Lift superstructure arm pin

We claim: 1. A lift assembly, comprising: (a) a lifting structure configured to actuate relative to the ground between a lowered position and a raised position; (b) a lifting arm coupled with the lifting structure, where the lifting arm is configured to actuate with the lifting structure between the lowered position and the raised position; (c) a yoke structure fixed to the lifting structure; (d) a pin configured to couple the lifting arm with the yoke structure such that the lifting arm is configured to rotate relative to the yoke structure about a longitudinal axis of the pin; and (e) an integrated anti-rotational assembly associated with both the yoke structure and the pin, wherein the integrated anti-rotational assembly is configured to inhibit rotation of the pin relative to the yoke structure about the longitudinal axis of the pin while the lifting arm rotates relative to the yoke structure. 2. The lift assembly of claim 1 , wherein the integrated anti-rotational assembly comprises a D-shaped through hole defined by the yoke structure. 3. The lift assembly of claim 2 , wherein the integrated anti-rotational assembly comprises a D-shaped projection of the pin, wherein the D-shaped projection is dimensioned to fit within the D-shaped through hole. 4. The lift assembly of claim 3 , wherein the D-shaped through hole comprises a linear surface and a circumferentially extending surface, wherein the linear surface is closer to a vehicle engagement side of the yoke structure, and wherein the circumferentially extending surface is closer to a rear side of the yoke structure. 5. The lift assembly of claim 1 , wherein the yoke structure comprises a top plate and a bottom plate. 6. The lift assembly of claim 5 , wherein the bottom plate comprises a fixing feature configured to accommodate fixing the yoke structure to the lifting structure. 7. The lift assembly of claim 6 , wherein the fixing feature comprises a plurality of through holes. 8. The lift assembly of claim 7 , wherein the top plate defines a plurality of access holes. 9. The lift assembly of claim 5 , wherein the top plate and the bottom plate are fixed to each other via a plurality of vertical walls. 10. The lift assembly of claim 1 , wherein the lifting arm comprises a base segment and a telescoping segment configured to actuate relative to each other in order to adjust a length of the lifting arm. 11. The lift assembly of claim 10 , wherein the lifting arm further comprises a vehicle engagement member extending from the telescoping segment. 12. The lift assembly of claim 11 , wherein the vehicle engagement member is slidably attached to the telescoping segment. 13. The lift assembly of claim 12 , wherein the telescoping segment defines a slot, wherein the vehicle engagement member is slidably contained within the slot. 14. The lift assembly of claim 1 , wherein the lift assembly comprises an inground housing. 15. The lift assembly of claim 14 , wherein the lift assembly comprises a base plate fixed relative to the inground housing. 16. The lift assembly of claim 1 , further comprising a second arm pivotally attached to the yoke structure. 17. The lift assembly of claim 16 , wherein the second arm is pivotally attached to the yoke structure via a second pin. 18. The lift assembly of claim 17 , wherein the second pin is inhibited from rotating relative to the yoke structure. 19. A lift assembly, comprising: (a) a lifting structure configured to actuate relative to the ground between a lowered position and a raised position; (b) a lifting arm coupled with the lifting structure such that the lifting arm is configured to actuate with the lifting structure between the lowered position and the raised position; (c) a yoke structure fixed to the lifting structure, wherein the yoke structure comprises an anti-rotational surface defining a portion of a through hole; and (d) a pin configured to couple the lifting arm with the yoke structure such that the lifting arm is configured to rotate relative to the yoke structure about a longitudinal axis of the pin, wherein the pin comprises a complementary anti-rotational surface configured to mate with the anti-rotational surface of the yoke structure to thereby inhibit rotation of the pin about the longitudinal axis relative to the yoke structure while the lifting arm rotates relative to the yoke structure. 20. A lift assembly, comprising: (a) a lifting post configured to actuate relative to the ground between a lowered position and a raised position; (b) a lifting arm coupled with the lifting post such that the lifting arm is configured to actuate with the lifting post between the lowered position and the raised position; (c) a yoke structure fixed to the lifting post, wherein the yoke structure comprises a tongue defining a pin opening, wherein the pin opening comprises an anti-rotational surface; and (d) a pin pivotally coupling the lifting arm with the yoke structure such that the lifting arm configured to couple the lifting arm with the yoke structure such that the lifting arm is configured to rotate relative to the yoke structure about a longitudinal axis of the pin, wherein the anti-rotational surface of the yoke structure is configured to inhibit rotation of the pin relative to the yoke structure about the longitudinal axis of the pin while the lifting arm rotates relative to the yoke structure.