Support pin assembly, support system, and method for the same

The invention claimed is: 1. A support pin assembly for full size determinant assembly of an aircraft structure, the support pin assembly comprising: a block having a vertical bore and a horizontal bore intersecting the vertical bore; a bushing disposed within the horizontal bore at a first end of the block; a barrel nut having a cylindrical body disposed within the vertical bore, the cylindrical body having a barrel nut hole extending transversely through the cylindrical body, the barrel nut hole aligned with the horizontal bore; and a pin comprising: an insertion portion disposed within the bushing; an interface element having an interface element first end disposed within the insertion portion and an interface element second end disposed within the barrel nut hole; and an extending portion extending from the first end of the block, the extending portion having at least one protruding circumferential portion formed on an exterior of the extending portion, the at least one protruding circumferential portion having two or more flat surface portions on opposing sides of the at least one protruding circumferential portion to enable rotation of the pin, wherein the at least one protruding circumferential portion on the extending portion of the pin is configured to be positioned within a hole in a frame section of the aircraft structure for the full size determinant assembly, the frame section is configured to be positioned on and is configured to be supported by an assembly jig, and the support pin assembly is configured for coupling to the assembly jig, and the at least one protruding circumferential portion on the extending portion of the pin is configured to provide nominal adjustment of the pin relative to the hole, so that with any occurrence of a binding condition of the pin within the hole, the pin is configured to be released from the binding condition by rotating the pin via the two or more flat surface portions. 2. The support pin assembly of claim 1 , wherein the bushing comprises a slotted bushing having a slot with a slotted bushing pin disposed within the slot, and further wherein the slotted bushing is press fit into the horizontal bore at the first end of the block. 3. The support pin assembly of claim 1 , wherein the barrel nut further has a head portion integral with the cylindrical body and extending exterior to the vertical bore at a top side of the block, and a nominal offset gap is formed between the top side of the block and a bottom end of the head portion. 4. The support pin assembly of claim 1 , wherein the barrel nut has an alignment slot formed in a top end that is visible to enable alignment of the barrel nut hole with the horizontal bore. 5. The support pin assembly of claim 1 , wherein the cylindrical body of the barrel nut has one of: a counterbore on one side of the barrel nut hole, the counterbore extending transversely through the cylindrical body, or counterbores on both sides of the barrel nut hole, the counterbores extending transversely through the cylindrical body. 6. The support pin assembly of claim 1 , wherein the extending portion of the pin has a first end comprising a pin head portion having an outer surface with sight lines for visual inspection of pin alignment of the pin relative to the block. 7. The support pin assembly of claim 1 , wherein a nominal offset gap is formed between the first end of the block and a proximal protruding circumferential portion proximal to the first end of the block. 8. The support pin assembly of claim 1 , wherein the at least one protruding circumferential portion has four of the flat surface portions to enable a quarter turn rotation of the pin. 9. The support pin assembly of claim 1 , wherein the at least one protruding circumferential portion has two of the flat surface portions to enable a half turn rotation of the pin. 10. The support pin assembly of claim 1 , wherein the at least one protruding circumferential portion comprises two protruding circumferential portions, including a proximal protruding circumferential portion proximal to the first end of the block and a distal protruding circumferential portion distal to the first end of the block, and further wherein the distal protruding circumferential portion has an outer diameter that is greater than an outer diameter of the proximal protruding circumferential portion. 11. A support system for full size determinant assembly of an aircraft structure, the support system comprising: an assembly jig; a frame section of the aircraft structure for the full size determinant assembly, the frame section positioned on and supported by the assembly jig; and one or more support pin assemblies coupled to the assembly jig, each support pin assembly comprising: a block coupled to the assembly jig, the block having a vertical bore and a horizontal bore intersecting the vertical bore; a bushing disposed within the horizontal bore at a first end of the block; a barrel nut having a cylindrical body disposed within the vertical bore, the cylindrical body having a barrel nut hole extending transversely through the cylindrical body, the barrel nut hole aligned with the horizontal bore; and a pin comprising: an insertion portion disposed within the bushing; an interface element having an interface element first end disposed within the insertion portion and an interface element second end disposed within the barrel nut hole; and an extending portion extending from the first end of the block, the extending portion having at least one protruding circumferential portion formed on an exterior of the extending portion, the at least one protruding circumferential portion having two or more flat surface portions on opposing sides of the at least one protruding circumferential portion to enable rotation of the pin, wherein the at least one protruding circumferential portion on the extending portion of the pin is positioned within a hole in the frame section of the aircraft structure, and provides nominal adjustment of the pin relative to the hole, so that with any occurrence of a binding condition of the pin within the hole, the pin is released from the binding condition by rotating the pin via the two or more flat surface portions. 12. The support system of claim 11 , wherein the support system comprises the one or more support pin assemblies providing a clocking feature of the assembly jig, to orient the frame section of the aircraft structure in a desired orientation. 13. The support system of claim 11 , wherein: the aircraft structure comprises a wing; the frame section comprises a wing frame section; and the assembly jig comprises a wing assembly jig. 14. The support system of claim 11 , wherein the at least one protruding circumferential portion has one of, four of the flat surface portions to enable a quarter turn rotation of the pin; or two of the flat surface portions to enable a half turn rotation of the pin. 15. A method of supporting an aircraft structure for full size determinant assembly, the method comprising: coupling one or more support pin assemblies to an assembly jig, each support pin assembly comprising: a block having a vertical bore and a horizontal bore intersecting the vertical bore, wherein the block is coupled to the assembly jig; a bushing disposed within the horizontal bore at a first end of the block; a barrel nut having a cylindrical body disposed within the vertical bore, the cylindrical body having a barrel nut hole extending transversely through the cylindrical body, the barrel nut hole aligned with the horizontal bore; and a pin comprising: an i