Combination mud motor flow diverter and tiled bearing, and bearing assemblies including same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E21B-004/02
E21B-004/00
출원번호
US-0494421
(2014-09-23)
등록번호
US-9279289
(2016-03-08)
발명자
/ 주소
Kerstetter, Scott
출원인 / 주소
RENEGADE MANUFACTURING, LLC
대리인 / 주소
Wendt, Jeffrey L.
인용정보
피인용 횟수 :
0인용 특허 :
94
초록▼
A mud motor radial bearing, a combination flow diverter and integral radial mud motor bearing, and a mud motor bearing assembly including the combination. The flow diverter includes a body defining threaded box ends, a concentric longitudinal bore, a generally cylindrical outer surface, and a longit
A mud motor radial bearing, a combination flow diverter and integral radial mud motor bearing, and a mud motor bearing assembly including the combination. The flow diverter includes a body defining threaded box ends, a concentric longitudinal bore, a generally cylindrical outer surface, and a longitudinal axis. The longitudinal bore fluidly connects the first and second threaded box ends. The first threaded box end connects to a pin of a transmission of a mud motor rotor, and the second threaded box end connects to a pin of a mandrel. A portion of the generally cylindrical outer surface of the body in a region of the second threaded box end has bonded thereto a bearing material. The bearing material includes a plurality of tungsten carbide portions surrounded by a hard metal alloy matrix binder.
대표청구항▼
1. A mud motor radial bearing comprising: a rotatable cylindrical steel support having a generally cylindrical outer surface, at least portions of the outer surface having bonded thereto a bearing material, the bearing material comprising a plurality of tungsten carbide portions surrounded by a hard
1. A mud motor radial bearing comprising: a rotatable cylindrical steel support having a generally cylindrical outer surface, at least portions of the outer surface having bonded thereto a bearing material, the bearing material comprising a plurality of tungsten carbide portions surrounded by a hard metal alloy matrix, the hard metal alloy matrix comprising at least one carbide selected from carbides of chrome, carbides of boron, and mixtures thereof, the remainder of the hard metal alloy matrix comprising a binder metal selected from iron, cobalt, nickel, and mixtures thereof; anda portion of a stationary cylindrical bearing housing having a generally cylindrical inner surface against which an outer surface of the bearing material interfaces as the rotatable cylindrical steel support rotates. 2. The mud motor radial bearing according to claim 1 wherein the at least one carbide is present at a weight percentage of at least 30 weight percent, based on total weight of the at least one carbide and binder. 3. The mud motor radial bearing according to claim 1 wherein the generally cylindrical outer surface of the rotatable cylindrical steel support comprises a reduced diameter portion in which the bearing material is positioned so that the bearing material outer surface is flush with the balance of the generally cylindrical outer surface of the rotatable cylindrical steel support. 4. The mud motor radial bearing according to claim 1 wherein the rotatable cylindrical steel support is a portion of a rotatable member of a mud motor bearing assembly. 5. The mud motor radial bearing according to claim 4 wherein the rotatable member of the mud motor bearing assembly is a flow diverter, and the portion is a box connection of the flow diverter. 6. The mud motor radial bearing according to claim 1 wherein the plurality of tungsten carbide portions are bonded to the generally cylindrical outer surface of the rotatable cylindrical steel support using a heat attachment method. 7. The mud motor radial bearing according to claim 6 wherein the heat attachment method comprises tack welding. 8. The mud motor radial bearing according to claim 1 wherein the plurality of tungsten carbide portions are solid cylinder-shaped having an outer diameter (OD) ranging from about 0.100 inch up to about 0.500 inch (2.54 mm to 12.7 mm). 9. The mud motor radial bearing according to claim 1 wherein the plurality of tungsten carbide portions are solid cylinder-shaped having height ranging from about 0.03 inch up to about 0.25 inch (0.762 mm to 6.35 mm). 10. A combination flow diverter and integral radial mud motor bearing comprising: a generally cylindrical flow diverter body defining first and second threaded box ends, a concentric longitudinal bore, a generally cylindrical outer surface, and a longitudinal axis;the longitudinal bore fluidly connecting first and second threaded box end bores, the first threaded box end bore configured to threadedly connect to a pin of a transmission of a mud motor rotor, the second threaded box end bore configured to threadedly connect to a pin of a mandrel;one or more flow diverter ports extending from the longitudinal bore to the outer surface of the body, fluidly connecting the longitudinal bore with an annulus between the outer surface and a mud motor housing and configured to route fluid from the annulus into the concentric longitudinal bore; andthe generally cylindrical outer surface of the body in a region of the second threaded box end having bonded thereto a bearing material, the bearing material comprising a plurality of tungsten carbide portions surrounded by a hard metal alloy matrix, the hard metal alloy matrix comprising at least one carbide selected from carbides of chrome, carbides of boron, and mixtures thereof, the remainder of the hard metal alloy matrix comprising a binder metal selected from iron, cobalt, nickel, and mixtures thereof. 11. The combination flow diverter and integral radial mud motor bearing of claim 10 wherein the second threaded box end bore is tapered, being smaller in diameter toward the longitudinal bore, the diameter increasing toward an exit of the second threaded box end bore. 12. The combination flow diverter and integral radial mud motor bearing of claim 10 wherein the at least one carbide is present at a weight percentage of at least 30 weight percent, based on total weight of the at least one carbide and binder. 13. The combination flow diverter and integral radial mud motor bearing of claim 10 wherein the plurality of tungsten carbide portions are bonded to the generally cylindrical outer surface of the second threaded box end using an adhesive system. 14. The combination flow diverter and integral radial mud motor bearing of claim 10 wherein the plurality of tungsten carbide portions are solid cylindrical-shaped having an outer diameter (OD) ranging from about 0.100 inch up to about 0.500 inch (2.54 mm to 12.7 mm), and having height ranging from about 0.03 inch up to about 0.25 inch (0.762 mm to 6.35 mm). 15. The combination flow diverter and integral radial mud motor bearing of claim 10 wherein the flow diverter ports are each positioned at an angle ranging from about 20 to about 70 degrees, the angle measured from a line perpendicular to the longitudinal axis to a line through a longitudinal axis of the port. 16. A mud motor bearing assembly comprising: a generally cylindrical housing;the combination flow diverter and integral radial mud motor bearing of claim 10 positioned within the housing;a generally cylindrical mandrel having a pin end fluidly connected to the second threaded box end of the flow diverter, and a box end configured to fluidly attach to a drill bit;a lower radial bearing comprising a heat shrink-fitted sleeve heat-shrunk onto a first portion of an outer surface of the mandrel; andone or more thrust bearings positioned in an annular space generally defined by a first portion of an inner surface of the housing, a second portion of the outer surface of the mandrel, the second box end of the flow diverter, and the lower radial bearing. 17. The mud motor bearing assembly of claim 16 wherein the tungsten carbide portions may be the same or different in size, shape, and position from region to region, and the tungsten carbide portions may have the same or different composition from region to region. 18. The mud motor bearing assembly of claim 16 further comprising a mandrel catch integral with the heat shrink-fitted sleeve. 19. The mud motor bearing assembly of claim 16 wherein the flow diverter has three ports arranged at 120 degree angles between them. 20. A mud motor bearing assembly comprising: a generally cylindrical housing;the combination flow diverter and integral radial mud motor bearing of claim 10 positioned within the housing;a generally cylindrical mandrel having a pin end fluidly connected to the second threaded box end of the flow diverter, and a box end configured to fluidly attach to a drill bit;a lower radial bearing comprising a sleeve threadedly connected to a first portion of an outer surface of the mandrel;a mandrel catch comprising a safety nut threadedly connected to the sleeve, the safety nut having a lower portion capable of interfering with an inner shoulder of the generally cylindrical housing; andone or more thrust bearings positioned in an annular space generally defined by a first portion of an inner surface of the housing, a second portion of the outer surface of the mandrel, the second box end of the flow diverter, and the lower radial bearing.
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