Packer device

What is claimed is: 1. A packer apparatus comprising: a container defining a cavity; a track disposed within the cavity; a ball screw rotatably disposed within the track; a ball nut operatively coupled around the ball screw, wherein rotation of the ball screw causes the ball nut to move along the ball screw; and a packer blade coupled to the ball nut via a floating interface, wherein movement of the ball nut along the ball screw forces the packer blade to move within the cavity of the container, and wherein the floating interface includes a bolt that loosely secures the packer blade to the ball nut such that the packer blade is able to float along a portion of the bolt with respect to the ball nut. 2. The apparatus according to claim 1 , wherein the ball screw includes a first end and a second end. 3. The apparatus according to claim 2 , wherein rotation of the ball screw in a first direction causes the ball nut to move along the ball screw towards the second end of the ball screw, and rotation of the ball screw in a second direction causes the ball nut to move along the ball screw toward the first end of the ball screw. 4. The apparatus according to claim 1 , wherein the ball nut includes a first end and a second end. 5. The apparatus according to claim 4 , wherein a flange is coupled to the second end of the ball nut. 6. The apparatus according to claim 5 , further comprising a transfer plate coupled to the packer blade. 7. The apparatus according to claim 6 , wherein the floating interface is formed by a loose coupling of the flange to a contact portion of the packer blade. 8. The apparatus according to claim 7 , wherein the flange includes an opening, the contact portion of the packer blade includes an opening configured to be aligned with the opening of the flange, and the bolt of the floating interface is inserted through the opening of the contact portion and coupled to the opening of the flange. 9. The apparatus according to claim 8 , the contact portion of the packer blade is configured to float along the bolt with respect to the flange. 10. A packer apparatus comprising: a container including a plurality of sidewalls; an elongated bracket disposed on one of the sidewalls, the elongated bracket spanning along a length of the container; an elongated debris cover directly coupled to the elongated bracket and spanning along the length of the container, where the elongated bracket and the elongated debris cover collectively form an elongated longitudinal track that spans along the length of the container; a ball screw rotatably disposed within the track; a ball nut operatively coupled around the ball screw; and a packer blade coupled to the ball nut via a floating interface, wherein rotation of the ball screw causes the ball nut to move along the ball screw within the track, and movement of the ball nut along the ball screw forces the packer blade to move within the container. 11. The apparatus of claim 10 , wherein the elongated bracket is L-shaped, and includes at least a horizontally oriented top portion and a vertically oriented bottom portion. 12. The apparatus of claim 11 , wherein the elongated debris cover includes a horizontally oriented top section, a vertically oriented bottom section, and an angled intermediate section connecting the top section to the bottom section. 13. The apparatus of claim 11 , wherein the top section of the elongated debris cover is directly coupled to the top portion of the elongated bracket, and the bottom section of the elongated debris cover is spaced laterally from the bottom portion of the elongated bracket to define the track. 14. The apparatus of claim 13 , wherein the ball screw disposed within the track is disposed between the bottom portion of the elongated bracket and the bottom section of the elongated debris cover. 15. The apparatus of claim 10 , wherein the elongated debris cover and the elongated bracket are configured to prevent items disposed within the container from contacting the ball screw. 16. A refuse truck comprising: a container defining a cavity; a transfer mechanism at least partially disposed within the cavity, the transfer mechanism comprising: a track; a ball screw rotatably disposed within the track; a ball nut operatively coupled around the ball screw, wherein rotation of the ball screw causes the ball nut to move along the ball screw; and a packer blade coupled to the ball nut via a floating interface, wherein movement of the ball nut along the ball screw forces the packer blade to move within the cavity of the container, and wherein the floating interface includes a bolt that loosely secures the packer blade to the ball nut such that the packer blade is able to float along a portion of the bolt with respect to the ball nut. 17. The refuse truck according to claim 16 , wherein the ball screw includes a first end and a second end, and further comprises: a drive mechanism coupled to the second end of the ball screw, wherein the drive mechanism is configured to selectively rotate the ball screw about a longitudinal axis of the ball screw in both of a first direction and a second direction. 18. The refuse truck according to claim 16 , wherein the track is a first track, the ball screw is a first ball screw, and the ball nut is a first ball nut, the transfer mechanism further comprising: a second track spaced from the first track; a second ball screw rotatably disposed within the second track; and a second ball nut operatively coupled around the second ball screw. 19. The refuse truck according to claim 18 , wherein the floating interface is a first floating interface, the transfer mechanism further comprising: a second floating interface, the packer blade being coupled to the second ball nut via the second floating interface. 20. The apparatus according to claim 1 , wherein the floating interface enables the packer blade to float in a first direction along a longitudinal axis of the bolt and in a second direction that is perpendicular to the longitudinal axis.