Articulating conveyor support for a cold planer

What is claimed is: 1. A conveyor articulation joint comprising: a support member affixed to a machine attachment point, the machine attachment point is configured to rotate the conveyor articulation joint about a vertical axis to rotate a conveyor; a pivot member having a conveyor attachment point at one end and connected to the support member at an opposite end; a joint connecting the support member and the pivot member; and an actuator configured to rotate the pivot member about the joint. 2. The conveyor articulation joint of claim 1 , wherein the machine attachment point is configured to maintain the support member at a fixed angle with respect to an upright surface of a planer machine when the conveyor articulation joint is attached to the planer machine. 3. The conveyor articulation joint of claim 1 , wherein the conveyor attachment point is configured to be a quick disconnect attachment mechanism. 4. The conveyor articulation joint of claim 1 , wherein the actuator is a linear actuator extending between the support member and the pivot member. 5. The conveyor articulation joint of claim 4 , wherein the actuator is a hydraulic linear actuator. 6. The conveyor articulation joint of claim 4 , wherein the actuator is a position-sensing actuator. 7. The conveyor articulation joint of claim 1 , wherein the actuator is configured to exert a torque about the joint to rotate the pivot member. 8. The conveyor articulation joint of claim 1 , wherein the actuator is configured to rotate the pivot member through a rotation angle that is between 80 to 179 degrees of rotation. 9. A planer machine having: a primary conveyor system to receive debris from a planing drum; a secondary conveyor system to receive, at a proximal end, the debris from the primary conveyor system and to discharge the debris from a distal end; a conveyor articulation joint to support the proximal end of the secondary conveyor system, the conveyor articulation joint having: a support member attached to a frame of the planer machine at a machine attachment point; a pivot member attached to the secondary conveyor system at a conveyor attachment point at one end and connected to the support member at an opposite end; a joint connecting the support member and the pivot member; and an actuator configured to pivot the pivot member about the joint to change a proximal-end height of the secondary conveyor system. 10. The planer machine of claim 9 , further comprising a controller configured to: receive machine operating parameters indicative of debris movement within the planer machine; and control the actuator based on the received machine operating parameters. 11. The planer machine of claim 10 , wherein the machine operating parameters indicative of debris movement within the planer machine include at least one of a speed of the planing drum, an advancement speed of the primary conveyor system, and an angle of the primary conveyor system. 12. The planer machine of claim 9 , further comprising: a debris sensor disposed at the proximal end of the secondary conveyor system, the debris sensor configured to detect a location that the debris is received by the secondary conveyor system; and a controller configured to control the actuator based on the detected location of the debris received by the secondary conveyor system. 13. The planer machine of claim 9 , wherein the conveyor articulation joint is configured to rotate the pivot member to lower the proximal end of the secondary conveyor system to a ground surface. 14. The planer machine of claim 9 , further comprising a vertical retraction member disposed between a ground engaging member and the frame of the planer machine, the vertical retraction member configured to change a frame height ( 230 ) of the planer machine, wherein the proximal end of the secondary conveyor system is configured to be lowered to a ground surface based at least in part on the pivot member rotating to lower the proximal end of the secondary conveyor system and a retraction of the vertical retraction member to lower the frame height of the planer machine. 15. The planer machine of claim 9 , further comprising a conveyor lift actuator attached between a conveyor lift actuator attachment point on the support member and the distal end of the secondary conveyor system, wherein the conveyor lift actuator is configured to change a distal-end height of the secondary conveyor system. 16. The planer machine of claim 9 , further comprising an extensible support leg disposed on the distal end of the secondary conveyor system, the extensible support leg being configured to extend between a ground surface and the distal end of the secondary conveyor system to support the distal end of the secondary conveyor system. 17. A method of detaching a conveyor system from a planer machine, the method comprising: supporting a distal end of the conveyor system; lowering a proximal end of the conveyor system by a conveyor articulation joint, the conveyor articulation joint having a support member, a pivot member, a joint connecting the support member and the pivot member, and an actuator, wherein the lowering is based at least in part on the actuator causing the pivot member to rotate about the joint; and disconnecting the conveyor system from the planer machine. 18. The method of claim 17 , wherein: the planer machine comprises a conveyor lift actuator attached between a lift actuator attachment point on the support member and the distal end of the conveyor system; and the method further comprises the conveyor lift actuator lowering the distal end of the conveyor system. 19. The method of claim 18 , wherein: the distal end of the conveyor system comprises an extensible support leg, the extensible support leg being configured to extend between a ground surface and the distal end of the conveyor system; and supporting the distal end of the conveyor system comprises extending the extensible support leg.