Pipe machining apparatuses and methods of operating the same

The invention claimed is: 1. A coupling member adapted to couple a pipe machining apparatus to a pipe, the coupling member comprising: a first support member coupled to the pipe machining apparatus and defining a first cavity therein; a body member coupled to the first support member and at least partially positioned within the first cavity, the body member including a tool engagement portion for rotating the body member relative to the first support member; a second support member formed separately and spaced-apart from the first support member and defining a second cavity therein; a sleeve coupled to the body member and translatable along the body member, wherein the sleeve is at least partially positioned in the second cavity; and a guide member engaged with the sleeve to allow translation of the sleeve along the body member and inhibit rotation of the sleeve relative to the first and second support members. 2. The coupling member of claim 1 , wherein the coupling member is adapted to couple the pipe machining apparatus to either an exterior surface of a pipe or to an interior surface of a pipe. 3. The coupling member of claim 1 , wherein the body member and the sleeve are threadably coupled together such that the sleeve translates along the body member as the body member rotates. 4. The coupling member of claim 1 , wherein the sleeve defines a groove in an exterior surface thereof, and wherein the guide member is coupled to the pipe machining apparatus and is positioned in the groove of the sleeve. 5. A pipe machining apparatus comprising: a frame adapted to be coupled to and fixed relative to a pipe, wherein the frame includes a plurality of frame sections joined together to form the frame; a tool carrier coupled to and moveable relative to the frame and the pipe, wherein the tool carrier includes a plurality of tool carrier sections joined together to form the tool carrier; a drive mechanism coupled to the frame and engageable with the tool carrier to drive the tool carrier relative to the frame; and a locking member selectively engageable with the frame and the tool carrier to prevent movement of the tool carrier relative to the frame; wherein the frame defines a frame aperture and the tool carrier defines a tool carrier aperture, wherein the locking member is adapted to be inserted into the frame aperture and the tool carrier aperture with the frame and tool carrier apertures aligned; and wherein the frame aperture is a first frame aperture, the frame also defining a second frame aperture therein spaced-apart from and non-concentric with the first frame aperture, wherein the locking member is positionable in a locking position, in which the locking member is inserted into aligned first frame aperture and tool carrier aperture, and an unlocking position, in which the locking member is inserted into the second frame aperture. 6. The pipe machining apparatus of claim 5 , further comprising an insert member defining an insert aperture therein, wherein the locking member is inserted into the first frame aperture, the tool carrier aperture, and the insert aperture with the first frame, tool carrier, and insert apertures aligned. 7. The pipe machining apparatus of claim 5 , wherein the frame includes a first surface, a second surface opposite the first surface and a periphery surface extending between the first and second surfaces, wherein the first frame aperture is defined in at least one of the first surface and the second surface, and wherein the second frame aperture is defined in the periphery surface of the frame. 8. The pipe machining apparatus of claim 5 , wherein drive mechanism includes a gear and the tool carrier includes a gear rack, wherein the gear is meshed with the gear rack to drive the gear rack and the tool carrier relative to the frame. 9. The pipe machining apparatus of claim 7 , wherein first frame aperture is defined through the frame from the first surface to the second surface. 10. A pipe machining apparatus comprising: a frame adapted to be coupled to and fixed relative to a pipe; a tool carrier coupled to and moveable relative to the frame and the pipe; and a locking member selectively engageable with the frame and the tool carrier to prevent movement of the tool carrier relative to the frame; wherein the frame defines a frame aperture and the tool carrier defines a tool carrier aperture, wherein the locking member is adapted to be inserted into the frame aperture and the tool carrier aperture with the frame and tool carrier apertures aligned; and wherein the frame aperture is a first frame aperture, the frame also defining a second frame aperture therein spaced-apart from and non-concentric with the first frame aperture, wherein the locking member is positionable in a locking position, in which the locking member is inserted into aligned first frame aperture and tool carrier aperture, and an unlocking position, in which the locking member is inserted into the second frame aperture; and wherein the first frame aperture and the tool carrier aperture extend in a first direction generally parallel to a central rotational axis of the pipe machining apparatus and the second frame aperture extends generally radially from the central rotational axis of the pipe machining apparatus. 11. The pipe machining apparatus of claim 10 , further comprising an insert member defining an insert aperture therein, wherein the locking member is inserted into the first frame aperture, the tool carrier aperture, and the insert aperture with the first frame, tool carrier, and insert apertures aligned. 12. The pipe machining apparatus of claim 10 , wherein the frame includes a first surface, a second surface opposite the first surface and a periphery surface extending between the first and second surfaces, wherein the first frame aperture is defined in at least one of the first surface and the second surface, and wherein the second frame aperture is defined in the periphery surface of the frame. 13. The pipe machining apparatus of claim 12 , wherein the first frame aperture is defined through the frame from the first surface to the second surface. 14. The pipe machining apparatus of claim 10 , further comprising a drive mechanism coupled to the frame and engageable with the tool carrier to move the tool carrier relative to the frame. 15. The pipe machining apparatus of claim 14 , wherein drive mechanism includes a gear and the tool carrier includes a gear rack, wherein the gear is meshed with the gear rack to drive the gear rack and the tool carrier relative to the frame. 16. A pipe machining apparatus comprising: a frame adapted to be coupled to and fixed relative to a pipe; a tool carrier coupled to and moveable relative to the frame and the pipe; and a coupling member adapted to couple the pipe machining apparatus to a pipe, the coupling member including a support member coupled to the pipe machining apparatus and defining a cavity therein; a body member coupled to the support member and at least partially positioned within the cavity, the body member including a tool engagement portion for rotating the body member relative to the support member; a sleeve coupled to the body member and translatable along the body member; and a guide member engaged with the sleeve to allow translation of the sleeve along the body member and inhibit rotation of the sleeve relative to the support member; wherein the support member is coupled to an exterior surface of the pipe machining apparatus and the sleeve extends to an interior of the pipe machining apparatus to couple the pipe machining