Orthodontic attachment module for intra-oral bite correctors

The invention claimed is: 1. An orthodontic attachment module for an orthodontic bite corrector comprising: a first segment including a first body and an elongated shank for reception into a passage of an orthodontic buccal tube appliance, the first segment also including a first rotation stop separate and spaced from the shank in a direction along a first reference axis, wherein the first rotation stop is a post that extends from the body to a free end, the post extending in parallel to the shank; a second segment including a coupling for connection to an orthodontic bite corrector, wherein the second segment is movable relative to the first segment between an open orientation and a closed orientation; and a third segment that interconnects the first segment and the second segment, wherein the third segment enables movement of the second segment relative to the first segment in directions toward and away from each other. 2. An orthodontic attachment module according to claim 1 , wherein the third segment enables pivotal movement of the second segment relative to the first segment. 3. An orthodontic attachment module according to claim 1 , wherein the third segment is resilient. 4. An orthodontic attachment module according to claim 1 , wherein the second segment includes a generally flat surface that acts as a second rotation stop and includes portions extending parallel to the first reference axis, the flat surface spaced from the shank in a direction along a second reference axis that is generally perpendicular to the first reference axis. 5. An orthodontic attachment module according to claim 1 , wherein the third segment exhibits a generally C-shaped configuration. 6. An orthodontic attachment module according to claim 1 , and wherein the first reference axis is an occlusal-gingival axis. 7. An orthodontic attachment module according to claim 1 , wherein the second segment includes a pair of spaced apart pegs that straddle and receive a free end of the shank when the attachment module is in its closed orientation. 8. An orthodontic attachment module according to claim 1 , wherein an end of the second segment terminates in a shoulder. 9. The attachment module according to claim 1 , wherein the second segment includes a flat surface that acts as a second rotation stop, and wherein the flat surface is located in a generally lingual direction from the shoulder. 10. An orthodontic assembly comprising: a buccal tube appliance including a base for bonding to a tooth surface and a body extending outwardly from the base, the body including first wall portions defining an archwire slot extending in a mesial-distal direction and second wall portions defining a passage extending in a generally mesial-distal direction; and an attachment module releasably connected to the buccal tube appliance, the attachment module including a shank extending into the passage and a post acting as a first rotation stop extending over the buccal tube body and located in a facial direction relative to at least a portion of the body, the attachment module also including a generally flat surface that acts as a second rotation stop that is movable relative to the first rotation stop, wherein the attachment module includes a first segment that comprises the first rotation stop, a second segment that comprises the second rotation stop and a section that integrally interconnects the first segment and the second segment and enables the relative movement of the segments between an open state and a closed state, and wherein, in the closed state, the flat surface is located outside the passage in a lingual direction relative to the shank and the flat surface extends along a portion of the body between the passage and the tooth surface. 11. The orthodontic assembly of claim 10 , wherein the shank and the first rotation stop extend in generally parallel directions along a mesial-distal reference axis. 12. An orthodontic assembly according to claim 10 wherein the second rotation stop is pivotally movable relative to the first rotation stop. 13. An orthodontic assembly according to claim 10 , wherein the section comprises a resilient third segment. 14. An orthodontic assembly according to claim 13 , wherein the resilient third segment enables movement of the second segment relative to the first segment in directions toward and away from each other. 15. An orthodontic assembly according to claim 13 , wherein the third segment exhibits a generally C-shaped configuration. 16. An orthodontic assembly according to claim 10 , and wherein the post is located in a generally occlusal-gingival direction from the shank. 17. An orthodontic assembly according to claim 10 and further comprising a bite corrector coupled to the second segment. 18. An orthodontic assembly according to claim 10 , wherein an end of the second segment terminates in a body that includes a shoulder. 19. An orthodontic assembly according to claim 18 , wherein the flat surface is located in a generally lingual direction from the shoulder. 20. An orthodontic assembly according to claim 10 wherein the second rotation stop is movable relative to the first rotation stop in directions along a facial-lingual axis. 21. A method of coupling an orthodontic attachment module to an orthodontic buccal tube appliance comprising: providing a buccal tube appliance having first wall portions defining an elongated archwire slot and second wall portions defining an elongated passage extending alongside the archwire slot; placing a shank of an attachment module in the passage, the attachment module further including, a first rotation stop separate and spaced from the shank in a direction along a first reference axis, wherein the first rotation stop extends to a free end in a direction generally parallel to the shank, and a second rotation stop spaced from the shank in a direction along a second reference axis that is generally perpendicular to the first reference axis; and moving the second rotation stop relative to the first rotation stop and into a region that is located in a lingual direction relative to the second wall portions, and wherein the act of moving the rotation stop into the region is carried out at a time other than during the act of placing the shank in the passage.