Brake system for conveyor take-up mechanism

What is claimed is: 1. A braking device for a conveyor system, the conveyor system including a continuous belt driven in a direction of travel, the braking device comprising: a carriage supported for movement in a direction parallel to the direction of travel of the belt, the carriage including a plurality of rolls and at least one return pulley, the plurality of rolls configured to support a portion of the belt; a brake pulley configured to support a portion of the belt extending from the return pulley; and a brake selectively retarding rotation of the brake pulley. 2. The braking device of claim 1 , wherein the brake pulley is a first brake pulley and the brake is a first brake, wherein the braking device further includes a second brake pulley and a second brake for selectively retarding rotation of the second brake pulley, the first brake pulley and the second brake pulley configured to support a portion of the belt, wherein the belt passes around the first brake pulley, then passes around the return pulley, and then passes around the second brake pulley. 3. The braking device of claim 2 , wherein actuation of the first brake and the second brake increases a tension in a portion of the belt extending between the first brake pulley and the carriage to a level greater than a tension in a portion of the belt extending from the carriage and away from the first brake pulley. 4. The braking device of claim 1 , wherein actuation of the brake increases a tension in a portion of the belt extending between the brake pulley and the carriage to a level greater than a tension in a portion of the belt extending from the carriage and away from the brake pulley. 5. The braking device of claim 1 , wherein the brake includes an enclosed fluid disk brake coupled to an end of the brake pulley, actuation of the brake applying friction to the end of the brake pulley to reduce the speed of the brake pulley. 6. The braking device of claim 1 , further comprising a stop member engaging the carriage to prevent movement of the carriage in at least one direction. 7. The braking device of claim 6 , wherein the carriage is positioned between the stop member and the brake pulley. 8. The braking device of claim 1 , wherein retarding rotation of the brake pulley causes a force exerted on the carriage by a portion of the belt extending between the carriage and the brake pulley to exceed a force exerted on the carriage by a portion of the belt extending away from the brake pulley. 9. A tensioning mechanism for a conveyor system including a continuous belt and a support structure, the tensioning mechanism comprising: a first carriage supported for movement relative to the support structure, the first carriage including a plurality of first rolls for receiving the belt such that movement of the first carriage modifies a tension in the belt; a second carriage supported for movement relative to the support structure, the second carriage including a plurality of second rolls and at least one return pulley, the plurality of second rolls configured to receive a portion of the belt from the first carriage; a brake pulley for receiving a portion of the belt from the return pulley; and a brake selectively retarding rotation of the brake pulley. 10. The tensioning mechanism of claim 9 , further comprising an actuator coupled to the first carriage for moving the first carriage in a direction parallel to a longitudinal axis of the support structure, the actuator including a winch drum and a cable wrapped onto the winch drum. 11. The tensioning mechanism of claim 9 , wherein the brake pulley is a first brake pulley and the brake is a first brake, further comprising a second brake pulley and a second brake for selectively retarding rotation of the second brake pulley, the first brake pulley and the second brake pulley configured to receive a portion of the belt extending from the second carriage, wherein the belt passes around the first brake pulley, then passes around the return pulley, and then passes around the second brake pulley. 12. The tensioning mechanism of claim 11 , wherein actuation of the first brake and the second brake increases a tension in the portion of the belt extending between the brake pulleys and the second carriage to a level greater than a tension the portion of the belt extending between the first carriage and the second carriage. 13. The tensioning mechanism of claim 9 , wherein the brake includes an enclosed fluid disk brake coupled to an end of the brake pulley, actuation of the brake applying friction to the end of the brake pulley to reduce the speed of the brake pulley. 14. The tensioning mechanism of claim 9 , further comprising a stop member positioned between the first carriage and the second carriage, the stop member engaging the second carriage to prevent movement of the second carriage toward the first carriage. 15. A method for conveying material, the method comprising: driving a continuous belt between a receiving end and a discharge end, the belt including a first portion and a second portion, the first portion extending between a first carriage and a second carriage and exerting a first force on the second carriage, the second portion extending between the second carriage and at least one braking pulley and exerting a second force on the second carriage; while power is supplied to a conveyor drive motor, operating a tensioning mechanism in a first mode including selectively moving the first carriage relative to the second carriage to adjust a tension in the continuous belt, the first force being greater than the second force; and while power to the conveyor drive motor is interrupted, operating the tensioning mechanism in a second mode including retarding rotation of the at least one braking pulley, the second force being greater than the first force. 16. The method of claim 15 , wherein operating the tensioning mechanism in the first mode includes providing pressurized fluid to a brake to maintain separation between a friction element and a member driven by rotation of the pulley, wherein retarding rotation of the at least one pulley includes releasing the pressurized fluid to permit contact between the friction element and the member. 17. The method of claim 15 , wherein retarding rotation of the at least one braking pulley includes moving the second carriage away from the first carriage. 18. The method of claim 15 , wherein operating the tensioning mechanism in the first mode includes inhibiting movement of the second carriage against the first carriage. 19. The method of claim 15 , wherein operating the tensioning mechanism in the first mode includes controlling actuation of a winch coupled to the first carriage to adjust a position of the first carriage relative to the second carriage. 20. The method of claim 15 , wherein retarding rotation of the at least one braking pulley includes retarding rotation of a pair of braking pulleys, the pair of braking pulleys engaging a second portion of the belt.