Hydraulic hammer having delayed automatic shutoff

What is claimed is: 1. An automatic shutoff system for a hydraulic hammer, comprising: an inlet groove formed annularly around a piston associated with the hydraulic hammer and configured to receive pressurized fluid; an outlet groove formed annularly around the piston associated with the hydraulic hammer and configured to discharge the pressurized fluid; an annular passage configured to allow the pressurized fluid to flow between the inlet and outlet grooves; and a valve disposed upstream of the inlet groove and configured to selectively block the pressurized fluid from flowing into the inlet groove based on an operational state of the hydraulic hammer. 2. The automatic shutoff system of claim 1 , wherein the operational state is relative to an initial upward stroke of the piston associated with the hydraulic hammer. 3. The automatic shutoff system of claim 2 , wherein the valve blocks fluid from flowing into the inlet groove before the initial upward stroke of the piston. 4. The automatic shutoff system of claim 2 , wherein the valve allows fluid to flow into the inlet groove after the initial upward stroke of the piston. 5. The automatic shutoff system of claim 4 , wherein, when the piston falls to its lowest position, the flow of pressurized fluid between the inlet and outlet grooves locks the piston in the lowest position. 6. The automatic shutoff system of claim 2 , wherein the valve includes: a valve element configured to move between a flow blocking position and a flow passing position; and a spring configured to bias the valve element to the flow blocking position. 7. The automatic shutoff system of claim 6 , wherein the valve element is moved to the flow passing position when a pressure level at the valve is greater than a threshold amount. 8. The automatic shutoff system of claim 7 , wherein the valve element is moved to the flow passing position during the initial upward stroke of the piston. 9. The automatic shutoff system of claim 6 , wherein the valve element is biased to the flow blocking position when a pressure level at the valve is less than a threshold amount. 10. A method of operating a hydraulic hammer, comprising: receiving pressurized fluid at an inlet groove; providing fluid communication between the inlet groove and an outlet groove via an annular passage connecting the inlet groove to the outlet groove; discharging the pressurized fluid from the outlet groove; and selectively blocking a flow of the pressurized fluid between the inlet and outlet grooves based on an operational state of the hydraulic hammer. 11. The method of claim 10 , wherein selectively blocking the flow of the pressurized fluid includes blocking fluid between the inlet and outlet grooves before an initial upward stroke of a piston associated with the hydraulic hammer. 12. The method of claim 10 , wherein selectively blocking the flow of the pressurized fluid includes allowing fluid between the inlet and outlet grooves after an initial upward stroke of a piston associated with the hydraulic hammer. 13. The method of claim 12 , further including locking the piston in its lowest position by allowing the flow of pressurized fluid between the inlet and outlet grooves. 14. The method of claim 10 , wherein selectively blocking the flow of the pressurized fluid includes blocking fluid between the inlet and outlet grooves when a pressure level is less than a threshold amount. 15. The method of claim 10 , wherein selectively blocking the flow of the pressurized fluid includes allowing fluid between the inlet and outlet grooves when a pressure level is greater than a threshold amount. 16. A hydraulic hammer system, comprising: a piston; a sleeve disposed external and co-axial to the piston; a plurality of inlet passages formed within the sleeve and configured to receive pressurized fluid; an inlet groove formed annularly at an internal surface of the sleeve and fluidly connected to the plurality of inlet passages; an outlet groove formed annularly at an internal surface of the sleeve and fluidly connected to the inlet groove; an annular passage configured to allow the pressurized fluid to flow between the inlet and outlet grooves; and an automatic shutoff system including a valve configured to delay an automatic shutoff operation based on an operational state of the hydraulic hammer. 17. The hydraulic hammer of claim 16 , wherein the valve is located upstream of the inlet groove and configured to selectively block the pressurized fluid from flowing into the inlet groove based on an initial upward stroke of the piston, the valve including: a valve element configured to move between a flow blocking position and a flow passing position; and a spring configured to bias the valve element to the flow blocking position. 18. The hydraulic hammer of claim 16 , wherein the valve element is in the flow blocking position before the initial upward stroke of the piston. 19. The hydraulic hammer of claim 16 , wherein the valve element is in the flow passing position after the initial upward stroke of the piston. 20. The automatic shutoff system of claim 16 , wherein the valve element is moved to the flow passing position when a pressure level at the valve is greater than a threshold amount.