Aggregate dewatering device and method

What is claimed is: 1. A dewatering device for aggregate product, comprising: a vibrating screen for receiving aggregate product from a screw conveyor, the vibrating screen having an entrance disposed to receive aggregate product, said vibrating screen including a vibrating system to move said screen; and a recycle system positioned at least partially below the vibrating screen to receive fine materials passed through the screen and to aid in directing the fine materials back to the entrance of the vibrating screen, wherein the recycle system comprises: a reservoir member disposed to receive fine materials passed through the screen; and a redirection apparatus comprising: a first inlet, the first inlet disposed to receive fine materials from the reservoir member; a second inlet, separate from the screw conveyor, the second inlet configured to receive a fluid from outside the reservoir member; and an outlet at or near the screw conveyor, wherein the fine materials from the first inlet and the fluid from the second inlet are combined in the redirection apparatus and dispensed via the outlet into the screw conveyor. 2. The dewatering device of claim 1 , whereby the fluid carries fine materials received from the reservoir member back to the screw conveyor. 3. The dewatering device of claim 2 , wherein the screw conveyor comprises a portion of a drying system. 4. The dewatering device of claim 2 , wherein the screw conveyor comprises an inclined screw conveyor. 5. The dewatering device of claim 1 , wherein said vibrating screen includes an exit for passing dewatered aggregate product. 6. The dewatering device of claim 1 , wherein the vibrating system comprises one or more vibrating motors to linearly and horizontally move said vibrating screen. 7. The dewatering device of claim 1 , wherein the vibrating system comprises a flywheel operatively connected to the vibrating screen to move said screen. 8. The dewatering device of claim 1 , wherein the reservoir member comprises an underflume having an aperture, wherein the recycle system comprises a conduit operatively connected to the underflume, the conduit directing the fine materials in the underflume to the screw conveyor. 9. The dewatering device of claim 8 , wherein the conduit is a hose for passing water and fine materials to the vibrating screen. 10. The dewatering device of claim 9 , wherein the hose is in communication with the screw conveyor for passing water and fine materials from the recycle system to the screw conveyor, wherein the screw conveyor conveys the fine materials to the vibrating screen. 11. The dewatering device of claim 10 , wherein the reservoir member has an outlet, and wherein the fine materials travel by gravity through the outlet and the first inlet into the redirection apparatus. 12. The dewatering device of claim 10 , wherein the second inlet is in fluid communication with a water feed. 13. The dewatering device of claim 10 , wherein the first inlet is configured to receive a slurry from the reservoir member, the slurry comprising water and the fine materials. 14. The dewatering device of claim 1 , wherein the redirection apparatus comprises a nozzle. 15. The dewatering device of claim 14 , wherein the redirection apparatus is configured to increase a velocity of the fluid and fine materials passing through the nozzle. 16. The dewatering device of claim 14 , wherein a diameter of the nozzle decreases along a direction of fluid travel through the nozzle. 17. The dewatering device of claim 1 , wherein the redirection apparatus is in fluid communication with a conduit, wherein fines are directed from the redirection apparatus to the vibrating screen. 18. The dewatering device of claim 1 , whereby fine materials are redirected from below the vibrating screen to the entrance of the vibrating screen. 19. The dewatering device of claim 1 , wherein the redirection apparatus is in fluid communication with the screw conveyor. 20. The dewatering device of claim 19 , wherein the redirection apparatus communicates fluid from a first height lower than the vibrating screen to a second height, the second height being higher than the first height. 21. The dewatering device of claim 20 , wherein the screw conveyor conveys the fine materials to a third height, the third height being higher than a height of the entrance of the vibrating screen, whereby the fine material falls by gravity from the screw conveyor onto the vibrating screen. 22. A method of recycling fine materials through a vibrating screen, comprising: receiving material from a screw conveyor; receiving a slurry comprising fine materials and water from a lower portion of a vibrating screen; receiving a fluid from a secondary fluid source via an inlet separate from the screw conveyor; combining the slurry and the fluid; at least partially using the fluid, transferring at least a portion of the fine materials to an entrance of the vibrating screen at an outlet at or near the screw conveyor; and dispensing the fine materials via the outlet at an upper portion of the screw conveyor. 23. The method of claim 22 , wherein the step of transferring the fine materials to an entrance of the vibrating screen further comprises: at least partially using the fluid, transferring the fine materials to a screw conveyor, the screw conveyor being configured to transfer the fine materials to the entrance of the vibrating screen. 24. The method of claim 22 , further comprising: forming a mixture of the fluid and the slurry; and increasing a velocity of the mixture. 25. A method of recycling fine materials through a vibrating screen, comprising: depositing materials from a screw conveyor onto a vibrating screen; receiving a downward-moving slurry comprising fine materials and water from the vibrating screen; redirecting the fine materials generally upward along a path separate from a screw conveyor; increasing a velocity of the fine materials via a fluid from a source, wherein the fluid and the fine materials are combined; and transferring the combination of the fine materials and the fluid towards an entrance of the vibrating screen at an outlet at or near the screw conveyor; and dispensing the fine materials via the outlet into the screw conveyor. 26. The method of claim 25 , further comprising: receiving a fluid from a secondary fluid source; and carrying the fine materials using the fluid. 27. The method of claim 26 , further comprising: transferring the fine materials to the screw conveyor, the screw conveyor being configured to transfer the fine materials to the entrance of the vibrating screen. 28. The method of claim 25 , further comprising: transferring the fine materials to the screw conveyor, the screw conveyor being configured to transfer the fine materials to the entrance of the vibrating screen.