Vented pressurized gas-powered actuator

What is claimed is: 1. A vented pressurized gas-powered actuator comprising: A housing having a central longitudinal axis and an inner surface, the inner surface having a constant radius portion between a first plane and a second plane, each plane extending perpendicular to the axis; at least one vent groove extending from the inner surface in a direction away from the axis, the at least one groove having a first end intersecting the first plane; and a gas generator coupled to the housing, wherein said first and second planes represent first and second longitudinal limits of the constant radius portion of the housing inner surface, respectively, and the first plane as compared to the second plane is relatively closer to the gas generator and the second plane is relatively more distant from the gas generator, and, wherein upon actuation of said actuator, said at least one groove facilitates venting of gases from a high-pressure portion of said actuator to a low-pressure portion of said actuator. 2. The actuator of claim 1 wherein the at least one groove has a second end opposite the first end and intersecting a third plane located between the first and second planes. 3. The actuator of claim 1 further comprising another groove extending from the inner surface in a direction away from the axis. 4. The actuator of claim 3 wherein the other groove has a first end spaced apart from the first plane. 5. The actuator of claim 4 wherein the other groove has a second end spaced apart from the second plane, and wherein the other groove second end is closer to the second plane than to the first plane. 6. The actuator of claim 4 wherein the other groove has a second end intersecting the second plane. 7. The actuator of claim 3 wherein the other groove is coaxial with the at least one groove. 8. The actuator of claim 3 wherein the other groove is positioned diametrically opposite the at least one groove. 9. The actuator of claim 3 wherein a portion of the other groove extends between third and fourth planes located between the first and second planes. 10. The actuator of claim 1 further comprising a piston movably positioned within the housing, the piston having a cavity formed therein along a side of the piston facing the gas generator. 11. A vehicle including an actuator in accordance with claim 10 . 12. A vehicle including an actuator in accordance with claim 1 . 13. A vented pressurized gas-powered actuator comprising: a housing having a central longitudinal axis and an inner surface, the inner surface having a constant radius portion between a first plane and a second plane extending perpendicular to the axis; at least one vent groove extending from the inner surface in a direction away from the axis, the at least one groove having a first end intersecting the first plane; and a gas generator coupled to the housing, wherein said first and second planes represent first and second longitudinal limits of the constant radius portion of the housing inner surface, respectively, and the first plane as compared to the second plane is relatively closer to the gas generator and the second plane is relatively more distant from the gas generator, and wherein upon actuation of the actuator, the at least one vent groove vents gas to an exterior of the actuator. 14. A vented pressurized gas-powered actuator comprising: A housing having a central longitudinal axis and an inner surface, the inner surface having a constant radius portion between a first plane and a second plane, each plane extending perpendicular to the axis; at least one vent groove extending from the inner surface in a direction away from the axis, the at least one groove having a first end intersecting the first plane; a second groove extending from the inner surface in a direction away from the axis; and a gas generator coupled to the housing, wherein said first and second planes represent first and second longitudinal limits of the constant radius portion of the housing inner surface, respectively, and the first plane is relatively closer to the gas generator and the second plane is relatively more distant from the gas generator, and, wherein a longitudinal axis of the other groove intersects a plane that is perpendicular to the housing longitudinal axis; and wherein upon actuation of the actuator, the at least one vent groove vents gas to an exterior of the actuator.