Low pressure shut off for a pneumatic tool

What is claimed is: 1. A low pressure shut off for a pneumatic tool comprising: an air path comprising a main inlet, an outlet, and a secondary inlet; a shaft positioned along the air path between the main inlet and the outlet, the shaft being movable relative to the air path between a first position and a second position; first and second pistons spaced axially apart along the shaft and each extending radially outward beyond the shaft; and a biasing member acting on the shaft to bias the shaft towards the first position; a first bore positioned away from the air path and including a sectional shape and size that matches the first piston; a seal on the first piston that contacts and seals against walls of the first bore when the first piston is in the second position; in the first position, the first piston extends across the air path between the main inlet and the outlet to block the air path; in the first position, the second piston is positioned to be acted on by air from the secondary inlet to apply a force to the second piston that overcomes the force of the biasing member and position the shaft at the second position with the first piston away from the air path to allow air to flow along the air path between the main inlet and the outlet; the first piston being positioned in the first bore in the second position such that a force acting on the first piston that is supplied through the air flowing along the air path maintains the first piston in the second position in the first bore after the force acting on the second piston that is supplied from the air from the secondary inlet is removed from the second piston. 2. The low pressure shut off according to claim 1 , wherein the air path includes a neck positioned between the main inlet and the outlet, the neck and the first piston including a common sectional shape and size such that the first piston blocks the air path at the neck in the first position. 3. The low pressure shut off according to claim 2 , wherein the seal comprises a flexible gasket mounted at a periphery of the first piston such that the gasket contacts against the neck in the first position. 4. The low pressure shut off according to claim 1 , further comprising a second bore with sidewalls and a bottom, the second piston positioned in the second bore in the first position and having a common sectional shape and size as the second bore. 5. The low pressure shut off according to claim 4 , wherein the second bore is positioned away from the air path that extends between the main inlet and the outlet. 6. The low pressure shut off according to claim 1 , wherein the biasing member is positioned against the second piston and away from the air path that extends between the main inlet and the outlet in both the first and second positions. 7. The low pressure shut off according to claim 1 , further comprising an opening in the first bore through which the shaft extends and a shut-off button at an end of the shaft, the shaft extending through the opening to position the shut-off button outward from a housing that extends around the low pressure shut off a greater amount in the second position than in the first position. 8. A method of operating a valve for a pneumatic tool, the method comprising: positioning a first piston in a first position at a neck in an air path and blocking air from flowing along the air path from an air inlet to an air outlet; applying a first force to a second piston and moving the first piston to a second position out of the neck and allowing the air to flow along the air path from the air inlet to the air outlet; applying a second force to the first piston through the air flowing along the air path and maintaining the first piston in the second position after the first force is removed from the second piston; sealing the first piston at the second position and preventing the air from the air path from moving past the first piston; and when air pressure of the air flowing along the air path falls below a preset level, moving the first piston to the first position and blocking air from flowing along the air path from the air inlet to the air outlet. 9. The method of claim 8 , further comprising biasing the first piston towards the first position. 10. The method of claim 9 , wherein a biasing force that biases the first piston towards the first position is less than the second force that maintains the first piston in the second position when the air pressure is above the preset level. 11. The method according to claim 8 , further comprising moving each of the first and second pistons an equal amount between the first and second positions as the first and second pistons are each connected to a shaft. 12. The method according to claim 8 , further comprising sealing the first piston in a bore in the second position and preventing air from the air path from acting on an opposing side of the first piston that faces away from the air path. 13. The method according to claim 8 , further comprising moving a pulse of air through a secondary inlet and applying air against the second piston to create the first force, the secondary inlet being positioned away from the air path that extends from the air inlet to the air outlet. 14. The method according to claim 8 , further comprising moving a manual shut-off button outward relative to an outer housing when moving the first piston from the first position to the second position. 15. The method according to claim 8 , further comprising drilling a hole in a workpiece when the first piston is in the second position and the air is moving along the air path. 16. The method according to claim 8 , further comprising: stopping the first force from being applied to the second piston once the second force is applied to the first piston; maintaining the first piston in the second position after the first force is stopped from being applied to the second piston; and drilling a hole with the first piston in the second position. 17. The method according to claim 8 , further comprising: applying the first force to the second piston by applying a pulse of air to the second piston; applying the second force to the first piston; stopping the first force from being applied to the second piston after applying the second force to the first piston; and drilling a hole in a workpiece while applying the second force to the first piston.