Powered fastener-driving tool including an engaging element to frictionally engage a piston upon returning to a pre-firing position

The invention claimed is: 1. A fastener-driving tool comprising: a cylinder; a driving assembly slidably disposed within the cylinder and movable between a pre-firing position and a firing position, the driving assembly including an outwardly tapered engaging element contact surface; and a driving assembly engaging element positioned to frictionally engage the driving assembly engaging element contact surface to inhibit movement of the driving assembly in a direction from the pre-firing position to the firing position when the driving assembly is in the pre-firing position. 2. The fastener-driving tool of claim 1 , wherein at least one of the engaging element contact surface and the driving assembly engaging element includes a shock-absorbing material. 3. The fastener-driving tool of claim 1 , wherein the driving assembly includes a piston and a driver blade connected to the piston. 4. The fastener-driving tool of claim 3 , wherein the piston includes the engaging element contact surface. 5. The fastener-driving tool of claim 4 , wherein the piston includes a cylinder-engaging element opposite the driver blade, the cylinder-engaging element including the engaging element contact surface. 6. The fastener-driving tool of claim 5 , wherein the piston and the cylinder-engaging element are integrally formed. 7. The fastener-driving tool of claim 1 , wherein the driving assembly engaging element includes an outwardly tapered driving assembly contact surface that frictionally engages the engaging element contact surface when the driving assembly is in the pre-firing position. 8. The fastener-driving tool of claim 1 , wherein the cylinder includes the driving assembly engaging element. 9. The fastener-driving tool of claim 8 , wherein the driving assembly engaging element includes an outwardly tapered driving assembly contact surface that frictionally engages the engaging element contact surface when the driving assembly is in the pre-firing position. 10. The fastener-driving tool of claim 9 , wherein at least one of the engaging element contact surface and the driving assembly contact surface includes a shock-absorbing material. 11. The fastener-driving tool of claim 8 , wherein the driving assembly includes a piston and a driver blade connected to the piston. 12. The fastener-driving tool of claim 11 , wherein the piston includes the engaging element contact surface. 13. The fastener-driving tool of claim 1 , which includes a nosepiece, wherein the driving assembly includes a piston and a driver blade connected to the piston, and wherein the driving assembly engaging element is positioned within the nosepiece such that part of the driver blade extends through a bore through the driving assembly engaging element. 14. The fastener-driving tool of claim 13 , wherein the driver blade includes the engaging element contact surface. 15. The fastener-driving tool of claim 14 , wherein the driving assembly engaging element includes an outwardly tapered driving assembly contact surface that frictionally engages the engaging element contact surface when the driving assembly is in the pre-firing position. 16. A fastener-driving tool comprising: a cylinder; a driving assembly slidably disposed within the cylinder and movable between a pre-firing position and a firing position, the driving assembly including an outwardly tapered engaging element contact surface; and a driving assembly engaging element including a driving assembly contact surface, the driving assembly contact surface coated with a frictionally engaging material and positioned to frictionally engage the driving assembly engaging element contact surface to inhibit movement of the driving assembly in a direction from the pre-firing position to the firing position when the driving assembly is in the pre-firing position.