Stacker hopper with feed interrupt

What is claimed is: 1. A sheet stacking system comprising: a conveyor configured to carry sheets from a conveyor intake end to a conveyor discharge end; a hopper at the discharge end configured to receive the sheets ejected from the discharge end of the conveyor and guide the sheets as they fall in a cascade path onto a platform associated with the hopper, the falling sheets forming a main stack on the platform, the hopper including a backstop having a first side facing the discharge end of the conveyor such that the sheets ejected from the discharge end impact against the backstop first side before forming the main stack, and a first accumulator comprising a carrier, at least one first support extending from the carrier through the backstop, and an actuator configured to rotate the at least one first support from a retracted position to an extended position relative to the backstop, the carrier and the first support being movable vertically in a linear manner relative to the backstop with the at least one first support in the extended position from a raised location with the at least one first support outside the cascade path to a lowered location with the at least one first support in the cascade path, wherein the carrier comprises a shaft and the at least one first support comprises a plurality of first supports extending from the shaft and fixed to the shaft for rotation therewith. 2. The sheet stacking system according to claim 1 , wherein the first accumulator is mounted on and supported by the backstop. 3. The sheet stacking system according to claim 2 , wherein the carrier is movable from the raised location to the lowered location when the at least one first support is in the extended position and is movable from the lowered location to the raised location when the at least one support is in the retracted position. 4. The sheet stacking system according to claim 3 , including at least one second support below the conveyor discharge end configured to shift between a retracted position outside the cascade path and an extended position in the cascade path, the at least one second support being located substantially horizontally across the hopper from the at least one first support when the carrier is in the lowered location. 5. The sheet stacking system according to claim 4 , wherein the hopper includes a front wall facing and spaced from the backstop and at least partially defining the cascade path and wherein the at least one second support is located at the front wall. 6. The sheet stacking system according to claim 5 including a blower configured to blow air from above the cascade path toward the platform. 7. The sheet stacking system according to claim 1 , wherein the actuator comprises a rotary actuator. 8. The sheet stacking system according to claim 1 , wherein the backstop has a second side opposite the first side, wherein the first accumulator includes a first wheel and a second wheel mounted on the second side of the backstop and a belt supported by the first wheel and the second wheel, wherein the carrier is connected to the belt for movement therewith, and including a linear actuator mounted on the backstop and connected to the carrier and configured to move the carrier linearly and vertically relative to the backstop and to move the belt to rotate the first wheel and the second wheel. 9. The sheet stacking system according to claim 1 , including a linear actuator connected to the backstop and to the carrier and configured to move the carrier linearly and vertically relative to the backstop. 10. A sheet stacking system comprising: a conveyor configured to carry sheets from a conveyor intake end to a conveyor discharge end; a hopper at the discharge end configured to receive the sheets ejected from the discharge end of the conveyor and guide the sheets as they fall in a cascade path onto a platform associated with the hopper, the falling sheets forming a main stack on the platform, the hopper including a backstop having a first side facing the discharge end of the conveyor and a second side opposite the first side, the backstop being positioned such that the sheets ejected from the discharge end impact against the first side of the backstop before forming the main stack, and a first accumulator comprising: a support shaft rotatably mounted at the second side of the backstop, a plurality of first wheels mounted on the support shaft for rotation with the support shaft, each of the first wheels having an axis of rotation, a plurality of second wheels mounted at the backstop, each of the plurality of second wheels having an axis of rotation parallel to the axes of rotation of the plurality of first wheels, a plurality of belts, each belt of the plurality of belts extending from one of the plurality of first wheels to one of the plurality of second wheels, a rotary actuator connected to a first one of the plurality of belts, a drive shaft extending from the rotary actuator, a plurality of first supports mounted to the drive shaft for rotation therewith, the rotary actuator being configured to rotate the drive shaft from a first position in which the plurality of first supports extend through the backstop into the cascade path and a second position in which the plurality of first supports are located outside the cascade path, and a linear actuator connected to the rotary actuator and configured to move the rotary actuator and the drive shaft in a first direction and a second direction relative to the second side of the backstop. 11. The sheet stacking system according to claim 10 , wherein the drive shaft includes a plurality of drive shaft segments, a first one of the plurality of drive shaft segments having a first end connected to the rotary actuator and a second end supported by a bearing block connected to a second one of the belts. 12. The sheet stacking system according to claim 11 , wherein the support shaft is supported by the backstop and the plurality of second wheels are supported by the backstop. 13. The sheet stacking system according to claim 12 , including at least one second support below the conveyor discharge end configured to shift between a retracted position outside the cascade path and an extended position in the cascade path. 14. A sheet stacking system comprising: a conveyor configured to carry sheets from a conveyor intake end to a conveyor discharge end; a hopper at the discharge end configured to receive the sheets ejected from the discharge end of the conveyor and guide the sheets as they fall in a cascade path onto a platform associated with the hopper, the falling sheets forming a main stack on the platform, the hopper including a backstop having a first side facing the discharge end of the conveyor and a second side opposite the first side, the backstop being positioned such that the sheets ejected from the discharge end impact against the first side of the backstop before forming the main stack, and a first accumulator comprising: a plurality of first supports shiftable between a first position in which the plurality of first supports extend through the backstop into the cascade path and a second position in which the plurality of first supports are located outside the cascade path, and means for shifting the plurality of first supports from the first position to the second position, and means for moving the plurality of first supports linearly and vertically relative to the backstop. 15. The sheet stacking system according to claim 14 , wherein the means for shifting the plurality of first supports comprises a rotary actuator and the means for mo