts said hub housing, and wherein said front surface of said end plate is configured to abut the tilling disc when the tilling disc is mounted on said shaft.