Rapidly retractable tool support for a pipe machining apparatus

The invention claimed is: 1. A method of operating a pipe machining apparatus, the method comprising: fixedly coupling a frame of the pipe machining apparatus to a pipe, the frame defining a circumference; rotating a tool carrier circumferentially relative to the frame; moving a tool relative to the tool carrier in a first linear direction and toward the pipe at a first increment; and moving the tool relative to the tool carrier in a second linear direction and away from the pipe at a second increment larger than the first increment. 2. The method of claim 1 , wherein the first increment is a first linear distance traveled per a period of time and the second increment is a second linear distance traveled per the same period of time. 3. A method of operating a pipe machining apparatus, the method comprising: fixedly coupling a frame of the pipe machining apparatus to a pipe; moving a tool carrier relative to the frame, wherein the tool carrier is movably coupled to the frame; providing a tool clamp adapted to support a tool, wherein the tool clamp is coupled to the tool carrier and movable with the tool carrier, and wherein the tool clamp is movable relative to the tool carrier; moving a worm gear to a first position; coupling the worm gear with a feed screw in the first position; rotating the worm gear in a first worm gear direction to rotate the feed screw and thereby moving the tool clamp and tool along the feed screw to move the tool clamp and tool in a first tool direction at a first increment upon rotating the worm gear in the first worm gear direction; rotating the worm gear in a second worm gear direction to rotate the feed screw and thereby moving the tool clamp and tool along the feed screw to move the tool clamp and tool in a second tool direction at the first increment upon rotating the worm gear in the second worm gear direction; moving the worm gear to a second position; uncoupling the worm gear from the feed screw in the second position; and rotating the feed screw independently of the worm gear with the worm gear in the second position to move the tool clamp and tool along the feed screw to move the tool clamp and tool in the second tool direction at a second increment larger than the first increment. 4. The method of claim 3 , further comprising: fixedly coupling a drive gear to the feed screw; rotating the drive gear with the feed screw; engaging the worm gear with the drive gear in the first position; and disengaging the worm gear from the drive gear in the second position. 5. The method of claim 3 , wherein the first increment is a first linear distance traveled by the tool as a result of a single rotation of the worm gear, and wherein the second increment is a second linear distance traveled by the tool as a result of a single rotation of the feed screw. 6. The method of claim 3 , further comprising: coupling a key element of the worm gear with a key feature of a drive coupling with the worm gear in the first position; and rotating the worm gear and the drive coupling together when coupled. 7. The method of claim 6 , further comprising: uncoupling the key element from the key feature with the worm gear in the second position; and rotating the worm gear and the drive coupling independently of each other when uncoupled. 8. A method of operating a pipe machining apparatus, the method comprising: fixedly coupling a frame of the pipe machining apparatus to a pipe; moving a tool carrier relative to the frame, wherein the tool carrier is movably coupled to the frame; moving a tool relative to the tool carrier and toward the pipe at a first increment, wherein the tool is movably coupled to the tool carrier; wherein prior to moving the tool relative to the tool carrier and away from the pipe at the first increment; and thereafter moving the tool relative to the tool carrier and away from the pipe at a second increment larger than the first increment.