EP0578690A1

EP0578690A1 - Oil, gas or geothermal drilling apparatus.

Info

Publication number: EP0578690A1
Application number: EP92907586A
Authority: EP
Inventors: Andre Leroy
Original assignee: Individual
Current assignee: Individual
Priority date: 1991-04-12
Filing date: 1992-04-03
Publication date: 1994-01-19
Anticipated expiration: 2012-04-03
Also published as: DE69206792T2; NO305406B1; CA2104010A1; NO933660D0; NO933660L; CA2104010C; FR2675197A1; EP0578690B1; DE69206792D1; FR2675197B1; RU2062861C1; WO1992018740A1; US5343964A

Abstract

L'objet de l'invention est un appareil de forage pétrolier, gazier ou géothermique comportant un outil central et un trépan coaxiaux dans lequel l'outil central est entraîné par le rotor d'un moteur de fond alimenté par la boue de forage et dans lequel le trépan est entraîné, depuis la surface, par les tiges d'un train de forage appartenant à un système rotary, ces mêmes tiges soumettant l'appareil à un effort axial. Il est caractérisé en ce que, entre le stator (4) du moteur de fond et l'embase (5) du trépan, existe une liaison prismatique qui permet le déplacement axial relatif des deux outils et en ce qu'un ressort (6) est interposé entre le stator (4) et l'embase (5) de manière à être contraint par le stator quand l'outil central tend à prendre du retard par rapport au trépan dans leurs mouvements d'avance respectifs, afin de contrôler le déplacement axial relatif des deux outils et de répartir entre eux, en fonction de ce déplacement, l'effort axial auquel l'appareil est soumis. Application à l'industrie du matériel de forage notamment pétrolier, gazier ou géothermique.The object of the invention is an oil, gas or geothermal drilling apparatus comprising a central tool and a coaxial bit in which the central tool is driven by the rotor of a downhole motor fed by the drilling mud and in in which the bit is driven, from the surface, by the rods of a drill string belonging to a rotary system, these same rods subjecting the device to an axial force. It is characterized in that, between the stator (4) of the downhole motor and the base (5) of the bit, there is a prismatic connection which allows the relative axial displacement of the two tools and in that a spring (6) is interposed between the stator (4) and the base (5) so as to be constrained by the stator when the central tool tends to lag behind the bit in their respective advance movements, in order to control the displacement axial relative of the two tools and to distribute between them, as a function of this displacement, the axial force to which the device is subjected. Application to the industry of drilling equipment, in particular oil, gas or geothermal energy.

Description

OIL, GAS OR GEOTHERMAL DRILLING APPARATUS

The object of the invention is an oil, gas or geothermal drilling rig, comprising a central tool and a coaxial drill bit, in which the central tool is driven by the rotor of a downhole motor powered by drilling mud. and in which the drill bit is driven from the surface by the rods of a drilling train belonging to a rotary system, these same rods subjecting the apparatus to an axial force. We know (US-A-4,862,974) a device meeting this definition; in such an apparatus, the combined action of the two tools aims to use the energy contained in the mud to increase the overall energy of the drilling, which becomes necessary to keep a sufficient speed of advance when the diameter of the well becomes large .

Another possible advantage of this organization is to allow the central tool to rotate at a higher angular speed than the drill bit, and thus to achieve more uniform linear cutting speeds over the major part of the diameter of the drilled well.

In the drilling rig described by the patent (US-A-4,862.S74), the drilling rig securely fastens the base of the drill bit and the stator of the downhole motor. In these conditions, the power distribution is optimal in the only case where the drilled ground and the cutting conditions imposed on the two tools are such that the feed speeds which would be taken by each of them would be identical if they acted separately . Any deviation from this ideal situation manifests itself in a poor instantaneous distribution of power and a problematic realization of the expected benefits.

REPLACEMENT SHEET One of the results targeted by the invention is to remedy this drawback.

Between the stator of the downhole motor and the base of the drill bit, the drilling device which is the subject of the invention comprises a prismatic connection so as to allow the relative translation of the two tools along their common axis.

To automatically control this relative axial displacement, any means comprising an elasticity, which we will call spring, is interposed between the stator of the downhole motor and the base of the drill bit so that the stator forces this spring when the central tool tends to fall behind the drill bit in their respective advance movements.

To improve the efficiency of the system thus designed, the stator of the downhole motor and the base of the drill bit have shapes delimiting between them an orifice whose section is a function of their relative positions, allowing the deviation of a variable part of the flow of mud, which thus avoids the intake port of the bottom engine. The drilling rig modifies the deflection orifice so as to increase the flow admitted into the motor when the relative axial displacement of the stator is in the direction in which it tends to constrain the spring and vice versa.

Finally, to prevent the downhole motor from operating as a pump if, for whatever reason, the speed of rotation of the central tool falls below that of the drill bit, a freewheel can be interposed between the base of the central tool and the drill bit.

This freewheel is obviously of a type which makes it powerless to oppose the relative axial displacement of the two tools and it is mounted so as to lock when the absolute rotation speed of the central tool tends to become lower than that of the drill bit.

The advantages of the drilling device which is the subject of the invention are the following:

REPLACEMENT SHEET - it imposes on the two tools an equal advance speed on average without imposing the untimely equality of instantaneous advance speeds,

- it automatically performs, at the bottom of the hole, the variation of the cutting conditions imposed on each of the tools as a function of the variations in resistance of the ground and thus allows, in all circumstances, a suitable instantaneous distribution of the available power; thus, when the central tool tends to lag in its advance movement and is braked in its rotation, the spring controls the increase in the force on the central tool and the simultaneous relief of the drill bit, while the throttling of the mud flow through the variable orifice increases the hydraulic power available for the downhole engine: this allows the engine to deliver higher torque and the device to react flexibly against the slowdown of the central tool,

- it allows the two rotating tools to be secured automatically, without having to interrupt the drilling in progress, when, for any reason, the downhole motor is immobilized or no longer has the power necessary to allow the device to operate in nor a conditions.

Figures 1 to 3 of the accompanying drawing describe by way of example an embodiment of the drilling rig, object of the invention, in which are present all the provisions listed above.

Figure 1 shows an axial section of

1 drilling rig 1. Figure 2 shows, on an enlarged scale, a partial section II-II of Figure 1 (the engine being viewed from above without being cut).

FIG. 3 is a part, on an enlarged scale, of the axial neck presented in FIG. 1.

REPLACEMENT SHEET We recognize in these figures, the central tool 1 driven in rotation by a bottom motor identified by its stator 4 as well as the drill bit 2 and its base 5 driven from the surface by rods 3 of a drilling train belonging to a rotary system.

Between the stator 4 of the downhole motor and the base 5 of the drill bit, the device comprises a prismatic connection 450.

The base is here in two parts assembled by the conical thread 51. The prismatic connection 450 is here produced by a groove comprising four teeth 40 on the stator, engaged between teeth 50 belonging to the base 5 of the drill bit.

The spring 5 working in compression bears, in 570, on the base of the drill bit and, in 416, on four projections 41 of the stator 4, the head surfaces of these projections forming, in 451, a complementary cylindrical guide of the stator in the base of the drill bit.

The projections 41 of the stator 4 have, on the other hand, bearing faces 452 which may constitute, with bearing faces 532 on the projections 53 of the base 5 of the drill bit, a stop enabling the device to be extracted from the well without lose part of it.

The orifice 7 through which the mud deviated from the inlet orifice 8 of the downhole motor is throttled by the stator 4 of the downhole motor when the latter compresses the spring 6, so that an increasing flow of mud is then admitted into the engine through its intake port 8.

The flow of mud which has passed through the orifice 7 circulates in the annular space 453 between the base 5 of the drill bit and the stator 4 of the downhole motor, crosses the orifices 52 which constitute restrictors, then crosses the drill bit and reaches the well by holes 20 formed in the body of the drill bit.

SHEET

REPLACEMENT The flow of sludge which has been admitted into the motor through the orifice 8 passes through the motor, yielding energy to it and finally escapes into the well through orifices 10 formed in the central tool. The drilling rig also comprises a free roller wheel (211) interposed between the surface 21 of the bore of the base of the drill bit 2 and a bearing surface of the base 11 of 1 Outi 1 cent al 1.

This freewheel is mounted so that it locks when the absolute rotation speed of the central tool tends to fall below that of the drill bit.

REPLACEMENT SHEET

Claims

1. Oil, gas or geothermal drilling rig comprising a central tool (1) and a coaxial drill bit (2), in which the central tool (1) is driven by the rotor of a downhole motor supplied by the mud of drilling and in which the drill bit (2) is driven, from the surface, by the rods (3) of a drilling train belonging to a rotary system, these same rods subjecting the apparatus to an axial force, this drilling apparatus being CHARACTERIZED in that, between the stator (4) of the downhole motor and the base (5) of the drill bit, it comprises a prismatic connection (450) which allows the relative axial displacement of the two tools and in that a means elastic (6) is interposed between the stator (4) and the base (5) so as to be constrained by the stator when the central tool tends to lag behind the drill bit in their respective feed movements, so to control the relative axial displacement of the two tools and to distribute between them, according to this displacement, the axial force to which the device is subjected.

2. A drilling rig according to claim 1 characterized in that the stator (4) of the downhole motor and the base (5) of the drill bit have shapes delimiting between them an orifice (7) whose cross section is a function of their relative positions, through which orifice (7) the mud is deflected from the intake orifice (8) of the engine, so as to increase the flow admitted into the engine when the relative axial movement of the stator is in the direction in which it tends to constrain the spring (6) and vice versa.

3. A drilling rig according to claims 1 or 2 characterized in that a free wheel (211), of a type allowing the relative axial movement of the two tools, is interposed between the base (11) of the central tool (1) and the drill bit (2), and mounted so as to lock when the absolute rotation speed of the central tool tends to fall below that of the drill bit.

REPLACEMENT SHEET