Rotational fluid joint for agricultural machine

What is claimed is: 1. In an agricultural machine having a first frame section and a second frame section hinged to the first frame section, the first frame section and the second frame section each carrying one or more plumbing lines for moving a carrier fluid, a rotational joint comprising: a first joint part having a first coupler defining a first flow passage leading to a first interface opening; and a second joint part having a second coupler defining a second flow passage leading to a second interface opening; wherein the first joint part is coupled to the second joint part to allow for relative rotation about a rotation axis passing through the first and second interface openings; wherein, in at least one angular orientation of the first and second joint parts, the first flow passage of the first coupler is in fluid communication with the second flow passage of the second coupler; and wherein the first and second couplers have respective first and second coupler openings about respective first and second axes that are perpendicular to the rotation axis such that the first and second coupler openings are perpendicular to planes defining the respective first and second interface openings. 2. The rotational joint of claim 1 , wherein the first and second interface openings are configured so that, at least in one angular orientation of the first and second joint parts, a first periphery of the first interface opening aligns with a second periphery of the second interface opening about the rotation axis. 3. The rotational joint of claim 1 , wherein the second interface opening has a cross-sectional area taken in a plane perpendicular to the rotation axis at least as large as that of the first interface opening. 4. The rotational joint of claim 1 , wherein the first and second interface openings have circular cross-sections concentric with the rotation axis; and wherein the first and second interface openings have respective first and second peripheries that align along the rotation axis throughout relative rotation of the first and second joint parts about the rotation axis. 5. The rotational joint of claim 4 , wherein the first joint part is rotatable about the rotation axis with respect to the second joint part through at least 180 degrees. 6. The rotational joint of claim 1 , wherein the first interface opening has a cross-sectional area taken in a plane perpendicular to the rotation axis at least as large as the first flow passage and the second interface opening has a cross-sectional area taken in a plane perpendicular to the rotation axis at least as large as the second flow passage; and wherein the cross-sectional area of the second interface opening is at least as large as that of the first interface opening. 7. The rotational joint of claim 6 , wherein the first and second interface openings have circular cross-sections concentric with the rotation axis; and wherein the first and second flow passages are non-circular. 8. The rotational joint of claim 1 , wherein the first and second coupler openings face in opposite directions when the first and second joint parts are in a first angular orientation. 9. The rotational joint of claim 1 , wherein the first and second have respective first and second hub flanges extending outward from the first and second interface openings. 10. The rotational joint of claim 9 , further including a collar engaging the first and second hub flanges to rotationally couple the first joint part to the second joint part. 11. The rotational joint of claim 10 , wherein each of the first and second couplers extends from the respective first and second hub flanges at an acute angle less than 45 degrees. 12. An agricultural machine, comprising: a first frame section having a first plumbing line in which a carrier fluid is moved; a second frame section coupled to the first frame section along a hinge axis and having a second plumbing line in which the carrier fluid is moved; and a rotational joint having a first joint part with a first coupler connected to the first plumbing line of the first frame section and a second joint part with a second coupler connected to the second plumbing line of the second frame section, the first and second joint parts being connected to one another to allow for relative rotation about a rotation axis which is coaxial with the hinge axis; wherein the rotational joint is configured so that, at least when the first frame section is in an operational state substantially parallel to the second frame section, a first flow passage of the first coupler is in fluid communication with a second flow passage of the second coupler to pass the carrier fluid from the first plumbing line of the first frame section to the second plumbing line of the second frame section; and wherein the first and second couplers have respective first and second coupler openings about respective first and second axes that are perpendicular to the rotation axis such that the first and second coupler openings are perpendicular to planes defining the respective first and second interface openings. 13. The machine of claim 12 , further including a collar; and wherein the first joint part has a first hub flange defining a first interface opening leading to the first flow passage, and the second joint part has a second hub flange defining a second interface opening leading to the second flow passage; and wherein the collar is connected to the first and second hub flanges to couple the first and second joints parts to allow for relative rotation about the rotation axis passing through the first and second interface openings. 14. The machine of claim 12 , wherein the first and second interface openings are configured so that, in the operational state, the first joint part is oriented with respect to the second joint part so that flow from the first interface opening to the second interface opening is unimpeded by the second joint part. 15. The machine of claim 14 , wherein the first and second interface openings have circular cross-sections concentric with the rotation axis and have peripheries that align along the rotation axis throughout rotation about the rotation axis. 16. The machine of claim 15 , wherein the first joint part is rotatable about the rotation axis with respect to the second joint part through at least 180 degrees. 17. The machine of claim 16 , wherein the first and second flow passages are non-circular. 18. The machine of claim 13 , wherein the first and second couplers extend from the first and second hub flanges to the respective first and second coupler openings; and wherein each of the first and second couplers extends from the respective first and second hub flanges at an acute angle less than 45 degrees.