Auger coupling assembly with a pivotable clutch

The invention claimed is: 1. An auger assembly for a farm implement, the auger assembly comprising: a first auger section comprising a first auger shaft configured to rotate in a conveying direction about a longitudinal axis of the first auger section; a second auger section comprising a second auger shaft configured to rotate about a longitudinal axis of the second auger section; a first auger coupling portion coupled to an end of the first auger shaft, the first auger coupling portion comprising a drive hub and a lobe projecting from a side surface of the drive hub; a second auger coupling portion coupled to an end of the second auger shaft, the second auger coupling portion comprising a sleeve configured to receive the drive hub such that the drive hub is rotatably engaged with the sleeve; a drive pin secured to the second auger coupling portion; and a latch arm configured to pivot in a direction substantially parallel to the longitudinal axis of the second auger section between an engaged position and a disengaged position; wherein the lobe is configured to rotationally engage the drive pin in the conveying direction when the drive hub is received in the sleeve, such that rotation forces are transmitted from the first auger shaft to the second auger shaft; and wherein the latch arm is configured to rotatably engage the lobe in the conveying direction when the latch arm is in the engaged position, such that the latch arm maintains the lobe adjacent the drive pin or within a predetermined degree of separation from the drive pin. 2. The auger assembly of claim 1 , wherein the lobe is configured to rotationally engage the latch arm in the conveying direction when the drive hub is received in the sleeve and the lobe is displaced from rotatably engaging the drive pin in the conveying direction, thereby causing the latch arm to pivot toward the disengaged position such that the lobe rotates toward the drive pin in the conveying direction. 3. The auger assembly of claim 2 , wherein the latch arm is configured to pivot back to the engaged position when the lobe is positioned for rotational engagement with the drive pin, thereby maintaining the lobe adjacent the drive pin or within a predetermined degree of separation from the drive pin. 4. The auger assembly of claim 1 , wherein the latch arm is configured to pivot about a pivot axis extending through the sleeve. 5. The auger assembly of claim 1 , wherein the latch arm comprises a first end pivotably secured to the second auger coupling portion and a second end configured to move in a direction substantially parallel to the longitudinal axis of the second auger section. 6. The auger assembly of claim 1 , wherein the drive pin comprises a cam surface projecting beyond an end face of the sleeve, and the lobe is configured to rotatably engage the cam surface of the drive pin in the conveying direction when the drive hub is received in the sleeve. 7. The auger assembly of claim 1 , wherein the drive hub comprises a shoulder configured to engage an end face of the sleeve when the drive hub is received in the sleeve. 8. The auger assembly of claim 1 , wherein the latch arm is biased toward the engaged position. 9. The auger assembly of claim 1 , wherein the predetermined degree of separation is less than about 20 degrees from the drive pin. 10. The auger assembly of claim 1 , wherein the predetermined degree of separation is less than about 10 degrees from the drive pin. 11. A farm implement comprising: a frame; a container mounted on said frame and configured to hold agricultural material; and an auger assembly configured to convey agricultural material held in the container, wherein the auger assembly comprises: a first auger section comprising a first auger shaft configured to rotate in a conveying direction about a longitudinal axis of the first auger section and a first helical flight array disposed along and projected from the first auger shaft; a second auger section comprising a second auger shaft configured to rotate about a longitudinal axis of the second auger section and a second helical flight array disposed along and projected from the second auger shaft; a folding joint assembly coupled to the first and second auger sections and comprising a folding axis, the folding joint assembly is configured to rotate the second auger section about the folding axis between a transport position and an operating position; and an auger shaft coupling assembly configured to releasably connect an end of the first auger shaft to an end of the second auger shaft when the second auger section is in the operating position, wherein the auger shaft coupling assembly comprises: a first auger coupling portion coupled to the end of the first auger shaft; a second auger coupling portion coupled to the end of the second auger shaft, the first auger coupling portion comprising a lobe, a drive pin secured to the second auger coupling portion; and a latch arm configured to pivot in a direction substantially parallel to the longitudinal axis of the second auger section between an engaged position and a disengaged position; wherein the second auger coupling portion is configured to at least partially receive the first auger coupling portion; wherein the lobe is configured to rotationally engage the drive pin in the conveying direction when the first auger coupling portion is at least partially received in the second auger coupling portion, such that rotation forces are transmitted from the first auger shaft to the second auger shaft; and wherein the latch arm is configured to rotationally engage the lobe in the conveying direction when the latch arm is in the engaged position, such that the latch arm maintains the lobe adjacent the drive pin or within a predetermined degree of separation from the drive pin. 12. The farm implement of claim 11 , wherein the first auger coupling portion comprises a drive hub and the lobe projects from a side surface of the drive hub; and wherein the second auger coupling portion comprises a sleeve configured to receive the drive hub such that the drive hub is rotatably engaged with the sleeve. 13. The farm implement of claim 12 , wherein the lobe of the first auger coupling portion is configured to rotationally engage the drive pin in the conveying direction when the drive hub of the first auger coupling portion is received in the sleeve of the second auger coupling portion.