US2643641A - Rock drill - Google Patents

Rock drill Download PDF

Info

Publication number
US2643641A
US2643641A US161767A US16176750A US2643641A US 2643641 A US2643641 A US 2643641A US 161767 A US161767 A US 161767A US 16176750 A US16176750 A US 16176750A US 2643641 A US2643641 A US 2643641A
Authority
US
United States
Prior art keywords
tube
fluid
steel
backhead
cuttings
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US161767A
Inventor
Mervin C Huffman
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Gardner Denver Inc
Original Assignee
Gardner Denver Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Gardner Denver Inc filed Critical Gardner Denver Inc
Priority to US161767A priority Critical patent/US2643641A/en
Application granted granted Critical
Publication of US2643641A publication Critical patent/US2643641A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • EFIXED CONSTRUCTIONS
    • E21EARTH DRILLING; MINING
    • E21BEARTH DRILLING, e.g. DEEP DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
    • E21B21/00Methods or apparatus for flushing boreholes, e.g. by use of exhaust air from motor
    • E21B21/16Methods or apparatus for flushing boreholes, e.g. by use of exhaust air from motor using gaseous fluids

Definitions

  • My invention relates to improvements in rock drills and is more particularly directed to the provision of means whereby fluid under pressure is utilized to remove cuttings from the hole being drilled.
  • the invention further contemplates the provision of means whereby the cuttings from the hole being drilled may normally be removed by creating a suction within the hollow steel and removing the cuttings through the steel and drill to atmosphere.
  • a further object of the invention is to provide means whereby fluid normally creating a suction within the drill steel is reversed in its direction of flow and, permitted to passdirectly through the hollow drill steel to the hole being drilled, thus blowing the cuttings out of the hole and free of the steel.
  • Still another object of I the invention is the provision of control means whereby the fluid used to remove the cuttings from the hole being drilled may be directed to either of thetwo methods described; that of blowing directly into the hole and removing the cuttings or passing the fluid to atmosphere and creating a suction within the hollow drill steel, thus drawing the cuttings 'out through thesteel and drill.
  • Another object of the'invention lies in the provision or manually actuated means whereby the flow of fluid may be alternately changed from the direct flow to the'suction method, thus agitating the cuttings and preventing anyfpossible clogging of the drill steel.
  • Figure 1 is a side elevation of a rock drill, showing the drill steel and the manually operated, means for controlling the flow of cleansing fluid.
  • FIG. 2 is a top view of the drill showing the normal'position of the manually controlled means for the flow of cleansing fluid.
  • Figure 3 is a view similar to Figure 2, showing. the position of the controlled means when di recting cleansing fluid downwardly throughthe drill steel.
  • Figure 4 is a sectionalview taken on the line 4-4'of Figure 2
  • a Figure 5 is a similar vlew taken on theflin'e' 5-'-5 of Figure 3.
  • the present invention lies in the provision of means whereby the flow of cleansing fluid may be selectively controlled to clean the hole either by a direct blast through the steel and into the hole or normally by permitting the cuttings to be sucked through the hollow steel and passed to atmosphere. It is further an object of the invention to alternately control the flowof this fluid so that the cuttings within the hole may be agitated and alternately removed by a direct blast into the hole or by the suction method.
  • the numeral! indicates a conventional cylinder of a rock drill havin at one end a backhead 2 and at its front end a chuck 3 for the reception of a hollow drill steel-4 struck by are ciprocating hammer 5.
  • the reciprocating hammer 5 is actuated by fluid alternately directed to its sides by a distributing valve 6.
  • the fluid normally entering the distributing valve chamber through an intake port I.
  • the drillsteel carries apackin g ring designated at H slidable'upon the exterior of the tube 8 and supporting the same.
  • nipple l2 sleeve l3 Positioned within the backhead 2 and abutting the end of the water tube a is a nipple l2 sleeve l3, the purpose of which .will hereinafter be apparent,
  • the sleeve (3 is further provided with ports l4 communicating with an annular ring or channel l5 formed in the periphery of the sleeve Hi.
  • the ring or channel l5 being in communication with a passageway 16 leading to an annular ring ll formed in the front face of the backhead 2 and communicating with the fluid inlet passageway I.
  • the backhead 2 is provided with oppositely disposed guideways 18 having slidable therein a block 19.
  • This block H! has centrally thereof a nipple 20 to the outer end of which is connected a hose 2!, the purpose of which will hereinafter be apparent.
  • Retaining the block 19 within its uideways I8 is a pin 22 and against which the block 19 is normally maintained by a spring 23 positioned within a housing formed at the opposite end of the guideways and on the backhead 2.
  • the block 19 is further provided with a centrally disposed flange surrounding the nipple 20 and around which the looped end of an operating cable 24 is positioned, the operating cable passing over a pulley 25 mounted for rotary movement on the backhead.
  • the block l9 may be moved from the position shown in Figure 4 to the position shown in Figure 5 where the flow of fluid is directed from the passageway IB, nipple l2, through the hollow tube 8 and steel 4, directly to the hole being drilled, removing the cuttings and dust therefrom.
  • the spring 23 Upon releasing the cable 24, the spring 23 returns the sliding block to the position shown in Figure 4 whereby the spring 23 maintains the block against the crosspin 22 and at the same time the nipple 20 is aligned with the end of the nipple l2, and tube 8, thus permitting the free flow of air from the supply 1, ring I1 through the ports 14 and around the rear end of the nipple [2 to atmosphere through the nipple 20. Air flowing over the free end of the nipple l2 creates within the tube a suction removing cuttings from the cutting face of the hollow drill steel 4.
  • a fluid operated drill comprising a casing, a backhead closing the rear end of the casing having connected thereto a fluid supply, a hollow drill steel supported within the front end of the casing, a tube extending from the backhead into the steel, a fluid operated hammer surrounding the tube and movable within the casing to 1mpart blows to the steel, passageways within the backhead leading from the supply to and adiacent the tube, a movable element directing fluid to the tube and steel to blow cuttings from the hole being drilled, and said element movable to a position establishing communication between said tube and atmosphere, permitting fluid adjacent the tube end to pass thereover creating a suction within the tube and steel to draw the cuttings upwardly through the tube and steel to atmosphere.
  • a fluid operated drill comprising a casing, a backhead closing the rear end of the casing having connected thereto a fluid supply, a hollow drill steel supported in the front end of the casing, a tube positioned within the backhead and communicating with the steel, a hammer surrounding the tube and movable within the casing imparting blows to the steel, passageways leading from the supply to and adjacent the rear end of the tube, an element controlling the directional flow of fluid with respect to said tube, and said element subject to selective movement creating reversible pressures within the tube and steel for removing the cuttings from the hole being drilled.
  • a fluid operated drill comprising a casing having a hammer movable therein, a backhead closing one end of the casing and having connected thereto a fluid supply, a hollow drill steel supported within the front end of the casing and adapted to be struck by the hammer, a tube within the casing supported by the backhead and extending into the steel, passageways within the backhead leading from the supply to a point adjacent the tube end, a movable element carried by the backhead directing fluid through said tube when in one position, and said element when in another position permitting fluid to pass directly to atmosphere over the tube end creating therein a suction for removing cuttings from the hole being drilled.
  • a fluid operated drill comprising a casing having a hammer movable therein, a backhead closing one end of the casing and having connected thereto a fluid supply, a hollow drill steel supported within the front end of the casing and adapted to be struck by the hammer, a tube withing the casing supported by the backhead and extending into the steel, passageways within the backhead leading from the supply to a point adjacent the tube end, an element movable within the backhead, said element when in one position directing fluid from a point adjacent the tube end through the same to blow cuttings from the hole being drilled, and said element when moved to another position permitting fluid to pass over the tube end to atmosphere creating within the tube a suction for withdrawing cuttings irom the hole being drilled.
  • a fluid operated drill comprising a casing having a hammer movable therein, a backhead closing one end of the casing and having connected thereto a fluid supply, a hollow drill steel supported within the front end of the casing and adapted to be struck by the hammer, a tube within the casing supported by the backhead and extending into the steel, passageways within the backhead leading from the supply to a point adjacent the tube end, means movable within the backhead selectively directing the flow of fluid from a point adjacent the tube end downwardly through the tube to blow the cuttings from the hole being drilled and over the tube end to atmosphere creating within the tube a suction for drawing cuttings from the hole being drilled upwardly of the tube to atmosphere, and said means being movable from one position to another in rapid succession.
  • a fluid operated drill comprising a casing having a hammer movable therein, a backhead closing one end of the casing and having connected thereto a fluid supply, a hollow drill steel supported within the front end of the casing and adapted to be struck by the hammer, a tube within the casing supported by the backhead and extending into the steel, passageways within the .backhead leading from the supply to a point adjacent the tube end, a nipple movable within the backhead serving to open and close the tube end to atmosphere, and said nipple when moved from one functioning position to another creating reversible pressures within the tube and steel for removing cuttings from the hole being drilled.
  • a fluid operated drill comprising a casing having a hammer movable therein, a backhead closing one end of the casing and having connected thereto a fluid supply, a hollow drill steel supported within the front end of the casing and adapted to be struck by the hammer, a tube within the casing supported by the backhead and extending into the steel, passageways within the backhead leading from the supply to a point adjacent the tube end, a movable element carried by the backhead directing fluid through said tube when in one position, said element when in another position permitting fluid to pass directly to atmosphere over the tube end creating therein a suction, and the reversible pressures when thus created, removing cuttings from the hole being drilled.

Description

June so, 1953 M. c. HUFFMAN ROCK DRILL 2 Sheets-Sheet 1 Filed May 15, 1950 IIII KEN
' INVENTOR. mew wu (Hus /74 M. C. HUFFMAN Jqne 30, 1953 ROCK DRILL 2 Sheets-Sheet 2 Filed May 13; 1950 4/ i //////V/M///// INVENTOR. %'"e w/v C flan-r74 Patented June 30, 1953 asi e Mervin C. Huffman,
Gardner-Denver m poration of Delaware Denver, 0010., assignor to pany, Quincy, 111., a. cor- Application May 13, 1950, Serial No.161,767
My invention relates to improvements in rock drills and is more particularly directed to the provision of means whereby fluid under pressure is utilized to remove cuttings from the hole being drilled.
The invention further contemplates the provision of means whereby the cuttings from the hole being drilled may normally be removed by creating a suction within the hollow steel and removing the cuttings through the steel and drill to atmosphere.
A further object of the invention is to provide means whereby fluid normally creating a suction within the drill steel is reversed in its direction of flow and, permitted to passdirectly through the hollow drill steel to the hole being drilled, thus blowing the cuttings out of the hole and free of the steel.
Still another object of I the invention is the provision of control means whereby the fluid used to remove the cuttings from the hole being drilled may be directed to either of thetwo methods described; that of blowing directly into the hole and removing the cuttings or passing the fluid to atmosphere and creating a suction within the hollow drill steel, thus drawing the cuttings 'out through thesteel and drill. a
Another object of the'invention lies in the provision or manually actuated means whereby the flow of fluid may be alternately changed from the direct flow to the'suction method, thus agitating the cuttings and preventing anyfpossible clogging of the drill steel. f a
Other objects of the invention will hereinafter appear; and to all of these ends the invention consists of features ofconstruction, arrangements of'partsand combination of elements substantially as hereinafter "described a and claimed in the specifications'an'd shown in'the accompanying drawings, in which:
Figure 1 is a side elevation of a rock drill, showing the drill steel and the manually operated, means for controlling the flow of cleansing fluid.
' Figure 2 is a top view of the drill showing the normal'position of the manually controlled means for the flow of cleansing fluid.
Figure 3 is a view similar to Figure 2, showing. the position of the controlled means when di recting cleansing fluid downwardly throughthe drill steel.
Figure 4 is a sectionalview taken on the line 4-4'ofFigure 2, and a Figure 5 is a similar vlew taken on theflin'e' 5-'-5 ofFigure 3. U a
Briefly, the invention about to be described 7 Claims. (01. 121-10) contemplates provision of means whereby a portion of the operating fluid of a rock drill may be used to remove cuttings from the hole being drilled and in the normal operation as hereinafter described, these cuttings are moved by suction created by the fluid. Heretofore it has been the practice to permit a portion of the operating fluid to flow directly through the hollow steel, the result being that the cuttings within the drill hole are blown free of the hole and steel. It has also been common in the art to remove the cuttings by creating a suction within the hollow drill steel, permitting these cuttings to be sucked out through the steel to atmosphere.
The present invention lies in the provision of means whereby the flow of cleansing fluid may be selectively controlled to clean the hole either by a direct blast through the steel and into the hole or normally by permitting the cuttings to be sucked through the hollow steel and passed to atmosphere. It is further an object of the invention to alternately control the flowof this fluid so that the cuttings within the hole may be agitated and alternately removed by a direct blast into the hole or by the suction method.
Referring to the accompanying drawings in detail, the numeral! indicates a conventional cylinder of a rock drill havin at one end a backhead 2 and at its front end a chuck 3 for the reception of a hollow drill steel-4 struck by are ciprocating hammer 5. Y
The reciprocating hammer 5 is actuated by fluid alternately directed to its sides by a distributing valve 6. The fluid normally entering the distributing valve chamber through an intake port I.
Positioned centrally of the cylinder l and ex;- tending downwardly of the backhead 2- and through the distributing valve 6 and hammer 5, and projecting into the end of the hollow drill steel 4, is a tube fiared and supported within the backhead by suitable packing 9;
ceivable within a slightly engaged bore I 0 of the drill steel. The drillsteel carries apackin g ring designated at H slidable'upon the exterior of the tube 8 and supporting the same.
Positioned within the backhead 2 and abutting the end of the water tube a is a nipple l2 sleeve l3, the purpose of which .will hereinafter be apparent,
8 the upper endof which is "while its other end is re-,
The sleeve (3 is further provided with ports l4 communicating with an annular ring or channel l5 formed in the periphery of the sleeve Hi. The ring or channel l5 being in communication with a passageway 16 leading to an annular ring ll formed in the front face of the backhead 2 and communicating with the fluid inlet passageway I.
The backhead 2 is provided with oppositely disposed guideways 18 having slidable therein a block 19. This block H! has centrally thereof a nipple 20 to the outer end of which is connected a hose 2!, the purpose of which will hereinafter be apparent.
Retaining the block 19 within its uideways I8 is a pin 22 and against which the block 19 is normally maintained by a spring 23 positioned within a housing formed at the opposite end of the guideways and on the backhead 2.
The block 19 is further provided with a centrally disposed flange surrounding the nipple 20 and around which the looped end of an operating cable 24 is positioned, the operating cable passing over a pulley 25 mounted for rotary movement on the backhead.
With the structure thus described, it is apparent that by pulling upon the cable 24, the block l9 may be moved from the position shown in Figure 4 to the position shown in Figure 5 where the flow of fluid is directed from the passageway IB, nipple l2, through the hollow tube 8 and steel 4, directly to the hole being drilled, removing the cuttings and dust therefrom.
Upon releasing the cable 24, the spring 23 returns the sliding block to the position shown in Figure 4 whereby the spring 23 maintains the block against the crosspin 22 and at the same time the nipple 20 is aligned with the end of the nipple l2, and tube 8, thus permitting the free flow of air from the supply 1, ring I1 through the ports 14 and around the rear end of the nipple [2 to atmosphere through the nipple 20. Air flowing over the free end of the nipple l2 creates within the tube a suction removing cuttings from the cutting face of the hollow drill steel 4.
It is further apparent that by rapid movement of the block 19 from the position shown in Figure 4 to that disclosed in Figure. 5, the flow of cleansing fluid will alternately be changed from the direct blasting operation to a vacuum operation thus agitating the cuttings within the hole and eliminating the possible clogging of the drill steel. 7
From the foregoing it is thought that the construction, operation and many advantages of the herein described invention will be apparent to those skilled in the art without further description, and it will be understood that various changes in the size, shape, proportion and minor details of construction may be resorted to without departure from the spirit or sacrifice any of the invention.
What I claim is:
1. A fluid operated drill comprising a casing, a backhead closing the rear end of the casing having connected thereto a fluid supply, a hollow drill steel supported within the front end of the casing, a tube extending from the backhead into the steel, a fluid operated hammer surrounding the tube and movable within the casing to 1mpart blows to the steel, passageways within the backhead leading from the supply to and adiacent the tube, a movable element directing fluid to the tube and steel to blow cuttings from the hole being drilled, and said element movable to a position establishing communication between said tube and atmosphere, permitting fluid adjacent the tube end to pass thereover creating a suction within the tube and steel to draw the cuttings upwardly through the tube and steel to atmosphere.
2. A fluid operated drill comprising a casing, a backhead closing the rear end of the casing having connected thereto a fluid supply, a hollow drill steel supported in the front end of the casing, a tube positioned within the backhead and communicating with the steel, a hammer surrounding the tube and movable within the casing imparting blows to the steel, passageways leading from the supply to and adjacent the rear end of the tube, an element controlling the directional flow of fluid with respect to said tube, and said element subject to selective movement creating reversible pressures within the tube and steel for removing the cuttings from the hole being drilled.
3. A fluid operated drill comprising a casing having a hammer movable therein, a backhead closing one end of the casing and having connected thereto a fluid supply, a hollow drill steel supported within the front end of the casing and adapted to be struck by the hammer, a tube within the casing supported by the backhead and extending into the steel, passageways within the backhead leading from the supply to a point adjacent the tube end, a movable element carried by the backhead directing fluid through said tube when in one position, and said element when in another position permitting fluid to pass directly to atmosphere over the tube end creating therein a suction for removing cuttings from the hole being drilled.
4. A fluid operated drill comprising a casing having a hammer movable therein, a backhead closing one end of the casing and having connected thereto a fluid supply, a hollow drill steel supported within the front end of the casing and adapted to be struck by the hammer, a tube withing the casing supported by the backhead and extending into the steel, passageways within the backhead leading from the supply to a point adjacent the tube end, an element movable within the backhead, said element when in one position directing fluid from a point adjacent the tube end through the same to blow cuttings from the hole being drilled, and said element when moved to another position permitting fluid to pass over the tube end to atmosphere creating within the tube a suction for withdrawing cuttings irom the hole being drilled.
5. A fluid operated drill comprising a casing having a hammer movable therein, a backhead closing one end of the casing and having connected thereto a fluid supply, a hollow drill steel supported within the front end of the casing and adapted to be struck by the hammer, a tube within the casing supported by the backhead and extending into the steel, passageways within the backhead leading from the supply to a point adjacent the tube end, means movable within the backhead selectively directing the flow of fluid from a point adjacent the tube end downwardly through the tube to blow the cuttings from the hole being drilled and over the tube end to atmosphere creating within the tube a suction for drawing cuttings from the hole being drilled upwardly of the tube to atmosphere, and said means being movable from one position to another in rapid succession.
6. A fluid operated drill comprising a casing having a hammer movable therein, a backhead closing one end of the casing and having connected thereto a fluid supply, a hollow drill steel supported within the front end of the casing and adapted to be struck by the hammer, a tube within the casing supported by the backhead and extending into the steel, passageways within the .backhead leading from the supply to a point adjacent the tube end, a nipple movable within the backhead serving to open and close the tube end to atmosphere, and said nipple when moved from one functioning position to another creating reversible pressures within the tube and steel for removing cuttings from the hole being drilled.
'7. A fluid operated drill comprising a casing having a hammer movable therein, a backhead closing one end of the casing and having connected thereto a fluid supply, a hollow drill steel supported within the front end of the casing and adapted to be struck by the hammer, a tube within the casing supported by the backhead and extending into the steel, passageways within the backhead leading from the supply to a point adjacent the tube end, a movable element carried by the backhead directing fluid through said tube when in one position, said element when in another position permitting fluid to pass directly to atmosphere over the tube end creating therein a suction, and the reversible pressures when thus created, removing cuttings from the hole being drilled.
MIERVIN C. HUFFMAN.
References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 1,087,632 Benjamin Feb. 17, 1914 2,019,332 Atkins Oct. 29, 1935 2,302,010 Dickenson Nov. 17, 1942 FOREIGN PATENTS 20 Number Country Date 669,629 France Aug. 5, 1929
US161767A 1950-05-13 1950-05-13 Rock drill Expired - Lifetime US2643641A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US161767A US2643641A (en) 1950-05-13 1950-05-13 Rock drill

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US161767A US2643641A (en) 1950-05-13 1950-05-13 Rock drill

Publications (1)

Publication Number Publication Date
US2643641A true US2643641A (en) 1953-06-30

Family

ID=22582635

Family Applications (1)

Application Number Title Priority Date Filing Date
US161767A Expired - Lifetime US2643641A (en) 1950-05-13 1950-05-13 Rock drill

Country Status (1)

Country Link
US (1) US2643641A (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2790624A (en) * 1952-10-23 1957-04-30 Sandvikens Jernverks Ab Packing sleeve for rock drills
US2839273A (en) * 1955-05-20 1958-06-17 Holman Arthur Trevena Rock drilling apparatus
US2919901A (en) * 1957-01-25 1960-01-05 Thor Power Tool Co Drill system with suction
US3057417A (en) * 1958-08-12 1962-10-09 Thor Power Tool Co Drill system with suction removal of cuttings
EP1844897A1 (en) 2006-04-10 2007-10-17 Soraluce, S. Coop System for extracting chips and/or dust for a milling head equipped with automatic tool changing

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1087632A (en) * 1912-06-17 1914-02-17 William S Benjamin Rock-drilling machine.
FR669629A (en) * 1929-02-14 1929-11-19 Device for the suction of drilling dust produced by drilling work by means of a hollow drill bit
US2019332A (en) * 1933-07-22 1935-10-29 Banjamin B Tremere Pneumatic tool
US2302010A (en) * 1941-11-19 1942-11-17 Ingersoll Rand Co Dustless rock drill

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1087632A (en) * 1912-06-17 1914-02-17 William S Benjamin Rock-drilling machine.
FR669629A (en) * 1929-02-14 1929-11-19 Device for the suction of drilling dust produced by drilling work by means of a hollow drill bit
US2019332A (en) * 1933-07-22 1935-10-29 Banjamin B Tremere Pneumatic tool
US2302010A (en) * 1941-11-19 1942-11-17 Ingersoll Rand Co Dustless rock drill

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2790624A (en) * 1952-10-23 1957-04-30 Sandvikens Jernverks Ab Packing sleeve for rock drills
US2839273A (en) * 1955-05-20 1958-06-17 Holman Arthur Trevena Rock drilling apparatus
US2919901A (en) * 1957-01-25 1960-01-05 Thor Power Tool Co Drill system with suction
US3057417A (en) * 1958-08-12 1962-10-09 Thor Power Tool Co Drill system with suction removal of cuttings
EP1844897A1 (en) 2006-04-10 2007-10-17 Soraluce, S. Coop System for extracting chips and/or dust for a milling head equipped with automatic tool changing

Similar Documents

Publication Publication Date Title
US2122517A (en) Dust eliminator
US2887989A (en) Pneumatic rotary drill hammer
US2937619A (en) Hole cleaning device
US2643641A (en) Rock drill
US2815936A (en) Drill bits
US3299971A (en) Core drill
US3059619A (en) Rock drill
US2595126A (en) Well-drilling machine
US3057417A (en) Drill system with suction removal of cuttings
US3095046A (en) Hammer drill
US1188001A (en) Well-drilling mechanism.
US3311177A (en) Percussion drilling tool
US2124609A (en) Drill cleansing device
US1969513A (en) Dust deflector
US3431984A (en) Check valve vent and blow air metering plug for rock drills
US3528514A (en) Rock drilling apparatus
US2777424A (en) Automatic water valve for rock drills
US1146284A (en) Air and water blowpipe for rock-drilling.
US1551098A (en) Drilling apparatus
US2215217A (en) Water valve for rock drills
US1791034A (en) Blower v-alve bob book drills
US2871826A (en) Hammer rock drill
GB962127A (en) Earth and the like boring or drilling apparatus
US3050033A (en) Percussion mechanism and rotary drilling apparatus
US1902562A (en) Blowing device for pneumatic tools