US3303900A

US3303900A - Bore control device

Info

Publication number: US3303900A
Application number: US369801A
Authority: US
Inventors: Jr Joseph A Kloesel; James W Dixon
Original assignee: DRILCO OIL TOOLS Inc
Current assignee: DRILCO OIL TOOLS Inc
Priority date: 1964-05-25
Filing date: 1964-05-25
Publication date: 1967-02-14
Anticipated expiration: 1984-02-14

Description

1967 J. A. KLOESEL, JR., ETAL 3,303,900

BORE CONTROL DEVICE 2 Sheets-Sheet 1 Filed May 25, 1964 INVENTORS ATTORNEY 14, 1967 J. A. KLOESEL, JR, ETAL 3,303,900

BORE CONTROL DEVI CE 2 Sheets-Sheet 2 Filed' May 25, 1964 I NV E NTORS ATTORNEY United States Patent 3,303,901) BORE CONTROL DEVICE Joseph A. Kloesel, .lra, Midland, Tex., and James W. Dixon, Laurel, Miss, assignors to Drilco Oil Tools, Inc., Midland, Ten, a corporation of Texas Fiied May 25, 1964, Ser. No. 369,801 12 Claims. (Cl. 175339) This invention pertains to a bore control device used in earth boring apparatus of the rotary type. More specifically it pertains to such a device constituting a combination reamer-stabilizer useful in air drilling, especially in mining, wherein a plurality of cutter-centralizer rollers are rotatably mounted around the outer periphery of a tubular body adapted for insertion in the air drill string. A generally similar bore control device, but omitting the air venting system of the invention hereinafter described, is shown in the January 1963 issue of Mining Engineer wherein there is an advertisement for the Drilco Knobby reamer.

The objects of the invention are to keep grit out of the space between each roller and the shaft on which it is rotatably mounted, thereby to reduce wear and to prevent the roller from binding on the shaft, it being important that the roller turn during use, and to cool the roller and shaft so as to prevent softening thereof due to overheating.

According to the invention air passage means is provided to bleed a portion of the pressurized air from the drill string and deliver it to the space between each roller and the shaft on which it rotates. This air passage means preferably includes a transverse port in the tubular body of the bore control device adjacent a block mounted on the body in which block is disposed the lower end of the shaft on which the roller is mounted. An orifice plug of desired size is releasably secured in the body port. Communicating with the orifice in the plug are transverse passages through the block and shaft which in turn communicate with a longitudinal passage extending up the shaft to a point midway between the ends of the roller. The longitudinal passage in the shaft communicates at its upper end with a transverse passage eXtending to the outer periphery of the shaft at the side thereof. A flat area extends along the outer periphery of the shaft at the side thereof from the upper to the lower end of the roller providing a passage between shaft and roller communicating with the aforementioned transverse passage in the shaft that lies midway between the upper and lower ends of the shaft. Air is bled from the drill string through the orifice plug and continues through the air passage means just described into the annulus between roller and shaft and leaves at each end of the roller. The air flow leaving the annulus largely prevents the entrance of grit at the ends of the roller and carries away any grit that does find its way into the annulus, at the same time cooling the roller and shaft. This prolongs the life of the bore control device and reduces the frequency with which the rollers and shafts need be replaced.

Other objects and advantages of the invention will appear from the following description of a preferred embodiment and a modification thereof, reference being made i to the accompanying drawings wherein FIGURE 1 is an elevation showing a bore control device embodying the invention;

FIGURES 2 and 3 are fragmentary horizontal sections taken at planes 2-2 and 33 of FIGURE 1;

FIGURE 4 is a fragmentary horizontal section taken at planes 44 of FIGURE 1;

FIGURE 5 is a view similar to FIGURE 4 showing a modification;

FIGURE 6 is a fragmentary vertical section taken at plane 66 of FIGURE 4;

33%,900 Patented Feb. 14, 1957 ice FIGURE 7 is a fragmentary vertical section taken at plane 77 of FIGURE 5, and

FIGURE 8 is a view similar to FIGURES 4 and 5 showing another modification.

Referring now to FIGURE 1, the bore control device there shown comprises a tubular body 10 having a threaded pin 11 at its upper end and a threaded box 12 at its lower end, whereby the device can be connected in a drill string. The body 10 is recessed to accommodate a plurality of rollers 13 each mounted to rotate on a shaft 14 (see FIGURES 4- and 6). The lower end of each shaft 14- is mounted in an apertured block 15. As best shown in FIGURES 3 and 6, the block is dovetailed into the body 10 and has a slot 16 in its lower end to receive the flattened end or tang 17 of the shaft 14, thereby preventing the shaft from turning. The upper end of each shaft is mounted on an apertured block 20. As best shown in FIGURE 2, block 26 is dovetailed into body 10. Referring to FIGURE 6, a pin 22 is driven through block 2 3 and shaft 14 locking the shaft to the block.

Shoulders

24, 26 in body 11 bear against the upper end of block 20 and the lower end of block 15 respectively, thereby holding the blocks, shaft 14, and roller 13 against axial motion, there being just enough clearance to allow roller 13 to rotate freely on shaft 14.

In order to protect

blocks

15 and 20 against wear, their outer faces are coated with hard facing 30, 31, e.g. tungsten carbide. In order to protect the roller against wear and to provide a certain amount of cutting or crushing action, the rollers 13 are each provided with a plurality of tungsten carbide or other hard metal inserts 32.

By using blocks of different sizes and by using rollers of dilferent sizes, or both, it is possible to adapt the bore control device for different size bores whereby the rollers will contact the sides of the bore made by the drill bit therebelow, thereby maintaining the bore more nearly full gage and maintaining the axis of the drill string and the drill bit concentric with the bore so as to make a straight bore.

Referring now more particularly to FIGURE 6, tubular body 10 of the control device has an axial passage 50 extending therethrough from the pin 11 at the top to the box 12 at the bottom. It is through passage 50 that air pressure is supplied from the part of the boring apparatus disposed at the top of the bore down to the rotary drill bit at the bottom of the bore. The air cools the bit and then flows back up the bore in the annulus between the drill string and sides of the bore, carrying the cuttings from the bottom of the bore to the top. According to the invention a portion of the air in passage '50 is bled off through air passage means and supplied to the annulus between each roller 13 and its shaft 14. Such an air passage means is next to be described.

A transverse port 51 in body 10 extend from axial passage 51} to recess 52 in which block 15 is disposed. The radially outermost end of port 51 is threaded to receive screw plug 53. Plug 53 has an orifice 54 therethrough. For convenience of assembly and disassembly the plug 53 is provided with a hexagonal socket 55 adapted to receive an Allen wrench.

Block 15 has a transverse passage 58 extending therethrough from an exterior point on its surface in communication with orifice 54 to the inner surface of the bore that forms aperture '59 in which shaft 14 is disposed. The terminus of passage 58 is enlarged at 61 adjacent plug 53.

Shaft 14 is provided with a transverse passage 61 extending from the outer surface of shaft 14 adjacent passage 58 to the interior of shaft 14. An axial longitudinal passage 62 extends up from the inner end of passage 61 to a point about even with the mid-level of roller 13 where it connects with the inner end of transverse passage 63 (see also FIGURE 4). Passage 63 extends from the interior of shaft 14 to the exterior thereof where it communicates with passage 64. Passage 64 is formed at the surface of the shaft by a longitudinally disposed flat bevel extending from adjacent the upper end of the roller to adjacent the lower end thereof.

The passage 64, instead of being formed by a flat bevel could be formed by a convex or concave bevel or groove. Whether formed by a bevel or groove, concave, convex, or flat, the passage forms a relief in the otherwise generally cylindrical surface of the shaft. The passage 64 is formed at one side of shaft 14, viewing the control device from the outside and considering the nearest part of the shaft to the viewer as the front thereof and considering the part farthest from the viewer as the back thereof. The side of the shaft is in the neutral plane with respect to bending moments imposed on the shaft -by the roller when it contacts the sides of the bore in which the device is used. This location of the passage is desirable because if the passage is disposed at the back of the shaft the shaft is apt to crack, and if the passage is placed at the front of the shaft the bearing surface for the roller is reduced at the place of maximum pressure.

The passage 62 is conveniently formed by a bore extending in from one end of the shaft and closed at that end by means such as a welded plug 65. The passage 61 is preferably duplicated by an opposite passage 66 extending from passage 62 to the exterior of shaft 14 in a direct line with passage 61. With this added passage 66, the shaft can be turned 180 degrees after it has become worn, thereby presenting as the front of the shaft what was formerly the lightly loaded back of the shaft. The radially outer ends of

passages

61, 66 are enlarged at 67, 68 to insure full communication with passage 58 when in registry therewith.

It is apparent that the passage means could be redisposed so that the port 51 would be above roller 13 instead of below and the

passages

58, 61 be located in the upper block and upper end of the shaft. However, the disposition shown is preferred since the air after leaving orifice 54 reduces in velocity and any entrained dust will tend to drop out as the air flows up in passage 62. This is similar to the principle of the system of air purification disclosed in Patent Number 2,920,872. to George Bauer assigned to Hughes Tool Company relating to elimination of water from an air water mixture before supplying the air to a drill bit. In the present case by cleaning the air in this manner before supplying it to the space between shaft 14 and roller 13, wear is reduced.

Since different pressures of air may be used in boring different sizes and depths holes, it is an advantageous feature of the invention that the orifice can be easily changed to any desired size (or completely blocked off) by substituting different orifice plugs 53.

In use, the air from the drill string, after passing through orifice 54 and the rest of the passage means, including that provided by flat bevel 64, spreads out in the annulus provided by the clearance between the roller and shaft and flows up and down to emerge at the ends of the roller, carrying away with it any grit which may have found its way into the annulus and to a large extent preventing the entrance of such grit into the annulus. The air also cools the roller and shaft. In this latter regard it is to be noted that if the roller and shaft are not cooled they get so hot that they turn blue, indicating the temperature has exceeded 600 to 800 degrees F. and that the steel forming the roller and shaft has been softened, thereby making the roller and shaft less able to resist wear.

It is apparent that instead of putting the fiat bevel 64 on the shaft 14, a longitudinal passage could 'be provided on the inner surface of roller 13, with a circular groove on the inner surface of the roller maintaining the longitudinal passage in constant communication with the transverse passage 63 of the shaft. However, the disposition of passages shown with the flat bevel on the shaft is preferred, for the roller is subjected to cyclically reversing stresses at it rotates. It would weaken the roller if it were provided with a groove on its .inner surface, and tend to produce early failure. Also, any passage in the roller would necessarily be a groove, concentrating stress, whereas the passage on the shaft can be a bevel, flat or even convex in cross-section, although it too can be a concave bevel or groove if desired.

The air ventilation of the roller-shaft annulus is especially important where the roller is provided with tungsten carbide pellets as shown. These pellets not only protect the roiler against wear but do a certain amount of reaming producing added detritus which would tend to lodge in the roller-shaft annulus were it not for the air ventilation system.

FIGURES 5 and 7 show a modified form of the invention wherein the component parts of the passage means supplying the air to the roller-shaft annulus are slightly different. Parts of the bore control device shown in FIGURES 5 and 7 that are the same or similar to those of the first described embodiment are given the same number plus and need not be redescribed in detail. The essential difference is that the flat bevel 64 at the side of the shaft 14 is replaced by a groove 164 at the back of shaft 114. Groove 16% extends down the shaft 114 below roller 113 to communicate directly with the transverse passage 161 in the block 115.

FIGURE 8 shows a further modification of the invention wherein the component parts of the passage means supplying the air to the roller-shaft annulus differ slightly from those in the previously described embodiments. Parts of the bore control device shown in FIGURE 8 that are the same or similar to those of the first described embodiment are given the same number plus 200 and need not be redescribed in detail. The essential difference is that the fiat bevel 64 at the side of the shaft is replaced by a groove 264 at the side of the shaft. Longitudinal groove 264 communicates at its lower end with an annular groove 270 around the outer periphery of shaft 214-. Annular groove 270 is in communication with the transverse passage in the block at the lower end of shaft 214, said transverse passage being the same as passage 61 in FIGURE 6 (and passage 161 in FIGURE 7). Groove 264 is the same as groove 164 of FIGURE 7 except that it is at the side of the shaft rather than the back. With the FIGURE 8 arrangement, when shaft 214 becomes worn on its front side, it can be turned degrees and replaced still leaving groove 264 in communication with the transverse passage 61, the same as in the FIGURE 4 embodiment. Also, as in the FIGURE 4 embodiment, the groove 264 is in the desirable position at the side of the shaft, rather than at the front or back thereof.

It is of course possible to use a wide variety of air passage means to accomplish the ventilation of the rollerannulus space. However, although many forms of liquid and grease passage means for lubrication of rollers and shafts are known in a variety of equipment, see for example those shown in US. Patent 3,026,693 to J. T. Benz on a Kelly Bushing and the patents cited against same, the throttled air ventilation passage means of the roller-shaft annulus of a bore control device as shown herein is not to be confused therewith. Air is an elastic material as distinct from liquids and grease.

While preferred embodiments of the invention and various modifications thereof have been disclosed, many other modifications thereof can be made by one skilled in the art without departing from the spirit of the invention.

That being claimed is:

1. A bore control device adapted for use in an earth boring tubular drill string wherein compressed air flows down the drill string toward a drill bit at the lower end thereof and flows back up the annulus between the string and earth bore carrying away the cuttings, comprising a tubular body having means at its ends adapted for connection to other members of a drill string,

a shaft mounted on the exterior of the body,

a roller mounted on the shaft with clearance therebetween to permit the roller to rotate freely on the shaft, said roller being adapted to contact the sides of an earth bore, and

air passage means connecting the interior of the tubular body with the space formed by the clearance between the roller and shaft, said air passage means terminating in a passage at the surface of the shaft extending from adjacent one end of the roller to adjacent the other end thereof, said terminal passage being formed by a substantially flat bevel on the shaft extending in a straight line along the length thereof.

2. Combination of claim 1 wherein the tubular. body is adapted for connection to other members of a drill string, as aforesaid, by means of a threaded pin at one end thereof which thus constitutes the upper end of the device and by means of a threaded box at the other end thereof which thus constitutes the lower end thereof, and said air passage means includes a longitudinal passage in the shaft in communication with said clearance space between shaft and roller and extending down from levels adjacent the roller to a level below the roller where it is in communication with the interior of the tubular body.

3. Combination of claim 1 wherein said passage means includes a transverse passage in said shaft extending from said bevel to the interior of the shaft, a longitudinal passage in the interior of the shaft extending from said transverse passage beyond one end of the roller, a second transverse passage in said shaft connecting to said interior longitudinal passage where it extends beyond the end of the roller, a port in said body, said second transverse passage being in communication with said port.

4. Combination of claim 3 wherein said bevel is disposed at one side of the shaft at a radial distance from the axis of the tubular body midway between the minimum and maximum distances from the body axis to roller periphery.

5. Combination of claim 4 wherein said passage means includes a transverse passage in said shaft extending from said bevel to the interior of the shaft, a longitudinal passage in the interior of the shaft extending from said transverse passage beyond one end of the roller, a pair of axially aligned transverse passages in said shaft connecting to said interior longitudinal passage where it extends beyond the end of the roller, said pair of passages each extending to the outer periphery of the shaft, a port in said body and releasable means holding said shaft with a selected one of said pair of passages in communication with said port.

6. A bore control device adapted for use in an earth boring tubular drill string wherein compressed air flows down the drill string toward a drill bit at the lower end thereof and flows back up the annulus between the string and earth bore carrying away the cuttings, comprising a tubular body having means at its ends adapted for connection to other members of a drill string,

a shaft mounted on the exterior of the body,

air passage means connecting the interior of the tubular body with the space formed by the clearance between the roller and shaft, said air passage means terminating in a passage at the surface of the shaft extending from adjacent one end of the roller to adjacent the other end thereof, said terminal passage being formed by a relief in the surface of the shaft, and said passage means including an annular groove around the outer periphery of the shaft near one end thereof in communication with said terminal passage and a port in said body in communication with said annular groove.

7. Combination according to claim 6 with releasable means holding said shaft selectively in one of either of the two positions wherein said groove forming the terminal passage is at a radial distance from the axis of the tubular body midway between the minimum and maximum distances from the body axis to the roller periphery.

8. A bore control device adapted for use in an earth boring tubular drill string wherein compressed air flows down the drill string toward a drill bit at the lower end thereof and flows back up the annulus between the string and earth bore carrying away the cuttings, comprising a tubular body having means at its ends adapted for connection to other members of a drill string,

a shaft mounted on the exterior of the body,

air passage means connecting the interior of the tubular body with the space formed by the clearance between the roller and shaft, said air passage means terminating in a passage at the surface of the shaft extending from adjacent one end of the roller to adjacent the other end thereof, said terminal passage being formed by a relief in the surface of the shaft at the side thereof nearest the :body axis and extending along the shaft beyond an end of the roller, said passage means further including a port in the tubular body in communication with said terminal passage where it extends beyond the end of the roller.

9. Combination of claim 8 wherein the tubular body is adapted for connection to other members of a drill string, as aforesaid, by means of a threaded pin at one end thereof which thus constitutes the upper end of the device and by means of a threaded box at the other end thereof which thus constitutes the lower end thereof, the end of the roller beyond which said relief in the shaft extends is the lower end of the roller, said relief extending down from levels adjacent the roller to a level below the roller where it is in communication with the interior of the tubular body through said port, said port being below the lower end of the roller.

10. A bore control device adapted for use in an earth boring tubular drill string wherein compressed air flows down the drill string toward a drill bit at the lower end thereof and flows back up the annulus between the string and earth bore carrying away the cuttings, comprising a tubular body having means at its ends adapted for connection to other members of a drill string, said connection means comprising a threaded pin at one end of the body which thus constitutes the upper end of the device and by means of a threaded box at the other end of the body which thus constitutes the lower end of the device,

a vertical shaft mounted on the exterior of the body above said box and below said pin, said shaft having a generally cylindrical outer periphery,

a tubular roller having a generally cylindrical inner periphery mounted on the shaft with clearance between the outer periphery of the shaft and the inner periphery of the roller to permit the roller to rotate freely on the shaft, said roller having a plurality of sockets in its outer periphery and being provided with tungsten carbide inserts in said sockets extending outwardly beyond said outer periphery adapted to contact the sides of an earth bore, and

air passage means connecting the interior of the tubular body with the space formed by the clearance between the roller and shaft, air flowing from the interior of the tubular body clearing said clearance space of detritus formed by said inserts contacting the sides of the earth bore which detritus tends to fall into said clearance space, said air passage means terminating in a passage at the surface of the shaft extending from adjacent one end of the roller to adjacent the other end thereof, said terminal passage being formed by a relief of the surface of the shaft at the outer periphery thereof leaving said inner periphery of the roller intact to provide full support for said inserts.

11. Combination of claim 10 wherein said air passage means includes a port in said body below said roller having flow restricting orifice means therein and flow passage means in communication with said port extending into said shaft at the lower port thereof below said roller and extending upwardly in said shaft into communication with said terminal passage, whereby air leaving said orifice means slows down and drops heavy particles therefrom before entering said clearance space between said roller and shaft.

12. A bore control device adapted for use in an earth boring tubular drill string wherein compressed air flows down the drill string toward a drill bit at the lower end thereof and flows back up the annulus between the string and earth bore carrying away the cuttings, comprising a tubular body having means at its ends adapted for connection to other members of a drill string,

a shaft mounted on the exterior of the body,

a roller mounted on the shaft with clearance therebetween to permit the roller to (rotate freely on the shaft, said roller being adapted to contact the sides of an earth bore, and

air passage means connecting the interior of the tubular body with the space formed by the clearance between the roller and shaft, said air passage means terminating in a passage at the surface of the shaft extending from adjacent one end of the roller to adjacent the other end thereof, said terminal passage being disposed longitudinally along the surface of the shaft at one side thereof at a radial distance from the axis of the tubular body midway between the minimum and maximum distances from the body axis to the roller periphery.

References Cited by the Examiner UNITED STATES PATENTS 1,607,937 11/1926 Aldrin 175- 347 2,056,498 10/1936 Wright 175347 2,094,855 10/1937 Smith 175-339 X 2,713,913 7/1955 Ragan 175410 X 2,861,780 1l/1958 Butler l75337 X CHARLES E. OCONNELL, Primary Examiner.

N. C. BYERS, Assistant Examiner.

Claims

1. A BORE CONTROL DEVICE ADAPTED FOR USE IN AN EARTH BORING TUBULAR DRILL STRING WHEREIN COMPRESSED AIR FLOWS DOWN THE DRILL STRING TOWARD A DRILL BIT AT THE LOWER END THEREOF AND FLOWS BACK UP THE ANNULUS BETWEEN THE STRING AND EARTH BORE CARRYING AWAY THE CUTTINGS, COMPRISING A TUBULAR BODY HAVING MEANS AT ITS ENDS ADAPTED FOR CONNECTION TO OTHER MEMBERS OF A DRILL STRING, A SHAFT MOUNTED ON THE EXTERIOR OF THE BODY, A ROLLER MOUNTED ON THE SHAFT WITH CLEARANCE THEREBETWEEN TO PERMIT THE ROLLER TO ROTATE FREELY ON THE SHAFT, SAID ROLLER BEING ADAPTED TO CONTACT THE SIDES OF AN EARTH BORE, AND AIR PASSAGE MEANS CONNECTING THE INTERIOR OF THE TUBULAR BODY WITH THE SPACE FORMED BY THE CLEARANCE BETWEEN THE ROLLER AND SHAFT, SAID AIR PASSAGE MEANS TERMINATING IN A PASSAGE AT THE SURFACE OF THE SHAFT EXTENDING FROM ADJACENT ONE END OF THE ROLLER TO ADJACENT THE OTHER END THEREOF, SAID TERMINAL PASSAGE BEING FORMED BY A SUBSTANTIALLY FLAT BEVEL ON THE SHAFT EXTENDING IN A STRAIGHT LINE ALONG THE LENGTH THEREOF.