Take-up mechanism for conveyor system

What is claimed is: 1. A conveyor system comprising: a first end configured to receive material; a second end for discharging the material; a belt traveling in an endless loop between the first end and the second end; a drive motor for moving the belt between the first end and the second end; and a tensioning mechanism engaging a portion of the belt, the tensioning mechanism including, a first end including a drive unit, an anchor structure, a first carriage coupled to the drive unit and including at least one first roll supporting a portion of the belt, operation of the drive unit causing the first carriage to move and adjust a tension in the belt, and a second carriage including at least one second roll supporting another portion of the belt, the second carriage being securable to the anchor structure, a distance between the first end and the second carriage defining a take-up length, wherein, when the second carriage is unsecured with respect to the anchor structure, a tension in the belt causes the second carriage to move relative to the anchor structure between a first position and at least one second position, and wherein movement of the second carriage modifies the take-up length. 2. The conveyor system of claim 1 , wherein the tensioning mechanism further includes a plurality of frames spaced apart from one another and positioned between the first end and the anchor structure, each of the frames supporting at least one of the first carriage and the second carriage for movement. 3. The conveyor system of claim 2 , wherein each frame includes a pair of rails, and wherein the second carriage includes rollers rollingly engaging the rails. 4. The conveyor system of claim 1 , wherein when the second carriage is secured to the anchor structure, movement of the first carriage relative to the first end adjusts a tension in the belt. 5. The conveyor system of claim 1 , wherein when the second carriage is unsecured relative to the anchor structure, movement of the first carriage relative to the first end causes a corresponding movement of the second carriage. 6. The conveyor system of claim 1 , wherein the anchor structure is a first anchor structure, and the tensioning mechanism further includes a second anchor structure positioned between the first end and the first anchor structure, wherein the second carriage is releasably secured to the second anchor structure at the second position. 7. The conveyor system of claim 1 , wherein the anchor structure includes at least one aperture, wherein the second carriage includes a carriage frame having at least one aperture, wherein the second carriage is secured against movement relative to the anchor structure by aligning the at least one aperture of the anchor structure with the at least one aperture of the carriage frame and passing a member through the aligned apertures. 8. The conveyor system of claim 1 , wherein movement of the second carriage changes the maximum take-up length of the tensioning mechanism. 9. A tensioning mechanism for a conveyor system, the tensioning mechanism comprising: a first end including a drive unit; an anchor structure; a continuous belt extending at least partially between the drive unit and the anchor structure; a first carriage coupled to the drive unit and including at least one first roll supporting a portion of the belt, operation of the drive unit causing the first carriage to move and adjust a tension in the belt; and a second carriage including at least one second roll supporting another portion of the belt, the second carriage being securable to the anchor structure, a distance between the first end and the second carriage defining a take-up length, wherein, when the second carriage is unsecured with respect to the anchor structure, a tension in the belt causes the second carriage to move relative to the anchor structure between a first position and at least one second position, and wherein movement of the second carriage modifies the take-up length. 10. The tensioning mechanism of claim 9 , further comprising a plurality of frames spaced apart from one another and positioned between the first end and the anchor structure, each of the frames supporting at least one of the first carriage and the second carriage for movement. 11. The tensioning mechanism of claim 10 , wherein each frame includes a pair of rails, and wherein the second carriage includes rollers rollingly engaging the rails. 12. The tensioning mechanism of claim 9 , wherein the anchor structure is a first anchor structure, and further comprising a second anchor structure positioned between the first end and the first anchor structure, wherein the second carriage is releasably securable to the second anchor structure. 13. The tensioning mechanism of claim 9 , wherein the anchor structure includes at least one aperture wherein the second carriage includes a carriage frame having at least one aperture, wherein the second carriage is securable against movement relative to the anchor structure by aligning the at least one aperture of the anchor structure with the at least one aperture of the carriage frame and passing a member through the aligned apertures. 14. The tensioning mechanism of claim 9 , wherein when the second carriage is secured to the anchor structure, movement of the first carriage relative to the first end adjusts a tension in the belt. 15. The tensioning mechanism of claim 9 , wherein when the second carriage is unsecured relative to the anchor structure, movement of the first carriage relative to the first end causes a corresponding movement of the second carriage. 16. A static carriage for a tensioning mechanism of a belt conveyor system, the tensioning mechanism including an anchor structure and a drive unit operable to move a dynamic carriage, the dynamic carriage including at least one roll supporting a continuous belt, the static carriage comprising: a frame configured to be securable to the anchor structure; at least one second roll supported for rotation on the frame, the second roll configured to support a portion of the belt extending between the frame and the dynamic carriage; and a plurality of rollers for supporting the frame for movement relative to the anchor structure, the plurality rollers coupled to the frame and configured to engage the anchor structure. 17. The static carriage of claim 16 , wherein the frame includes at least one frame aperture configured to release a pin, wherein the frame is securable against movement relative to the anchor structure when the at least one frame aperture is aligned with an aperture of the anchor structure and a pin extends through both the frame aperture and the aperture of the anchor structure. 18. The static carriage of claim 16 , wherein, when the frame is unsecured with respect to the anchor structure, tension in the belt causes the frame to move relative to the anchor structure between a first position and at least one second position. 19. The static carriage of claim 16 , wherein, when the frame is unsecured relative to the anchor structure, movement of the dynamic carriage relative to the anchor structure causes a corresponding movement of the frame.