Laser bottom hole assembly
First Claim
Patent Images
1. A laser bottom hole assembly comprising:
- a. an end having an opening for receiving a fluid flow and a means for providing a laser beam having at least 5 kW of power;
b. a means for separating the fluid flow and conveying the means for providing the laser beam, the means for separating the fluid flow and conveying the means for providing a laser beam in fluid communication with the fluid flow, a first fluid path and a second fluid path, whereby in operation the fluid flow is separated into the first fluid path and the second fluid path;
c. an external housing comprising a rotating section, a non-rotating section, and an external rotational transition zone, the rotating section of the external housing comprising rotating and non-rotating internal components;
d. the means for separating the fluid flow and conveying the means for providing a laser beam, and the first and second fluid paths positioned within the external housing;
e. a means for providing rotational movement comprising a non-rotating screw member, at least a portion of the second fluid path contained within the screw member and at least a portion of the means for providing a laser beam within the screw member;
f. an internal rotational transition zone within the rotating section of the external housing, whereby a transition from the non-rotating internal components to the rotating internal components occurs; and
,g. an exhaust port in the rotating section of the external housing, the exhaust port in fluid communication with the first fluid path and positioned above the internal rotational transition zones.
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Accused Products
Abstract
There is provided for laser bottom hole assembly for providing a high power laser beam having greater than 5 kW of power for a laser mechanical drilling process to advance a borehole. This assembly utilizes a reverse Moineau motor type power section and provides a self-regulating system that addresses fluid flows relating to motive force, cooling and removal of cuttings.
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Citations
53 Claims
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1. A laser bottom hole assembly comprising:
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a. an end having an opening for receiving a fluid flow and a means for providing a laser beam having at least 5 kW of power; b. a means for separating the fluid flow and conveying the means for providing the laser beam, the means for separating the fluid flow and conveying the means for providing a laser beam in fluid communication with the fluid flow, a first fluid path and a second fluid path, whereby in operation the fluid flow is separated into the first fluid path and the second fluid path; c. an external housing comprising a rotating section, a non-rotating section, and an external rotational transition zone, the rotating section of the external housing comprising rotating and non-rotating internal components; d. the means for separating the fluid flow and conveying the means for providing a laser beam, and the first and second fluid paths positioned within the external housing; e. a means for providing rotational movement comprising a non-rotating screw member, at least a portion of the second fluid path contained within the screw member and at least a portion of the means for providing a laser beam within the screw member; f. an internal rotational transition zone within the rotating section of the external housing, whereby a transition from the non-rotating internal components to the rotating internal components occurs; and
,g. an exhaust port in the rotating section of the external housing, the exhaust port in fluid communication with the first fluid path and positioned above the internal rotational transition zones. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 43, 44, 45)
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20. A system for controlling multiple fluid flows and managing a high power laser fiber optic cable in a reverse Moineau motor laser mechanical bottom hole assembly comprising:
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a. a flow diverter in fluid communication with a first, a second and a third fluid path, whereby the flow diverter is configured to divert a fluid flow from the first fluid path into the second and third fluid paths; b. a high power laser fiber optic cable; c. an isolated flow regulator in fluid communication with the third fluid path; d. the high power laser fiber optic cable positioned within the flow regulator; and
,e. a laser optic and the optic cable in association with the third fluid path. - View Dependent Claims (31)
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21. A self-regulating system for controlling multiple fluid flows and managing a high power laser fiber optic cable in a reverse Moineau motor laser mechanical bottom hole assembly comprising:
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a. a flow diverter in fluid communication with a first, a second and a third fluid path, whereby the flow diverter is configured to divert a fluid flow from the first fluid path into the second and third fluid paths; b. a first check valve in fluid communication with the first and second fluid paths; c. an isolated flow regulator in fluid communication with the third fluid path; d. the second fluid path comprising a progressive cavity of a mud motor, the cavity comprising an external rotating gear member; e. the third fluid path in fluid association with a laser optic; f. the third fluid path in fluid association with a laser mechanical drill bit section, the drill bit section having a laser beam delivery channel; g. an exhaust port in fluid communication with the second fluid path, whereby fluid flow through the second fluid path travels from the first flow diverter to the progressive cavity to the exhaust port; and
,h. the flow regulator configured to maintain a predetermined flow balance between the second and third flow paths over a predetermined range of conditions of the mud motor. - View Dependent Claims (22, 23, 24, 25, 26, 27, 28, 29, 30)
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32. A laser bottom hole assembly comprising:
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a. an upper section, a middle section, and a lower section; b. the upper section comprising a non-rotating connector affixed to a non-rotating outer housing; c. the middle section comprising a rotating outer housing and non-rotating inner components; d. the lower section comprising a rotating external outer housing and a rotating connector for connecting to a bit or tool; e. a flow separator in fluid communication with a first fluid path and a second fluid path; f. a portion of the first and second fluid paths is positioned in the middle section; g. a portion of the first fluid path is formed by the rotating outer housing and non-rotating inner components of the middle section; h. a portion of the second fluid path is positioned within the non-rotating inner components of the middle section; i. a portion of the second fluid path positioned in the lower section; j. the first fluid path not entering the lower section; and
,k. the lower section comprising a means to deliver a laser beam.
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33. A laser bottom hole assembly comprising:
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a. an end having an opening for receiving a fluid flow and a means for providing a laser beam having at least 5 kW of power; b. a means for separating the fluid flow that is in fluid communication with the fluid flow, a first fluid path and a second fluid path; c. an external housing comprising a rotating section, a non-rotating section, and an external rotational transition zone, the rotating section of the external housing comprising rotating and non-rotating internal components; d. a non-rotating screw member in driving relationship with a rotating gear member; e. an internal rotational transition zone within the rotating section of the external housing, whereby a transition from the non-rotating internal components to the rotating internal components occurs; and
,f. a laser optic positioned in the internal rotational transition zone. - View Dependent Claims (34, 35)
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36. A laser bottom hole assembly comprising:
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a. a fluid flow separator in fluid communication with a first fluid path and a second fluid path; b. an external housing comprising a rotating section, a non-rotating section, and an external rotational transition zone, the rotating section of the external housing comprising rotating and non-rotating internal components; c. a non-rotating screw member in driving relationship with a rotating gear member; d. a fiber optic cable within the non-rotating screw member; e. an internal rotational transition zone within the rotating section of the external housing, whereby a transition from the non-rotating internal components to the rotating internal components occurs; and
,f. the fiber optic cable and a laser optic positioned in the internal rotational transition zone. - View Dependent Claims (37, 38, 39, 40)
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41. A laser bottom hole assembly comprising:
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a. an external housing comprising a rotating section, a non-rotating section, and an external rotational transition zone, the rotating section of the external housing comprising rotating and non-rotating internal components; b. a non-rotating screw member in driving relationship with a rotating gear member; c. a fiber optic cable within the non-rotating screw member; d. an internal rotational transition zone within the rotating section of the external housing, whereby a transition from the non-rotating internal components to the rotating internal components occurs; and
,e. a means for aligning and restricting rotation of the internal components during assembly, the means for aligning and restricting rotation is positioned in the internal rotational transition zone. - View Dependent Claims (42)
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46. A system for managing a high power laser fiber optic cable in a reverse Moineau motor laser mechanical bottom hole assembly comprising:
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a. an external housing comprising a rotating section, a non-rotating section, and an external rotational transition zone, the rotating section of the external housing comprising rotating and non-rotating internal components; b. a non-rotating screw member in driving relationship with a rotating gear member; c. a high power laser fiber optic cable, the fiber optic cable positioned in the external housing and having a path within the external housing; d. the rotating external housing section having a first centerline; e. the non-rotating screw member having a second centerline that is parallel to and non-coaxial with the first centerline; f. the fiber optic cable positioned within the non-rotating screw member and along the second centerline; and
,g. the fiber optic cable positioned along the first centerline; h. whereby the path of the fiber optic cable through the laser bottom hole assembly moves from second centerline to first centerline. - View Dependent Claims (47, 48, 49, 50, 51, 52)
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53. A bottom hole drilling assembly comprising a drilling motor assembly, laser beam conveyance means, and an optical assembly;
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a. the drilling motor assembly comprising i. upper connection means for connection to a drill string, said upper means for connection to a drill string is rotationally fixed with respect to the drill string, ii. an internal assembly comprising a mandrel, an upper flex shaft, a hollow screw shaft, and a lower flex shaft, said internal assembly rotationally fixed with respect to said upper means for connection to a drill string, iii. an external motor body disposed around, and rotatably mounted upon and with respect to, the internal assembly, iv. a bearing assembly disposed between the internal assembly and the external motor body, and transmitting thrust and radial loads between said internal assembly and the external motor body, v. the hollow screw shaft disposed upon, and rotationally fixed with respect to, the upper flex shaft, vi. the lower flex shaft is positioned below, and disposed upon, and rotationally fixed with respect to, the hollow screw shaft, and vii. a helical progressive cavity gear member disposed in the external motor body, and around the hollow screw shaft, and capable of generating rotational movement of the external body with respect to the internal assembly when drilling fluid is forced through the drilling motor assembly; b. the laser beam conveyance means comprises a fiber optic cable that passes through and is rotationally fixed with respect to the drilling motor internal assembly; and
,c. the optical assembly comprising i. an upper portion disposed upon, and rotationally fixed to, the drilling motor internal assembly, and optically connected to the laser beam conveyance means, and ii. a lower portion disposed within, and rotationally fixed to, the external motor body.
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Specification