초록 ▼

An improved impact power tool for carving and engraving an article comprises an air delivery system operable to communicate with a pressurized air source; a drive assembly operable to receive air from the pressurized air source via the air delivery system; a hand held device in driven communication

An improved impact power tool for carving and engraving an article comprises an air delivery system operable to communicate with a pressurized air source; a drive assembly operable to receive air from the pressurized air source via the air delivery system; a hand held device in driven communication with the drive assembly; and a housing for storage of the air delivery system and drive assembly. The tool includes an improved valve design, a throttle bias valve, and an air storage tank housed within the housing, and an improved housing construction. The improved valve design and air storage tank enable greater stroke speeds of a work tool over a wider power range while also improving the crispness and speed of the impact reaction time over the entire range. The throttle bias valve is in communication with an additional exhaust path, such that the bias valve allows improved control of the hand held device and improved operation over a wider range of air pressures.

대표청구항 ▼

We claim: 1. An impact power tool for use in delicate hand working operations, said impact power tool comprising: an air delivery system operable to communicate with an air source; a hand held device in driven communication with the air delivery system; and a drive assembly operable to selectively

We claim: 1. An impact power tool for use in delicate hand working operations, said impact power tool comprising: an air delivery system operable to communicate with an air source; a hand held device in driven communication with the air delivery system; and a drive assembly operable to selectively and variably control the hand held device, the drive assembly including— a motor, and a valve drivingly coupled with the motor and operable to communicate with the air source, the valve including— an exhaust port comprising a first elongated slot, an intake port having a height and a width, an output port, and a rotor having a body operable to rotate within said valve and at least one port extending diametrically through the body to intermittently communicate with the exhaust port, the intake port, and the output port, said rotor port including a second elongated slot presenting approximately the same area and configuration as the first elongated slot of the exhaust port, wherein during rotation of said rotor within said valve, said second elongated slot of the rotor port cycles through alignment with said first elongated slot to provide intermittent pulses of air, each of said first and second elongated slots having a major dimension and a minor dimension, said major dimension of the first elongated slot being approximately 90%-150% the major dimension of the second elongated slot, said height of the intake port being approximately 90%-150% the major dimension of the second elongated slot, said width of the intake port being at least greater than the minor dimension of the second elongated slot. 2. The impact power tool as claimed in claim 1, said intake port presenting a larger cross sectional area than the first elongated slot of the exhaust port. 3. The impact power tool as claimed in claim 1, said output port being constructed of left and right aperture segments joined into a continuous circumferentially oriented port by a horizontal aperture. 4. The impact power tool as claimed in claim 1, wherein the intake port is of a larger cross sectional area than the second elongated slot of the rotor port. 5. The impact power tool as claimed in claim 1, said major dimension of the first elongated slot being approximately 100%-140% the major dimension of the second elongated slot. 6. The impact power tool as claimed in claim 5, said major dimension of the first elongated slot being approximately 110%-130% the major dimension of the second elongated slot. 7. The impact power tool as claimed in claim 1, said height of the intake port being approximately 100%-140% the major dimension of the second elongated slot. 8. The impact power tool as claimed in claim 7, said height of the intake port being approximately 110%-130% the major dimension of the second elongated slot. 9. The impact power tool as claimed in claim 1, said width of the intake port being approximately three to four times greater than the minor dimension of the second elongated slot. 10. An impact power tool for use in delicate hand working operations, said impact power tool comprising: an air delivery system operable to communicate with an air source; a hand held device in driven communication with the air delivery system; and a drive assembly operable to selectively and variably control the hand held device, the drive assembly including— a motor, and a valve drivingly coupled with the motor and operable to communicate with the air source, the valve including— an exhaust port, an intake port having a height and a width, an output port, and a rotor having a body and at least one elongated port having a major dimension and a minor dimension and extending diametrically through the body to intermittently communicate with the exhaust port, the intake port, and the output port, said output port being constructed of left and right apertures, each of said apertures having a height and a width, said left aperture being generally elongated said height of the intake port and the right aperture of the output port being approximately 90%-150% the major dimension of the elongated port of the rotor, said width of the intake port and the right aperture of the output port being approximately three to four times greater than the minor dimension of the elongated port of the rotor. 11. The impact power tool as claimed in claim 10, wherein said rotor port is approximately the same area and configuration as the exhaust port. 12. The impact power tool as claimed in claim 10, said output port being constructed of left and right aperture segments joined into a continuous circumferentially oriented port by a horizontal aperture. 13. The impact power tool as claimed in claim 12, wherein a shape of the left aperture segment is approximate to a shape of the exhaust port, and a shape of the right aperture segment is approximate to a shape of the intake port. 14. The impact power tool as claimed in claim 10, said valve including a plurality of threaded apertures for receipt of respective fittings for connecting to respective supply lines, wherein each of said exhaust port, said intake port, and said output port is in fluid communication with one of said plurality of apertures and respective supply lines.