The present embodiments generally relate to a ruggedized bidirectional cutting system for protecting and engaging a bottom hole assembly for use in a wellbore.
A need exists for a cutting and protection system with two parts working independently to protect a drill string or equipment attached to the drill string while providing additional cutting devices at multiple angles to enlarge or smooth a wellbore.
The present embodiments meet these needs.
The present disclosure is best understood from the following detailed description when read with the accompanying Figures. It is emphasized that, in accordance with the standard practice in the industry, various features are not drawn to scale. In fact, the dimensions of the various features may be arbitrarily increased or reduced for clarity of discussion.
The present embodiments are detailed below with reference to the listed Figures.
Illustrative examples of the subject matter claimed below will now be disclosed. In the interest of clarity, not all features of an actual implementation are described in this specification. It will be appreciated that in the development of any such actual implementation, numerous implementation-specific decisions may be made to achieve the developers' specific goals, such as compliance with system-related and business-related constraints, which will vary from one implementation to another. Moreover, it will be appreciated that such a development effort, even if complex and time-consuming, would be a routine undertaking for those of ordinary skill in the art having the benefit of this disclosure.
Before explaining the present system in detail, it is to be understood that the system is not limited to the particular embodiments and that it can be practiced or carried out in various ways and utilized or applied in various ways.
Specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a basis of the claims and as a representative basis for teaching persons having ordinary skill in the art to variously employ the presently claimed subject matter.
Disclosed herein is a ruggedized bidirectional cutting system with outer wear band having a first blade-free fitting section engaging within the drill string and a first cutting section integral with the first blade-free fitting section. The first cutting section has a plurality of blades, each blade with two cutting portions extending at defined cutting angles and a blade cutting portion extending at a third angle from the longitudinal axis different from the first and second angles. Each blade having cutting inserts. A plurality of flutes are formed between pairs of blades to stabilize and protect bottom hole equipment while the ruggedized bidirectional cutting system completes directional drilling objectives.
This technology improves directional response of bottom hole assemblies.
This technology improves drilling efficiencies of bottom hole assemblies by drilling smoother with lower vibrations which extends wellbore equipment tool life.
This technology smooths the wellbore allowing the wellbore to be drilled to greater distances.
This technology improves overall safety for the drilling rig by reducing the number of “trips” to drill the well. Tripping inherently has higher risks associated with drilling operations and tripping out can even cause bodily harm to workers at the site or possible death.
This technology reduces excess wear on measurement while drilling (MWD) equipment and on logging tools which wear can cost and operator in excess of 1 million dollars.
Disclosed herein is a ruggedized bidirectional cutting system for protecting and engaging a bottom hole assembly in a wellbore.
The system includes a first outer wear band.
The first outer wear band has a first shaft for slipping around other downhole components.
The drill string connects to a first shaft of the first outer wear band.
The first shaft can be centered around a longitudinal axis.
The first shaft has a first annulus with a first inner diameter. For example, the first shaft could have an outer diameter from 2.5 inches to 40 inches and an inner diameter from 2 inches to 30 inches within the annulus.
The first shaft supports a first blade-free fitting section formed on the first shaft. The first shaft engages within the drill string.
In different embodiments, the first shaft can be eccentrically positioned around the longitudinal axis of the shaft, that is off center of the longitudinal axis.
The blade-free fitting section can have an outer diameter dimension that is the same diameter as the first shaft and to up to 50% greater than the first shaft outer diameter.
The blade-free fitting section can have a length from 0.5 inches to 45 feet.
In embodiments, the blade-free fitting section has a length from 10% to 50% and up to 60% of the length of the first shaft.
The first shaft has a first cutting section integral with, that is, seamlessly formed with, the blade-free fitting section.
The first cutting section has a cutting section outer diameter and a plurality of first blades. The first cutting section can have a length from 1 inch to 40 inches. The first cutting section has a cutting section outer diameter 5% to 40% larger than the drill string outer diameter.
From 2 to 20 first blades can be formed on each first cutting section.
The first cutting section is made from a plurality of first blades with flutes formed between pairs of first blades.
From 2 to 22 flutes can be used in each first cutting section, each flute having a depth into the first shaft from 1% to 25% the thickness of the first shaft.
Each first blade of the first cutting section includes three integral portions, (i) a first cutting portion, (ii) a first blade cutting portion and (iii) a second cutting portion.
The first cutting portion can extend from the first blade-free fitting section at a first cutting angle. The first cutting angle can be from 10 degrees to 55 degrees from the longitudinal axis. The first cutting portion presents a plurality of first cutting inserts to the wellbore.
The first blade cutting portion of the first blade is integrally formed the first cutting portion at a third cutting angle from the longitudinal axis different from the first cutting angle. The blade cutting portion may have a plurality of blade cutting inserts which can range from 3 to 5 and up to 100 or 300 to 353 cutting inserts.
A second cutting portion is integrally formed with the first blade cutting portion extending at a second cutting angle from 10 degrees to 55 degrees from the longitudinal axis of the first shaft. The second cutting portion may have a plurality of second cutting inserts.
Each first cutting insert and second cutting insert can all be one of the following, or a combination of the following: domed tungsten carbide cutting inserts, raised tungsten carbide cutting inserts, polycrystalline diamond compacts, polished polycrystalline diamond compacts, and diamond hard facing cladding.
From 3 to 5, up to 100 to 300 or even 353 cutting inserts can be used in each portion of the first blade. Holes can be pre-machined into the blade outer surface and the outer surfaces of the first and second cutting portions into which the cutting insets can be installed.
In embodiments, a plurality of recessed blade cutting inserts can be installed on the first blade at depths from 10% to 50% and up to 60% of the thickness of the first blade.
The first cutting portion is integral with a blade cutting portion which in turn is integral with a second cutting portion. Each section or portion is formed at a different angle of inclination from the longitudinal axis.
The plurality of first blades are formed in the first shaft cutting section surface can extend 0.25 inches to 25 inches from the cutting section surface.
A plurality of first flutes are formed in the first cutting section forming the first outer wear band.
Each first flute is formed between pairs of first blades. Some flutes can be elliptical, some can be rectangular.
The first outer wear band engages the drill string making up onto either a downhole motor or a rotary steerable tool to stabilize and protect a bottom hole assembly while the wellbore is enlarged while completing directional drilling objectives.
In embodiments, the first blades can be helically formed around the longitudinal axis.
In embodiments, the first blades can be parallel but not helically arranged around the longitudinal axis.
In embodiments, the first blades can be eccentrically positioned around the longitudinal axis.
In embodiments, each of the three portions of the first blade are formed at a different angle from the longitudinal axis, which is a feature of the invention between 10 and 55 degrees.
Another component (iv), “an extension”, can be added to the required three portions of each first blade.
In embodiments, from 1 to 20 extensions can be integrally formed between a first cutting portion, the first blade cutting portion, or the second cutting portion and the first blade cutting portion or both.
Each extension between the first cutting portion and the first blade outer surface can be from 0.1 inch to 10 inches wide or from 1% to 50% and up to 60% % the length of the first cutting portion.
Extensions can have identical lengths between the first cutting portion and the first blade cutting portion or can have different lengths.
In embodiments, the thickness of each extension can be the same as the thickness of the first cutting portion.
In embodiments, the thickness of each extension can be from 3% to 100% greater than the thickness of the first cutting portion.
Each extension can contain a plurality of extension machined holes for containing extension cutting inserts formed into a portion of the cutting extension surface.
The extension cutting inserts can be identical in size, shape and material to the cutting inserts used in the first cutting inserts, the second cutting inserts, and the first blade cutting inserts.
In embodiments, the first blades can be helically formed around the cutting section surface or be in parallel or staggered orientation to each other.
In embodiments, the first, second and third cutting angles are different in degrees, that is, at different angles between 10 degrees and 55 degrees.
From 3 to 5 to 100 to 300 to as many as 353 blade cutting inserts can be used.
The blade cutting inserts can be between 1/16 inch to 1 inch in diameter or if the blade cutting inserts are another geometric shape other than round or elliptical, the blade cutting inserts can be between 1/16 inch to 1 inch in width.
In embodiments, a plurality of impact arrestors can be imbedded in portions of the first blade.
Each impact arrestor can be a tungsten carbide arrestor, a ceramic impact arrestor, a polycrystalline diamond impact arrestor, a domed polycrystalline diamond compact arrestor or a diamond impregnated impact arrestor.
Each cutting insert can have a geometric shape that is round, rectangular, square, triangular, octagonal, trapezoidal, or another polygonal shapes.
In embodiments, from 1 to 15 polycrystalline diamond compacts can be installed in the first cutting portion, the second cutting portion, the blade cutting portion or one or more extensions.
In embodiments, first blade cutting inserts have diameters from ⅜th inch to 1 inch for a friction fit in one of a plurality of pre-machined holes drilled in the first blade providing a flush engagement of the cutting insert with the first blade outer surface.
In embodiments, a plurality of leading-edge blade cutting inserts can be installed on a leading edge of each first blade.
The first flutes can have a depth into the first shaft from 0.1% and 70% of the thickness of the first shaft.
Between 1 and 16 flutes can be formed in the outer surface of the first shaft. The flutes can vary in width from 1/16th of an inch to 10 inches on the outer surface area of the first shaft between blades.
In embodiments, the ruggedized bidirectional cutting system includes a second outer wear band installed between the first outer wear band and the drill string.
The second outer wear band can be identical to the first outer wear band or fall within the above described ranges providing two outer wear bands of two different sizes.
The second outer wear band has a second shaft for slipping around other downhole components.
The second shaft can be centered around a second outer wear band longitudinal axis.
Like the first shaft, the second shaft having a second annulus with a second inner diameter.
The second outer wear band has a second blade-free fitting section formed on the second shaft engaging within the drill string.
The second outer wear band has a second outer wear band cutting section integral with the second blade-free fitting section.
The second outer wear band cutting section has a second outer wear band cutting section outer diameter different in size from a second blade-free fitting section outer diameter.
The second wear band cutting section has a plurality of second blades, each second blade has (i) a second outer wear band first cutting portion extending from the second blade-free fitting section at a second outer wear band first cutting angle that is from 10 degrees to 55 degrees from the longitudinal axis of the second shaft.
The second outer wear band first cutting portion has a plurality of first cutting inserts.
The second outer wear band cutting section has (ii) a second outer wear band blade cutting portion formed with the second outer wear band first cutting portion at a third cutting angle from the longitudinal axis of the second shaft that is an angle different from the second outer wear band first cutting angle.
The blade cutting portion has a plurality of blade cutting inserts.
The second outer wear band cutting section has (iii) a second outer wear band second cutting portion integrally formed with the second outer wear band first blade cutting portion.
The second outer wear band second cutting portion extends at a second cutting angle from 10 degrees to 55 degrees from the longitudinal axis that can be the same as the first cutting angle, but different from the third cutting angle.
The second outer wear band second cutting portion has a plurality of second outer wear band second cutting inserts. From 3 to 300 blade cutting inserts can be installed in pre-machined holes on both the first and second outer wear bands.
Each cutting insert of the second wear band can be a domed tungsten carbide cutting insert, a raised tungsten carbide cutting insert, a polycrystalline diamond compact, a polished polycrystalline diamond compact, a diamond hard facing cladding, or a combination thereof.
The second wear band cutting section has a plurality of second outer wear band second flutes formed between pairs of second outer wear band first blades.
When the first and second outer wear bands are used in the wellbore, the first outer wear band and the second outer wear band engage the drill string making up onto either a downhole motor or a rotary steerable tool in mirror image configurations from each other. With this mirror image configuration, the second outer wear band acts independently of the first outer wear band stabilizing and protecting the bottom hole assembly while the wellbore is enlarged completing directional objectives.
The second outer wear band can have a plurality of recessed blade cutting inserts installed on each of second blades. The recessed blade cutting inserts can be installed in the second blade at depths from 10% to 50% of the thickness of the second blade.
The plurality of recessed blade cutting inserts can be installed at an offset of 1 degree to 15 degrees from a plane formed by each blade outer surface, the offset tilting the recessed blade cutting inserts into a direction of rotation of the outer wear band to minimize rotation friction as the outer wear band rotates.
In embodiments, first engagement threads can be formed in a first direction in the first inner diameter of the first outer wear band engaging the drill string in a first direction and second engagement threads can be formed in a second direction in the second inner diameter of the second outer wear band for engaging the drill string at a different location with an opposite rotation from the first outer wear band to ensure a rugged fit.
In embodiments using two outer wear bands, it should be noted that the first outer wear band can engage a measuring while drilling system connected to the drill string while the second outer wear band simultaneously engages the drill string and another downhole tool.
In embodiments, each outer wear band is eccentrically positioned around the longitudinal axis of each shaft.
In embodiments, a plurality of impact arrestors can be imbedded in portions of the first blade or the second blade, wherein each impact arrestor can be a tungsten carbide arrestor, a ceramic impact arrestor, a polycrystalline diamond impact arrestor, a domed polycrystalline diamond compact arrestor or a diamond impregnated impact arrestor.
In other embodiments, when two outer wear bands are used forming the ruggedized bidirectional cutting system, a single, connected communication wire in each annulus of each outer wear band.
In yet another embodiment, it is contemplated that an electronegative charge layer can be formed within 1% to 15% of the surface of the shaft using ammonium nitrate and heat for reducing balling tendencies while drilling with the outer wear band.
For the second outer wear band, each cutting insert can have a geometric shape that is round, rectangular, square, triangular, octagonal, trapezoidal, or another polygonal shapes.
Turning now to the drawings,
Returning to
It should be noted that the first shaft 22 has a first annulus 26 with a first inner diameter 28 shown in
Returning to
The first outer wear band 20 also has a first cutting section 40 integral with the first blade-free fitting section 30. In this particular embodiment, the first cutting section 40 and the first blade-free fitting section 30 may be considered “segments” of the first outer wear band 20. Note that other embodiments may have different numbers of segments and/or other segments in addition to or in lieu of those shown in the embodiment of
To be integral, the first cutting section 40 can be welded to the first blade-free fitting setting 30 or the two segments (i.e., the first cutting section 40 and the blade-free fitting section 30) can be cut from a single piece of a tubular.
The second outer wear band 120 includes a second blade-free fitting section 130 engaging within the drill string 16 shown in
The second outer wear band 122 has a second cutting section 140 integral with the second blade-free fitting section 130.
The second outer wear band 122 has a second outer wear band second blade cutting portion 170 integrally formed between a second outer wear band first cutting portion 150 and a second outer wear band second cutting portion segment 156 which are angled from the second shaft 122.
The blades formed in the cutting section are presented in a helically embodiment in these
Each of the two formed blades is integrally formed from the first shaft 22. Individual blades have a first cutting portion segment 51a, 51b and 51c in a first cutting portion 50 of the first cutting section 40.
The first cutting section 40 has a first cutting section outer diameter 42.
Each of the blades has a second cutting segment 57a,b,c in a second cutting portion segment 56 of the first cutting section 40.
Each of the blades has a first blade outer surface 53a, b, between one of the first cutting portion segments 51a, b, c and one of the second cutting segments 57a, b, c.
The first cutting portion 50 extends from the first blade-free fitting section 30, shown in
Each first cutting portion segment 51a, b, c has a plurality of first cutting inserts 54a-54d are labelled. Other first cutting inserts are shown but not labelled.
Jumping to
Returning to
Importantly, the first cutting portion 50 and the second cutting portion segment 56 are formed at cutting angles from about 10 degrees to about 55 degrees from the longitudinal axis 24 shown in
Returning to
Each first blade cutting portion 70 has a plurality of first blade cutting inserts 72a, 72b, and 72c mounted into each first blade outer surface 53a and 53b.
Each first blade cutting insert 72a, b, c can be domed tungsten carbide cutting inserts, raised tungsten carbide cutting inserts, polycrystalline diamond compacts, polished polycrystalline diamond compacts, diamond hard facing cladding, and combinations thereof.
The first shaft 22, shown in
Each of the formed second blades 176a, b is integrally formed from the second shaft 122. Individual formed second blades 176a, b have a second blade first cutting portion segments 151a, 151b and 151c in a second outer wear band blade first cutting portion 150 of the second cutting section 140.
The second cutting section 140 has a second cutting section outer diameter 142.
Each of the formed second blades 176a, b has a second cutting segment 157a, b, c in a second outer wear band second cutting portion segment 156 of the second cutting section 140.
Each of the formed second blades 176a, b has a first blade outer surface 153a,b, between one of the first cutting portion segments 51a, b, c and one of the second cutting segments 157a, b, c.
The second outer wear band blade first cutting portion 150 extends from the second blade-free fitting section 130, at a second outer wear band first cutting angle 152 from the second outer wear band longitudinal axis 124 (shown in
Returning to
The second outer wear band second cutting portion segment 156 contains a plurality of second outer wear band second cutting inserts 160a-d mounted into the second outer wear band second cutting portion.
It should be noted as shown in
Each second outer wear band second blade cutting portion 170 has a plurality of second outer wear band second blade cutting inserts, 172a, 172b, and 172c areas shown mounted into each second outer wear band second first blade outer surface 153a and 153b.
Each second outer wear band cutting blade insert 172a, b, c can be domed tungsten carbide cutting inserts, raised tungsten carbide cutting inserts, polycrystalline diamond compacts, polished polycrystalline diamond compacts, diamond hard facing cladding, and combinations thereof.
In embodiments, the first outer wear band 20 and the second outer wear band 122 attach to the drill string 16 as shown in
The second shaft 122 has a second end 123 opposite the second blade free fitting section 130.
It is contemplated that an electronegative charge layer 555 can be formed within about 1% to about 15% of the surface of the shaft using ammonium nitrate and heat for reducing balling tendencies while drilling with the outer wear band.
blade Leading edge blade cutting insert 72a on the second shaft 122 and leading edge cutting insert 72d is on the first shaft 22.
The first outer wear band 20 has a first cutting portion 50 labelled.
The first outer wear band 20 is shown with first engagement threads 444.
The second outer wear band 120 is shown with a second outer wear band first cutting portion 150 and second engagement threads 445.
The first engagement threads 444 have a cut in a first direction, such as clockwise, and the second engagement threads 445 have a cut in an opposite second direction, such as counterclockwise.
The blades formed in the cutting section are presented in a helically embodiment in these
The drilling rig 290 has improved safety by having a first and second outer wear band connected to downhole components according to one or more embodiments.
The ruggedized tool for the drilling rig 290 is made of the first and second outer wear bands 20, 120 and can be configured to simultaneously smooth the wellbore 14, centralize the downhole components from wear and damage, and flow drilling fluid to at least one downhole component or at least one operating component while allowing wellbore fluid to flow to a surface unimpeded.
In embodiments, the tower 289 can be a derrick. The tower 289 can have a rig floor 90 and a rig floor substructure 91.
The drilling rig 290 can have a drawworks 162 connected with a drawworks motor 164 connected to a power supply 166.
A cable 158 can extend from the drawworks 162 through the plurality of sheaves 160 over the crown 288. A lifting block 212 can be connected to the cable 158.
A hydraulic pump 271 can be fluidly connected to a tank 270 for flowing fluid into the wellbore 14 as drill pipe forming a drill string 16 (shown in
A rotating means 210 can be used for turning drill pipe sections into the wellbore. The rotating means 210 is depicted as either a top drive or a power swivel mounted to the lifting block.
In other embodiments, the rotating means can be a rotary table mounted to a rig floor for rotating drill pipe into a wellbore.
A blowout preventer 352 can be connected between the rotating means 210 and the wellbore 14 for receiving drill pipe.
The first outer wear band 20 is depicted mounted between a first drill pipe section 16a and a second drill pipe section 16b. The second outer wear band 120 is between the second drill pipe section 16b and a measurement while drilling assembly 512 of the bottom hole assembly.
In this embodiment, the blades are presented in a helical configuration.
The second shaft 122 is depicted with second outer wear band longitudinal axis 124.
The second outer wear band 120 has second blade-free fitting section 130 integral with the second cutting section 140. The second cutting section 140 has a second outer wear band first cutting portion 150 is at a second outer wear band first cutting angle 152 to the second outer wear band longitudinal axis 124.
The second cutting section 140 has a second cutting section outer diameter 142 that is larger than the outer diameter of the drill string thereby permitting cutting within the wellbore.
The second cutting section outer diameter 142 of the second blade-free cutting section 132 is smaller than the second cutting section outer diameter 142.
The second outer wear band first cutting portion 150 is integral with the second outer wear band second first blade outer surface 153a.
The second outer wear band second first blade outer surface 153a is integrally formed with a second outer wear band second cutting portion segment 156.
The second outer wear band second cutting portion segment 156 is formed on an angle 126 to the second outer wear band longitudinal axis 124.
The second outer wear band 120 has a plurality of second flutes 180a, 180b. The flutes 180a, 180b are positioned between pairs of second outer wear band first blades 176a, b. The second outer wear bland first blades 176a, b are formed from second outer wear band first cutting portion 150, second outer wear band first blade outer surface 153a, and second outer wear band second cutting portion segments 156.
The first shaft 22 supports an integral first blade-free fitting section 30 that integrally engages the first cutting section 40.
A first cutting portion 50 extends from the first blade-free fitting section 30. The first cutting portion 50 extends at a first cutting angle 203 from the longitudinal axis 24.
A second cutting portion segment 56 extends from the first shaft 22 on an end opposite the first blade-free fitting section 30.
The second cutting portion segment 56 extends a second cutting angle 201 from the longitudinal axis 24.
Integral with and attached between the first and second cutting portions is a first blade outer surface 53a forming a first blade 76, b.
Between pairs of first blades 76a, b, is a first flute 80a. Two first flutes 80a, d are shown between different pair of first blades 76a, bs
A thickness 303 for each of the first and second cutting portion segments 50, 56 is labelled.
The second outer wear band 120 is attached to the same segment of drill string 16b on the second blade-free fitting section 130, shown in
The second outer wear band 120 is attached to a different segment of the drill string 16 on the second cutting section 140 while both outer wear bands 20, 120 are contained in the well bore 14.
The second outer wear band first cutting portion segment 151 has second outer wear band first cutting inserts, one of which is labelled as 154a. It should be noted that more than one second outer wear band first cutting insert can be used in embodiments.
In each of these cutting portion segments 151a, b, c, cutting inserts 154a-d can be mounted within pre-machined holes, one of the holes is labelled as element 63.
In embodiments, first blade cutting inserts have diameters from about ⅜th inch to about 1 inch for a friction fit in one of a plurality of pre-machined holes 63 drilled in the first blade providing a flush engagement of the cutting insert with the first blade outer surface.
Second outer wear band cutting portion segment 156 has second outer wear band second cutting inserts 160a, 160b and 160c.
The second outer wear band second blade cutting portion 170 has second outer wear band second blade cutting inserts 172a, 172b, and 172c as well as impact arrestors 260a and 260b mounted into the second outer wear band first blade outer surface 153a.
In
The second outer wear band 120 includes second flute 180a and the second end 123.
The extension 450 and an extension angle 204 from the longitudinal axis 24. The extension angle 204 is different from the second cutting angle 201, and from the first cutting angle 203.
In embodiments, the extension angle 204 is different from both the second cutting angle 201 and the first cutting angle 203.
In this
The extension 450 includes a cutting extension surface 451, which is at a different angle than the two adjacent surfaces of the first cutting portion 50 and the first blade cutting portion 70.
Installed in the extension 450 are a plurality of extension cutting inserts 453a and 453b. The extension 450 has a plurality of extension machined holes not otherwise shown for containing the extension cutting inserts 453a, 453b. The extension cutting inserts 453a, 453b are, in this particular embodiment, identical to the first cutting inserts, the second cutting inserts, or the first blade cutting inserts.
A ruggedized bidirectional cutting system for protecting and engaging a bottom hole assembly attached to a drill string, namely a rotary steerable drilling system with a downhole motor in combination with a measurement while drilling system in a wellbore having a depth to target of from 5000 feet to 50,0000 feet has a first outer wear band that is attached on a first blade-free fitting section to the drill string. The drill string is made from 2 to 7 inch outer diameter drill pipe that is connected together by a drill rig (as shown in
The first outer wear band is 24 inches in length along a longitudinal axis.
The first outer wear band is formed from first shaft that slips around another downhole component, namely the downhole motor. The first outer wear band then threads to a drill pipe in the drill string on one end.
The first shaft is concentrically centered around the longitudinal axis.
The first shaft has a first annulus with a 9.28 inch inner diameter that enables flow of drilling fluid.
The first outer wear band has a first blade-free fitting section with a length of 5 inches and an outer diameter of 10.75 inches.
The first outer wear band has a first cutting section 12 inches and a first cutting section outer diameter at its largest of 17.2 inches outer diameter and has 5 first blades with 5 flutes positioned between pairs of blades. The first cutting section formed integrally with the first blade-free fitting section.
Each first blade is formed from a first cutting portion that is 4 inches in length extending from the first blade-free fitting section at a first cutting angle of 25 degrees from the longitudinal axis.
The first cutting portion has 4 first cutting inserts. Each first cutting insert is ½ inch in diameter and made from tungsten carbide.
The first blade cutting portion is formed integrally with the first cutting portion at a third cutting angle 45 degrees from the longitudinal axis, which is a different angle from the first cutting angle.
The first blade cutting portion can be 8 inches in length.
The blade cutting portion has 30 blade cutting inserts each having a diameter of ½ each, and each blade cutting insert made from polycrystalline diamond compact.
A second cutting portion is formed integrally with the first blade cutting portion extending at a second cutting angle 25 degrees from the longitudinal axis. The second cutting portion has 12 second cutting inserts each having a diameter of ½ inch and made from domed tungsten carbide.
First flutes are formed between pairs of first blades five are formed in this example.
Each flute is 17 inches long. Each flute is elliptical and tapered at the ends. Each flute is cut 2% into the thickness of the first shaft.
A ruggedized bidirectional cutting system for protecting and engaging a bottom hole assembly attached to a drill string, namely a downhole motor in combination with a measurement while drilling system in a wellbore having a depth to target of from 5000 feet to 50,0000 feet has a first outer wear band that is attached on a first blade-free fitting section to the drill string. The drill string is made from 2 to 7 inch outer diameter drill pipe that is connected together by a drill rig (as shown in
The first outer wear band is 40 inches in length along a longitudinal axis.
The first outer wear band is formed from first shaft that slips around another downhole component, namely a downhole motor. The first outer wear band then threads to a drill pipe in the drill string on one end.
The first shaft is concentrically centered around the longitudinal axis.
The first shaft has a first annulus with a 6 inch inner diameter that permits flow of drilling fluid.
The first outer wear band has a first blade-free fitting section with a length of 3 inches and an outer diameter of 6.75 inches.
The first outer wear band has a first cutting section 30 inches in length and a first cutting section outer diameter at its largest of 8.75 inches outer diameter.
In this example, the first cutting section has 4 first blades with 4 flutes positioned between pairs of blades. The first cutting section is formed integrally with the first blade-free fitting section.
Each first blade includes a first cutting portion that is 3 inches in length extending from the first blade-free fitting section at a first cutting angle of 25 degrees from the longitudinal axis.
The first cutting portion has 6 first cutting inserts. Each first cutting insert is ½ inch in diameter and made from tungsten carbide.
Two extensions are used to make the first outer wear band in this example.
A first extension is 3 inches in length and integrally formed between the blade cutting portion and the first cutting portion of each first blade. The first extension has 30 cutting inserts made from polycrystalline diamond compacts each having a diameter of ½ inch.
The first extension has the cutting inserts mounted into each of 30 extension machined holes for containing one of the extension cutting inserts permitting the cutting inserts to be flush mounted on the first extension. The first extension is formed at a 30 degree angle from the longitudinal axis.
The first blade cutting portion is formed integrally with first cutting portion at a third cutting angle 35 degrees from the longitudinal axis, which is a different angle from the first extension.
The first blade cutting portion is 6 inches in length.
The blade cutting portion has 25 blade cutting inserts each having a diameter of ¼ each, and each blade cutting insert made from polycrystalline diamond compact.
A second extension joined with to the first blade cutting portion is 3 inches in length and integrally formed between the blade cutting portion and a second cutting portion of each first blade. The second extension has 20 cutting inserts made from polycrystalline diamond compacts each having a diameter of ¼ inch.
The second extension has the cutting inserts mounted into each of 20 extension machined holes for containing one of the extension cutting inserts permitting the cutting inserts to be extending 0.15 inch from the surface of the second extension. The second extension is formed at a 30 degree angle from the longitudinal axis.
A second cutting portion is formed integrally with the second extending and extends at a second cutting angle 25 degrees from the longitudinal axis. The second cutting portion has 12 second cutting inserts each having a diameter of ½ inch and made from domed tungsten carbide.
First flutes are formed between pairs of first blades four are formed in this example.
Each flute is 28 inches long. Each flute is elliptical and tapered at the ends. Each flute is cut 5% into the thickness of the first shaft.
In this example, a first outer wear band discussed in Example 2 is exactly copied to form a second outer wear band.
In this example, to use the dual outer wear bands that are identical, a drill pipe runs to surface, and the drill string is formed of a connecting heavy weight drill pipe, that engages a nonmagnetic drill collar, a measurement while drilling system, a rotary steerable system threaded to first outer wear band on one end using first engagement threads and the second outer wear band is threaded on the opposite end to the rotary steerable system with second engagement threads.
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PCT/US2021/036404 International Search Report and Written Opinion of the International Searching Authority, dated Sep. 24, 2021 11 pages. |