Reversible pneumatic pipe ramming tool

The invention claimed is: 1. A ramming tool, comprising: a housing having an elongate internal chamber having opposed ends; a fixed first anvil situated within and supported by the housing at one end of the chamber; in which the first anvil is fixed relative to the housing; a fixed second anvil situated within and supported by the housing at the other end of the chamber; in which the second anvil is fixed relative to the housing: a reciprocating striker positioned within the chamber between the anvils; a fluid distribution block fixedly positioned within the chamber and comprising: a forward fluid path; a reverse fluid path fluidly communicable with the forward fluid path; in which fluid flow through the communicating forward and reverse fluid paths causes the striker to impact the second anvil, and in which fluid flow through the forward fluid path, in isolation from the reverse fluid path, causes the striker to impact the first anvil; and a shuttle valve supported by the fluid distribution block and having a first inlet port in fluid communication with the forward fluid path, a second inlet port. and an outlet port in fluid communication with the reverse fluid path; in which the shuttle valve is adapted to selectively isolate the forward and reverse fluid paths. 2. The ramming tool of claim 1 in which the forward and reverse fluid paths are neither wholly nor partially coextensive. 3. The ramming tool of claim 1 in which the fluid distribution block further comprises: a pilot fluid path in fluid communication with the valve. 4. The ramming tool of claim 3 in which the valve is a shuttle valve having a first inlet port in fluid communication with the forward fluid path, a second inlet port in fluid communication with the pilot fluid path, and an outlet port in fluid communication with the reverse fluid path. 5. The ramming tool of claim 4 in which the shuttle valve comprises a shuttle having an open first end and an opposed closed second end, in which the first end is in fluid communication with the pilot fluid path. 6. The ramming tool of claim 3 in which the forward, reverse and pilot fluid paths are neither wholly nor partially coextensive. 7. The ramming tool of claim 3 in which the pilot fluid path has a minimum diameter of ⅜ inch or less. 8. The ramming tool of claim 3 in which the pilot fluid path has a minimum diameter that is less than half of the minimum diameter of the forward fluid path. 9. The ramming tool of claim 3 in which the forward fluid path and the pilot fluid path each open on a rear end of the housing. 10. The ramming tool of claim 1 in which the striker has a central bore in fluid communication with the forward fluid path and the reverse fluid path. 11. The ramming tool of claim 10 in which at least one port is formed in a wall of the striker surrounding its central bore. 12. The ramming tool of claim 1 in which at least a portion of the striker surrounds at least a portion of the fluid distribution block. 13. The ramming tool of claim 1 in which the striker surrounds the valve. 14. The ramming tool of claim 1 in which the fixed second anvil surrounds at least a portion of the fluid distribution block. 15. The ramming tool of claim 1 in which an exhaust passage is formed in the fixed second anvil that opens on a rear end of the housing. 16. A ramming tool, comprising: a housing having an elongate internal chamber having opposed ends; a fixed first anvil situated within and supported by the housing at one end of the chamber; a fixed second anvil situated within and supported by the housing at the other end of the chamber; a reciprocating striker positioned within the chamber between the anvils; and a fluid distribution block fixedly positioned within the chamber and comprising: a forward fluid path; a reverse fluid path fluidly communicable with the forward fluid path; in which fluid flow through the communicating forward and reverse fluid paths causes the striker to impact the second anvil, and in which fluid flow through the forward fluid path, in isolation from the reverse fluid path, causes the striker to impact the first anvil; and a valve supported by the fluid distribution block and adapted to selectively isolate the forward and reverse fluid paths; in which the striker has a central bore in fluid communication with the forward fluid path and the reverse fluid path, and in which at least one port is formed in the wall of the striker surrounding the central bore. 17. A system, comprising: a ramming tool, comprising: a housing having an elongate internal chamber having opposed ends; a fixed first anvil situated within and supported by the housing at one end of the chamber; a fixed second anvil situated within and supported by the housing at the other end of the chamber; a reciprocating striker positioned within the chamber between the anvils; and a fluid distribution block fixedly positioned within the chamber and comprising: a forward fluid path; a reverse fluid path fluidly communicable with the forward fluid path; in which fluid flow through the communicating forward and reverse fluid paths causes the striker to impact the second anvil, and in which fluid flow through the forward fluid path, in isolation from the reverse fluid path, causes the striker to impact the first anvil; a valve supported by the fluid distribution block and adapted to selectively isolate the forward and reverse fluid paths; and a pilot fluid path in fluid communication with the valve; and a first hose in fluid communication with the forward fluid path; and a second hose in fluid communication with the pilot fluid path. 18. The system of claim 17 in which the second hose has a minimum diameter of 0.5 inches or less. 19. The system of claim 17 further comprising: a winch; and a cable haying a first end attached to the ramming tool and a second end attached to the winch. 20. The system of claim 17 in which the ramming tool is engaged with an underground pipe.