Triangular tiller jump arm mount

What is claimed is: 1. A jump arm apparatus for a tilling machine, wherein the tilling machine includes a frame coupled to a hitch configured to mount to a vehicle, whereby the tilling machine is towed across a field, the jump arm apparatus comprising: a jump arm frame unit having a triangular transverse cross-section; a plurality of jump arm assemblies coupled to said jump arm frame unit, each jump arm assembly of the plurality of jump arm assemblies comprising: a jump arm having a first end and a second end; a clamp unit configured to couple said jump arm to said jump arm frame unit, the clamp unit including a plurality of clamp subunits, wherein said first end of said jump arm is connected to a first clamp subunit of said plurality of clamp subunits; and a tilling disc coupled to the second end of said jump arm. 2. The jump arm apparatus of claim 1 , wherein said plurality of clamp subunits are secured to one another around said jump arm frame unit such that a plurality of voids are defined between said plurality of clamp subunits and said jump arm frame unit, with each void being defined between a respective clamp unit of said plurality of clamp subunits and an adjacent outer face of said jump arm frame unit, said jump arm apparatus further comprising a plurality of jump arm supports, with each jump arm support of said plurality of jump arm supports being received within a respective void of said plurality of voids. 3. The jump arm apparatus of claim 2 , wherein each of said plurality of voids comprises a generally triangularly shaped void. 4. The jump arm apparatus of claim 3 , wherein each clamp subunit comprises a curved central section extending between opposed mounting flanges, a profile of the curved central section facilitating the formation of the generally triangularly shaped void between the curved central section and the adjacent outer face of the jump arm frame unit. 5. The jump arm apparatus of claim 1 , wherein said triangular transverse-cross section defines an equilateral triangle. 6. The jump arm apparatus of claim 1 , wherein said plurality of clamp subunits comprises three clamp subunits. 7. The jump arm apparatus of claim 1 , wherein a lateral gap is defined between each adjacent pair of jump arm assemblies of said plurality of jump arm assemblies along said jump arm frame unit; and wherein said jump arm apparatus further comprises a plurality of jump arm spacers, with each jump arm spacer being provided in operative association with the clamp unit of a respective jump arm assembly to maintain the lateral gap between each adjacent pair of jump arm assemblies. 8. The jump arm apparatus of claim 7 , wherein each jump arm spacer is removably coupled to the clamp unit of its respective jump arm assembly. 9. The jump arm apparatus of claim 7 , wherein each jump arm spacer is configured to be provided in abutting engagement with an adjacent jump arm spacer of said plurality of jump arm spacers to maintain the lateral gap between each adjacent pair of jump arm assemblies. 10. The jump arm apparatus of claim 1 , wherein the second end of the jump arm is mounted to said tilling disc via a disc hub assembly, the disc hub assembly including an arm end positioned adjacent to said jump arm and a disc end positioned adjacent to the tilling disc. 11. The jump arm apparatus of claim 10 , 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. 12. The jump arm apparatus of claim 10 , wherein the disc hub assembly comprises a hub housing defining the arm end of the disc hub assembly and an end plate defining the disc end of the disc hub assembly, the disc hub assembly further comprising a shaft including a first axial shaft section rotatably mounted within said hub housing and a second axial shaft section configured to be releasably secured to the tilling disc. 13. The jump arm apparatus of claim 12 , 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. 14. The jump arm apparatus of claim 12 , wherein said second axial shaft section is at least partially threaded to receive a single threaded nut for securing the tilling disc to said disc hub assembly. 15. The jump arm apparatus of claim 12 , 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 sections 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. 16. The jump arm apparatus of claim 15 , 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.