US3890018A - Rotary rock bit with wiper pad lubrication system - Google Patents

Abstract

A system is provided for circulating lubricant into the loaded contact area between the bearing pin and the rotating cutter of an earth boring bit. The cutter is mounted to rotate about the bearing pin. The cutter includes a cutter interior surface. At least one wiper pad cavity is located in the aforementioned interior surface of the cutter. A wiper pad is positioned in the wiper pad cavity and a resilient member is positioned beneath the wiper pad. As the cutter rotates, the wiper pad forces lubricant into the load area between the bearing pin and the interior surface of the cutter.

Description

United StatesPatent 1 June 17, 1975 Clamon ROTARY ROCK BIT WITH WIPER PAD LUBRICATION SYSTEM [75] Inventor: Robert Dale Clamon, Mesquite. Tex.

[73] Assignee: Dresser Industries. Inc., Dallas, Tex.

[22] Filed: July 19, 1974 [21] Appl. No.: 489,857

[52] US. Cl 308/8.2; 308/240 [51] Int. Cl. Fl6c 33/66 [58] Field of Search 308/82, 78, 101, 240; l75/37l [56] References Cited UNITED STATES PATENTS 3,235.3[6 2/1966 Whanger 308/81 3 6603.073 5/1972 Bronson 308/82 3,746,405 7/1973 Welton 308/82 3,845,994 11/1974 Trey 308/82 Primat' E.raminer-M. Henson Wood, Jr. Assistant ExaminerGene A. Church Attorney. Agent. or Firm-Eddie E. Scott [57] ABSTRACT A system is provided for circulating lubricant into the loaded contact area between the bearing pin and the rotating cutter of an earth boring bit. The cutter is mounted to rotate about the bearing pin. The cutter includes a cutter interior surface. At least one wiper pad cavity is located in the aforementioned interior surface of the cutter. A wiper pad is positioned in the wiper pad cavity and a resilient member is positioned beneath the wiper pad. As the cutter rotates, the wiper pad forces lubricant into the load area between the bearing pin and the interior surface of the cutter.

6 Claims, 5 Drawing Figures ROTARY ROCK BIT WITH WIPER PAD LUBRICATION SYSTEM BACKGROUND OF THE INVENTION The present invention relates to the art of earth boring and more particularly to a system for lubricating the bearings between the rotatable cutter and the bearing shaft of a rotary rock bit.

A rotary rock bit in general consists of a main bit body adapted to be connected to a rotary drill string. The bit includes at least one rotatable cutter mounted upon a bearing shaft extending from the main bit body with bearing systems between the cutter and the bearing shaft for promoting rotation of the cutter. Inserts or steel teeth on the surface of the cutter disintegrate the formations as the bit and cutter rotate and a seal between the cutter and the bearing shaft retains lubricant in the bearing area and prevents borehole fluids and debris from entering the bearing area.

The rotary rock bit must operate under very severe environmental conditions and the geometry of the bit is restricted by the operating characteristics. At the same time, the economies of petroleum production demand a longer lifetime and improved performance from the bit. In attempting to provide an improved bit, new and improved materials have been developed for the cutting structure of the cutter, thereby providing a longer useful lifetime for the cutter. This has resulted in the bearing systems being the first to fail during the drilling operation. Consequently, a need clearly exists for a system that will extend the useful lifetime of the bit.

DESCRIPTION OF PRIOR ART In U.S. Pat. No. 3,244,415 to J. E. Ortloff, patented Apr. 5, 1966, a lubricating system for extending the life of the bearings of a roller cone type bit is shown. Sealing means are provided to effectively separate or close off the clearance between the journal of the leg and the bearings of the roller cone from the exterior of the bit. A special pump means is provided to circulate the lubricating fluid under high pressure to this sealed-off clearance space. The pump means is actuated by the rotation of the roller cone element on the shaft.

In U.S. Pat. No. 3,251,634 to D. W. Dareing, patented May 17, 1966, a lubricating system for extending the life of the bearings of a roller cone type bit is shown. Sealing means are provided to effectively separate or close off the clearance or space between the journal of the leg and bearings of the roller cone from the exterior of the bit. An electrical pump means is provided to supply a lubricating fluid under high pressure to this sealed-off clearance space.

In U.S. Pat. No. 3,746,405 to Russell L. Welton, patented July 17, 1973, a well drilling bit lubrication system and seal is shown. A journal bearing lubrication means and a seal cooperatively combined therewith to maintain lubrication throughout the useful life of the roller cutter of a well drilling bit, to the exclusion of foreign materials entering therein from the drilling fluids and surrounding earth formations. A journal hearing of right cylinder form is provided, characterized by the formation of a strategically placed recess, or recesses therein, and all without subtracting from the load carrying capabilities of the bit; the assembly being retained in working condition by a single element combined with the lubrication means and assuring proper axial placement of the roller cutter.

U.S. Pat. No. 3,235,316 to J. R. Whanger, patented Feb. 15, 1966, shows a friction bearing of large load capacity between a pair of relatively rotatable members in which at least one of said members has a quantity of indentations extending from the bearing surface thereof. Said quantity of indentations is filled with a soft metal having anti-galling characteristics, and the balance of said bearing surface is a hard metal of high wear resistance, the hardness and wear resistance of said hard metal being comparable to those of a carburized and hardened steel.

SUMMARY OF THE INVENTION In order to extend the useful lifetime of the bearings of a rotary rock bit, the present invention provides a system for circulating lubricant into the loaded contact area between the bearing pin and the rotating bearing element within the cutter. Thebit includes a bit body with at least one bearing pin extending from said bit body. A rotatable cutter is mounted upon the bearing pin and the rotatable cutter has a cutter interior surface. Seal means are provided between the bit body and the rotatable cutter to provide a seal and prevent lubricant from escaping into the borehole and borehole fluids from entering the bearing area. Bearing means between the bearing pin and the rotatable cutter promote rotation of the cutter. At least one wiper cavity is located in the interior surface of the rotatable cutter. A wiper pad is positioned in the wiper cavity and a resilient member is positioned beneath the wiper pad. As the cutter rotates, the wiper pad forces lubricant into the load area between the bearing pin and the interior surface of the cutter. The above and other features of the present invention will become apparent from a consideration of the following detailed description of the invention when taken in conjunction with the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 shows one arm of a three cone rotary rock bit constructed in accordance with the present invention.

FIG. 2 shows a bearing element of the bit shown in FIG. 1.

FIG. 3 is a sectional view of a bearing pin and bearing element of another embodiment of the present invention.

FIG. 4 is a sectional view of a bearing pin and bearing element of another embodiment of the present invention.

FIG. 5 illustrates other embodiments of the present invention.

DETAILED DESCRIPTION OF THE INVENTION Referring now to the drawings and to FIG. 1 in particular, one arm of a three cone rotary rock bit is shown. The bit is generally designated by thereference number 10. Thebit 10 includes abit body 11 adapted to be connected to the lower end of a rotary drill string (not shown). Onearm 12 of the bits three arms is shown depending from thebit body 11. A cone cutter I3 is mounted upon a bearingpin 14 extending from thearm 12. Thecutter 13 includes cuttingstructure 15 on its outer surface. Cuttingstructure 15 is shown in the form of tungsten carbide inserts; however, it is to be understood that other cutting structures, such as steel teeth. may be used as the cutting structure on thecone cutter 13.

The cutter I3 is rotatably positioned on thebearing pin 14 and adapted to disintegrate the earth formations as the bit is rotated. The cuttingstructure 15 on the outer surface ofcutter 13 contacts and disintegrates formations in a manner that is well known in the art. A plurality of bearing systems are located in the bearing area between the cutter l3 and thebearing pin 14. The bearing systems in the bearing area include an outer friction bearing 16, a series ofball bearings 17, an inner friction bearing 18, and athrust button 19. An O-ring seal is positioned between the cutter l3 and thebearing pin 14. This seal retains lubricant in the bearing area around the bearing systems and prevents any materials in the well bore from entering the bearing area. The O-ring seal 20 prevents fluid flow in either direction.

Referring now to FIG. 2, the outerfriction bearing element 16 is shown in greater detail. Theinner surface 21 of the outerfriction bearing element 16 includes a multiplicity ofwiper cavities 22. A corresponding multiplicity ofwiper pads 23 are positioned in thewiper cavities 22. As shown in FIG. 1,spring elements 24 are positioned beneath thewiper pads 23 in thewiper pad cavities 22. Thespring elements 24 force thewiper pads 23 toward the bearingpin 14. Thespring elements 24 may be flat springs as shown or other resilient elements such as belville type springs or pads of resilient material.

The structural details of a bit constructed in accordance with the present invention having been described, the operation of the bit will now be considered with reference to FIGS. 1 and 2. In use. thebit 10 is connected as the lower member of a rotary drill string (not shown) and lowered into a well bore until the cone cutters engage the bottom of the well bore. Upon engagement with the bottom of the well bore, the drill string is rotated, rotatingbit 10 therewith. The cutters rotate upon the respective bearing pins. During the rotation of thecutter 13, thewipers 23 push lubricant into the load zone. As the wiper moves into the load zone, it is pressed into thewiper cavity 22 compressingspring 24 until thewipers 23 are flush with theinterior surface 21 of the outer friction bearing 16. When thewiper pad 23 passes the load area, thespring 24 moves thewiper pad 23 outward allowing thewiper pad 23 to project from theinterior surface 21 of the outer friction bearing 16 and push lubricant ahead of it. Lubricant generally accumulates in the area between bearingpin 14 and the outer friction bearing 16 on the unloaded side of the bearingpin 14. Lubricant is pulled from this area and pushed into the load Zone to maintain a film of lubricant in the critical area.

Referring now to FIG. 3, another embodiment of the present invention is illustrated. A sectional view of abearing pin 26 is shown with a bearing element 25 mounted upon thebearing pin 26. The bearing element 25 is adapted to fit within a cone cutter in the manner shown in FIG. 1. A section of the top of bearingpin 26 is relieved thereby providing a lubricant storage area. The top of the bearing pin is the unloaded portion of the bearingpin 26 wherein lubricant normally accumulates. A multiplicity ofwiper cavities 27 are machined in bearing element 25. A corresponding multiplicity ofwiper pads 28 are positioned in thewiper pad cavities 27. Aspring 29 is positioned in eachwiper pad cavity 27 to force thewiper pad 28 toward the bearingpin 26. As the cone cutter (not shown) and bearing element 25 rotate, thewiper pad 28 passes therelieved section 30 pushing stored lubricant ahead of thewiper pad 28. Thewiper pad 28 continues pushing the lubricant into the loaded side of the bearingpin 26. Thewiper pads 28 are forced into thecavities 27 against the force ofspring 29 until the wiper pads are flush with the surface of bearing element 25 as they pass the loaded side of the bearingpin 26.

Referring now to FIG. 4, another embodiment of the present invention is illustrated. A bearing pin 30A is shown in cross section with a bearingelement 31 mounted to rotate thereon. A multiplicity of cavities are formed in the interior surface of the bearingelement 31.Wiper pads 33 are positioned in thecavities 32. Thewiper pads 33 serve to force lubricant into the loaded side of the bearing pin 30A. Lubricant is channeled from a lubricant reservoir in the body of the bit through a passage 34 to the unloaded side of bearing pin 30A. Thewiper pads 33 pick up the lubricant and carry it to the loaded side of bearing pin 30A. The bearingelement 31 rotates clockwise on the bearing pin 30A shown in FIG. 4. Aportion 35 of the passage 34 is relieved. This enables thewiper pads 33 to provide a pumping action as they traverse the unloaded side of the bearing pin 30A.

Referring now to FIG. 5, various forms of wiper pad cavities are illustrated. The different forms of wiper pad cavities are shown in abearing element 36. The wiper pad cavities may be horizontal slots such asslots 37. In this form thewiper pads 38 push the lubricant directly around the bearing pin. The slots may be inclined in one direction as shown by theslots 39 or in a different direction as shown by theslots 40. By biasing the cavities in either direction, the wiper pads in the cavities will direct or pump the lubricant to other critical areas of the bit spaced from the bearingelement 36. In addition, the wiper pads may be made of a porous material for absorbing lubricant in the unloaded area and contributing a boundary film as it passes under the loaded side. The pads may also incorporate small pockets or include a corrugated configuration on the lead section of the wiper for the purpose of trapping greater amounts of fluid and forcing it into the loaded area.

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows:

1. A rotary rock bit comprising:

a bit body including a bearing pin;

a rotatable cutter mounted upon said bearing pin,

said rotatable cutter having a cutter interior surface;

at least one wiper pad cavity in said cutter interior surface; and

a wiper pad positioned in said wiper pad cavity.

2. The rotary rock bit ofclaim 1 including resilient means positioned within said wiper pad cavity for providing a force tending to push said wiper pad out of said wiper pad cavity.

3. The rotary rock bit ofclaim 2 including seal means between said bit body and said rotatable cutter for providing a seal between said rotatable cutter and said bit body.

4. A rotary rock bit comprising:

a bit body;

a bearing pin extending from said bit body;

pin, said rotatable cone cutter having a cutter interior surface;

seal means between said bit body and said rotatable cone cutter for providing a seal between said rotatable cone cutter and said bit body;

at least one wiper pad cavity in said cutter interior surface;

a wiper pad positioned in said wiper pad cavity; and

resilient means positioned within said wiper pad cavity between said wiper pad and said cutter.

Claims (6)

1. A rotary rock bit comprising: a bit body including a bearing pin; a rotatable cutter mounted upon said bearing pin, said rotatable cutter having a cutter interior surface; at least one wiper pad cavity in said cutter interior surface; and a wiper pad positioned in said wiper pad cavity.

2. The rotary rock bit of claim 1 including resilient means positioned within said wiper pad cavity for providing a force tending to push said wiper pad out of said wiper pad cavity.

3. The rotary rock bit of claim 2 including seal means between said bit body and said rotatable cutter for providing a seal between said rotatable cutter and said bit body.

4. A rotary rock bit comprising: a bit body; a bearing pin extending from said bit body; a rotatable cutter mounted upon said bearing pin; an interior surface on said rotatable cutter; at least one groove in said interior surface; and a wiper pad positioned in said groove.

5. The rotary rock bit of claim 4 including resilient means positioned in said groove for urging said wiper pad out of said groove.

6. A rotary rock bit comprising: a bit body, said bit body including at least one bearing pin; a rotatable cone cutter mounted upon said bearing pin, said rotatable cone cutter having a cutter interior surface; seal means between said bit body and said rotatable cone cutter for providing a seal between said rotatable cone cutter and said bit body; at least one wiper pad cavity in said cutter interior surface; a wiper pad positioned in said wiper pad cavity; and resilient means positioned within said wiper pad cavity between said wiper pad and said cutter.

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