Agricultural sampling system and related methods

1 . A separation device for extracting a test material from an agricultural slurry, the device comprising: a support housing; a fluid exchange dock fixedly mounted to the housing, the fluid exchange dock comprising a top surface, a bottom surface, and a plurality of flow passages extending between and through the top surface and bottom surface; a motor drive mechanism; a rotary tube hub coupled to the motor drive mechanism, the tube hub being separable from the fluid exchange dock and rotatable via operation of the motor drive mechanism when separated therefrom; a plurality of centrifuge tubes pivotably mounted to the rotary tube hub, each of the centrifuge tubes comprising a plurality of fluid conduits each having a respective port arranged on a top surface of the centrifuge tube; the centrifuge tubes being changeable between a vertical orientation when the rotary tube hub is not rotated, and a horizontal orientation when the rotary tube hub is rotated and separated from the fluid exchange dock via pivotable movement of the centrifuge tubes. 2 . The separation device according to claim 1 , wherein the centrifuge tubes are selectively engageable with the fluid exchange dock when the centrifuge tubes are in the vertical orientation such that the flow ports on the top surface of the centrifuge tubes are concentrically aligned and in fluid communication with the flow passages of the fluid exchange dock. 3 . The separation device according to claim 2 , wherein the rotary tube hub is vertically movable between a docked position in which the centrifuge tubes engage the fluid exchange dock when the centrifuge tubes are in the vertical orientation, and an undocked position in which the centrifuge tubes are separated and disengaged from the fluid exchange dock. 4 . The separation device according to claim 3 , wherein fluid is exchangeable between the flow passages of the fluid exchange dock and the flow conduits of the centrifuge tubes when the centrifuge tubes are engaged with the fluid exchange dock. 5 . The separation device according to claim 4 , wherein the fluid conduits of each centrifuge tube are arranged to receive the slurry from the flow passages of the fluid exchange dock. 6 . The separation device according to claim 5 , wherein the slurry first enters the flow passages of the fluid exchange dock before entering the fluid conduits of the centrifuge tubes. 7 . The separation device according to claim 5 , wherein the slurry travels in a vertical flow path via the flow passages from the top surface of the fluid exchange dock to the bottom surface, and in turn into the fluid conduits of the centrifuge tubes. 8 . The separation device according to claim 1 , wherein the fluid conduits are configured to separate a test material from the slurry when the rotatory hub is rotated in the undocked position when the centrifuge tubes are in the vertical orientation. 9 . The separation device according to claim 1 , wherein the centrifuge tubes are each pivotally coupled to the rotary tube hub via a pivot pin extending through an upper portion of the centrifuge tubes. 10 . The separation device according to claim 9 , wherein the pivot pins are located proximate to the top surfaces of the centrifuge tubes. 11 . The separation device according to claim 2 , wherein the top surface of the centrifuge tubes are horizontal when the centrifuge tubes are in the vertical orientation, and the top surface of the centrifuge tubes are vertical when the centrifuge tubes are in the horizontal orientation. 12 . The separation device according to claim 1 , wherein the fluid exchange dock and rotary tube hub each have a circular disk shape. 13 . The separation device according to claim 3 , wherein the fluid exchange dock and rotary tube hub each comprises a central opening, the motor drive mechanism comprising a drive shaft which extends through both central openings to coupled the drive shaft to only the rotary tube hub. 14 . The separation device according to claim 13 , further comprising a piston mechanism operably coupled to the rotary tube hub, the piston mechanism configured and operable to raise and lower the rotary tube hub between the docked and undocked positions respectively. 15 . The separation device according to claim 14 , wherein the rotary tube hub comprises a plurality of circumferentially spaced apart index depressions encircling the central opening of the rotary tube hub. 16 . The separation device according to claim 15 , wherein the index depressions mate with a plurality of complementary configured and downwardly protruding index protrusions disposed on a bottom surface of fluid exchange dock when the rotary tube hub is docked to the fluid exchange dock to align the flow ports of the centrifuge tubes with the flow passages of the fluid exchange dock. 17 . The separation device according to claim 3 , wherein when the rotary tube hub is not rotated, the lower portion of the centrifuge tubes hangs and projects downwards below a bottom surface of the rotary tube hub. 18 . A separation device for extracting a test material from an agricultural slurry, the device comprising: a support housing; a fluid exchange dock fixedly mounted to the housing, the fluid exchange dock comprising a top surface, a bottom surface, and a plurality of flow passages extending between and through the top surface and bottom surface; a motor drive mechanism comprising a drive shaft; a rotary tube hub coupled to the drive shaft, the tube hub being separable from the fluid exchange dock and rotatable via operation of the motor drive mechanism when separated therefrom; a plurality of centrifuge tubes pivotably mounted to the tube hub, each of the centrifuge tubes comprising a plurality of fluid conduits each having a respective port arranged on a top surface of the centrifuge tube; the centrifuge tubes being changeable between a vertical orientation when the tube hub is not rotated, and a horizontal orientation when the rotary tube hub is rotated and separated from the fluid exchange dock via pivotable movement of the centrifuge tubes; and a piston mechanism operably coupled to the rotary tube hub, the piston mechanism configured and operable to raise and lower the rotary tube hub between a docked position engaged with the fluid exchange dock, and an undocked position disengaged from the fluid exchange dock. 19 . The separation device according to claim 18 , wherein the rotary tube hub is rotatable when the rotary tube hub is in the undocked position. 20 . The separation device according to claim 18 , further comprising a return spring operable to bias and automatically return the rotary tube hub to the undocked position.