Downhole drilling tool system of torque self-balancing

Abstract

The present invention relates to a downhole drilling tool system of torque self-balancing and belongs to a technical field of drilling engineering equipment. The drilling tool system consists of an assembly of internal and external drill bits, power components, a pressure adjustment system for internal and external drill bits, a mud circulating system, and an unfreezing system. The present invention employs a dual drill bit of internal and external drill bits to crush rocks by inverse rotations, which realizes the drilling with slight disturbing to the surrounding rock; the torque self-balancing of the drill bit and the power system is realized as a whole without the torque effect to the upper drilling tool by utilizing the stator group and the rotor group of the power motor to drive the external and internal drill bits respectively; it is only necessary to trip the winch apparatus for the drilling tool on the ground to realize the normal operations of drilling, tripping, and logging-while-drilling by integrating the power source, mud circulating system and logging system, etc. into the drilling tool; the winch hoists up the drilling tool to remove rock particles at the sticking point by alternative positive and reverse rotations of the drill bit for unfreezing in order to realize the unfreezing when got stuck.

Claims

1. A downhole drilling tool system of torque self-balancing, characterized in that the drilling tool system consists of an assembly of internal and external drill bits, power components, a pressure adjustment system for internal and external drill bits, a mud circulating system, and an unfreezing system, wherein the assembly of internal and external drill bits comprises an internal drill bit, an external drill bit, a core barrel, a lower force-transfer joint of external drill bit, an upper force-transfer joint of external drill bit, a first seal for the internal and external drill bits, and a second seal for the internal and external drill bits, a lower force-transfer joint of internal drill bit, an upper force-transfer joint of internal drill bit and a torque-transfer string of internal drill bit; the internal drill bit, the core barrel, the lower force-transfer joint of internal drill bit, the upper force-transfer joint of internal drill bit and the torque-transfer string of internal drill bit are threadedly connected in sequence, and an inner diameter of the core barrel is matched with an inner diameter of the internal drill bit; the external drill bit, the lower force-transfer joint of external drill bit and the upper force-transfer joint of external drill bit are threadedly connected in sequence; the seal for internal and external drill bits I and the seal for internal and external drill bits II form a pair of sliding seals for internal and external drill bits which is located between the upper force-transfer joint of external drill bit and the lower force-transfer joint of internal drill bit and is fitted closely and slidably with both the upper force-transfer joint of external drill bit and the lower force-transfer joint of internal drill bit; wherein the power components comprise a rotor group of power motor, a seal ring of bearing for power system, a lower seal for power system, a bearing for power system, a stator group of power motor and an upper seal for power system; the rotor group of power motor and the stator group of power motor are connected with the bearing for power system respectively, wherein an inner hole of the rotor group of power motor is provided with keyways via which the rotor group of power motor is connected with the torque-transfer string of internal drill bit; the stator group of power motor, the lower seal for power system, the upper force-transfer joint of external drill bit and the lower force-transfer joint of external drill bit are threadedly connected in sequence; the lower seal for power system is threadedly connected with the upper force-transfer joint of external drill bit, and the lower seal for power system cooperates with the seal ring of bearing for power system to form a lower closed cavity; the upper seal for power system is threadedly connected with a pressure-transfer joint of external drill bit, and the upper seal for power system cooperates with the seal ring of bearing for power system to form an upper closed cavity; wherein the pressure adjustment system for internal and external drill bits is communicatively connected with a data terminal on the ground via data cables, the pressure adjustment system for internal and external drill bits comprises two assemblies of a pressure adjustment assembly for internal drill bit and a pressure adjustment assembly for external drill bit, wherein the pressure adjustment assembly for internal drill bit and the pressure adjustment assembly for external drill bit are threadedly connected by a centralizing sleeve for pressure adjustment; the pressure adjustment assembly for internal drill bit consists of a pressure-transfer joint of internal drill bit, an outer anti-off sleeve for pressure-transfer mechanism of internal drill bit, a pressure-transfer and no-torque-transfer bearing for internal drill bit, a pressure sensor for internal drill bit, a force-transfer centralizer of internal drill bit for pressure adjustment and a pressure adjustment structure; the pressure adjustment structure, the force-transfer centralizer of internal drill bit for pressure adjustment, the pressure sensor for internal drill bit, the pressure-transfer joint of internal drill bit and the outer anti-off sleeve for pressure-transfer mechanism of internal drill bit are threadedly connected in sequence from top to down; an inner ring of the pressure-transfer and no-torque-transfer bearing for internal drill bit is connected with the pressure-transfer joint of internal drill bit, and an outer ring of the pressure-transfer and no-torque-transfer bearing for internal drill bit is connected with the outer anti-off sleeve for pressure-transfer mechanism of internal drill bit; the pressure adjustment assembly for external drill bit consists of a pressure-transfer joint of external drill bit, an outer anti-off sleeve for pressure-transfer mechanism of external drill bit, a pressure-transfer and no-torque-transfer bearing for external drill bit, a pressure-transfer string for external drill bit, a pressure sensor for external drill bit and a pressure adjustment housing; the pressure adjustment housing, the pressure sensor for external drill bit, the pressure-transfer string for external drill bit, the outer anti-off sleeve for pressure-transfer mechanism of external drill bit and the pressure-transfer joint of external drill bit are threadedly connected in sequence from top to down, wherein the pressure adjustment housing is threadedly connected with an upper joint of mud circulating system; an inner ring of the pressure-transfer and no-torque-transfer bearing for external drill bit is connected with the pressure-transfer joint of external drill bit, and an outer ring of the pressure-transfer and no-torque-transfer bearing for external drill bit is connected with the pressure-transfer string for external drill bit; the seal ring for internal and external sensors is disposed between the pressure sensor for internal drill bit and the pressure sensor for external drill bit; the power pressure-transfer seal ring for internal drill bit is located between a force-transfer centralizer of internal drill bit for adjustment and the pressure sensor for internal drill bit; a sealing gland for pressure adjustment is situated between the pressure adjustment housing and the pressure sensor for external drill bit; wherein the mud circulating system comprises a lower joint of mud circulating system, a mud circulating system, a housing for mud circulating system and an upper joint of mud circulating system; the lower joint of mud circulating system, the housing for mud circulating system and the upper joint of mud circulating system are threadedly connected in sequence, wherein the lower joint of mud circulating system is threadedly connected with the pressure adjustment housing, and the upper joint of mud circulating system is threadedly connected with a lower joint of unfreezing system; the mud circulating system is situated between the lower joint of mud circulating system and the upper joint of mud circulating system; the seal ring for circulating system is disposed between the lower joint of mud circulating system and the mud circulating system; wherein the unfreezing system comprises a lower joint of unfreezing system, a logging-while-drilling system, a rotor joint of unfreezing system, a lower seal for unfreezing system, seal rings for unfreezing system, a centralizing bearing for unfreezing system, a rotor group of unfreezing system, a stator group of unfreezing system, an upper seal for unfreezing system, a drill bit for unfreezing system, a cable with sheath and a center tube for mud circulation; the lower joint of unfreezing system, the logging-while-drilling system, the rotor joint of unfreezing system and the rotor group of unfreezing system are threadedly connected in sequence; the lower seal for unfreezing system, the stator group of unfreezing system, the upper seal for unfreezing system and the drill bit for unfreezing system are threadedly connected in sequence; the rotor joint of unfreezing system is fitted with the lower seal for unfreezing system with a clearance; the rotor group of unfreezing system and the stator group of unfreezing system are connected with the centralizing bearing for unfreezing system respectively; a seal ring for unfreezing system is arranged between the rotor group of unfreezing system and the lower seal for unfreezing system, and a seal ring for unfreezing system is arranged between rotor group of unfreezing system and the upper seal for unfreezing system; the cable with sheath and the center tube for mud circulation are in a sealed and threaded connection with the upper seal for unfreezing system, respectively.

2. The downhole drilling tool system of torque self-balancing according to claim 1, characterized in that the logging-while-drilling system is provided with logging instruments for parameters.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The present invention is further explained with reference to the accompanying drawings and the detailed description below:

(2) FIG. 1 is a schematic diagram of a general assembly of a downhole drilling tool system of torque self-balancing according to the present invention.

(3) FIG. 2 is a schematic diagram of an assembly of internal and external drill bits of the downhole drilling tool system of torque self-balancing according to the present invention.

(4) FIG. 3 is a schematic diagram of power components of the downhole drilling tool system of torque self-balancing according to the present invention.

(5) FIG. 4 is a schematic diagram of a pressure adjustment system for internal and external drill bits of the downhole drilling tool system of torque self-balancing according to the present invention.

(6) FIG. 5 is a schematic diagram of a mud circulating system of the downhole drilling tool system of torque self-balancing according to the present invention.

(7) FIG. 6 is a schematic diagram of an unfreezing system of the downhole drilling tool system of torque self-balancing according to the present invention.

(8) FIG. 7 is a schematic diagram of a positive mud circulation of the downhole drilling tool system of torque self-balancing according to the present invention.

(9) FIG. 8 is a schematic diagram of a reverse mud circulation of the downhole drilling tool system of torque self-balancing according to the present invention.

(10) In the drawings: 1: internal drill bit 2: external drill bit 3: core barrel 4: lower force-transfer joint of external drill bit 5: upper force-transfer joint of external drill bit 6: seal for internal and external drill bits I 7: seal for internal and external drill bits II 8: lower force-transfer joint of internal drill bit 9: upper force-transfer joint of internal drill bit 10: rotor group of power motor 11: seal ring of bearing for power system 12: lower seal for power system 13: bearing for power system 14: torque-transfer string of internal drill bit 15: stator group of power motor 16: upper seal for power system 17: pressure-transfer joint of external drill bit 18: outer anti-off sleeve for pressure-transfer mechanism of external drill bit 19: pressure-transfer and no-torque-transfer bearing for external drill bit 20: pressure-transfer string for external drill bit 21: pressure-transfer joint of internal drill bit 22: outer anti-off sleeve for pressure-transfer mechanism of internal drill bit 23: pressure-transfer and no-torque-transfer bearing for internal drill bit 24: pressure sensor for internal drill bit 25: seal ring for internal and external sensors 26: pressure sensor for external drill bit 27: power pressure-transfer seal ring for internal drill bit 28: sealing gland for pressure adjustment 29: centralizing sleeve for pressure adjustment 30: pressure adjustment housing 31: force-transfer centralizer of internal drill bit for pressure adjustment 32: pressure adjustment structure 33: lower joint of mud circulating system 34: seal ring for circulating system 35: mud circulating system 36: housing for mud circulating system 37: upper joint of mud circulating system 38: lower joint of unfreezing system 39: logging-while-drilling system 40: rotor joint of unfreezing system 41: lower seal for unfreezing system 42: seal ring for unfreezing system 43: centralizing bearing for unfreezing system 44: rotor group of unfreezing system 45: stator group of unfreezing system 46: upper seal for unfreezing system 47: drill bit for unfreezing system 48: cable with sheath 49: center tube for mud circulation 50: borehole wall

DETAILED DESCRIPTION

(11) With reference to FIGS. 1-6, the present invention proposes a downhole drilling tool system of torque self-balancing consisting of an assembly of internal and external drill bits, power components, a pressure adjustment system for internal and external drill bits, a mud circulating system, and an unfreezing system. An upper drilling tool of the drilling tool system of torque self-balancing in the present invention only bears an axial force and torque balance of a lower drilling tool is realized by reverse rotations of the internal and external drill bits. The assembly of internal and external drill bits shown in FIG. 2 is used for cutting rocks by reverse rotations, in which the reverse torque required by the rock in contact with the drill bit from the surrounding rock is minor, thus a slight disturbing to the surrounding rock is generated and the borehole wall is still relatively regular and stable even if the drilling is performed in a crushed stratum. This assembly of internal and external drill bits comprises an internal drill bit 1, an external drill bit 2, a core barrel 3, a lower force-transfer joint of external drill bit 4, an upper force-transfer joint of external drill bit 5, a seal for internal and external drill bits I 6, a seal for internal and external drill bits II 7, a lower force-transfer joint of internal drill bit 8, an upper force-transfer joint of internal drill bit 9 and a torque-transfer string of internal drill bit 14; the internal drill bit 1, the core barrel 3, the lower force-transfer joint of internal drill bit 8, the upper force-transfer joint of internal drill bit 9 and the torque-transfer string of internal drill bit 14 are threadedly connected in sequence, and an inner diameter of the core barrel 3 is matched with an inner diameter of the internal drill bit 1; the external drill bit 2, the lower force-transfer joint of external drill bit 4 and the upper force-transfer joint of external drill bit 5 are threadedly connected; the seal for internal and external drill bits I 6 and the seal for internal and external drill bits II 7 form a pair of sliding seals for internal and external drill bits which is located between the upper force-transfer joint of external drill bit 5 and the lower force-transfer joint of internal drill bit 8 and is closely fitted with both the upper force-transfer joint of external drill bit 5 and the lower force-transfer joint of internal drill bit 8 in order to centralize and limit the internal and external drill bits. The power components shown in FIG. 3 are used for providing power to the assembly of internal and external drill bits, wherein the rotor group of power motor 10 and the stator group of power motor 15 are limited by a bearing for power system 13 through structural steps so that the rotor group of power motor 10 and the stator group of power motor 15 can rotate relatively stably; the seal ring of bearing for power system 11, the lower seal for power system 12 and the upper seal for power system 16 are combined to form a closed cavity to prevent the mud from entering into the closed cavity; an inner hole of the rotor group of power motor 10 is provided with a plurality of keyways to be connected with the torque-transfer string of internal drill bit 14 for transferring the power torque to the internal drill bit 1. A lower seal for power system 12 is threadedly connected with the upper force-transfer joint of external drill bit 5, and an upper seal for power system 16 is threadedly connected with the pressure-transfer joint of external drill bit 17. The pressure adjustment system for internal and external drill bits shown in FIG. 4 is communicatively connected with a ground data terminal via data cables for adjusting dynamically the pressure exerted on the internal and external drill bits to realize the self-balancing reverse rotations with respect to the stratum, during which both the pressure adjustment system for internal and external drill bits and the upper drilling tool are free from torques from the drill bits and only bear axial pull pressures. In the pressure adjustment assembly for internal drill bit, the pressure adjustment structure 32, the force-transfer centralizer of internal drill bit for pressure adjustment 31, the pressure sensor for internal drill bit 24, the pressure-transfer joint of internal drill bit 21 and the outer anti-off sleeve for pressure-transfer mechanism of internal drill bit 22 are threadedly connected in sequence, to transmit the drilling pressure from the upper drilling tool to the internal drill bit 1 and realize the function of pressure transfer but no torque transfer by means of the pressure-transfer and no-torque-transfer bearing for internal drill bit 23; in the pressure adjustment assembly for external drill bit, the pressure adjustment housing 30, the pressure sensor for external drill bit 26, the pressure-transfer string for external drill bit 20, the outer anti-off sleeve for pressure-transfer mechanism of external drill bit 18 and the pressure-transfer joint of external drill bit 17 are threadedly connected in sequence, to transmit the drilling pressure from the upper drilling tool to the external drill bit 2 and realize the function of pressure transfer but no torque transfer by means of the pressure-transfer and no-torque-transfer bearing for external drill bit 19; the pressure adjustment assembly for internal drill bit and the pressure adjustment assembly for external drill bit realize the function of centralizing and positioning by the centralizing sleeve for pressure adjustment 29 and realize sealing of the inner cavity of the pressure adjustment system by the seal ring for internal and external sensors 25, the power pressure-transfer seal ring for internal drill bit 27 and the sealing gland for pressure adjustment 28. The pressure-transfer joint of external drill bit 17 is threadedly connected with the upper seal for power system 16, and the pressure adjustment housing 30 is threadedly connected with the upper joint of mud circulating system 33. Instead of a ground mud pump and parts of the manifold thereof, the mud circulating system shown in FIG. 5 is used to cool the drill bits by circulating the mud, carry rock debris and protect the borehole wall 50; and the lower joint of mud circulating system 33, the housing for mud circulating system 36 and the upper joint of mud circulating system 37 are threadedly connected in sequence, wherein the lower joint of mud circulating system 33 is threadedly connected with the pressure adjustment housing 30, and the upper joint of mud circulating system 37 is threadedly connected with the lower joint of unfreezing system 38; said mud circulating system 35 is located between the lower joint of mud circulating system 33 and the upper joint of mud circulating system 37; the seal ring for circulating system 34 is disposed between the lower joint of mud circulating system 33 and the mud circulating system 35, and the seal ring for circulating system 34 obstructs the communication between the mud inlet of the upper joint of mud circulating system 37 and the lower drilling tool. The unfreezing system shown in FIG. 6 is used to handle downhole sticking accidents. The lower joint of unfreezing system 38, the logging-while-drilling system 39, the rotor joint of unfreezing system 40 and the rotor group of unfreezing system 44 are threadedly connected in sequence; the lower seal for unfreezing system 41, the stator group of unfreezing system 45, the upper seal for unfreezing system 46 and the drill bit for unfreezing system 47 are threadedly connected in sequence; the rotor joint of unfreezing system 40 is fitted with the lower seal for unfreezing system 41 with a clearance; the rotor group of unfreezing system 44 and the stator group of unfreezing system 45 realize the function of centralizing and positioning by two centralizing bearings for unfreezing system 43 and realize sealing of the inner cavity of the unfreezing power system by two groups of seal rings for unfreezing system 42. Various instruments such as sensors for measuring parameters, etc. can be mounted in the logging-while-drilling system 39 in an environment of no torque in the upper portion, and various logging instruments such as of sound, electricity, magnetism and radioactivity and the like are reserved in said logging-while-drilling system 39 and the logging-while-drilling system 39 transmits the collected and related data to the ground data terminal via data cables for processing. The cable with sheath 48 and the center tube for mud circulation 49 are threadedly and hermetically connected with the upper seal for unfreezing system 46 respectively, and the lower joint of unfreezing system 38 is threadedly connected with upper joint of mud circulating system 37. The lengths of the cable with sheath 48 and the center tube for mud circulation 49 lengthen with the drilling, and the cable with sheath 48 is armored for protection with a higher tensile strength.

(12) The working principle and process of the present invention:

(13) Rock crushing by rotations of the internal and external drill bits: the rotor group of power motor 10 drives the upper force-transfer joint of internal drill bit 9, the lower force-transfer joint of internal drill bit 8 and the core barrel 3 by the torque-transfer string of internal drill bit 14 via keyways and finally the power torque is transmitted to the internal drill bit 1, leading to rock crushing by the rotation of the internal drill bit; and at the same time the stator group of power motor 15, the lower seal for power system 12, the upper force-transfer joint of external drill bit 5 and the lower force-transfer joint of external drill bit 4 are threadedly connected in sequence, and the reverse power torque generated by the rock crushing of the internal drill bit is transmitted to the external drill bit 2, leading to rock crushing by the reverse rotation of the external drill bit.

(14) Automatic adjustment for drilling pressure of the internal and external drill bits: the pressure adjustment system for internal and external drill bits is communicatively connected with a ground data terminal via data cables, the pressure adjustment system for internal and external drill bits is controlled automatically by an electrical control system, the drilling tool is pressed by its own weight in the present drilling tool system, and the hoisting-up and hoisting-down of the cable with sheath 48 is controlled by hoisting up and down of the drilling tool by means of a winch and a total drilling pressure exerted on the internal and external drill bits is adjusted by the hoisting-up and hoisting-down of the cable with sheath 48. The total drilling pressure is transmitted to the pressure adjustment structure 32 and the pressure adjustment housing 30 via the motor drive of the pressure adjustment structure 32 respectively, and the ratio of the drilling pressure exerted on the internal and external drill bits is adjusted automatically by an electrical control program which is performed mainly on the basis of the drilling pressure data acquired by the pressure sensor for internal drill bit 24 and the pressure sensor for external drill bit 26.

(15) The principle of the drilling pressure transfer without torque in the upper drilling tool: the drilling pressure exerted on the lower drill bit by the upper drilling tool is transmitted to the pressure-transfer joint of internal drill bit 21 and the pressure-transfer joint of external drill bit 17 via the pressure-transfer and no-torque-transfer bearing for internal drill bit 23 and the pressure-transfer and no-torque-transfer bearing for external drill bit 19 respectively, leading to transmission of the drilling pressure from the upper stationary drilling tool to the lower rotational drilling tool. Said mud circulating system has two kinds of circulations, namely a positive circulation and a reverse circulation. The mud circulation is shown in FIG. 7 and FIG. 8: when drilling is performed with the positive circulation, the mud circulating system 35 delivers the ground mud to the cutting teeth of both the internal drill bit 1 and the external drill bit 2 through the center tube for mud circulation 49, the center of the rotor group of unfreezing system 44, the center of the rotor joint of unfreezing system 40, the center of the logging-while-drilling system 39, the center of the lower joint of unfreezing system 38, the center of the upper joint of mud circulating system 37, the mud passage in the pressure adjustment system for internal and external drill bits and the center of the torque-transfer string of internal drill bit 14, then brings the heat and rock debris upward and back into a ground mud sump via an annular space between an outer wall of the drilling tool system and the borehole wall 50, realizing the positive circulation of the mud; and when drilling is performed with the reverse circulation, the mud circulating system 35 delivers the ground mud to the cutting teeth of both the internal drill bit 1 and the external drill bit 2 via the annular space between the outer wall of the drilling tool system and the borehole wall 50, then brings the heat and rock debris upward and back into the ground mud sump along the way of the mud passage in the pressure adjustment system for internal and external drill bits, the center of the torque-transfer string of internal drill bit 14, the center of the upper joint of mud circulating system 37, the center of the lower joint of unfreezing system 38, the center of the logging-while-drilling system 39, the center of the rotor joint of unfreezing system 40, the center of the rotor group of unfreezing system 44 and the center tube for mud circulation 49, realizing the reverse circulation of the mud. The working principle and process of the unfreezing system: when the drilling tool system gets stuck within the borehole and the traction force for hoisting-up of the drilling tool exceeds a set value, the power motor of the unfreezing system is activated by the system automatically, and the stator group of unfreezing system 45 of the motor drives the drill bit for unfreezing system 47 to perform alternative positive and reverse rotations in order to cut the obstacles at the upper sticking point, this action will not stop until the traction force for hoisting-up is lower than the set value, and then the hoisting-up, hoisting-down or drilling will continue.