A drilling apparatus including a drill bit and a bearing pack.
A downhole drilling assembly is typically connected to a lower end of a drill string in order to conduct drilling operations in a borehole. A downhole drilling assembly may be comprised of equipment including, but not limited to, drill collars, stabilizers, reamers, sensors, LWD/MWD communication systems, and/or one or more drilling apparatus.
A drilling apparatus in a downhole drilling assembly may be comprised of apparatus including, but not limited to, a downhole drilling motor, a rotary steerable tool, a steering tool, or a combination of such apparatus. A drill bit is typically included at a lower end of the drilling apparatus. A bearing pack typically transmits forces between the drill bit and a housing of the drilling apparatus.
It is widely accepted that a drilling apparatus that is as short as possible may provide many potential advantages, particularly when the drilling apparatus includes a bend and is used for directional drilling. Drilling holes with a higher rate of curvature, extending bearing life and improving toolface control are among some of the potential benefits of a relatively short drilling apparatus. Drilling in rotary mode with a drilling apparatus including a bend may also be possible with larger bend angles if the drilling apparatus is relatively short.
References in this document to orientations, to operating parameters, to ranges, to lower limits of ranges, and to upper limits of ranges are not intended to provide strict boundaries for the scope of the invention, but should be construed to mean “approximately” or “about” or “substantially”, within the scope of the teachings of this document, unless expressly stated otherwise.
The present invention is directed at configurations of a drill bit and a bearing pack in a drilling apparatus. The present invention is also directed at a drilling apparatus which is comprised of a drill bit and a bearing pack associated with the drill bit.
In some embodiments, the invention may potentially facilitate a reduction in the length of the drilling apparatus in comparison with prior art drilling apparatus.
The drilling apparatus may be any structure, device or apparatus or combination of structures, devices and apparatus which may be used in drilling boreholes and which includes a drill bit and a bearing pack. By way of non-limiting examples, in some embodiments the drilling apparatus may be comprised of, may consist of, or may consist essentially of components of a downhole drilling motor, a steering tool, or a rotary steerable tool.
In some embodiments, the drilling apparatus may be comprised of a housing so that the bearing pack transmits radial and/or axial forces between the drill bit and the housing.
In some embodiments, the drilling apparatus may be further comprised of a drive mechanism directly or indirectly connected with the drill bit, for driving the drill bit. The drive mechanism may be comprised of any structure, device or apparatus which is capable of directly or indirectly exerting a drive force on the drill bit. In some embodiments, the drive mechanism may drive the drill bit by rotating the drill bit.
In some embodiments, the drilling apparatus may be comprised of components of a downhole drilling motor and the drive mechanism may be comprised of or may be connected with one or more components of the downhole drilling motor.
In some embodiments, the drilling apparatus may be comprised of components of a steering tool or a rotary steerable tool and the drive mechanism may be comprised of or may be connected with one or more components of the steering tool or the rotary steerable tool.
In some embodiments, the drive mechanism may be comprised of or may be connected with one or more components of a drill string which is driven by a surface motor.
The drive mechanism of the drilling apparatus may be comprised of, may consist of, or may consist essentially of any suitable structure, device or apparatus or combination of suitable structures, devices or apparatus.
In some embodiments, the drive mechanism of the drilling apparatus may be comprised of a power section and a transmission. The power section may be comprised of any suitable structure, device or apparatus, including but not limited to a positive displacement (i.e., Moineau type) motor, a fluid driven turbine, or an electrical motor. The transmission may be comprised of any suitable structure, device or apparatus, including but not limited to a constant velocity assembly or a flex shaft.
In some embodiments in which the drilling apparatus may, be comprised of components of a downhole drilling motor, the drill bit and the bearing pack may replace the bearing section which is typically included below the transmission in a prior art drilling motor. In some such embodiments, the drill bit may be adapted to be connected either directly or indirectly with the transmission of the drilling motor.
In some embodiments, the drill bit may have a head end, a connection end, and a bearing mandrel between the head end and the connection end. In some embodiments, the bearing pack may be associated with the bearing mandrel.
In some embodiments, the drill bit may be adapted to be connected directly with the transmission of a drilling apparatus. For example, in some embodiments, the drill bit may be adapted to be connected directly or indirectly with a universal joint, constant velocity assembly or flex shaft of a downhole drilling motor, thereby eliminating the drive shaft which is typically connected between the transmission of a downhole drilling motor and a drill bit.
The bearing pack is comprised of at least one bearing. In some embodiments, the bearing pack may be comprised of one or more thrust bearings and/or one or more radial bearings. In some embodiments, the bearings may be interposed between the drill bit and a housing of the drilling apparatus. In some embodiments, the bearings may also be interposed between inner and outer portions of the drill bit. In some embodiments, the drill bit and a housing of the drilling apparatus may provide one or more complementary bearing surfaces for the bearings.
In some embodiments, a lower end of a housing of the drilling apparatus may be comprised of a housing adapter for adapting the housing for use with the drill bit and the bearing pack of the invention. In some embodiments, the drill-bit and the housing adapter may provide one or more complementary bearing surfaces for the bearings.
In some embodiments, the drilling apparatus may include a bend. In some embodiments, the bend may be provided by the housing. In some embodiments, the bend may be provided by a lower end of the housing. In some embodiments, the bend may be provided by a housing adapter at a lower end of the housing. In some embodiments, the bend may be adjustable either while the drilling apparatus is at the ground surface or while the drilling apparatus is deployed in a borehole.
In an exemplary aspect, the invention is a drilling apparatus comprising:
The bearing pack may be comprised of any number of bearings. In some embodiments, the bearing pack may be comprised of at least one radial bearing interposed between the bearing mandrel and the housing. In some embodiments, the bearing pack may be comprised of at least one thrust bearing interposed between the bearing mandrel and the housing. In some embodiments, the bearing pack may be comprised of at least one radial bearing interposed between the bearing mandrel and the housing and at least one thrust bearing interposed between the bearing mandrel and the housing.
The drill bit may be configured in any manner to provide the head end, the connection end, and the bearing mandrel.
In some embodiments, the bearing mandrel and the housing may provide bearing surfaces for the bearings of the bearing pack. The bearing surfaces may be provided in any suitable manner. The bearing surfaces may be comprised of radial bearing surfaces for the radial bearings and thrust bearing surfaces for the thrust bearings.
In some embodiments, the drilling apparatus may be further comprised of one or more bearing collars on the bearing mandrel for providing one or more thrust bearing surfaces on the bearing mandrel. The one or more bearing collars may be associated with the bearing mandrel in any suitable manner. In some embodiments, the one or more bearing collars may be threadably connected with the bearing mandrel. In some embodiments, the one or more bearing collars may be connected with the bearing mandrel with one or more set screws.
In some embodiments, the drill bit may be comprised of an outer drill bit portion and an inner drill bit portion. In some embodiments, a bit annular space may be defined between the outer drill bit portion and the inner drill bit portion. In some embodiments, the bit annular space may extend along at least a portion of the bearing mandrel. In some embodiments, the housing lower end may be received within the bit annular space.
In some embodiments in which the drill bit is comprised of an outer drill bit portion and an inner drill bit portion, at least one bearing of the bearing pack may be contained in the bit annular space. In some such embodiments, at least one radial bearing may be contained in the bit annular space.
In some embodiments in which the drill bit is comprised of an outer drill bit portion and an inner drill bit portion and the drilling apparatus is comprised of one or more bearing collars on the bearing mandrel, the one or more bearing collars may be associated with the inner drill bit portion. The one or more bearing collars may be associated with the inner drill bit portion in any suitable manner. In some embodiments, the one or more bearing collars may be threadably connected with the inner drill bit portion. In some embodiments, the one or more bearing collars may be connected with the inner drill bit portion with one or more set screws.
In some embodiments in which the drill bit is comprised of an outer drill bit portion and an inner drill bit portion, the drilling apparatus may be further comprised of a bearing retainer for maintaining the at least one bearing in the bit annular space. In some embodiments, the bearing retainer may be connected with the outer drill bit portion. The bearing retainer may be connected with the outer drill bit portion in any manner. In some embodiments, the bearing retainer may be threadably connected with the outer drill bit portion.
The outer drill bit portion and the inner drill bit portion may be comprised of a single component or may be comprised of separate components. In embodiments in which the outer drill bit portion and the inner drill bit portion are comprised of separate components, the outer drill bit portion and the inner drill bit portion may be configured and connected together in any suitable manner.
In some embodiments in which the outer drill bit portion and the inner drill bit portion are comprised of separate components, the inner drill bit portion may be received within the outer drill bit portion. In such embodiments, the outer drill bit portion may define a socket and the inner drill bit portion may be received within the socket of the outer drill bit portion.
In some embodiments in which the outer drill bit portion and the inner drill bit portion are comprised of separate components, the outer drill bit portion and the inner drill bit portion may be connected together so that relative rotation and/or relative axial movement of the outer drill bit portion and the inner drill bit portion are inhibited or prevented.
In some embodiments in which the outer drill bit portion and the inner drill bit portion are comprised of separate components, the outer drill bit portion and the inner drill bit portion may be comprised of complementary splines for inhibiting or preventing relative rotation of the outer drill bit portion and the inner drill bit portion.
In some embodiments in which the outer drill bit portion and the inner drill bit portion are comprised of separate components, relative axial movement of the outer drill bit portion and the inner drill bit portion may be inhibited or prevented by the at least one bearing contained in the bit annular space and by the bearing retainer.
Embodiments of the invention will now be described with reference to the accompanying drawings, in which:
Exemplary embodiments of a drilling apparatus according to the invention, including a drill bit and a bearing pack, are described with reference to
A first exemplary embodiment of a drilling apparatus according to the invention is depicted in
A second exemplary embodiment of a drilling apparatus according to the invention is depicted in
A third exemplary embodiment of a drilling apparatus according to the invention is depicted in.
Components of the drilling apparatus which are depicted in
In the description of the exemplary embodiments which follows, parts and features of one exemplary embodiment which are identical to or analogous to parts and features in other exemplary embodiments may be indicated with a common reference number.
In all of the exemplary embodiments depicted in
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In the exemplary embodiments, the power section (32) is a progressing cavity power section (32) which comprises a rotatable rotor (40) within a stator (42). In the exemplary embodiments, the stator (42) provides a power section housing (44) of the drilling apparatus (20). The rotor (40) is driven by fluid (not shown) which is circulated through the drilling apparatus (20).
The rotor (40) rotates eccentrically within the stator (42). The transmission (34) has a transmission input end (36) and a transmission output end (38). The rotor (40) is connected with the transmission input end (36).
In the exemplary embodiments, the transmission (34) is comprised of a constant velocity assembly. In other embodiments, the transmission (34) may be comprised of a flex shaft or some other suitable structure, device or apparatus.
The transmission (34) converts the eccentric rotation of the rotor (40) at the transmission input end (36) into a non-eccentric rotation at the transmission output end (38). In the exemplary embodiments, the transmission (34) is contained within a transmission section housing (44) of the drilling apparatus (20).
In the exemplary embodiments, the power section housing (44) and the transmission section housing (46) are separate components of the housing (22) which are threadably connected together. In other embodiments, the power section housing (44) and the transmission section housing (46) may be connected together in some other manner or may be constructed as a single component
In a conventional drilling apparatus, the transmission output end (38) may be connected with one or more lengths of shaft (not shown) which are interposed between the transmission (34) and the drill bit (24) in a conventional drilling apparatus, the one or more lengths of shaft may be supported within a bearing section (not shown) of the drilling apparatus, which transmits axial and radial forces between the one or more lengths of shaft and the housing (22) of the drilling apparatus.
In the exemplary embodiments of the drilling apparatus (20), the transmission output end (38) is connected directly with the drill bit (24), thereby eliminating the one or more lengths of shaft which are interposed between the transmission (34) and the drill bit (24). As a result, in the exemplary embodiments, the bearing section of a conventional drilling apparatus is replaced with the bearing pack (26), which bearing pack (26) is associated with the drill bit (24).
More particularly, in the exemplary embodiments depicted in
In the exemplary embodiments depicted in
In the exemplary embodiments, the power section (32) and the transmission (34) are components of a drive mechanism for the drilling apparatus (20). In the exemplary embodiments depicted in
The first exemplary embodiment of the drilling apparatus (20) is now described with reference to
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In the first exemplary embodiment as depicted in
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In the first exemplary embodiment, the bearing pack (26) is comprised of an upper radial bearing (90), a lower radial bearing (92), an on-bottom thrust bearing (94), and an off-bottom thrust bearing (96). The upper radial bearing (90), the lower radial bearing (92) and the on-bottom thrust bearing (94) are contained within the bit annular space (80), and are interposed between the bearing mandrel (64) and the housing adapter (82). The off-bottom thrust bearing (96) is not contained within the bit annular space (80), but is interposed between the bearing mandrel (64) and the housing adapter (82).
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In the first exemplary embodiment, the on-bottom thrust bearing (94) is interposed between complementary thrust bearing surfaces comprising a bearing shoulder (104) on the inner drill bit portion (72) and a tip (106) of the housing lower end (50). When a compression load is applied to the head end (60) of the drill bit (24) when the drill bit (24) is “on-bottom”, the load is transmitted from the bearing shoulder (104), through the on-bottom thrust bearing (94), and into the housing adapter (82).
In the first exemplary embodiment, the off-bottom thrust bearing (96) is interposed between complementary thrust bearing surfaces comprising a bearing shoulder (108) on the housing adapter (82) and a bearing collar (110) which is threadably connected with the inner drill bit portion (72) on the bearing mandrel (64). When the drill bit (24) is “off-bottom”, the weight of the rotor (40), the transmission (34) and the drill bit (24) is transmitted from the bearing collar (110), through the off-bottom thrust bearing (96), and into the housing adapter (82).
In the first exemplary embodiment, the drilling apparatus (20) may be provided with an amount of “bearing play” to enable the drill bit (24) to move axially a slight amount relative to the housing adapter (82) in order to exert loads on the on-bottom thrust bearing (94) and the off-bottom thrust bearing (96), as required. The bearing play may be provided as a gap, or spring elements (not shown) may be included in the drilling apparatus (20) to cushion and/or absorb the bearing play.
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The second exemplary embodiment of the drilling apparatus (20) is now described with reference to
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In the second exemplary embodiment, the bearing pack (26) is comprised of a lower radial bearing (130), an on-bottom thrust bearing (132), and an off-bottom thrust bearing (134). The bearings (130, 132, 134) are interposed between the bearing mandrel (64) and the housing adapter (82).
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The outer radial bearing (136) is mounted on the bearing retainer (112) and the inner radial bearing (138) is mounted on the bearing mandrel (64). The outer radial bearing (136) and the inner radial bearing (138) provide complementary radial bearing surfaces for the lower radial bearing (130). In the second exemplary embodiment, the lower radial bearing (130) may be comprised of a diamond bearing.
Referring to
In the second exemplary embodiment, the on-bottom thrust bearing (132) is interposed between complementary thrust bearing surfaces comprising a bearing shoulder (142) on the housing adapter (82) and the bearing collar (110). When a compression load is applied to the head end (60) of the drill bit (24) when the drill bit (24) is “on-bottom”, the load is transmitted from the bearing collar (110), through the on-bottom thrust bearing (132), and into the housing adapter (82).
In the second exemplary embodiment, the off-bottom thrust bearing (134) is interposed between complementary thrust bearing surfaces comprising the end of the bearing retainer (112) and the bearing collar (110). When the drill bit (24) is “off-bottom”, the weight of the rotor (40), the transmission (34) and the drill bit (24) is transmitted from the bearing collar (110), through the off-bottom thrust bearing (134), into the bearing retainer (112), and into the housing adapter (82).
In the second exemplary embodiment, the drilling apparatus (20) may be provided with an amount of “bearing play” to enable the drill bit (24) to move axially a slight amount relative to the housing adapter (82) in order to exert loads on the on-bottom thrust bearing (132) and the off-bottom thrust bearing (134), as required. The bearing play may be provided as a gap, or spring elements (not shown) may be included in the drilling apparatus (20) to cushion and/or absorb the bearing play.
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The third exemplary embodiment of the drilling apparatus (20) is now described with reference to
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In the third exemplary embodiment, the on-bottom thrust bearing (152) is interposed between complementary thrust bearing surfaces comprising a bearing shoulder (162) on the housing adapter (82) and a bearing shoulder (164) on the drill bit (24). When a compression load is applied to the head end (60) of the drill bit (24) when the drill bit (24) is “on-bottom”; the load is transmitted from the drill bit (24), through the on-bottom thrust bearing (152), and into the housing adapter (82).
In the third exemplary embodiment, the off-bottom thrust bearing (154) is interposed between complementary thrust bearing surfaces comprising a bearing shoulder (166) on the housing adapter (82) and the bearing collar (110). When the drill bit (24) is “off-bottom”, the weight of the rotor (40), the transmission (34) and the drill bit (24) is transmitted from the bearing collar (110), through the off-bottom thrust bearing (154), and into the housing adapter (82).
In the third exemplary embodiment, the drilling apparatus (20) may be provided with an amount of “bearing play” to enable the drill bit (24) to move axially a slight amount relative to the housing adapter (82) in order to exert loads on the on-bottom thrust bearing (152) and the off-bottom thrust bearing (154), as required. The bearing play may be provided as a gap, or spring elements (not shown) may be included in the drilling apparatus (20) to cushion and/or absorb the bearing play.
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Drill bits (24), bearing packs (26) and drilling apparatus (20) may be configured differently from the exemplary embodiments within the scope of the invention by combining, adapting, modifying, changing or otherwise varying features of the exemplary embodiments. Such variations may include, but are not limited to, the following:
In use, the drilling apparatus (20) of the invention may be incorporated into a downhole drilling assembly (not shown) and connected with a drill string (not shown) in order to perform drilling in a borehole (not shown). The downhole drilling assembly may be configured for rotary drilling (in which the drill string is rotated from the ground surface) and/or sliding drilling (in which the drill string is not rotated from the ground surface). In circumstances in which the drilling apparatus (20) includes a bend (84), a nutating or wobbling motion of the drill bit (24) can be achieved during rotary drilling.
The drill bit (24) and bearing pack (26) of the invention potentially enable the drilling apparatus (20) to have a shorter length in comparison with conventional drilling apparatus in which a separate bearing section is provided between the transmission (34) and the drill bit (24). This shorter length potentially facilitates a larger bend angle in the drilling apparatus (20), potentially higher build angles, and a reduction in bending moments which are exerted on the drilling apparatus (20) during drilling.
In addition, a potentially shorter distance between the head end (60) of the drill bit (24) and the bearing pack (26) in comparison with conventional drilling apparatus potentially reduces the bending stresses which are exerted on the bearings during drilling.
These shorter distances potentially result in a more compact drilling apparatus (20) in comparison with conventional drilling apparatus, and in increased durability of the drilling apparatus (20) in comparison with conventional drilling apparatus.
In this document, the word ‘comprising” is used in its non-limiting sense to mean that items following the word are included, but items not specifically mentioned are not excluded. A reference to an element by the indefinite article “a” does not exclude the possibility that more than one of the elements is present, unless the context clearly requires that there be one and only one of the elements.
Number | Date | Country | |
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61450233 | Mar 2011 | US |