US3593811A

US3593811A - Apparatus for drilling large diameter holes

Info

Publication number: US3593811A
Application number: US29192A
Authority: US
Inventors: Jack V Tedrow
Original assignee: U S ARMY TERRESTRIAL SCIENCE C
Current assignee: U S ARMY TERRESTRIAL SCIENCE C; Us Army Terrestrial Science Center
Priority date: 1970-04-16
Filing date: 1970-04-16
Publication date: 1971-07-20
Anticipated expiration: 1988-07-20

Abstract

Drilling of large diameter holes in the earth devices accomplished by means of a plurality of small drilling devices which move along a traversing bar to drill a number of small contiguous holes, said bar being rotatable about an anchored pilot shaft to complete the cylindrical cut, the force required to cut into the earth being provided by the weight of the hole casing which is borne by the traversing bar and by pressure exerted against the pilot shaft.

Description

United States Patent APPARATUS FOR DRILLING LARGE DIAMETER HOLES 8 Claims, 5 Drawing Figs.

US. Cl 175/91, 175/96, 175/97 Int. Cl EZlb 3/08, E2lb 7/00, E21b 11/00 FieldofSearch 175/57, 62,

[56] References Cited UNITED STATES PATENTS 3,169,590 2/1965 Thatcher 175/94 3,310,124 3/1967 Farmer 175/95 X 3,376,942 4/1968 Van Winkle..... 175/94 X 3,477,762 11/1969 Frenyo et al 175/62 X Primary Examiner-David H. Brown Attorneys-Harry M. Saragovitz, Edward J. Kelly, Herbert Berl and Lawrence E. Labadini ABSTRACT: Drilling of large diameter holes in the earth devices accomplished by means of a plurality of small drilling devices which move along a traversing bar to drill a number of small contiguous holes, said bar being rotatable about an anchored pilot shaft to complete the cylindrical cut, the force required to cut into the earth being providedby the weight of the hole casing which is borne by the traversing bar and by pressure exerted against the pilot shaft.

PATENTED JULZO I971 SHEET 3 OF 3 APPARATUS FOR DRILLING LARGE DIAMETER HOLES This isa divisional application of U.S. Pat. application Ser. No. 812,165, filed Apr. 1, 1969, for Method And Apparatus For Drilling Large Diameter Holes," inventor, Jack V. Tedrow..

The invention described herein may be manufactured, used, and licensed by or for the Government for governmental purposes without the payment to me of any royalty thereon.

This invention relates to a novel method and apparatus for drilling large cylindrical openings or holes in the earth. Such openings can be used for numerous purposes such as underground silos or storage compartments, concealed gun mounts, imbedded missilepads, mining shafts and the like. In addition, my invention could be used in underground rescue operations to retrieve trapped miners.

In the past, there has been a problem with drilling large diameter holes or boreholes in remote areas. In addition, it has been very difficult to move this drilling equipment quickly from one place to another. The main reason for these problems is the extreme size and weight required in these large diameterhole drills. It is not uncommon for the drill collar on one of these conventional drills to weigh 300,000 pounds. This extreme size and weight makes it very difficult and expensive to movethe drilling equipment and it is almost impossible to take this equipment into remote areas.

I havediscovered that the above problem may be solved by eliminating the massive drill collar used by conventional drill rigs. This is accomplished by drilling several small diameter holes, the sum being a large diameter hole, which does not require the drill collar. My invention would make it possible for the drilling equipment to be moved or flown into remote areas to be flown from one place to another in a short period of time.

In view of the above, the primary object of my invention is to provide a novel method and apparatus for drilling a large diameter hole. 1

A further object of this invention is to provide a novel method and apparatus for drilling large diameter holes whereby this may be accomplished without the use of extremely heavy drilling equipment.

A further object of the invention is to provide a novel method and apparatus for drilling large diameter holes whereby the equipment may be moved in a reasonable fashion. 1

A further object of my invention 'is to provide a novel method and apparatus for drilling large diameter holes whereby a series of contiguous small diameter holes form a large diameter hole. 1

With the foregoing objects in view and such other objects and advantages as will become apparent to those skilled in the art to which this invention relates as this specification proceeds, my invention consists essentially in the arrangement and construction of parts all as hereinafter more particularly described, reference being had to accompanying drawings.

FIG. 1, is a side elevation showing the overall apparatus of this invention.

FIG. 2 is a top section taken along the line 22.

FIG. 3 is a side section taken along line 3-3 in the direction of the arrows and showing in greater detail a portion of the structure illustrated in FIG. 1.

FIG. (is a top view taken along line 4-4.

FIG. 5,.is a top view showing a second embodiment using the. principles of the present invention.

Referring now to FIG. I, a pilot hole 1 is drilled into the earth to a depth slightly greater than the desired depth of the large, i.e. 6-25 feet, diameter hole. This pilot hole could be drilled by any suitable means known in the art such as a rotary rock drill. Next a small diameter anchor pipe 2, having an outside diameter between 2 to 6 inches, is placed down the pilot hole andanchored to the bottom of pilot hole 1. Anchoring can be accomplished by any one of several known means such as a packer assembly 4. If the bottom of the anchor pipe is in rock, the packer assembly will hold, 1f the anchor pipe is in firm soil, an underreamer should be used to roam out about 200 feet at the bottom of the pilot hole. and then a sealing additurc such as plastic is pumped It should be noted that after anchor pipe 2 is anchored to the bottom of pilot hole 1 there will be a portion of the anchor pipe which will extend above the earth's surface for purposes which will be explained later.

The drill assembly, as shown in FIG. I, cimsists of two identical augers 6 and 7 and a center auger 8 which is located over and rotatable about said anchor pipe 2 as shown. Augers 6 and 7 are connected to power subs I0 and 12 respectively and auger 8 is connected to a hydraulic power swivel 14. Power subs l0 and 12 supply rotary motion to the augers through shafts l6 and 18 respectively and power subs l0 and 12 may be of any commercial type known in the art such as the Bowen PS3 Power Sub which is manufactured by Bowen Tools, Inc., Houston, Texas. Augers in the present embodiment have a 36-inch diameter but such small diameter augcrs' may range from 6 inches to 36 inches in diameter.

Rotary power is supplied to auger 8 from hydraulic power swivel 14 through shaft 20. Hydraulic povvcrswivel 14 may be of any commercial type known in the art.

Hydraulic powcrswivel 14 is connected to a hydraulic jack 22 which is connected to a hydraulic slip 24. As is shown in FIG. 1, anchor pipe 2 passes through hydraulic power swivel 14, hydraulic jack 22 and hydraulic slip 24. Hydraulic jack 22 may be of any commercial type known in the art and should have a 5-foot stroke and a -ton capacity for best operation.

Hydraulic pressure is supplied to power sub 10 by

hydraulic lines

26 and 28 and to power sub 12 by

hydraulic lines

30 and 32. Likewise, hydraulic power is supplied to hydraulic power swivel 14 by

lines

34 and 36. All of these hydraulic lines are connected to hydraulic power sources (not shown) which are known in the art such as hydraulic pumps.

Power subs l0 and 12 are located on a traversing and jacking bar 38. Bar 38 contains

slots

40 and 42 as shown in FIG. 2. Shafts 16 and 18 fit within slots: 40 and 42 respectively and this allows

power subs

10 and 12 to traverse along bar 38 between the positions shown by power subs l0 and 12 and their alternate positions represented by 100 and 120. Power sub 10 is traversed along bar 38 by a hydraulic jack 44 and likewise power sub 18 is traversed along bar 38 by a hydraulic jack 46 as shown in FIG. 2.

Bar 38 is attached to hydraulic power swivel l4 and also to U-bars 48 and 50. U-bars 48 and 50 are in turn connected to auxiliary hydraulic jacks 52 and 54. FIG. 3 shows how power sub 10 can traverse along bar 38 to its most extended position as shown by power sub 10a.

Auxiliary hydraulic jacks 52 and 54 are connected to a bar 56. Bar 56 is connected to hydraulic slip 24 and also to

casing jacking rings

58 and 60.

Casing jacking rings

58 and 60 are attaohed to a casing 62. In addition to

rings

58 and 60,

casing jacking rings

64, 66, 68, and 70 are attached to casing 62 as shown in FIG. 4. These rings continue around casing 62 at uniform intervals and they would be located in a continuous manner around casing 62 if it were shown. Bar 56 is attached to

rings

58 and 60 in such a manner that it may be unattached and then reattached to another pair of jacking rings such as rings 64 and 70. This could be accomplished in a manner such as attaching bar 56 to

rings

58 and 60 by removable screws.

The operation of my invention as above described is as follows: After the anchor pipe is secured as described above the drilling of the large diameter hole begins. Anchor pipe 2 will extend above the earth's surface an amount slightly greater than the height of the drilling apparatus. The drilling apparatus is then attached to anchor pipe 2 and auxiliary hydrau lic jacks 52 and 54 and hydraulic jack 2.2 are in the contracted or up position. Next hydraulic slip 24 is locked onto anchor pipe 2.

Augers

6, 7 and 8 are then set in rotary motion by power supplied by power subs l0 and 12 and by hydraulic power swivel 14 respectively. The augers, are then forced down into the earth's crust by engaging hydraulic jack 22 and auxiliary jacks 52 and 54 toward their extended positions as shown in FIG. I. The reaction needed for the action of forcing the augers down comes from the fact that the hydraulic slip is secured to anchor pipe 2 which is anchored into the ground.

Also, after the drill assembly has progressed down into the earth for a short distance a section of easing'62 may be placed in the hole and attached to bar 56 at jacking

rings

58 and 60. The casing will give additional weight to the assembly to force the augers down during drilling.

After

augers

6, 7 and 8 have drilled into the earth up to bar 38, hydraulic jack 22 and auxiliary jacks S2 and 54 are moved into the contracted or up position, thus raising

augers

6, 7 and 8 and leaving holes in the earth where these augers had drilled, Next

hydraulic jacks

44 and 46 are set in motion and power subs l and 12 are moved along bar 38 away from anchor pipe 2. Power subs l0 and 12 should be moved enough so that augers 6 and 7 are just past the previously drilled hole. Next the augers are forced into the earth as described above and the above sequence is repeated. This above-described operation will continue until the augers have drilled holes along a line under bar 38 and when power subs l0 and 12 are in the outer position as shown by 100 and 12a in FIG. I. As stated above, FIG. 3 shows how the power sub will go under U-bar 48 to allow holes to be drilled under the outer edge of bar 38. This is also true of power sub 12 and U-bar 50.

After a line of holes has been drilled under bar 38 as described above, hydraulic jack 22 and auxiliary jacks 52 and 54 are again put in the'contracted or up position. Next bar 56 is detached from

rings

58 and 60 if casing 62 is being used. Hydraulic power swivel 14 is then engaged and the whole drilling assembly is rotated in either a clockwise or counterclockwise direction. lf the direction was clockwise then the drill assembly would be moved until bar 56 was under rings 64 and 70. Next, bar 56 is attached to rings 64 and 70 in the same manner as it was attached to

rings

58 and 60.

After the drill assembly is turned, power subs l0 and 12 are moved to their position, shown as H6. 1, by

hydraulic jacks

44 and 46. Once again the drilling procedure is repeated along the new position of bar 38. After the new line of holes are drilled the whole assembly is rotated again. This'drilling of small holes with augers 6 and 7 is continued until a large diameter hole is formed.

The loose earth created by the drilling process could be removed in any one of several conventional ways. One method would be to use a jet engine and create a venturi system whereby the jet engine would create a vacuum which would pull the loose dirt up through conduits (not shown) which would extend into the hole.

Once the large hole has been formed from the small holes, hydraulic slip 24 is released from anchor pipe 2 and the whole drill assembly plus casing is lowered to a new position so that

augers

6, 7 and 8 may once again drill into the earth. This sequence of operations would be continued until the desired depth of the large diameter hole was achieved.

FIG. 5 shows a second embodiment of my invention. Here again the principal is to drill a large diameter hole by drilling a series of small diameter holes. The basic operation and drill assembly would be the same as described above but in this embodiment an X-shaped bar would be used and four power subs and four augers.

An X-shaped bar 72 would replace bar 38 of the above assembly and on this bar would be located

power subs

74, 76, 78, and 80. Power sub 74 is moved along one position of bar 72 by hydraulic jack 82. Likewise

power subs

76, 78, and 80 and casing 62 will be identical as described above. Power sub 78 will be supplied hydraulic power through lines 98 and 100. Likewise, sub 80 by

lines

102 and 104, sub 74 by

lines

106 and 108, and sub 76 by

lines

110 and 112. Also slots "4, 116, 118, and 120 are provided in bar 72 so that

power subs

74, 76, 78, and 80 respectively may move back and forth along their position of bar 72.

U-bars

122, 124, I26 and 128 are located on the end position of X-shaped bar 72 and auxiliary jacks (not shown) will be located above these U-bars.

The operation of this embodiment would be the same as the drilling apparatus explained above. The main advantage in this embodiment being that the small holes may be drilled with one-half the number of operations as required by the primary invention. Therefore, the large diameter hole could be dug faster since more augers are employed.

While I have shown and described a workable form of my invention, I wish it to be specifically understood that the same may well be modified without departure from the scope and spirit ofthe appended claims.

lclaim:

1. Apparatus for drilling a large diameter hole comprising a 2. An apparatus in accordance with claim I wherein said drilling means comprises securing means for securing said drilling means to said pipe, a supporting means for supporting said augers, a pressure means for applying directed pressure between said supporting means and said securing means and power means attached to said augers for supplying rotary power to said augers.

3. An apparatus in accordance with claim 2 wherein said supporting means comprises a traversing bar and a traversing means for traversing a portion of said power means and said augers along said traversing bar.

4. An apparatus in accordance with claim 3 wherein said traversing bar is provided with a series of slots, each slot capable of receiving one of said power means and said augers and are moved along their positions of bar 72 by

hydraulic jacks

84, 86, and 88 respectively. Anchor pipe 2, hydraulic jack 22 guiding said power means and said augers as they traverse over said traversing bar.

5. An apparatus in accordance with claim'2 wherein said pressure means comprises a series of hydraulic jacks, one of said jacks being secured on said pipe and directing pressure against the center of said supporting means and another of said jacks being located between the ends of said supporting means and said securing means.

6. An apparatus in accordance with claim 2 wherein said securing means'consists of a slidable hydraulic slip and a bar, said bar running parallel to and being the same length as said supporting means, said slip being received on said pipe and attaching to said pipe to secure said drill means.

7. An apparatus in accordance with claim 3 wherein said power means comprises a series of hydraulic power subs, one of said subs being received on said pipe and supplying rotary motion to one of said augers which is received on said pipe and another of said subs being located on said traversing bar and attached to said traversing means.

8. An apparatus in accordance with claim 7 wherein said traversing means comprises hydraulic jacks which traverse said subs along said traversing bar.

Claims

1. Apparatus for drilling a large diameter hole comprising a pipe of constant diameter having a length slightly greater than the desired depth of the proposed hole, said pipe being adapted to be placed and secured within a previously drilled pilot hole with a depth greater than the proposed hole and with the upper end of said pipe projecting above the upper elevation of said pilot hole, a drilling means received upon the projecting upper end of said pipe, said drilling means having a series of augers which are capable of drilling a series of small contiguous holes to form a large diameter hole.

2. An apparatus in accordance with claim 1 wherein said drilling means comprises securing means for securing said drilling means to said pipe, a supporting means for supporting said augers, a pressure means for applying directed pressure between said supporting means and said securing means and power means attached to said augers for supplying rotary power to said augers.

4. An apparatus in accordance with claim 3 wherein said traversing bar is provided with a series of slots, each slot capable of receiving one of said power means and said augers and guiding said power means and said augers as they traverse over said traversing bar.

5. An apparatus in accordance with claim 2 wherein said pressure means comprises a series oF hydraulic jacks, one of said jacks being secured on said pipe and directing pressure against the center of said supporting means and another of said jacks being located between the ends of said supporting means and said securing means.

6. An apparatus in accordance with claim 2 wherein said securing means consists of a slidable hydraulic slip and a bar, said bar running parallel to and being the same length as said supporting means, said slip being received on said pipe and attaching to said pipe to secure said drill means.