IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0113939
(2008-05-01)
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등록번호 |
US-7753114
(2010-08-02)
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발명자
/ 주소 |
|
대리인 / 주소 |
Carver, Darden, Koretzky, Tessier, Finn, Blossman & Areaux, LLC
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
16 |
초록
▼
A magnetic wellbore cleaning tool having a plurality of magnetic ridges spaced longitudinally between top and bottom centralizers. In operation, the magnetic ridges modify the velocity of passing fluid circulating in the wellbore such that the fluid remains in close proximity to the tool's magnetic
A magnetic wellbore cleaning tool having a plurality of magnetic ridges spaced longitudinally between top and bottom centralizers. In operation, the magnetic ridges modify the velocity of passing fluid circulating in the wellbore such that the fluid remains in close proximity to the tool's magnetic field thereby allowing for collection of ferromagnetic debris suspended in cleaning fluid circulating in a wellbore.
대표청구항
▼
What is claimed is: 1. A wellbore cleaning tool for removing ferromagnetic debris from a wellbore, comprising: a tool body configured to attach to a work string and having a longitudinal axis; a plurality of circumferential ridges axially spaced along said tool body, each ridge comprising: an apex
What is claimed is: 1. A wellbore cleaning tool for removing ferromagnetic debris from a wellbore, comprising: a tool body configured to attach to a work string and having a longitudinal axis; a plurality of circumferential ridges axially spaced along said tool body, each ridge comprising: an apex parallel to said longitudinal axis, a first circumferential side surface angled with respect to and extending between said apex and the tool body, the first side surface having a first plurality of cavities formed therein, and a second circumferential side surface opposing said first side and angled with respect to and extending between said apex and the tool body, the second circumferential side surface having a second plurality of cavities formed therein wherein each cavity of the first plurality of cavities and each cavity of the second plurality of cavities being configured to house therein a respective different one magnet of a plurality of magnets; and a plurality of circumferential collection areas located between adjacent ridges, wherein an outer diameter of said plurality of circumferential collection areas is smaller than an outer diameter of the plurality of circumferential ridges. 2. The tool according to claim 1, wherein said each ridge has a trapezoidal longitudinal cross-section defined by the apex and the first and second circumferential side surfaces wherein the first and second circumferential side surfaces are flat and inclined with respect to the longitudinal axis of the tool body, and a plane of the first circumferential side surface and a plane of the second circumferential side surface intersect at a point external to the tool body. 3. The tool according to claim 2, wherein said each ridge further comprises a circumferential groove formed between the first and second circumferential side surfaces. 4. The tool according to claim 3, further comprising a plurality of removable retaining rings, each removable retaining ring configured to fit within a respective one circumferential groove and configured to secure said plurality of magnets housed within said first plurality of cavities and said second plurality of cavities. 5. The tool according to claim 4, further comprising at least one flexible seal placed between the plurality of magnets and the removable retainer ring associated with a respective one ridge. 6. The tool according to claim 5, wherein said at least one flexible seal is an O-ring. 7. The tool according to claim 1, further comprising a plurality of magnet covers, each respective one cover being configured to fit over the respective different one magnet of the plurality of magnets. 8. The tool according to claim 1, wherein said tool body, said plurality of circumferential ridges and said plurality of circumferential collection areas are integrated as a single-piece, unitary machined structure. 9. The tool according to claim 5, further comprising: an upper tool joint near a first distal end of said tool body and having a first centralizer coupled thereto; a lower tool joint near a second distal end of said tool body and having a second centralizer coupled thereto; an upper circumferential half ridge (UCHR) in proximity to the upper tool joint, the UCHR comprising: an UCHR apex parallel to said longitudinal axis, and a UCHR circumferential side surface angled with respect to and extending between said UCHR apex and the tool body, the UCHR circumferential side surface having a plurality of UCHR cavities formed therein wherein each UCHR cavity of the plurality of UCHR cavities being configured to house therein a respective different one UCHR magnet of a plurality of UCHR magnets; and a lower circumferential half ridge (LCHR) in proximity to the lower tool joint, the LCHR comprising: an LCHR apex parallel to said longitudinal axis, and a LCHR circumferential side surface angled with respect to and extending between said LCHR apex and the tool body, the LCHR circumferential side surface of having a plurality of LCHR cavities formed therein wherein each LCHR cavity of the plurality of LCHR cavities being configured to house therein a respective different one LCHR magnet of a plurality of LCHR magnets. 10. The tool according to claim 1, wherein: those magnets housed in the first plurality of cavities of the first circumferential side surface of said each ridge are oriented to face a magnetic polarity outward from said tool body and over a circumferential collection area of the plurality of circumferential collection areas being immediately adjacent to the first circumferential side surface; and those magnets housed in the second plurality of cavities of the second circumferential side surface of said each ridge are oriented to face a magnetic polarity outward from said tool body and over a circumferential collection area of the plurality of circumferential collection areas being immediately adjacent to the second circumferential side surface. 11. A wellbore cleaning tool for removing ferromagnetic debris from a wellbore, comprising: a plurality of magnets; a tool body configured to attach to a work string and having a longitudinal axis; a plurality of circumferential ridges axially spaced along said tool body, each ridge comprising: an apex parallel to said longitudinal axis, a first circumferential side surface angled with respect to and extending between said apex and the tool body, the first side surface having a first plurality of cavities formed therein, and a second circumferential side surface opposing said first side and angled with respect to and extending between said apex and the tool body, the second circumferential side surface having a second plurality of cavities formed therein wherein each cavity of the first plurality of cavities and each cavity of the second plurality of cavities being configured to house therein a respective different one magnet of the plurality of magnets; and a plurality of circumferential collection areas located between adjacent ridges, wherein an outer diameter of said plurality of circumferential collection areas is smaller than an outer diameter of the plurality of circumferential ridges wherein said tool body, said plurality of circumferential ridges and said plurality of circumferential collection areas are integrated as a single-piece, unitary machined structure. 12. The tool according to claim 11, wherein said each ridge has a trapezoidal longitudinal cross-section defined by the apex and the first and second circumferential side surfaces wherein the first and second circumferential side surfaces are flat and inclined with respect to the longitudinal axis of the tool body, and a plane of the first circumferential side surface and a plane of the second circumferential side surface intersect at a point external to the tool body. 13. The tool according to claim 12, wherein said each ridge further comprises a circumferential groove formed between the first and second circumferential side surfaces. 14. The tool according to claim 13, further comprising a plurality of removable retaining rings, each removable retaining ring configured to fit within a respective one circumferential groove and configured to secure said plurality of magnets housed within said first plurality of cavities and said second plurality of cavities. 15. The tool according to claim 14, further comprising at least one flexible seal placed between the plurality of magnets and the removable retainer ring associated with a respective one ridge. 16. The tool according to claim 15, wherein said at least one flexible seal is an O-ring. 17. The tool according to claim 11, further comprising a plurality of magnet covers, each respective one cover being configured to fit over the respective different one magnet of the plurality of magnets. 18. The tool according to claim 11, further comprising an upper tool joint near a first distal end of said tool body and having a first centralizer coupled thereto; a lower tool joint near a second distal end of said tool body and having a second centralizer coupled thereto; an upper circumferential half ridge (UCHR) in proximity to the upper tool joint, the UCHR comprising: an UCHR apex parallel to said longitudinal axis, and a UCHR circumferential side surface angled with respect to and extending between said UCHR apex and the tool body, the UCHR circumferential side surface having a plurality of UCHR cavities formed therein wherein each UCHR cavity of the plurality of UCHR cavities being configured to house therein a respective different one UCHR magnet of a plurality of UCHR magnets; and a lower circumferential half ridge (LCHR) in proximity to the lower tool joint, the LCHR comprising: an LCHR apex parallel to said longitudinal axis, and a LCHR circumferential side surface angled with respect to and extending between said LCHR apex and the tool body, the LCHR circumferential side surface of having a plurality of LCHR cavities formed therein wherein each LCHR cavity of the plurality of LCHR cavities being configured to house therein a respective different one LCHR magnet of a plurality of LCHR magnets. 19. The tool according to claim 11, wherein: those magnets housed in the first plurality of cavities of the first circumferential side surface of said each ridge are oriented to face a magnetic polarity outward from said tool body and over a circumferential collection area of the plurality of circumferential collection areas being immediately adjacent to the first circumferential side surface; and those magnets housed in the second plurality of cavities of the second circumferential side surface of said each ridge are oriented to face a magnetic polarity outward from said tool body and over a circumferential collection area of the plurality of circumferential collection areas being immediately adjacent to the second circumferential side surface.
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