Mixing apparatus for crushing sludge

What is claimed is: 1. A mixing apparatus comprising: a chemical moving part configured to convey a chemical, the chemical moving part including an inlet and a discharge portion, the inlet at a first end portion of the chemical moving part and configured to receive the chemical from an external chemical feeder, the discharge portion at a second end portion of the chemical moving part opposite the first end portion and configured to output the chemical, at locations spaced apart along the second end portion, to a pipe; a motor configured to rotatably drive a shaft coupled to the motor at a first end of the shaft, the shaft defining a central rotational axis; a paddle connected to a second end of the shaft and configured to rotate with the shaft, the paddle including at least one projection extending in an outward direction from the central rotational axis of the shaft; and a plate configured to secure the motor to the pipe, the plate including a first side facing the motor and a second side, opposite the first side, facing the at least one projection of the paddle, the first side defining a first length extending in a direction perpendicular to the shaft and the second side defining a second length extending in a direction perpendicular to the shaft, the first length being greater than the second length. 2. The mixing apparatus of claim 1 , wherein the shaft and the paddle are located within the plate. 3. The mixing apparatus of claim 2 , wherein the plate defines an opening centrally through the plate, and wherein the shaft and the paddle are located within the opening. 4. The mixing apparatus of claim 1 , wherein the plate includes a bearing part between the plate and an outer surface of the shaft. 5. The mixing apparatus of claim 1 , wherein the plate includes a sealing part. 6. The mixing apparatus of claim 5 , wherein the plate includes a bearing part between the plate and an outer surface of the shaft, and wherein the sealing part is between the bearing part and the plate. 7. The mixing apparatus of claim 1 , wherein the plate includes a securing part. 8. The mixing apparatus of claim 7 , wherein plate includes a bearing part between the plate and an outer surface of the shaft and a sealing part between the bearing part and the plate, and wherein the securing part is configured to secure each of the bearing part and the sealing part at the plate. 9. The mixing apparatus of claim 1 , wherein the paddle terminates in a curved end at a portion of the paddle opposite the shaft, wherein the at least one projection of the paddle terminates in a first outward edge, and wherein the first outward edge is parallel with the central rotational axis of the shaft. 10. The mixing apparatus of claim 9 , wherein the at least one projection is integral with the curved end. 11. The mixing apparatus of claim 9 , wherein the paddle is configured to extend into the pipe in a direction parallel to the central rotational axis, and wherein the curved end curves toward the first outward edge as the curved end extends in a direction away from the central rotational axis. 12. The mixing apparatus of claim 9 , wherein the curved end curves in the outward direction from the central rotational axis as the paddle extends proximally from a distal portion of the paddle, the distal portion of the paddle being the portion at which the paddle terminates. 13. The mixing apparatus of claim 9 , wherein the at least one projection extending in the outward direction from the central rotational axis of the shaft and terminating in the outward edge comprises a first projection extending in the outward direction from the central rotational axis of the shaft and terminating in a first outward edge and a second projection extending in the outward direction from the central rotational axis of the shaft and terminating in a second outward edge, each of the first outward edge and the second outward edge being parallel with the central rotational axis of the shaft, wherein each of the first projection and the second projection is integral with the curved end. 14. The mixing apparatus of claim 13 , wherein the first projection is spaced along the central rotational axis from the second projection. 15. The mixing apparatus of claim 13 , wherein the first projection is aligned with, and spaced along the paddle in a direction perpendicular to the central rotational axis from, the second projection. 16. The mixing apparatus of claim 1 , wherein the discharge portion of the chemical moving part is an elongated slot extending in a direction parallel to the central rotational axis. 17. The mixing apparatus of claim 1 , wherein the second side of the plate is spaced from a surface of a main body of the motor. 18. The mixing apparatus of claim 1 , wherein the first side of the plate is at one end of the plate and the second side of the plate is at another, opposite end of the plate. 19. The mixing apparatus of claim 1 , wherein the at least one projection of the paddle is spaced from the discharge portion of the chemical moving part. 20. The mixing apparatus of claim 1 , wherein the discharge portion of the chemical moving part is at the paddle.