DOWN-THE-HOLE HAMMER AND COMPONENTS FOR A DOWN-THE-HOLE HAMMER, AND A METHOD OF ASSEMBLING A DOWN-THE-HOLE HAMMER

Abstract

A down-the-hole hammer includes a casing and a piston movable in the casing between a lowermost operating position and an uppermost operating position. A recess is provided between the piston and the casing so that the piston and the casing define an intermediate chamber between a top end of the piston and a bottom end of the piston. A passageway is provided between a source of pressurized fluid and the intermediate chamber such that, at all positions of the piston between the lowermost and the uppermost operating positions, the source of pressurized fluid is in flow communication with the intermediate chamber through the passageway. An opening in the piston at least partially defines the passageway.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

The features and advantages of the present invention are well understood by reading the following detailed description in conjunction with the drawings in which like numerals indicate similar elements and in which:

FIGS. 1A-1E are side, cross-sectional views of a down-the-hole hammer according to an embodiment of the present invention showing a piston in various positions relative to a casing;

FIGS. 2A and 2B are perspective and top cross-sectional views, respectively, of a piston according to an embodiment of the present invention; and

FIG. 3 is a side, cross-sectional view of a down-the-hole hammer according to another embodiment of the present invention.

Claims

1. A down-the-hole hammer, comprising: a casing;a piston movable in the casing between a lowermost operating position and an uppermost operating position, a recess being provided between the piston and the casing so that the piston and the casing define an intermediate chamber between a top end of the piston and a bottom end of the piston; anda passageway between a source of pressurized fluid and the intermediate chamber such that, at all positions of the piston between the lowermost and the uppermost operating positions, the source of pressurized fluid is in flow communication with the intermediate chamber through the passageway, an opening in the piston at least partially defining the passageway.

2. A down-the-hole hammer as set forth in claim 1, wherein the piston includes an end opening extending from an end of the piston, and the passageway comprises a feed tube fixed in the casing and partially disposed in the end opening.

3. A down-the-hole hammer as set forth in claim 2, wherein the passageway comprises a radial opening in the feed tube.

4. A down-the-hole hammer as set forth in claim 3, wherein the passageway comprises a recessed portion in the end opening.

5. A down-the-hole hammer as set forth in claim 4, wherein the passageway comprises a radial opening between the recessed portion in the end opening and the intermediate chamber.

6. A down-the-hole hammer as set forth in claim 4, wherein the passageway comprises a recessed portion in the feed tube.

7. A down-the-hole hammer as set forth in claim 6, wherein the passageway comprises a radial opening between the recessed portion in the feed tube and the intermediate chamber.

8. A down-the-hole hammer as set forth in claim 3, wherein the passageway comprises a recessed portion in the feed tube.

9. A down-the-hole hammer as set forth in claim 8, wherein the passageway comprises a radial opening between the recessed portion in the feed tube and the intermediate chamber.

10. A down-the-hole hammer as set forth in claim 1, wherein the intermediate chamber comprises a recess in the piston.

11. A down-the-hole hammer as set forth in claim 10, wherein the casing includes a top internal recess that permits flow communication between the intermediate chamber and a top chamber defined by the top end of the piston and the casing when the piston is in the uppermost operating position.

12. A down-the-hole hammer as set forth in claim 11, wherein the casing includes a bottom internal recess that permits flow communication between the intermediate chamber and a bottom chamber defined by the bottom end of the piston and the casing when the piston is in the lowermost operating position.

13. A down-the-hole hammer as set forth in claim 1, wherein the casing includes a bottom internal recess that permits flow communication between the intermediate chamber and a bottom chamber defined by the bottom end of the piston and the casing when the piston is in the lowermost operating position.

14. A down-the-hole hammer as set forth in claim 1, wherein the piston includes an end opening extending from the top end of the piston, through the piston, to the bottom end of the piston.

15. A down-the-hole hammer as set forth in claim 14, comprising a vent passageway in the piston, the vent passageway being adapted to permit flow communication between the top end of the piston and the bottom end of the piston.

16. A down-the-hole hammer as set forth in claim 15, wherein the passageway comprises a feed tube fixed in the casing and partially disposed in the end opening, the feed tube being positioned in the end opening such that the feed tube closes flow communication between the top end of the piston and the bottom end of the piston through the vent passageway when the piston is raised a predetermined distance above the lowermost operating position.

17. A down-the-hole hammer as set forth in claim 14, wherein the end opening extends along a central axis of the piston.

18. A down-the-hole hammer, comprising: a casing;a feed tube disposed in the casing and adapted to be connected to a source of high pressure fluid;a piston movable in the casing and having an end opening in which the feed tube is movable upon reciprocation of the piston;a fluid feed passage at least partially defined by the piston for permitting fluid to flow from the feed tube to a top chamber above the piston when in a first range of positions relative to the casing and to a bottom chamber below the piston when in a second range of positions relative to the casing; andfluid vent passage for permitting fluid to vent from the top chamber when the piston is below the first range of positions, the fluid vent passage being at least partially defined by the piston and discrete from the fluid feed passage.

19. A down-the-hole hammer as set forth in claim 18, wherein the fluid feed passage comprises a radial opening in the feed tube.

20. A down-the-hole hammer as set forth in claim 19, wherein the fluid feed passage comprises a recess between the piston and the casing so that the piston and the casing define an intermediate chamber between a top end of the piston and a bottom end of the piston.

21. A down-the-hole hammer as set forth in claim 20, wherein the fluid feed passage comprises a radial opening in the piston between the intermediate chamber and the radial opening in the feed tube.

22. A down-the-hole hammer as set forth in claim 21, wherein the fluid vent passage is arranged to vent air from the top chamber into the bottom chamber and is at least partially defined by the end opening, the end opening extending to the bottom end of the piston, the feed tube being positioned in the end opening such that the feed tube blocks flow communication between the top chamber and the bottom chamber when the piston is raised a predetermined distance above a lowermost operating position.

23. A down-the-hole hammer as set forth in claim 18, wherein the fluid feed passage comprises a recess between the piston and the casing so that the piston and the casing define an intermediate chamber between a top end of the piston and a bottom end of the piston.

24. A down-the-hole hammer as set forth in claim 23, wherein the fluid vent passage is arranged to vent air from the top chamber into the bottom chamber and is at least partially defined by the end opening, the end opening extending to the bottom end of the piston, the feed tube being positioned in the end opening such that the feed tube blocks flow communication between the top chamber and the bottom chamber when the piston is raised a predetermined distance above a lowermost operating position.

25. A piston for a down-the-hole hammer, comprising: a body having a top end and a bottom end and an intermediate surface between the top end and the bottom end;an opening extending from the top end to the bottom end of the body, the opening having a primary diameter and a recessed portion having a diameter larger than the primary diameter;a radial passage extending from the opening to the intermediate surface; anda passage extending from the top end to the opening.

26. A piston for a down-the-hole hammer as set forth in claim 25, comprising a recess in the intermediate surface below the top end and above the bottom end, the radial passage extending from the opening to the recess in the intermediate surface.

27. A piston for a down-the-hole hammer as set forth in claim 25, wherein the radial passage extends from the recessed portion to the intermediate surface.

28. A piston for a down-the-hole hammer as set forth in claim 27, comprising a recess in the intermediate surface below the top end and above the bottom end, the radial passage extending from the opening to the recess in the intermediate surface.

29. A piston for a down-the-hole hammer as set forth in claim 25, wherein the passage includes an axial portion extending from the top end and a radial portion extending from the axial portion to the opening.

30. A method of assembling a down-the-hole hammer, comprising: positioning a piston in a casing such that the piston is movable in the casing between a lowermost operating position and an uppermost operating position, a recess being provided between the piston and the casing so that the piston and the casing define an intermediate chamber between a top end of the piston and a bottom end of the piston; andproviding a passageway between a source of pressurized fluid and the intermediate chamber such that, at all positions of the piston between the lowermost and the uppermost operating positions, the source of pressurized fluid is in flow communication with the intermediate chamber through the passageway, an opening in the piston at least partially defining the passageway.

31. A method of assembling a down-the-hole hammer, comprising: providing a casing having a feed tube disposed in the casing, the feed tube being adapted to be connected to a source of high pressure fluid;movably positioning a piston in the casing such that the feed tube is movably positioned in an end opening of the piston and such that the piston and the feed tube at least partially define a fluid feed passage for permitting fluid to flow from the feed tube to a top chamber above the piston when in a first range of positions relative to the casing and to a bottom chamber below the piston when in a second range of positions relative to the casing; and such that a fluid vent passage is formed for permitting fluid to vent from the top chamber when the piston is below the first range of positions, the fluid vent passage being at least partially defined by the piston and discrete from the fluid feed passage.