Draft tube sequencing for an agricultural tillage implement

What is claimed is: 1. An agricultural tillage implement, comprising: a main frame section including a pull hitch tube extending in a travel direction, said pull hitch tube having a forward end and a rearward end; at least one wing section pivotally coupled with said main frame section about at least one generally vertical axis located at said rearward end of said pull hitch tube, said at least one pivotally coupled wing section operable to pivot forward about said at least one generally vertical axis to a position adjacent to and generally parallel with said pull hitch tube when in a transport configuration, said at least one pivotally coupled wing section operable to pivot outward about said at least one generally vertical axis to a position perpendicular to said pull hitch tube when in an operating configuration; at least one wing front shank frame pivotally attached to said at least one pivotally coupled wing section, said at least one wing front shank frame operable to pivot to a generally vertical position when in said transport configuration and operable to pivot to a generally horizontal position when in said operating configuration; at least one stand-off bracket attached to said at least one pivotally coupled wing section and extending perpendicularly from said at least one pivotally coupled wing section in a forward direction when said at least one pivotally coupled wing section is in said position perpendicular to said pull hitch tube in said operating configuration, and extending perpendicularly from said at least one pivotally coupled wing section in a laterally inward direction when said at least one pivotally coupled wing section is in said position adjacent to and generally parallel with said pull hitch tube in said transport configuration; at least one pivoting swing arm being pivotally connected with said at least one stand-off bracket, said at least one pivoting swing arm being operable to pivot inward towards said at least one pivotally coupled wing section when in said transport configuration and to pivot forward towards said forward end of said pull hitch tube when in said operating configuration; at least one draft member being coupled between said at least one pivoting swing arm and said forward end of said pull hitch tube; and a controller for controlling said at least one pivotally coupled wing section, said at least one wing front shank frame, and said at least one pivoting swing arm, said controller operable to reconfigure the agricultural tillage implement from said operating configuration to said transport configuration by a folding sequence of steps, said folding sequence of steps comprising: a first step of pivoting said at least one wing front shank frame to said generally vertical position; a second step of pivoting said at least one pivoting swing arm inwards towards said at least one wing section; and a third step of pivoting said at least one pivotally coupled wing section forward about said at least one generally vertical axis to said position adjacent to and generally parallel with said pull hitch tube. 2. The agricultural tillage implement of claim 1 , further comprising: a tool bar attached to and extending transverse to said pull hitch tube; a main shank frame pivotally coupled with said tool bar, said main shank frame operable to pivot up and over said tool bar when in said transport configuration, said main shank frame further operable to pivot down and forward of said tool bar when in said operating configuration; said pull hitch tube further comprising a telescoping pull hitch tube; said controller further operable to pivot said main shank frame up and over said tool bar during said first step of said folding sequence of steps; and said controller further operable to extend said telescoping pull hitch tube during said third step of said folding sequence of steps. 3. The agricultural tillage implement of claim 1 , wherein: said controller is further operable to reconfigure the agricultural tillage implement from said transport configuration to said operating configuration by an unfolding sequence of steps, said unfolding sequence of steps comprising: a first step of pivoting said at least one pivotally coupled wing section about said at least one generally vertical axis to said position perpendicular to said pull hitch tube; a second step of pivoting said at least one pivoting swing arm forward towards said forward end of said pull hitch tube; and a third step of pivoting said at least one wing front shank frame to said generally horizontal position. 4. The agricultural tillage implement of claim 3 , further comprising: a tool bar attached to and extending transverse to said pull hitch tube; a main shank frame pivotally coupled with said tool bar, said main shank frame operable to pivot up and over said tool bar when in said transport configuration, said main shank frame further operable to pivot down and forward of said tool bar when in said operating configuration; said pull hitch tube further comprising a telescoping pull hitch tube; said controller further operable to contract said telescoping pull hitch tube during said first step of said unfolding sequence of steps; and said controller further operable to pivot said main shank frame down and forward of said tool bar during said third step of said unfolding sequence of steps. 5. The agricultural tillage implement of claim 1 , wherein: said controller further comprises a sequence screen, said sequence screen presenting an operator of the agricultural tillage implement said folding sequence of steps, each of said folding sequence of steps being available for selection by said operator upon completion of the previous step. 6. The agricultural tillage implement of claim 1 , wherein: said controller further comprises an automated control device, said automated control device initiating each of said folding sequence of steps in order upon completion of the previous step. 7. The agricultural tillage implement of claim 1 , wherein: said at least one pivoting swing arm further comprises a bell crank arrangement, having a center pivot connected with said at least one stand-off bracket, a second pivot connected with said at least one draft member, and a third pivot connected with at least one pivoting swing arm hydraulic cylinder, said at least one pivoting swing arm hydraulic cylinder being further connected to said at least one pivotally coupled wing section. 8. The agricultural tillage implement of claim 7 , wherein: said at least one pivoting swing arm hydraulic cylinder is connected to said at least one pivotally coupled wing section at a location laterally outward from said stand-off bracket along said at least one pivotally coupled wing section when said at least one pivotally coupled wing section is in said position perpendicular to said pull hitch tube in said operating configuration, said at least one pivoting swing arm hydraulic cylinder being operable to pull said at least one pivoting swing arm third pivot outwards causing said at least one pivoting swing arm to pivot about said center pivot and causing said second pivot connected with said at least one draft member to pivot inwards towards said at least one pivotally coupled wing section. 9. The agricultural tillage implement of claim 7 , wherein: said at least one pivoting swing arm hydraulic cylinder is connected to said at least one pivotally coupled wing section at a location laterally inward from said stand-off bracket along said at least one pivotally coupled wing section when said at least one pivotally coupled wing section is in said position perpendicular to said pull hitch tube in said operating configuration, said at least one pivoting swin