Boring or penetrating the earth – Bit or bit element – Rolling cutter bit or rolling cutter bit element
Reexamination Certificate
1999-04-01
2001-10-23
Schoeppel, Roger (Department: 3672)
Boring or penetrating the earth
Bit or bit element
Rolling cutter bit or rolling cutter bit element
C277S323000, C277S407000, C277S589000, C277S944000, C175S057000
Reexamination Certificate
active
06305483
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to seals used for retaining the lubricant around a bearing journal in a rotary cone rock or mining drill bit used for drilling oil wells or the like. More particularly, this invention relates to seals having a multi-piece construction that provide an improved degree of temperature and friction resistance, thereby enhancing the service life of both the seal and bit.
BACKGROUND OF THE INVENTION
Rock bits are employed for drilling wells, blast holes, or the like in subterranean formations for oil, gas, geothermal steam, minerals, and the like. Such drill bits have a body connected to a drill string and a plurality, typically three, of hollow cutter cones mounted on the body for drilling rock formations. The cutter cones are mounted on steel journals or pins integral with the bit body at its lower end. In use, the drill string and/or the bit body are rotated in the bore hole, and each cone is caused to rotate on its respective journal as the cone contacts the bottom of the bore hole being drilled. As such a rock bit is used for drilling deep wells, tough formations, high pressures and temperatures are encountered.
When a drill bit wears out or fails as a bore hole is being drilled, it is necessary to withdraw the drill string for replacing the bit. The amount of time required to make a round trip for replacing a bit is essentially lost from drilling operations. This time can become a significant portion of the total time for completing a well, particularly as the well depths become great. It is therefore quite desirable to maximize the service life of a drill bit in a rock formation. Prolonging the time of drilling minimizes the time lost in “round tripping” the drill string for replacing the bits. Replacement of a drill bit can be required for a number of reasons, including wearing out or breakage of the structure contacting the rock formation.
One cause of rock bit failure is due to severe wear that occurs on journal bearings on which the cutter cones are mounted. These bearings can be friction or roller type bearings and can be subject to high pressure drilling loads, high hydrostatic pressures in the hole being drilled, and high temperatures due to drilling, as well as elevated temperatures in the formation being drilled. The journal bearings are lubricated with grease adapted to such severe conditions. The grease is retained within the rock bit, to lubricate the journal bearings, by a seal. The seal is typically in the form of a ring and includes a dynamic seal surface, that is placed in rotating contact against a journal surface, and a static seal surface, that is placed in contact against a cone surface. The seal must endure a range of different temperature and pressure conditions at the dynamic and static seal surfaces during the operation of the rock bit to prevent the grease from escaping and/or contaminants from entering and, thereby ensure that the journal bearings remain sufficiently lubricated.
Journal seals known in the art are typically provided in the form of an O-ring type seal made from exclusively rubber or elastomeric materials. While journal seals formed from such rubber or elastomeric materials display excellent sealing properties of elasticity and conformity to mating surfaces, they display poor tribiological properties, low wear resistance, a high coefficient of friction, and a low degree of high-temperature endurance and stability during operating conditions. Accordingly, the service life of rock bits equipped with such seals is defined by the limited ability of the elastomeric seal material to withstand the different temperature and pressure conditions at each dynamic and static seal surface.
Example O-ring seals known in the art that have been constructed in an attempt to improve O-ring seal service life include a multiple hardness O-ring comprising a seal body formed from nitrile rubber, and a hardened exterior skin surrounding the body that is formed by surface curing the exterior surface of the nitrile rubber. Although the patent teaches that the O-ring seal constructed in this manner displays improved hardness and abrasion resistance, the act of hardening the entire outside surface of the seal body causes the seal to loose compressibility and other related properties that are important to the seal's performance at the static seal surface.
Another example O-ring seal is a drill bit seal having a dynamic and static seal surface formed from different materials. The dynamic seal surface is formed from a relatively low friction material comprising a temporary coating of Teflon that is deposited onto a inside diameter surface of the seal. The static seal surface is formed from the same material that is used to form the seal body. The Teflon surface acts to improve the wear resistance of the seal at the dynamic seal surface. However, the use of Teflon on the dynamic seal surface only provides a temporary improvement in the coefficient of friction and easily wears away due to its low wear resistance.
A still other example O-ring seal is one comprising a dynamic seal surface, formed from a single type of elastomeric material, and that has a static seal surface that is formed from an elastomeric material different than that used to form the dynamic seal surface. The elastomeric materials used to form the static seal surface is less wear resistant than the elastomeric material used to form the dynamic seal surface, and the elastomeric materials forming the dynamic and static seal surfaces are bonded together by chemically cross-linking to form the seal body. Although such seal construction provides a improved wear resistance at the dynamic seal surface, when compared to single-elastomer seals, the amount of wear resistance that is provided is still limited to the ability of an elastomeric material. In such seal construction, the elastomeric materials used to form the static and dynamic seal surfaces, while being somewhat tailored to provide improved service at each such surface, must still remain chemically compatible with one another to permit the two to be chemically bonded together. Accordingly, while this type of seal construction provides a dynamic seal surface having improved wear resistance, when compared to a single-elastomer seal, the dynamic seal surface will still be the point of failure of the seal.
It is, therefore, desired that a journal seal be constructed in a manner that displays sealing properties that are equal to or better than those of seals formed exclusively from elastomeric materials. It is also desired that the seal construction display improved tribiological properties, improved wear resistance, a reduced coefficient of friction, and improved high-temperature endurance and stability when compared to conventional journal seals formed exclusively from elastomeric materials that are chemically cross-linked bonded together.
SUMMARY OF THE INVENTION
There is, therefore, provided in practice of this invention, multi-piece rotary cone drill bit seals, that include a dynamic sealing surface that is mechanically attached to a seal body independent of chemically bonding. Multi-piece seals of this invention comprise an annular seal body that is formed from a suitable energizing material, such as elastomers and rubbers. The seal body includes a static seal surface along one surface and a static energizing contacting surface along another of its surfaces. A remaining seal portion in the form of a seal jacket or seal cap is energized by the seal body along the contacting surface to provide a dynamic sealing surface thereto.
The seal jacket or cap is formed from a material that is different from the seal body and, more specifically, from a material that displays improved wear resistance when compared to the seal body. Suitable materials include those selected from the group including elastomeric materials, nonelastomeric materials, metallic materials, nonmetallic materials, and combinations thereof. A preferred seal jacket or cap material is a composite construction comprising a nonelastomeric poly
Christie Parker & Hale LLP
Schoeppel Roger
Smith International Inc.
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