Mounting bracket for a composite truck body floor

What is claimed is: 1. A cargo vehicle comprising: a chassis having at least one longitudinal rail coupled to a motorized truck; a cargo body coupled to the chassis and including a floor for supporting cargo, the floor of the cargo body having at least one longitudinal composite support beam that extends from a lower surface of the floor; and at least one mounting apparatus coupling the longitudinal rail of the chassis to the longitudinal composite support beam of the floor of the cargo body, the mounting apparatus comprising: a support beam coupler adhesively bonded to the longitudinal composite support beam; at least one connector comprising a plurality of legs and coupled to the support beam coupler, at least a portion of the connector being positioned between a bottom surface of the longitudinal composite support beam and an inner surface of the support beam coupler; and a chassis rail bracket coupled to the at least one connector beneath the longitudinal rail of the chassis. 2. The cargo vehicle of claim 1 , wherein the support beam coupler comprises at least two flanges, a first of the at least two flanges being adhesively bonded to a first side surface of the longitudinal composite support beam and a second of the at least two flanges being adhesively bonded to a second side of the longitudinal composite support beam. 3. The cargo vehicle of claim 1 , wherein at least one spacer coupled to the longitudinal support beam creates a space between the longitudinal rail of the chassis and an outer surface of the support beam coupler. 4. The cargo vehicle of claim 1 , wherein the support beam coupler is a two-piece component comprising a first rounded L-shaped bracket and a second rounded L-shaped bracket. 5. The cargo vehicle of claim 4 , wherein the first rounded L-shaped bracket comprises an elongate cutout sized to receive one of the plurality of legs of the at least one connector, and the second rounded L-shaped bracket comprises a notch sized to receive another of the plurality of legs of the at least one connector. 6. The cargo vehicle of claim 1 , wherein the support beam coupler comprises a single substantially U-shaped bracket. 7. The cargo vehicle of claim 6 , wherein the single substantially U-shaped bracket includes a plurality of cutouts for receiving the plurality of legs of the at least one connector. 8. The cargo vehicle of claim 1 , wherein the at least one connector is a single U-bolt. 9. The cargo vehicle of claim 1 , wherein the longitudinal rail of the chassis is positioned vertically between an outer surface of the chassis rail bracket and an outer surface of the support beam coupler. 10. A method for coupling a chassis rail of a vehicle to a longitudinal composite support beam that extends from a lower surface of a composite floor of a cargo body of the vehicle comprising: coupling at least one connector to a support beam coupler; adhesively bonding the support beam coupler to the longitudinal composite support beam such that at least a portion of the at least one connector is positioned between an inner surface of the support beam coupler and a bottom surface of the composite support beam; positioning a chassis rail adjacent the support beam coupler and between legs of the at least one connector; and coupling a chassis rail bracket to the legs of the at least one connector using at least one coupler such that the chassis rail is coupled between the chassis rail bracket, the support beam coupler, and the legs of the at least one connector. 11. The method of claim 10 , wherein a space created by at least one spacer remains between the chassis rail and the support beam coupler after the chassis rail bracket is coupled to the legs of the at least one connector. 12. The method of claim 10 , wherein the support beam coupler comprises a first rounded L-shaped bracket and a second rounded L-shaped bracket. 13. The method of claim 12 further comprising welding the first rounded L-shaped bracket to the second rounded L-shaped bracket after the support beam coupler is bonded to the longitudinal composite support beam. 14. The method of claim 10 , wherein the support beam coupler comprises a single substantially U-shaped bracket. 15. The method of claim 10 , wherein coupling the at least one connector to the support beam coupler comprises positioning legs of the at least one connector within at least one cutout in the support beam coupler prior to bonding the support beam coupler to the support beam. 16. The method of claim 12 , wherein adhesively bonding the support beam coupler to the support beam comprises bonding the first rounded L-shaped bracket to the support beam, positioning at least a portion of the at least one connector between the first and second L-shaped brackets and the support beam, and bonding the second L-shaped bracket to the support beam. 17. The method of claim 16 , wherein the second L-shaped bracket is bonded to the support beam after the first rounded L-shaped bracket. 18. The method of claim 17 , wherein the first rounded L-shaped bracket is coupled to the support beam before the at least one connector is coupled between the first and second rounded L-shaped brackets and the support beam. 19. A cargo vehicle comprising: a chassis coupled to a motorized truck and having at least one longitudinal rail; a cargo body coupled to the chassis and including a floor for supporting cargo, the floor of the cargo body having at least one longitudinal composite support beam that extends from a lower surface of the floor; and at least one mounting apparatus coupling the longitudinal rail of the chassis to the longitudinal composite support beam, the mounting apparatus comprising: a support beam coupler adhesively bonded to the longitudinal support beam; at least one connector coupled to the support beam coupler, wherein at least a portion of the at least one connector is aligned vertically beneath the longitudinal support beam; and a chassis rail bracket coupled to the at least one connector beneath the longitudinal rail of the chassis. 20. The cargo vehicle of claim 19 , wherein at least one spacer coupled to the longitudinal support beam is configured to create a space between the longitudinal rail of the chassis and an outer surface of the support beam coupler. 21. The cargo vehicle of claim 19 , wherein at least a portion of the at least one connector is positioned between an inner surface of the support beam coupler and a bottom surface of the longitudinal support beam. 22. The cargo vehicle of claim 19 , wherein the at least one connector includes a plurality of vertical legs, wherein the plurality of vertical legs are aligned vertically beneath an outer profile of the longitudinal support beam and the support beam coupler. 23. A mounting apparatus for use with a cargo vehicle comprising a chassis having at least one longitudinal rail coupled to a motorized truck and a cargo body coupled to the chassis and including a floor for supporting cargo, the floor of the cargo body having at least one longitudinal composite support beam that extends from a lower surface of the floor, the mounting apparatus coupling the longitudinal rail of the chassis to the longitudinal composite support beam of the floor of the cargo body, the mounting apparatus comprising: a support beam coupler adhesively bonded to the longitudinal composite support beam; at least one connector comprising a plurality of legs and coupled to the s