Using a rotating inner member to drive a tool in a hollow outer member

US 6,739,413 B2
Filed: 01/15/2002
Issued: 05/25/2004
Est. Priority Date: 01/15/2002
Status: Active Grant

First Claim

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1. A horizontal directional drilling machine comprising:

a rotary drive system;

a drill string operatively connected to the rotary drive system;

wherein the drill string comprises a plurality of dual-member pipe sections, each dual-member pipe section comprising a hollow outer member and an inner member positioned longitudinally therein, wherein the outer member is connectable with the outer members of adjacent pipe sections, wherein the inner member is connectable with the inner members of adjacent pipe sections, and wherein the interconnected inner members are independently rotatable of the interconnected outer members; and

at least one downhole tool supported within at least one of the dual-member pipe sections so that rotation of the interconnected inner members will drive operation of the downhole tool.

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Abstract

A rotating inner member is used to drive a downhole tool housed within the hollow outer member of a dual-member drill string. The downhole tool preferably will be adapted to receive rotational energy from the inner member. In a preferred embodiment, the downhole tool is an electric generator connected to a downhole electric device. In another preferred embodiment the downhole tool is a mechanical transmission that uses the rotational energy from the inner member to drive a non-electric tool, such as a downhole hammer. This invention will increase the consistency and efficiency of downhole energy production.

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46 Claims

1. A horizontal directional drilling machine comprising:
- a rotary drive system;
  
  a drill string operatively connected to the rotary drive system;
  
  wherein the drill string comprises a plurality of dual-member pipe sections, each dual-member pipe section comprising a hollow outer member and an inner member positioned longitudinally therein, wherein the outer member is connectable with the outer members of adjacent pipe sections, wherein the inner member is connectable with the inner members of adjacent pipe sections, and wherein the interconnected inner members are independently rotatable of the interconnected outer members; and
  
  at least one downhole tool supported within at least one of the dual-member pipe sections so that rotation of the interconnected inner members will drive operation of the downhole tool.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
- - 2. The horizontal directional drilling machine of claim 1 wherein the downhole tool comprises a power generator adapted to receive rotational energy from the inner member when the inner member is rotating, to convert rotational energy from the inner member into electric or hydraulic power.
  - 3. The horizontal directional drilling machine of claim 2 wherein the power generator is an electric generator.
  - 4. The horizontal directional drilling machine of claim 3 further comprising a transmitter electrically connectable to the power generator.
  - 5. The horizontal directional drilling machine of claim 2 wherein the power generator comprises:
6. The horizontal directional drilling machine of claim 5 wherein the power generator further comprises a second coil disposed around the magnet.
7. The horizontal directional drilling machine of claim 5 further comprising a transmitter electrically connectable to the power generator.
8. The horizontal directional drilling machine of claim 1 wherein the inner member is rotatable bi-directionally.
9. The horizontal directional drilling machine of claim 1 wherein the interconnected outer members of the drill string are adapted to be intermittently and selectively rotatable for steering.
10. The horizontal directional drilling machine of claim 1 wherein the inner member is solid.
11. The horizontal directional drilling machine of claim 1 wherein the rotary drive system comprises:
- an outer member drive group for driving rotation of the interconnected outer members comprising the drill string; and
  
  an inner member drive group for driving rotation of the interconnected inner members comprising the drill string.
12. The horizontal directional drilling machine of claim 1 wherein the outer member comprises a pin end and a box end, wherein the pin end and box end are correspondingly threaded for connection with similarly formed outer members, and the inner member comprises a geometrically shaped pin end and a box end forming a geometrically shaped recess corresponding to the shape of the pin end of the inner member, the pin end being slidably receivable in connector-free, torque-transmitting engagement with the box end of the similarly formed inner members.
13. The horizontal directional drilling machine of claim 1 wherein the downhole tool comprises a mechanical transmission.
14. The horizontal directional drilling machine of claim 13 wherein the mechanical transmission comprises a system for converting rotation of the inner member into axial movement.
15. The horizontal directional drilling machine of claim 13 wherein the mechanical transmission comprises a screw drive system.
16. The horizontal directional drilling machine of claim 15 further comprising a drill string steering mechanism operatively connectable to the screw drive system.
17. The horizontal directional drilling machine of claim 1 comprising a boring head operatively connected to the drill string.
18. The horizontal directional drilling machine of claim 17 wherein the interconnected inner members are adapted to drive operation of the boring head.
19. The horizontal directional drilling machine of claim 1 wherein one of the pipe sections is a bent-sub.
20. The horizontal directional drilling machine of claim 19 wherein one of the pipe sections comprises a beacon housing.

21. A pipe section assembly for use in a drill string, wherein the drill string comprises a plurality of dual-member pipe sections, each dual-member pipe section comprising a hollow outer member and an inner member positioned longitudinally therein, wherein the outer member is connectable with other outer members of adjacent pipe sections, and wherein the inner member is connectable with the inner members of adjacent pipe sections, wherein the interconnected inner members are rotatable independently of the interconnected outer members, the pipe section assembly comprising:
- an elongate, hollow outer member interconnectable with the outer member of at least one of the dual-member pipe sections in the drill string;
  
  an elongate, inner member arranged longitudinally within the outer member and being interconnectable with the inner member of at least one of the dual-member pipe sections in the drill string and rotatable independently of the outer member; and
  
  a downhole tool supported within the outer member and operatively connectable with the inner member so that rotation of the interconnected inner members drives operation of the downhole tool.
- View Dependent Claims (22, 23, 24, 25, 26)
- - 22. The pipe section assembly of claim 21 wherein the downhole tool comprises a power generator adapted to receive rotational energy from the inner member when the inner member is rotating, and to convert rotational energy from the inner member into electric or hydraulic power.
  - 23. The pipe section assembly of claim 22 wherein the power generator is an electric generator.
  - 24. The pipe section assembly of claim 23 further comprising a boring head supported on the drill string and operatively connected to the inner member.
  - 25. The pipe Section assembly of claim 22 wherein the power generator comprises:
26. The pipe section assembly of claim 25 wherein the power generator further comprises a second coil disposed around the magnet.

27. The pipe section assembly of claim 26 wherein the pipe section assembly comprises a directional boring head supported on the drill string and operatively connected to the inner member.

28. The pipe section assembly of claim 25 further comprising a transmitter electrically connectable to the power generator.

29. The pipe section assembly of claim 21 wherein the outer member is adapted to be intermittently and selectively rotatable for steering.

30. The pipe section assembly of claim 21 wherein the inner member is solid.

31. The pipe section assembly of claim 21 wherein the outer member comprises a pin end and a box end, wherein the pin end and box end are correspondingly threaded for connection with similarly formed outer members, and the inner member comprises a geometrically shaped pin end and a box end forming a geometrically shaped recess corresponding to the shape of the pin end of the inner member, the pin end being slidably receivable in connector-free, torque-transmitting engagement with the box end of the similarly formed inner members.

32. The pipe section assembly of claim 21 wherein the downhole tool comprises a mechanical transmission.

33. The pipe section assembly of claim 32 wherein the mechanical transmission comprises a system for converting rotation of the inner member into axial movement.

34. The pipe section assembly of claim 32 wherein the mechanical transmission comprises a screw drive system.

35. The pipe section assembly of claim 34 further comprising a steering mechanism operatively connected to the screw drive system.

36. The pipe section assembly of claim 21 wherein the pipe section comprises a bent-sub.

37. The pipe section assembly of claim 21 wherein at least one of the pipe sections comprises a beacon housing.

38. The pipe section assembly of claim 21 wherein the inner member is bi-directionally rotatable.

39. A method for generating power using a horizontal directional drilling machine including a rotary drive system attached to a drill string comprising a plurality of connectable pipe sections, each pipe section having an inner member disposed longitudinally within a hollow outer member, each outer member being connectable to another one of the outer members comprising the plurality of pipe sections and each inner member being connectable to another one of the inner members comprising the plurality of pipe sections, and wherein the plurality of inner members are rotatable independently of the outer members, the method comprising:
- rotating the interconnected inner members; and
  
  converting rotation of the inner member of at least one of the plurality of pipe sections into an output power within the pipe section.

40. The method of claim 39, wherein a directional boring head is attached to the drill string, the method further comprising:
- axially advancing the directional boring head; and
  
  rotating the directional boring head with the interconnected inner members.

41. The method of claim 39 wherein a steering mechanism is operatively connected to one of the outer members, the method further comprising:
- simultaneously controlling the direction of the drill string by selectively rotating the outer members of the drill string to position the steering mechanism for a period of axial advance.

42. The method of claim 39 wherein a directional boring head is attached to the drill string and wherein a steering mechanism is operatively connected to one of the outer members, the method further comprising:
- axially advancing the directional boring head;
  
  rotating the directional boring head with the interconnected inner members; and
  
  simultaneously controlling the direction of the drill string by selectively rotating the interconnected outer members of the drill string to position the steering mechanism for a period of axial advance.

43. A power-generating apparatus comprising:
- a hollow outer member;
  
  a bi-directionally rotatable inner member positioned within the outer member;
  
  wherein the inner member is rotatable independently of the outer member; and
  
  a power generator supported within the outer member and operatively connectable to the inner member for converting rotational energy from the inner member into electric power.

44. The apparatus of claim 43 wherein the power generator is an electric generator.

45. The apparatus of claim 43 wherein the power generator comprises:
- at least a magnet; and
  
  a first coil;
  
  wherein the magnet is supported non-rotatably by the inner member; and
  
  wherein the first coil is non-rotatably supported by the outer member.

46. The apparatus of claim 45 wherein the power generator further comprises a second coil disposed around the magnet.

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Litigation Campaign Assessment

Current Assignee
Charles Machine Works Incorporated The
Original Assignee
Charles Machine Works Incorporated The
Inventors
Sharp, Richard Felix, Dock, Matthew L.
Primary Examiner(s)
SCHOEPPEL, ROGER J

Application Number

US10/047,664
Publication Number

US 20030132034A1
Time in Patent Office

861 Days
Field of Search

175/61, 175/62, 175/73, 175/94, 175/99, 175/107, 175/256
US Class Current

175/61
CPC Class Codes

E21B 6/06   the rotation being intermit...

E21B 7/002   Drilling with diversely dri...

E21B 7/046   horizontal drilling drillin...

E21B 7/205   without earth removal E21B7...

Using a rotating inner member to drive a tool in a hollow outer member

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

106 Citations

46 Claims

Specification

Solutions

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Using a rotating inner member to drive a tool in a hollow outer member

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

106 Citations

46 Claims

Specification

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Solutions

Use Cases

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