EP0574326A1 - Apparatus, well drilling and equipment device, system and method - Google Patents

Apparatus, well drilling and equipment device, system and method Download PDF

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Publication number
EP0574326A1
EP0574326A1 EP93401501A EP93401501A EP0574326A1 EP 0574326 A1 EP0574326 A1 EP 0574326A1 EP 93401501 A EP93401501 A EP 93401501A EP 93401501 A EP93401501 A EP 93401501A EP 0574326 A1 EP0574326 A1 EP 0574326A1
Authority
EP
European Patent Office
Prior art keywords
column
lateral
opening
tubular
well
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP93401501A
Other languages
German (de)
French (fr)
Other versions
EP0574326B1 (en
Inventor
Lew Hayes
Larry Comeau
Christian Wittrisch
Ray Smith
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
CS Resources Ltd
IFP Energies Nouvelles IFPEN
Baroid Technology Inc
Original Assignee
CS Resources Ltd
IFP Energies Nouvelles IFPEN
Baroid Technology Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from FR9207142A external-priority patent/FR2692316B1/en
Application filed by CS Resources Ltd, IFP Energies Nouvelles IFPEN, Baroid Technology Inc filed Critical CS Resources Ltd
Publication of EP0574326A1 publication Critical patent/EP0574326A1/en
Application granted granted Critical
Publication of EP0574326B1 publication Critical patent/EP0574326B1/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Classifications

    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21BEARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
    • E21B7/00Special methods or apparatus for drilling
    • E21B7/04Directional drilling
    • E21B7/06Deflecting the direction of boreholes
    • E21B7/061Deflecting the direction of boreholes the tool shaft advancing relative to a guide, e.g. a curved tube or a whipstock

Definitions

  • the present invention relates to a system adapted to allow drilling and equipping a well drilled laterally to a main well.
  • the main well can be of any inclination, in particular substantially vertical or strongly inclined.
  • the lateral drilling technique is known from a main well previously drilled.
  • This main well can be in open hole, that is to say not cased, or cased by a tubular column.
  • This packing is conventionally equipped with a bottom motor and a deflecting tool such as an elbow fitting.
  • a deflection device commonly called "whipstock", which is fixed on or in place of the plug mentioned above.
  • Document US-A-4807704 discloses a system and method for carrying out several boreholes from a main well, but the equipment of the main and lateral wells is complex and occupies the interior space of the main well, preventing thus access to the lower part of the main well.
  • drilling the lateral well requires a milling phase in the tubular column of the main well.
  • the object of the present invention is in particular to casing a main well with a tubular pipe comprising one or more lateral openings at least partially prepared before the casing operation, then to hang on it a lateral column introduced into a lateral well drilled at from one of the openings.
  • tubular pipe When the tubular pipe is made up of elements of tubes assembled as it is introduced into the well, use is made of specifically manufactured tubular elements comprising in particular a lateral opening.
  • the casing operation is carried out according to the conventional technique but incorporating in the desired location, the specific elements comprising the lateral opening as well as other drilling devices and equipment.
  • the main well is thus thus equipped with a mixed casing comprising, at the locations provided by the operators, the means allowing the drilling and the equipment of a lateral well ready for use.
  • the corresponding production operations can take place in the usual way, for example by the establishment of a production column, or the installation of a pumping installation.
  • the communication between the producing formation and the interior of the casing must exist. This is the case if the casing is not cemented and if it includes at least one portion of perforated tube. Otherwise, in situ perforation means, well known in the art, are used.
  • This production scheme is an example among other possibilities offered by the present invention.
  • the openings can be plugged in a substantially sealed manner before their introduction into the well, which in particular allows cementing to be carried out according to the rules of the art.
  • bandages in particular made of thermosetting composite material which may include reinforcing fibers embedded in a matrix, such as glass fibers.
  • a piece of aluminum or other reforable material can be placed as reinforcement on the openings so that the blockage by the bandages can withstand greater pressures.
  • a conventional type drilling tool used for lateral drilling, is capable of destroying these bandages and their reinforcement without imposing additional operation. Without changing the tool, it will be possible to continue drilling after having perforated the tire.
  • a preferred method according to the invention can comprise the following steps. Those described below start from the state where a casing comprising at least one specific opening has been put in place in the main well. We descend into the main casing of the guide means comprising a guide ramp similar to that of a whistle deflector or whipstock, using operating rods.
  • these guide means are adapted to be able to be brought and positioned in the vicinity of any of the lateral openings, when there are several. The operator can choose any of the casing openings to perform lateral drilling and improve operations.
  • the guide means can be used both as a tool for deflecting the drilling tool and as a means for positioning the tubular column placed in the lateral well.
  • the lining is conventionally that which the operators use with a deflecting tool such as a whipstock, that is to say comprising in particular a drilling tool, a downhole motor, drill collars, drill rods.
  • a deflecting tool such as a whipstock
  • the operator decides whether or not to equip the lateral well with a perforated casing or not. If the equipment is executed after drilling, as is often the case to limit the risks of blockage of the well by collapse of the formation, the same guide means are preferably used to descend the lateral tubular column into the lateral well.
  • the upper end of the lateral casing and the opening comprise means for ensuring the junction of the lateral casing in the main casing, at the level of the opening.
  • These joining means may include a connecting fitting adapted to cooperate with the opening. This fitting is fixed on the upper end of the lateral casing.
  • the invention has in particular the advantage of practically not cluttering the interior space of the main casing by the means of junction between the lateral casing and the main casing, which allows access to the other openings more distant from the surface. , even after fitting the side well with the side casing.
  • closing means for example a sliding door, can complete the joining means.
  • This door is adapted to obstruct practically all the space situated between the connection connection of the lateral casing and the opening, so that the effluent coming from the lateral well flows into the main casing through the interior of the lateral casing and not not through the annular space between the well and the casing. In fact, if this were not the case, the advantage of installing a column in the lateral well would be less, if not zero.
  • the closing means for example the sliding door can also serve as a complementary connecting means with the connecting fitting.
  • the tool for installing the lateral casing can have the function of properly orienting the special connector with respect to the opening and of closing the opening.
  • these two operations can be carried out using different tools.
  • Lateral drilling means can be lowered into the main well and a lateral well can be drilled from said opening.
  • the means for drilling said lateral well can be guided by said guide means and the introduction of said lateral column into the lateral well can be guided by said guide means.
  • Junction means can be oriented relative to said opening by the guide means.
  • the space between said opening and the lateral column can be substantially plugged substantially at the junction means.
  • Said guide means can be moved after the lateral column has been joined to the tubular column of the main well.
  • the lateral column can be introduced into the lateral well by means of operating rods assembled from the surface, said rods being connected to said lateral column by means of a setting tool.
  • the closing means can be activated by varying the pressure in the interior space of the setting tool.
  • the installation tool can be released from said lateral column by varying the pressure in the installation tool.
  • the openings can be oriented relative to each other by rotation of said portions around the axis of the column, and one can control said orientations using a measurement tool lowered into the interior space of said column.
  • the invention also relates to a system for drilling and equipping at least one lateral well to a main well cased by a tubular column comprising at least one lateral opening, said opening being suitable for the passage of a drilling tool, said system comprising a lateral tubular column housed in said lateral well and guide means positioned relative to said opening.
  • Said system comprises means for joining the lateral column situated substantially on the periphery of the tubular column.
  • the system may include means for closing the space between said lateral column and said opening, said closing means being situated substantially at the level of the joining means.
  • the guide means can be adapted to guide said drilling means and said lateral column.
  • the guide means may include displacement means allowing the displacement of said guide means in the tubular column after the junction of the lateral column.
  • the system may include a key integral with the main column in the vicinity of said opening, said displacement means may consist of a continuous groove along the guide means, and said anchoring means may consist of another groove and a reversible lock blocking the key in said other groove.
  • the system may include a tool for installing said lateral column, said tool being linked to the lateral column by a reversible anchor, said tool comprising means for orienting the joining means by cooperation with the guide means and means for d activation of the means of closing, and said tool can be lowered into the well by operating rods.
  • the activation means may comprise a differential piston and a drive finger in translation said closure means.
  • the invention also relates to a connecting device between two tubular elements.
  • a first tubular element has a lateral opening of dimension adapted to allow the passage of the second element, and the device comprises means for joining the second element to the first located at the periphery of the first element.
  • the device may include means for closing the space between the second tubular element and the opening.
  • Said joining means may comprise a connection fitting integral with the second tubular element by means of a rotary joint.
  • connection fitting may comprise a section along an inclined plane with respect to the main axis of the fitting, a portion of the periphery of said section may be in contact with a corresponding portion of the periphery of the opening, and the closing means may comprise a sliding plate adapted to substantially close off the space between the other periphery portions of said section and of the opening.
  • Said section can be rectangle.
  • connection fitting may comprise, on the sides substantially parallel to the axis of the first element, connection means cooperating with the sliding plate when the latter is moved.
  • the method, system or device according to the invention can be applied to the exploitation of petroleum deposits, said main well being vertical or horizontal.
  • the references 1 and 2 designate the main well and the lateral well in which tubular columns 4 and 3 have been placed respectively.
  • the assembly 5 mainly comprises a lateral opening 21 in the column 4, a fitting connecting 7 between the main column 4 and the lateral column 3, a joint 8 intermediate between the connecting fitting 7 and the column 3, means 9 for closing the space existing between the fitting 7 and the opening 21.
  • FIGS. 2A and 2B show in partial section the main column 4 in which the guide means 10 are positioned such that the system must be configured for the drilling or equipping operation of the lateral well.
  • the connection fitting 7 is shown in this figure fixed by the stop and retaining means 14 and a sliding door 12 closes the lateral opening 21 around the fitting 7.
  • the details of the door and the opening will be more fully described using figures 4A, 4B, 4C, 4D or 15A, 15B and 15C.
  • connection fitting 7 does not penetrate into the interior of the column 4 and is located substantially in the same plane as the opening.
  • the details of the connection fitting are shown in FIGS. 6A, 6B, 6C, 6D and 6E.
  • the door 12 is held on the column 4 by a casing 16.
  • a shear pin 17 fixes the door 12 in the high or open position, position in which the opening 21 has a dimension which allows the passage of the drilling tool and of the side column. In FIGS. 2B and 2A, the pin 17 is sheared and the door is in the closed position on the opening 21, around the connection fitting 7.
  • a channel or a conduit 36 arranged in the guide means connects the interior space of the column 4 on either side of these guide means.
  • Centering pads 70 are arranged on the circumference of the means 10, substantially at the level of the two ends 11 and 18.
  • FIG. 4A shows a top view of a tubular element 24 intended to be assembled with other tubes to constitute the column 4.
  • the assembly is done by means of threads 25 and 26.
  • the opening 21 is in fact composed of two windows 27 and 28 cut respectively in the casing or cover 16 and the tubular body of the element 24.
  • the function of the cover 16 is to hold and guide the sliding door 12 shown in top view in FIG. 4D.
  • the width of the opening 21 is adapted to let the lateral drilling tool pass, the length of the opening depends on the slope of the ramp.
  • the flat surface 29 forming part of the circumference of the window 27 of the cover is the place where the connection fitting 7 abuts and possibly attaches.
  • a key 23 is welded to the body of the element 24, preferably in the longitudinal axis of the opening.
  • the key protrudes from the inner wall of the tubular element so that the top of the flat of the key is at a distance D from the diametrically opposite point.
  • This dimension D is functionally important for the positioning of the guide device, role that is played to the key 23 integral with the element 24. Furthermore, this dimension is sufficient not to hinder the passage of organ or d intervention equipment.
  • the door 12 is fixed in the open position by a shear pin 17. In this position, the opening 21 has maximum dimensions.
  • FIG. 4C is a section of the element 24 which shows the stacking of the door 12 on the body of the element 24 and the assembly of the cover 16 on the same body by welding two bars 30 and 31 over the entire length.
  • the largest diametrical dimension of the element 24 should not be greater than the outside diameter of the sleeves of the tube fittings making up the column 4.
  • the element 24 can be lowered into a well drilled by a tool of conventional diameter without substantially providing friction greater than that provided by a tube connection.
  • FIG. 4D is a top view of the sheet metal constituting the door 12.
  • the bore 32 receives the shear pin 17.
  • the branches 33 and 34 separated by the distance referenced 35 will close off the clearance between the opening 21 and the connection connector 7.
  • the shape of the U and its width referenced 35 is a function of the external shape of the connection fitting 7. It should be noted that the U of the door window, once it is closed, cooperates with the portion 29 of the circumference of the window 27 of the cover 16, to form a rectangle of dimensions substantially equal to the section of the end of the connection fitting 7. In fact, referring to FIGS.
  • connection fitting of square cross section
  • the end section 13 of the connection fitting has a rectangular shape corresponding to the U-shaped opening of the door 12 and to the width of the portion of periphery 29.
  • the door and the portion of the periphery 29 of the opening 21 will always be adapted so that, once the door is closed on the connection fitting, it does not there is only a reduced space or clearance, if not zero, between the connection fitting and the element 24.
  • the objective of the cooperation of the door with the connection fitting is to obtain a sufficient seal for practically prevent the flow of fluid around the connection fitting or the ingress of sand. It is possible, within the framework of this invention, to add a resilient seal either to the connection fitting, or to the door and the line 29 or else both, in order to improve the sealing.
  • Holes 75 are machined in the door 12. Their shape is adapted to cooperation with a means for moving the door, which is part of the fitting tool. An illustration of this means is for example the finger 76 of the fitting tool illustrated by FIGS. 10A, 10B and 10C. Depending on the length of the travel path of the door 12 and the translational travel of the finger 76 (FIGS. 10), several openings 75 are necessary and spaced apart at most from the length of the travel of the said finger 76. The openings 75 must correspond with a slot 66 in the body of the tube 24 so as to be able to actuate the door 12 from the inside of the pipe 4 and through the wall of the tubular element 24.
  • Figures 15A, 15B and 15C show another embodiment of a tubular element 24 and another drawing of the door 12.
  • Figures 15A and 15B differ mainly in the shape of the openings 27 and 28 respectively in the cover 16 and the tubular body 24, the coincidence of these openings 27 and 28 constituting the opening or passage 21.
  • the wide part 136 of the opening 27 narrows in the form of a funnel 137 to finally have at 138 substantially the width of the connection fitting 7.
  • the wings 139 of the connection fitting 7 are blocked by the cover 16 substantially in the zones referenced 140, below which the tube 24 is opened by the opening 28.
  • the part 135, welded to the body 24, has a tooth-shaped section whose slope allows the displacement of the connection fitting in the direction of its introduction into the lateral well but blocks the movement of the connection fitting once the part 141 of said fitting has reached its final position.
  • FIG. 6C one can see the cooperation of the part 135 with the part 141 linked to the connection fitting, after the connection fitting 7 has been put in place with respect to the opening.
  • One or more shear pins 134 are fixed in the cover 16 between the branches 33 and 34 of the door, the latter being positioned open.
  • a series of pins 134 can be arranged along the axis of the U of the door 12. The role of these pins is as follows: when the means for closing the door break the pin 17, the latter is driven in translation until the bottom of the U of the door comes to lock on the pins 134. The closing means then signal to the surface that there is locking in translation by a rise in hydraulic pressure, if the means are activated hydraulically, or an increase in mechanical force (for example a torque), if they are activated mechanically. The operator thus knows that the door has moved from the distance between the original position of the door and the pins 134. By placing a series of series of pins 134, the operator can deduce from the surface the position reached by the door.
  • FIG. 15C shows a top view of a door 12 comprising branches 33 and 34 separated by a distance 35.
  • the branches 33 and 34 have their ends 143 cut into a point in order to facilitate guiding with respect to the connection fitting 7.
  • the door is cut to form slots 142 promoting sliding in translation of the door.
  • teeth On one of the slots 142, teeth have been machined for locking the door in the closed position around the connection fitting. The details of this lock are illustrated in Figure 12.
  • Figure 12 shows the principle of locking the door 12 in the closed position.
  • a flexible blade 144 is fixed to at least one of the bars 30 and 31 which serve as lateral guide to the door and means for fixing the cover 16 to the tubular body 24.
  • the end 145 of the blade 144 is adapted to cooperate with the teeth 143 when the door has been made to move completely.
  • the asymmetrical shape of the teeth irreversibly locks the door once the end 145 of the blade is engaged in one of the teeth 143.
  • the holes 75 have an oblong shape and a relatively large surface area in order to allow a certain tolerance of positioning of the door relative to the finger 76 of the means of movement of the door, as well as a mechanical reinforcement of this finger.
  • Figures 3A, 3B and 3C detail the end 11 of the guide means 10.
  • Figure 3B is a section of the means when they are positioned and anchored in the pipe 4 by the cooperation of the key 23 and a groove 37.
  • the groove 37 comprises a pawl 38 carried by a flexible blade 45 secured to a drawer 40 which can slide in the parallel housing 41 and disposed under the groove 37.
  • a return spring 42 of the drawer 40 is held in the housing 41 by a plug 43.
  • the pawl 38 has a slope 44 on the side opposite the bottom 39 of the groove 37, relative to the edge 47 defined below.
  • the flexibility of the blade 45 keeps the pawl 38 prominent relative to the bottom of the groove, through an opening 46 between the housing 41 and the groove 37.
  • an edge or a bearing surface 47 of the pawl locks the key 23 in the housing defined by the bottom 39 of the groove 37 and the edge 47.
  • the edge 47 abuts on the key 23, a edge 48 of the opening 46 cooperates with the slope 44 of the pawl to retract the pawl 38 and release the means 10 of the key.
  • the groove 37 has an open end.
  • the latter opposite the bottom 39 of the groove 37 opens onto a flat surface 49 forming one face of the tip of the end 11.
  • Another flat surface 50 forms the other side of the tip.
  • These two flat surfaces 49 and 50 belong to a dihedral.
  • the point formed by the surfaces 49 and 50 constitutes the means for orienting the guide means relative to the key which must, as the case may be, penetrate into the groove 37 or into a groove 51 diametrically opposite with respect to the groove 37.
  • the groove 51 is formed over the entire length of the means 10 so that when the key is guided in the groove 51, the means do not anchor and can be moved either towards the bottom of the well or towards the surface passing from one side of the key 23 to the other.
  • the double bevel shape of the end 11 of the guide means 10, obtained by the surfaces 49 and 50 is a preferred embodiment since it is easily produced. However, only the periphery of the surfaces 49 and 50 is functional since the end 11 cooperates with the key 23 for guiding and orienting. We will remain within the scope of the invention if the guide rails of the key in the groove 37 or in the groove 51 are produced differently, for an equivalent result.
  • FIGS. 3D and 3E illustrate another embodiment of the means for anchoring the guide means 10 in the pipe 4.
  • the means for orienting the guide means relative to the key 23 remain identical, as does the arrangement of the grooves 37 and 51.
  • the reversible locking means of the key 23 in the bottom of the groove 37 is constituted by a button 77 placed in a housing such as a bore 78 machined radially relative to the guide means, perpendicular to the axis of the groove 37
  • the button 77 is held by a nut 79 and is pushed in the direction of the groove 37 by a stack of spring washers 80 of the Belleville type.
  • the force required to compress the button can be adjusted by the number and type of spring washer 80.
  • the upper shape 81 of the button obstructs the groove preventing the end 11 from moving relative to the key 23 as long as the tensile force on the guide means is not sufficient to compress the washers 80.
  • the shape 81 is advantageously on a slope inclined towards the bottom of the groove and towards the opening of the groove 37.
  • the conduit 36 having the same axis as the part 11, is interrupted before the housing 78.
  • the conduit 36 is extended to the end of the guide means by conduits 82 and 83 parallel to the axis guide means and arranged on either side of the housing 78 so as not to interfere with the latter.
  • the double-pointed end is not substantially solid, but pierced with a cylindrical hole with a diameter referenced 133 and the bottom of which is referenced 132.
  • the conduits 82 and 83 open out into the bottom 132.
  • FIGS. 5A and 5B relate to the upper end 18 of the guide means.
  • This part is preferably tubular, with an outside diameter compatible with the inside diameter of the main column and with the dimension D mentioned above, and has an inside passage 22 of diameter compatible with the diameter of lateral drilling tool.
  • the conduit 22 opens at the entrance to the ramp 15.
  • the end of the part 18 is cut in the form of a bevel 20 constituting a means for guiding and orienting the means 10 relative to the key 23.
  • the groove 51 opens into the lowest part of the bevel as indicated by the Figure 5B. Indeed, in the case where the operator ascends to the surface said means 10, when the key 23 is an obstacle against the bevel 20, all of the guide means will be rotated along the slope of the bevel 20 until that the key 23 enters the groove 51 previously described. As the groove 51 opens at the other end of the means 10, these can be raised to the surface without being stopped by the key (s) 23.
  • a slot 53 is machined in the thickness of the wall of the part 18, from its internal bore, in the direction of a generator substantially at 90 ° from the main axis of the groove 51.
  • the slot 53 does not interrupt the continuity of the bevel guide ramp 20, since the slot 53 has a depth less than the thickness of the wall of the end 18.
  • Internal grooves 19 machined in the wall of the passage 22 allow the attachment of the operating rods of the guide means by means of an installation tool fixed to the end of these rods.
  • the slot 53 can cooperate with a finger secured to the setting tool so that a rotation of the operating rods, from the surface, drives the guide means in the same rotation.
  • a conventional tool is preferably used. or "releasing spear" which is anchored in the bore 22 by a system of wedges.
  • FIGS. 6A and 6B relate to the end of the lateral column 3 comprising the connection fitting 7 and an intermediate seal 8 between the tubes of the column 3 and the connection fitting 7.
  • the seal 8 allows orientation of the connection fitting around the longitudinal axis of column 3 relative to the lateral opening, without requiring rotation of the whole of column 3. Indeed, the length and / or the inclined arrangement of this column can create significant friction that should be overcome by the orientation means cooperating with the upper part 18 of the guide means.
  • the joint 8 thus makes it possible to decouple in rotation the connector 7 of the column 3 and to facilitate its orientation.
  • the flexibility of the seal 8 allows the correct inclination of the connecting fitting 7 relative to the lateral opening and the closing means.
  • Such a seal 8, illustrated in Figure 13 is described below.
  • the cross section of the connector 7 preferably has a square outside shape and of dimension such that it is substantially inscribed in a circle of diameter equal to the inside diameter of the duct 22.
  • the inside diameter of the duct 22 therefore limits the outside diameter of the components of the column 3.
  • FIG. 6B shows a bottom view of the rectangular section ABCD of the end 13 of the connecting fitting.
  • the perimeter consisting of the AB-BC-CD sides comes into close proximity or in contact with the sliding door when the latter is closed.
  • the side DA comes into contact with the periphery portion 29 of the window of the cover 16 (FIG. 4A).
  • the peripheral contacts thus limit the clearance between the connection fitting and the lateral opening.
  • this form is in no way limitative of the system, but was preferably chosen for the ease of design and manufacture of the opening, the door and the fitting.
  • a shoe is welded to the connector in order to constitute a stop 14 and a locking of the connector in the opening.
  • the finger 54 of the shoe 14 comes, at the end of translation of the fitting on the slide, penetrate into the housing 55 existing between the cover 16 and the body of the tubular element 24 (FIG. 4B).
  • a mechanical coupling for example an elastic hook can be integrated between the two cooperating parts: the finger 54 and the housing 55.
  • the finger can have a dovetail section.
  • the housing 55 will then have the corresponding female shape in order to improve the guiding and the maintenance of the connection fitting.
  • the door may include locking means cooperating at the end of closing with complementary means carried by the fitting 7 in the vicinity of the periphery BC. These means, not shown, are within the reach of ordinary skill in the art.
  • Figures 6C and 6D show another embodiment of the connection fitting 7 comprising slides having portions substantially parallel to section 13.
  • the slides consist of two rails 84 and 85 welded substantially along each side BA and CD.
  • the space between the rails corresponds to the thickness of the branches 33 and 34 of the door 12.
  • the lower rails 84 are shorter than the upper rails 85.
  • the end of the rails 85, on the BC side has a part 146 of a centering device cooperating with another part 147 linked to the holding part 86 (FIG. 9A).
  • FIG. 6F the connection fitting 7 is shown in perspective and assembled with the holding piece 86.
  • the centering device is substantially in the shape of a V-shaped truncated sphere on the side of the tip of the fitting 7.
  • This shape in V serves as a guide for the branches 33 and 34 of the door 12.
  • the part 147 is adapted to place the junction plane 130 substantially at the level of the opening 21 when the lateral column is read in place. Once the door is closed, the slides hold the connection fitting 7 in place.
  • FIG. 6C another variant of a locking device between the connector 7 and the body of the tube 24 is illustrated. It comprises a shoe 141 whose profile is in the form of an inverted tooth relative to the shoe 135 of the tubular body 24 ( Figure 15B).
  • the profile of the part 135 is shown here for the easy understanding of the cooperation of the shoes 135 and 141 which provides a blocking of the connection fitting in the direction of the ascent to the surface. Verification of the correct position of the connection fitting can be done by trying to pull on the fitting via the operating rods, if there is resistance, the operator can deduce that shoe 141 is correctly placed relative to the opening 21, and therefore that the relative positions of the different elements are good.
  • FIG. 6E is a section of the connection fitting in the vicinity of the wings 139. These wings 139 position the connection fitting 7 relative to the tubular body 24 by their placement under the cover 16 at the level of the zones 140 (FIG. 15A).
  • FIG. 7A represents a main well 1 into which a column 4 has been lowered, at least a portion of which has a lateral opening 21.
  • the equipment phase of well 1 is generally similar to the conventional operation of casing a well.
  • Column 4 is preferably made up of elements of "casing” or “tubing” according to the standard name of "the American Petroleum Institute". These tubes are assembled to each other by threads.
  • the column portion comprising the opening 21 is preferably made from a length of tube to obtain the element 24 as illustrated by FIGS. 4A, 4B and 4C or 15A and 15B.
  • the operators integrate the element (s) 24 into the column so that, at the end of the descent, these are located at the start of the planned lateral drilling.
  • connection means 25 (FIGS. 4B, 15B) of the element 24 may comprise means for specific fixing of the orientation of said element 24 relative to the lower tubular column. All the means known in general mechanics can be used, for example the principle of screw-nut with locking lock nut. This principle can be transposed in the present case as follows: the connection 25 consists of a cylindrical male thread; the tube on which the connection 25 is screwed has a corresponding female thread; a ring acting as a lock nut is mounted on the male thread.
  • the element 24 is screwed on the surface on the end of the already assembled column and introduced into the well.
  • We adjust the direction of opening of the element in assembly knowing the orientation of the opening of the previous element already assembled in the main column by the installation in the column of a measurement tool at this first opening.
  • the measurement tool for example of the gyroscope type "steering tool” or “MWD”, is indexed with respect to the opening for example using the key 23.
  • the position of the element is blocked by screwing, at a tightening torque determined by the size of the thread, the ring against the end shoulder of the female thread.
  • Other fixing systems are within the reach of the mechanic knowing the characteristics of the connections of the tubes "casing" or “tubing”.
  • FIG. 14 illustrates a simple means of connection between a tubular element 24 and a tube of the column 4, connection allowing adjustment and fixing in orientation of the element 24.
  • a casing sleeve 150 comprises two different types of female threads, 151 and 153.
  • the thread 151 corresponds to the male thread type of the tubes constituting the column 4.
  • the connection by the threads 151 comprises a shoulder 152 on which the male end of the tube 4 is blocked under the action of a tightening torque.
  • This connection conventionally called “premium connection” has, among other things, the particularity of not allowing relative rotation of the tubes with respect to each other in the event of the application of a torque to the entire column.
  • connection comprising the thread 153 is not shouldered, for example of the LTC (Long Thread Collar) type according to the 5CT standards of the American Petroleum Institute.
  • LTC Long Thread Collar
  • the rotation of the element 24 can be adjusted relative to the sleeve 150 as a function of the locking torque applied.
  • lateral needle screws 154 are blocked on the outside of the male thread 25 of the element 24.
  • the column When the entire column 4 has been lowered into the main well, the column is rotated about its axis to orient all the openings relative to the producing formation.
  • the rotational movement is done from the surface either directly on the top of the column if it rises to the surface, or on the operating rods if the column is of the "liner" type, ie 'it is interrupted at the hoof of the previous cemented column.
  • the main column and its openings are correctly positioned by controlling the orientation using a conventional measuring device, adapted to the type of main well concerned.
  • a lateral drilling phase will be undertaken after installation of the guide means 10 illustrated in FIG. 7A.
  • the means are assembled on the surface on a setting tool 56, for example using hooking means 19 comprising grooves (FIG. 5A) and slot 53 or using a "releasing spear” comprising an orientation fitting 161, hooking means 160 and a guide 162. It is not going beyond the scope of this invention if the fixing is done by another equivalent means.
  • the means are lowered into column 4 by means of operating rods 57. The depth reached by these means is checked by adding the lengths of rods 57.
  • the tip 58 with double slope (49, 50) abuts on the key 23, the tip 58 guides the device 10, either in the anchoring position when the key enters the groove 37 (FIG. 3B), or in the displacement position when the key enters the groove 51 (FIG. 3C).
  • the operator raises the means 10 above the key 13, as shown in FIG. 7A, then rotates by half turn the rods 57 and in the same movement the means 10 now have the other guide plane (49 or 50 of FIG. 3A) on the key 23.
  • the operator can thus choose to anchor or not to anchor the means 10 on the key 23 located at the dimension concerned.
  • the setting tool 56 is disconnected by a controlled action from the surface.
  • Systems are known which can be disconnected, for example by rotation, mechanical threshing or by hydraulic control. The drilling operation can then be carried out according to the diagram of FIG. 7B.
  • rods 57 it is necessary to add rods 57 to reach another opening located deeper, towards the bottom of the main well.
  • FIG. 7B shows a drilling tool 59 during drilling of the lateral well 2, the deflection angle I1 between the main well and the start of the lateral drilling is substantially equal to the angle I2 formed by the tangent to the surface of the ramp 15 at its lower end.
  • the surface of the ramp may be flat, as shown in FIG. 2A, but will preferably be curved so as to be able to reduce the length of the opening.
  • the curvature of the ramp can also be at a variable angle and increasing in the direction of the window 21. Of course, the admissible curvature of the ramp is limited by the rigidity of the drill string and that of the lateral column.
  • FIG. 7C relates to the introduction of the lateral column 3 into the lateral well 2.
  • FIG. 7C shows the equipment being lowered, before the final fitting of the connection fitting 7 at the level of the window 21.
  • the column of liner type ends with a connection fitting 7.
  • the connection fitting is connected to the tubes of column 3 by means of a seal 8.
  • Column 3 is shown being introduced into the lateral well 2, but the seal 8 and the connection fitting 7 are still located in the interior of the main column (FIG. 7C).
  • the entire column is lowered by the means of operating rods 60 rising to the surface.
  • An installation tool 61 is screwed substantially to the lower end of the rods 60.
  • the column 3 is suspended from the installation tool 61 by hooking means 62.
  • the installation tool may include anchoring means 62 from the inside of the tubes of the column 3, an orientation and displacement assembly 63, an assembly 64 for operating the door 12 comprising a finger 65 adapted to cooperate with the slot 66 of the body of the tube 24 (FIG. 4B) to be placed above the door.
  • the finger 65 is adapted to be moved in translation to slide the door in its housing and close the space between the opening and the connection fitting.
  • the finger can be activated diametrically and longitudinally via a means comprising a screw driven in rotation by the surface rotation of the rods 60, or by the displacement of a hydraulic cylinder subjected to a pressurized fluid injected from the surface .
  • FIG. 9A represents a tool for lowering and placing 61 of the lateral column 3, anchored in the connection fitting 7, which is integral with the column 3 by means of a seal 8.
  • the tool comprises an assembly 64 for operating the door 12, not shown in FIG. 9A but detailed by FIGS. 10A, 10B and 10C, an assembly 63 for orientation and positioning of the connection fitting 7 in the opening 21, an anchoring assembly 62 of the fitting tool 61 in the connector 7.
  • the anchoring assembly comprises a means of locking 87 secured to the end of an operating tube 88 and a piece 86 for holding the connection 7.
  • the holding piece 86 has a face 130 complementary to the section 13 of the connection fitting 7.
  • connection fitting 7 may include longitudinal grooves in which are trapped transverse pins secured to the wall of the fitting 7.
  • the centering device constituted by the parts 146 and 147 of FIG. 6F, is not shown in this figure for reasons of clarity.
  • FIG. 9B illustrates an anchoring system 87.
  • the connector 7 has a circular groove 89 in its interior passage.
  • a cylindrical piece 90 is secured to the end of the tube 88 by a thread 92.
  • the piece 90 has several slots 93 distributed over the periphery allowing a radial expansion of the end 91 of the split piece 90. This end is machined according to a male shape, complementary to the groove 89.
  • a plug 94 widens the end 91 of the slotted piece 90, locking the tube 88 in the connector 7.
  • the plug 94 is integral with a piston 95 located in the bore of the tube 88 Sealing means 96 isolate the interior space of the tube 88 from the annular space.
  • a shear pin 97 secures the piston 95 in the tube 88.
  • the column 3 is lowered into the well by rods integral with the tube 88.
  • the longitudinal forces are supported by the cooperation of the groove 89 and the shape 91 Unlocking will be carried out by increasing the pressure inside the tube 88, via the internal space of the operating rods and a pumping installation on the surface.
  • this breaking breaks free the piston which moves under the effect of the pressure down the figure of a stroke C determined.
  • This translational movement of the piston causes the plug 94 to be disengaged from the end of the part 90. Given the elasticity of the form 91, the latter retracts by itself or under the action of a longitudinal force applied to tube 88, thereby releasing tube 88 from fitting 7.
  • the orientation assembly 63 comprises a jacket 98 secured to the tube 88 by a shear pin 99.
  • the jacket has a shape 100 complementary to the shape of the orientation means 20 of the upper end of the means guide 10 ( Figure 2B).
  • Figure 2B the silhouette of the upper part 18 of the guide means is shown in dotted lines in FIG. 9A.
  • a key 101, integral with the tube 88 is located in a slot 102 cut in the jacket 98.
  • the shape 100 of the jacket of the fitting tool cooperates with the orientation means 20 of the guide means. The cooperation directs the fitting tool and the connecting fitting 7 in a determined direction, direction given by the orientation of the guide means in the pipe 4.
  • the slot 102 is located opposite the slot 53 of the upper part 18 of the guide means.
  • the operator applies a shearing force to the pin 99 by the action of rods or drill collars.
  • the rupture of the pin releases the tube 88 from the jacket 98, and in the same movement moves downward in a translational movement.
  • the key 101 enters the slot 53.
  • the translational movement has made a stroke of predetermined length, at most equal to the length of the slot 53, the connector 7 is correctly positioned in the opening 21. From even, at the end of this last movement, the door operating assembly is in the operating position.
  • Figures 10A and 10B show an embodiment of an operating assembly 64 of the door 12.
  • Figure 10C shows said assembly in action.
  • the two ends 103 and 104 of the assembly 64 are respectively connected to the orientation assembly 63 and to the operating lining, which may include drill collars, heavy rods or rods.
  • the outer body 105 of the assembly 64 comprises a window 106 of elongated shape along a generatrix of the body 105, an upper guide bearing 107 and a lower guide bearing 108.
  • a longitudinally movable assembly 109 coaxial with said outer body 105, comprises an upper piston 110, a lower piston 111, integral with a support 112 of a finger 76 for operating the door 12.
  • Sealing means 113 and 114 are placed respectively in the guide bearings 107 and 108 of the assembly 109 in the outer body 105.
  • the shoulders 117 and 116 of the body 105 limit the movement in translation of the assembly 109 by their respective cooperation with the shoulders 118 and 115 secured to the support 112.
  • a return spring 119 holds the assembly 109 in the high position relative to the body 105 or the rest position. In this rest position the shoulders 118 and 117 are in contact, as shown in FIGS. 10A and 10B.
  • the outside diameter of the upper piston 110, or the inside diameter of the seals 113 is substantially greater than the outside diameter of the lower piston 111, or the inside diameter of the seals 114.
  • the assembly 109 thus constitutes a differential piston, the pressure in the interior of the tubes applies to different sections, the largest section being on the upper piston side 110.
  • the finger 76 is articulated around the axis 120.
  • a leaf spring 131 (FIG. 10C) is held on the body 112 by a piece 122 carrying the axis 120.
  • the spring disposed under the finger 76 tends to pivot it towards the outside of the support 112.
  • the finger 76 In the so-called rest position, shown in the figures 10A and 10B, the finger 76 is kept retracted, parallel to the axis of the tool 64, by the part 121 of the external body 105.
  • a tubular rod 123 is located inside the lower piston 111
  • the rod 123 has at its lower end a shoulder 132 adapted to cooperate with a stop (not shown) placed at a determined distance in the end tube 103, and at its upper end a sealing sleeve 124.
  • a return spring 126 keeps the rod 123 in abutment e on the shoulder 127 of the lower piston 111.
  • the sealing sleeve 124 comprises sealing means 128 and 129 on either side of at least one orifice 125 drilled in the support 112.
  • the operating assembly 64 of the door 12 is described below.
  • the key 101 is in abutment in the bottom of the slot 53 of the upper part of the guide means.
  • the window 106 is located opposite the window 66 of the body of the tube 24 (FIGS. 4A and 4B).
  • the pressure is increased in the interior space of the rods and of the tube 88 by pumping means located on the surface.
  • the interior space is blocked by the piston 95 of the anchoring means 87.
  • the differential sections of the assembly 109 receives a downward thrust, proportional to the pressure and to the differential section.
  • the pushing force is about 4300 Ibs, or 19126 Newton.
  • the force compresses the spring 119 by lowering the assembly 109.
  • the finger 76 is radially expanded by its spring 131 (FIG. 10C). The finger 76 thus passes through the window 106, the window 66 and the end of the finger cooperates with one of the openings 75 in the door 12.
  • the pushing force moves the door thus driven by the assembly 109 until that the stop 115 arrives near the stop 116.
  • the stop 132 of the rod 123 cooperates with a stop (not shown), moving, at the end of the race of the assembly 109, the sealing sleeve 124.
  • the orifice 125 is released, putting the interior space of the rods 88 into communication with the annular space of the well and thus causing a pressure drop inside these tubes 88.
  • the end of a stroke is thus signaled to the operator who can cause the internal pressure to drop so that the assembly 109 returns to its rest position under the action of the return spring 119.
  • the shape of the finger 76 and the opening 75 are such that this finger 76 is automatically released from this opening 75. The operator repeats the operation to advance the door by successive strokes, until total closure.
  • a certain number of openings 75 are necessary for this displacement by successive strokes.
  • the operator does not observe any pressure drop caused by the end-of-stroke signal constituted by the sleeve 124 and the tube 123, he can deduce therefrom that the door is fully closed. This can be confirmed by the number of closing cycles that have already been carried out.
  • FIG. 13 is a particularly advantageous variant of the joint 8 intermediate between the tubes 3 of the lateral column and the connection fitting 7. It comprises two tubular parts 171 and 172 connected together by a connection 170 of the spherical type.
  • Part 171 has a certain length (about 1 meter) and a cross section such that it has relative flexibility.
  • Part 171 may advantageously be in the form of a bellows or of a tube with a corrugated wall which thus has great lateral flexibility even for a short length.
  • One end 173 has a substantially spherical shape, the other end 174 is integral with the connection fitting 7.
  • part 173 is held in a tubular part 175, integral with one end of the part 172 and whose internal shape cooperates with the spherical shape 173 to constitute a spherical connection 170.
  • the other end of the part 172 is connected to the tubes of the lateral column 3.
  • part 173 comprises in its inner wall the shape 89 (FIG. 9B) adapted to cooperate with the hooking device 87 fixed to the end of the tube 88 located in the interior space of the different tubular parts.
  • FIGS. 11A, 11B and 11C detail an example of plugging the opening 21 of the element 24 during the casing of the main well and before drilling the side wells from the window 21.
  • Strips 180 are wound around the element 24 over the entire length of the cover 16, taking care that the covering of the ends of the cover is as shown in detail in FIG. 11C.
  • the spaces 181 are filled with a filling material before the winding.
  • a plate 182 made of reforable material can seal the opening 27 (FIG. 15B) before being covered with bandages.
  • the bandages can be made of fiber-reinforced composite material.
  • FIGS. 16A and 16B illustrate a variant of the means for closing the space between the connection fitting 7 and the periphery of the opening 21.
  • the principle here is to equip the element 24 with closing means in several parts 191 and 190.
  • a part 190 slides parallel to the longitudinal axis of the element 24, and two parts 191 have a rotational movement around this same axis.
  • FIGS. 16A and 16B only show the operating principle because the production of these means is within the reach of those skilled in the art, taking into account the present invention.
  • the reference 193 represents the opening 27 of the cover 16 in top view according to FIGS. 15A or 4A.
  • the reference 192 represents the cross section of the connection fitting 7 substantially in the plane of the opening 27. In FIG. 16B, the opening is maximum.
  • Side doors 191 are spaced from each other by a distance corresponding to the width of the opening 21.
  • a door 190 with longitudinal displacement has a V-shaped end 194 whose slope corresponds to the shape 195 of the side doors.
  • the doors 190 and 191 are held in a casing constituted by the body of the tubular element 24 and a cover 16. Once the lateral column and its connection fitting 7 put in place in the lateral drilling, a translation is made of door 190 to the right of Figure 16B.
  • FIG. 16A shows the doors 190 and 191 which close off the space between the fitting and the opening, after they have moved.
  • other equivalent mechanical systems can be used to move closing elements in a given direction from a first translational movement.
  • FIGS. 8A and 8B give examples of applications of the method and of the system according to the invention.
  • a main well is drilled from the surface to a geological area 71, preferably an oil deposit.
  • the well 69 extends in the producing formation 71 by a substantially horizontal part 74.
  • the main well is made according to known techniques.
  • Part 74 at least, is cased according to the method according to the invention.
  • Said casing, perforated or not, comprises at least one portion comprising at least one lateral opening from which side drains 72 are drilled.
  • the side drains can be substantially horizontal in the producing layer 71, ascending or descending.
  • the arrangement of the drainage wells 72 depends on the producing layer.
  • the relative orientation of the openings allows the execution of the drains in the desired directions.
  • the main well 69 is substantially vertical up to the producing zone 71.
  • the lateral drilling 72 is carried out inclined, preferably substantially horizontal in the producing layer.
  • the tubular portion 73 of the casing of the main well 69 has at least one opening from which the drain 72 is drilled.
  • several openings located in the vicinity of the portion 73 allow the drilling of several drains 72
  • the openings will be located at different levels, for example for reasons of mechanical strength of the main casing or for a simplification of the implementation of the different means used according to the system and the method of the present invention.
  • the portion 73 may not be located in the producing formation.
  • the main well 69 may include several portions 73 allowing the drainage of the deposit to levels of different depths.
  • the invention can also be applied to the drainage of several producing layers separated and crossed by the main well 69.
  • the casing of the main well comprising several portions 73 and drains 72, for example one assembly per layer.
  • FIG. 8B the main well 69 is shown crossing entirely the producing layer 71. This arrangement is in no way limitative of the scope of the invention.

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Abstract

The present invention relates to a system for drilling flanking onto a main well (1) cased by a tubular column (4). At least a portion of the tubular column (4) includes a lateral opening (6, 21) designed to allow a flank well (2) to be drilled. A guiding device is positioned in the tubular portion in front of the lateral opening and is controlled from the surface. A lateral tubular column equips the flank well and includes a connector for connecting to the main column. The present invention also relates to a method for drilling and fitting out a flank well drilled from a cased main well. <IMAGE>

Description

La présente invention concerne un système adapté à permettre le forage et l'équipement d'un puits foré latéralement à un puits principal. Le puits principal pouvant être d'une quelconque inclinaison, notamment sensiblement vertical ou fortement incliné.The present invention relates to a system adapted to allow drilling and equipping a well drilled laterally to a main well. The main well can be of any inclination, in particular substantially vertical or strongly inclined.

Dans la technique d'exploitation des gisements souterrains, on connaît la technique de forage latéral à partir d'un puits principal préalablement foré. Ce puits principal peut être en trou ouvert, c'est-à-dire non cuvelé, ou cuvelé par une colonne tubulaire. Dans le premier cas, il faut généralement boucher le puits au niveau de l'endroit où doit débuter le forage latéral. Ceci peut être réalisé par la mise en place de bouchon de ciment qui offrira les points d'appuis nécessaires à une garniture directionnelle de forage pour débuter le forage latéral. Cette garniture est conventionnellement équipée d'un moteur de fond et d'un outil déviateur tel un raccord coudé. Il existe également la possibilité de forer selon la technique du rotary en utilisant un dispositif déviateur appelé communément "whipstock", lequel est fixé sur ou à la place du bouchon cité plus haut. Cette dernière technique, ancienne, est plus difficilement maîtrisée dans les trous ouverts où il est difficile de correctement maintenir en position le whipstock dans le puits. Dans le cas des puits principaux déjà cuvelés, la technique, identique, impose une opération supplémentaire de fraisage d'une fenêtre dans le cuvelage afin de pouvoir ensuite utiliser une garniture directionnelle de forage à travers l'ouverture aménagée. Cette opération nécessite un outil de fraisage adapté au matériau de fabrication du cuvelage dans lequel il faut découper une fenêtre.In the technique of exploiting underground deposits, the lateral drilling technique is known from a main well previously drilled. This main well can be in open hole, that is to say not cased, or cased by a tubular column. In the first case, it is generally necessary to plug the well at the level where the lateral drilling should start. This can be achieved by placing a cement plug which will provide the necessary support points for a directional drilling rig to start lateral drilling. This packing is conventionally equipped with a bottom motor and a deflecting tool such as an elbow fitting. There is also the possibility of drilling according to the rotary technique using a deflection device commonly called "whipstock", which is fixed on or in place of the plug mentioned above. This last technique, old, is more difficult to master in open holes where it is difficult to correctly maintain in position the whipstock in the well. In the case of main wells already cased, the identical technique requires an additional operation of milling a window in the casing in order to then be able to use a directional drilling lining through the opening provided. This operation requires a milling tool adapted to the material used to make the casing from which a window must be cut.

Ces techniques connues sous l'appellation de "side track", ont en général pour objet d'abandonner la partie basse du puits principal se trouvant à un niveau inférieur audit bouchon ou "whipstock". Dans ce cas l'équipement ultérieur du nouveau puits sera conventionnel, c'est-à-dire que le cuvelage remonte jusqu'en surface ou est suspendu dans une colonne existante par des moyens connus, par exemple le dispositif de suspension communément appelé "liner hanger".These techniques known under the name of "side track", generally have the purpose of abandoning the lower part of the main well being at a level below said plug or "whipstock". In this case the subsequent equipment of the new well will be conventional, that is to say that the casing rises to the surface or is suspended in an existing column by known means, for example the suspension device commonly called "liner hanger ".

On connaît par le document US-A-4807704, un système et une méthode pour effectuer plusieurs forages à partir d'un puits principal, mais l'équipement des puits principal et latéral est complexe et occupe l'espace intérieur du puits principal, interdisant ainsi l'accès à la partie inférieure du puits principal. De plus, le forage du puits latéral nécessite une phase de fraisage dans la colonne tubulaire du puits principal.Document US-A-4807704 discloses a system and method for carrying out several boreholes from a main well, but the equipment of the main and lateral wells is complex and occupies the interior space of the main well, preventing thus access to the lower part of the main well. In addition, drilling the lateral well requires a milling phase in the tubular column of the main well.

On connaît par le document US-A-4852666 un appareil et une méthode pour forer des puits latéraux à un drain horizontal. Toutefois, ce document ne divulgue pas une technique qui permet de forer des puits latéraux à partir d'un puits principal déjà cuvelé. De plus, il ne permet pas d'équiper le puits latéral avec un cuvelage.Document US-A-4852666 discloses an apparatus and method for drilling lateral wells to a horizontal drain. However, this document does not disclose a technique which makes it possible to drill lateral wells from a main well which is already cased. In addition, it does not allow the lateral well to be fitted with a casing.

L'objet de la présente invention est notamment de cuveler un puits principal avec une conduite tubulaire comportant une ou plusieurs ouvertures latérales au moins partiellement préparée avant l'opération de cuvelage, puis d'y accrocher une colonne latérale introduite dans un puits latéral foré à partir d'une des ouvertures.The object of the present invention is in particular to casing a main well with a tubular pipe comprising one or more lateral openings at least partially prepared before the casing operation, then to hang on it a lateral column introduced into a lateral well drilled at from one of the openings.

Lorsque la conduite tubulaire est constituée d'éléments de tubes assemblés au fur et à mesure de son introduction dans le puits, on utilise des éléments tubulaires spécifiquement fabriqués comportant notamment une ouverture latérale. L'opération de tubage s'effectue selon la technique conventionnelle mais en incorporant à l'endroit désiré, les éléments spécifiques comportant l'ouverture latérale ainsi que d'autres dispositifs de forage et d'équipement. Le puits principal est donc ainsi équipé d'un cuvelage mixte comportant, aux emplacements prévus par les exploitants, les moyens permettant le forage et l'équipement d'un puits latéral prêts à l'utilisation.When the tubular pipe is made up of elements of tubes assembled as it is introduced into the well, use is made of specifically manufactured tubular elements comprising in particular a lateral opening. The casing operation is carried out according to the conventional technique but incorporating in the desired location, the specific elements comprising the lateral opening as well as other drilling devices and equipment. The main well is thus thus equipped with a mixed casing comprising, at the locations provided by the operators, the means allowing the drilling and the equipment of a lateral well ready for use.

Le puits principal étant ainsi préparé, il faut noter que l'accès à l'espace intérieur du cuvelage autorise toutes les interventions que l'homme du métier peut souhaiter entreprendre dans un tel puits. En effet, l'espace intérieur du cuvelage préparé selon la présente invention n'est pas bouché. On pourra avoir ainsi accès notamment à la partie interne au cuvelage au-dessous de la zone du forage latéral avec des outillages de diamètre extérieur maximum, sensiblement conventionnel par rapport au diamètre intérieur dudit cuvelage principal. Le forage et l'équipement des puits latéraux répartis sur la longueur du cuvelage principal peuvent ainsi être effectués avec des outillages et équipements de même dimension puisque pratiquement aucun obstacle ne vient encombrer le passage intérieur du cuvelage principal.The main well being thus prepared, it should be noted that access to the interior space of the casing allows all the interventions that a person skilled in the art may wish to undertake in such a well. Indeed, the interior space of the casing prepared according to the present invention is not blocked. It will thus be possible to have access in particular to the internal part of the casing below the lateral drilling zone with tools of maximum external diameter, substantially conventional with respect to the internal diameter of said main casing. The drilling and the equipment of the lateral wells distributed over the length of the main casing can thus be carried out with tools and equipment of the same dimension since practically no obstacle obstructs the interior passage of the main casing.

De plus, si l'exploitation du gisement considéré, à partir du cuvelage principal seul, présente un intérêt, les opérations de mise en production correspondantes peuvent avoir lieu de manière habituelle, par exemple par la mise en place d'une colonne de production, ou la mise en place d'une installation de pompage. Bien entendu, la communication entre la formation productrice et l'intérieur du cuvelage doit exister. Cela est le cas si le cuvelage n'est pas cimenté et s'il comporte au moins une portion de tube perforé. Dans le cas contraire, on utilise les moyens de perforation in situ, bien connus de l'art.In addition, if the exploitation of the deposit considered, from the main casing alone, is of interest, the corresponding production operations can take place in the usual way, for example by the establishment of a production column, or the installation of a pumping installation. Of course, the communication between the producing formation and the interior of the casing must exist. This is the case if the casing is not cemented and if it includes at least one portion of perforated tube. Otherwise, in situ perforation means, well known in the art, are used.

La méthode d'équipement du puits principal selon l'invention, présente une grande souplesse d'exploitation, car on peut envisager plusieurs phases de production :

  • En premier lieu, on peut mettre en production le puits principal seul et utiliser toutes les techniques conventionnelles de production, de mise en production ou de mesure puisqu'il n'y a aucun obstacle à l'intérieur du cuvelage.
  • Cela jusqu'au moment opportun ou inévitable où il faut de nouveau investir pour conserver un rendement économiquement acceptable de production.
  • On peut alors forer un ou plusieurs puits latéraux en utilisant l'équipement spécifique mis en place avec le cuvelage, en utilisant les données de production que l'on a acquises pendant une phase précédente.
The method of equipping the main well according to the invention has great operating flexibility, since it is possible to envisage several production phases:
  • First, one can put into production the main well alone and use all conventional techniques of production, production or measurement since there are no obstacles inside the casing.
  • This until the opportune or inevitable moment when it is necessary to invest again to maintain an economically acceptable return on production.
  • We can then drill one or more lateral wells using the specific equipment put in place with the casing, using the production data that we acquired during a previous phase.

Ce schéma de production est un exemple parmi d'autres possibilité qu'offre la présente invention.This production scheme is an example among other possibilities offered by the present invention.

Cette démarche est possible car l'investissement initial, correspondant à la colonne spécifique du puits principal, ne représente pas des coûts supplémentaires important. On pourra ainsi améliorer le drainage du gisement.This is possible because the initial investment, corresponding to the specific column of the main well, does not represent significant additional costs. This will improve the drainage of the deposit.

De plus, dans la présente invention, les ouvertures peuvent être bouchées de manière sensiblement étanche avant leur introduction dans le puits, ce qui permet notamment d'effectuer une cimentation suivant les règles de l'art.In addition, in the present invention, the openings can be plugged in a substantially sealed manner before their introduction into the well, which in particular allows cementing to be carried out according to the rules of the art.

Pour réaliser ce bouchage, il sera avantageux d'utiliser des bandages, notamment en matériau composite thermodurcissable pouvant comporter des fibres de renfort noyées dans une matrice, telles des fibres de verre. Une pièce en aluminium ou autre matière reforable peut être placée en renfort sur les ouvertures de façon à ce que le bouchage par les bandages puisse résister à de plus grandes pressions. Un outil de forage de type conventionnel, utilisé pour le forage latéral, est capable de détruire ces bandages et leur renfort sans imposer d'opération supplémentaire. Sans changer d'outil, il sera possible de poursuivre le forage après avoir perforé le bandage.To achieve this closure, it will be advantageous to use bandages, in particular made of thermosetting composite material which may include reinforcing fibers embedded in a matrix, such as glass fibers. A piece of aluminum or other reforable material can be placed as reinforcement on the openings so that the blockage by the bandages can withstand greater pressures. A conventional type drilling tool, used for lateral drilling, is capable of destroying these bandages and their reinforcement without imposing additional operation. Without changing the tool, it will be possible to continue drilling after having perforated the tire.

Ainsi, lorsqu'il a été décidé de forer au moins un puits latéral, une méthode préférentielle selon l'invention peut comprendre les étapes suivantes. Celles décrites ci-après débutent de l'état où un cuvelage comportant au moins une ouverture spécifique a été mis en place dans le puits principal. On descend dans le cuvelage principal des moyens de guidage comportant une rampe de guidage similaire à celle d'un sifflet déviateur ou whipstock, à l'aide de tiges de manoeuvre. Avantageusement, ces moyens de guidage sont adaptés à pouvoir être amenés et positionnés au voisinage de n'importe laquelle des ouvertures latérales, lorsqu'il en existe plusieurs. L'exploitant peut ainsi choisir n'importe laquelle des ouvertures du cuvelage pour y effectuer le forage latéral et améliorer l'exploitation.Thus, when it has been decided to drill at least one lateral well, a preferred method according to the invention can comprise the following steps. Those described below start from the state where a casing comprising at least one specific opening has been put in place in the main well. We descend into the main casing of the guide means comprising a guide ramp similar to that of a whistle deflector or whipstock, using operating rods. Advantageously, these guide means are adapted to be able to be brought and positioned in the vicinity of any of the lateral openings, when there are several. The operator can choose any of the casing openings to perform lateral drilling and improve operations.

Les moyens de guidage, ancrés et orientés par rapport à l'ouverture peuvent être utilisés à la fois comme outil de déviation de l'outil de forage et comme moyen de positionnement de la colonne tubulaire mise en place dans le puits latéral.The guide means, anchored and oriented with respect to the opening, can be used both as a tool for deflecting the drilling tool and as a means for positioning the tubular column placed in the lateral well.

Pour exécuter le forage, les tiges de manoeuvre sont retirées pour descendre ensuite la garniture de forage latéral. La garniture est conventionnellement celle que les opérateurs utilisent avec un outil déviateur tel un whipstock, c'est-à-dire comportant notamment un outil de forage, un moteur de fond, des masses-tiges, des tiges de forage.To perform drilling, the operating rods are removed to then lower the side drill string. The lining is conventionally that which the operators use with a deflecting tool such as a whipstock, that is to say comprising in particular a drilling tool, a downhole motor, drill collars, drill rods.

Lorsque le forage latéral est achevé, l'exploitant décide ou non d'équiper le puits latéral d'un cuvelage perforé ou non. Si l'équipement est exécuté après forage, comme c'est souvent le cas pour limiter les risques de bouchage du puits par éboulement de la formation, on utilise préférentiellement les mêmes moyens de guidage pour descendre la colonne tubulaire latérale dans le puits latéral. L'extrémité supérieure du cuvelage latéral et l'ouverture comportent des moyens pour assurer la jonction du cuvelage latéral dans le cuvelage principal, au niveau de l'ouverture. Ces moyens de jonction peuvent comprendre un raccord de liaison adapté à coopérer avec l'ouverture. Ce raccord est fixé sur l'extrémité supérieure du cuvelage latéral.When the lateral drilling is completed, the operator decides whether or not to equip the lateral well with a perforated casing or not. If the equipment is executed after drilling, as is often the case to limit the risks of blockage of the well by collapse of the formation, the same guide means are preferably used to descend the lateral tubular column into the lateral well. The upper end of the lateral casing and the opening comprise means for ensuring the junction of the lateral casing in the main casing, at the level of the opening. These joining means may include a connecting fitting adapted to cooperate with the opening. This fitting is fixed on the upper end of the lateral casing.

L'invention présente notamment l'avantage de ne pratiquement pas encombrer l'espace intérieur du cuvelage principal par les moyens de jonction entre le cuvelage latéral et le cuvelage principal, ce qui permet l'accès aux autres ouvertures plus éloignées par rapport à la surface, même après avoir équipé le puits latéral avec le cuvelage latéral.The invention has in particular the advantage of practically not cluttering the interior space of the main casing by the means of junction between the lateral casing and the main casing, which allows access to the other openings more distant from the surface. , even after fitting the side well with the side casing.

De plus, des moyens de fermeture, par exemple une porte coulissante peuvent compléter les moyens de jonction.In addition, closing means, for example a sliding door, can complete the joining means.

Cette porte est adaptée à obstruer pratiquement tout l'espace situé entre le raccord de liaison du cuvelage latéral et l'ouverture, afin que l'effluent provenant du puits latéral s'écoule dans le cuvelage principal par l'intérieur du cuvelage latéral et non pas par l'espace annulaire entre le puits et le cuvelage. En effet, si cela n'était pas le cas, l'intérêt de mettre en place une colonne dans le puits latéral serait moindre, si ce n'est nul.This door is adapted to obstruct practically all the space situated between the connection connection of the lateral casing and the opening, so that the effluent coming from the lateral well flows into the main casing through the interior of the lateral casing and not not through the annular space between the well and the casing. In fact, if this were not the case, the advantage of installing a column in the lateral well would be less, if not zero.

Les moyens de fermeture, par exemple la porte coulissante peut aussi servir de moyen de liaison complémentaires avec le raccord de liaison.The closing means, for example the sliding door can also serve as a complementary connecting means with the connecting fitting.

Avantageusement, l'outil de pose du cuvelage latéral peut avoir pour fonction d'orienter convenablement le raccord spécial par rapport à l'ouverture et de refermer l'ouverture. Bien entendu, ces deux opérations pourront être exécutées à l'aide d'outils différents.Advantageously, the tool for installing the lateral casing can have the function of properly orienting the special connector with respect to the opening and of closing the opening. Of course, these two operations can be carried out using different tools.

La présente invention concerne donc une méthode de forage et d'équipement de puits latéraux à partir d'un puits principal cuvelé par une colonne tubulaire comportant au moins une ouverture latérale. La méthode comporte en combinaison les étapes suivantes :

  • on positionne dans ladite colonne tubulaire des moyens de guidage sensiblement au niveau de ladite ouverture,
  • on équipe un puits latéral d'une colonne latérale tubulaire,
  • on réalise une jonction de la colonne latérale sensiblement sur la périphérie de la colonne tubulaire.
The present invention therefore relates to a method of drilling and equipping lateral wells from a main well cased by a tubular column comprising at least one lateral opening. The method comprises the following steps in combination:
  • positioning means are positioned in said tubular column substantially at the level of said opening,
  • a lateral well is fitted with a tubular lateral column,
  • a junction of the lateral column is made substantially on the periphery of the tubular column.

On peut descendre des moyens de forage latéral dans le puits principal et on peut forer un puits latéral à partir de ladite ouverture.Lateral drilling means can be lowered into the main well and a lateral well can be drilled from said opening.

Les moyens de forage dudit puits latéral peuvent être guidés par lesdits moyens de guidage et l'introduction de ladite colonne latérale dans le puits latéral peut être guidée par lesdits moyens de guidage.The means for drilling said lateral well can be guided by said guide means and the introduction of said lateral column into the lateral well can be guided by said guide means.

On peut orienter des moyens de jonction relativement à ladite ouverture par les moyens de guidage.Junction means can be oriented relative to said opening by the guide means.

On peut boucher sensiblement l'espace compris entre ladite ouverture et la colonne latérale sensiblement au niveau des moyens de jonction.The space between said opening and the lateral column can be substantially plugged substantially at the junction means.

On peut activer des moyens de fermeture liés à ladite colonne tubulaire sensiblement au niveau de l'ouverture latérale, pour boucher ledit espace.It is possible to activate closing means linked to said tubular column substantially at the level of the lateral opening, for blocking said space.

On peut déplacer lesdits moyens de guidage après avoir effectué la jonction de la colonne latérale sur la colonne tubulaire du puits principal.Said guide means can be moved after the lateral column has been joined to the tubular column of the main well.

La colonne latérale peut être introduite dans le puits latéral par le moyen de tiges de manoeuvre assemblées depuis la surface, lesdites tiges étant reliées à ladite colonne latérale par l'intermédiaire d'un outil de pose.The lateral column can be introduced into the lateral well by means of operating rods assembled from the surface, said rods being connected to said lateral column by means of a setting tool.

Les moyens de fermeture peuvent être activés en faisant varier la pression dans l'espace intérieur de l'outil de pose.The closing means can be activated by varying the pressure in the interior space of the setting tool.

On peut libérer l'outil de pose de ladite colonne latérale en faisant varier la pression dans l'outil de pose.The installation tool can be released from said lateral column by varying the pressure in the installation tool.

Lorsque la colonne principale comporte plusieurs portions de tube comportant une ouverture, on peut orienter les ouvertures les unes par rapport aux autres par rotation desdites portions autour de l'axe de la colonne, et on peut contrôler lesdites orientations à l'aide d'un outil de mesure descendu dans l'espace intérieur de ladite colonne.When the main column comprises several portions of tube having an opening, the openings can be oriented relative to each other by rotation of said portions around the axis of the column, and one can control said orientations using a measurement tool lowered into the interior space of said column.

L'invention concerne également un système de forage et d'équipement d'au moins un puits latéral à un puits principal cuvelé par une colonne tubulaire comportant au moins une ouverture latérale, ladite ouverture étant adaptée au passage d'un outil de forage, ledit système comportant une colonne tubulaire latérale logée dans ledit puits latéral et des moyens de guidage positionnés relativement à ladite ouverture. Ledit système comporte des moyens de jonction de la colonne latérale situés sensiblement sur la périphérie de la colonne tubulaire.The invention also relates to a system for drilling and equipping at least one lateral well to a main well cased by a tubular column comprising at least one lateral opening, said opening being suitable for the passage of a drilling tool, said system comprising a lateral tubular column housed in said lateral well and guide means positioned relative to said opening. Said system comprises means for joining the lateral column situated substantially on the periphery of the tubular column.

Le système peut comporter des moyens de fermeture de l'espace entre ladite colonne latérale et ladite ouverture, lesdits moyens de fermeture étant situés sensiblement au niveau des moyens de jonction.The system may include means for closing the space between said lateral column and said opening, said closing means being situated substantially at the level of the joining means.

Les moyens de guidage peuvent être adaptés à guider lesdits moyens de forage et ladite colonne latérale.The guide means can be adapted to guide said drilling means and said lateral column.

Les moyens de guidage peuvent comporter des moyens de déplacement permettant le déplacement desdits moyens de guidage dans la colonne tubulaire après la jonction de la colonne latérale.The guide means may include displacement means allowing the displacement of said guide means in the tubular column after the junction of the lateral column.

Le système peut comporter une clavette solidaire de la colonne principale au voisinage de ladite ouverture, lesdits moyens de déplacement peuvent être constitués d'une gorge continue le long des moyens de guidage, et lesdits moyens d'ancrage peuvent être constitués d'une autre gorge et d'un verrou réversible bloquant la clavette dans ladite autre gorge.The system may include a key integral with the main column in the vicinity of said opening, said displacement means may consist of a continuous groove along the guide means, and said anchoring means may consist of another groove and a reversible lock blocking the key in said other groove.

Le système peut comporter un outil de pose de ladite colonne latérale, ledit outil étant lié à la colonne latérale par un ancrage réversible, ledit outil comportant des moyens d'orientation des moyens de jonction par coopération avec les moyens de guidage et des moyens de d'activation des moyens de fermeture, et ledit outil peut être descendu dans le puits par des tiges de manoeuvre.The system may include a tool for installing said lateral column, said tool being linked to the lateral column by a reversible anchor, said tool comprising means for orienting the joining means by cooperation with the guide means and means for d activation of the means of closing, and said tool can be lowered into the well by operating rods.

Les moyens d'activation peuvent comporter un piston différentiel et un doigt d'entraînement en translation lesdits moyens de fermeture.The activation means may comprise a differential piston and a drive finger in translation said closure means.

L'invention concerne également un dispositif de liaison entre deux éléments tubulaires. Un premier élément tubulaire comporte une ouverture latérale de dimension adaptée à permettre le passage du second élément, et le dispositif comporte des moyens de jonction du second élément sur le premier situés à la périphérie du premier élément.The invention also relates to a connecting device between two tubular elements. A first tubular element has a lateral opening of dimension adapted to allow the passage of the second element, and the device comprises means for joining the second element to the first located at the periphery of the first element.

Le dispositif peut comporter des moyens de fermeture de l'espace compris entre le second élément tubulaire et l'ouverture.The device may include means for closing the space between the second tubular element and the opening.

Lesdits moyens de jonction peuvent comporter un raccord de liaison solidaire du second élément tubulaire par l'intermédiaire d'un joint tournant.Said joining means may comprise a connection fitting integral with the second tubular element by means of a rotary joint.

L'extrémité du raccord de liaison peut comporter une section suivant un plan incliné par rapport à l'axe principal du raccord, une portion de la périphérie de ladite section peut être en contact avec une portion correspondante de la périphérie de l'ouverture, et les moyens de fermeture peuvent comporter une plaque coulissante adaptée à sensiblement obturer l'espace compris entre les autres portions de périphérie de ladite section et de l'ouverture.The end of the connection fitting may comprise a section along an inclined plane with respect to the main axis of the fitting, a portion of the periphery of said section may be in contact with a corresponding portion of the periphery of the opening, and the closing means may comprise a sliding plate adapted to substantially close off the space between the other periphery portions of said section and of the opening.

Ladite section peut être rectangle.Said section can be rectangle.

L'extrémité dudit raccord de liaison peut comporter sur les cotés sensiblement parallèles à l'axe du premier élément, des moyens de liaison coopérant avec la plaque coulissante lorsque celle-ci est déplacée.The end of said connection fitting may comprise, on the sides substantially parallel to the axis of the first element, connection means cooperating with the sliding plate when the latter is moved.

La méthode, le système ou le dispositif selon l'invention peuvent être appliqués à l'exploitation de gisements pétroliers, ledit puits principal étant vertical ou horizontal.The method, system or device according to the invention can be applied to the exploitation of petroleum deposits, said main well being vertical or horizontal.

L'invention sera mieux comprise et ses avantages apparaîtront clairement à la lecture de la description illustrée par les figures annexées parmi lesquelles :

  • La figure 1 représente un puits principal et un puits latéral équipés de colonnes tubulaires.
  • Les figures 2A et 2B représentent en coupe partielle la portion tubulaire de la colonne principale comportant l'ouverture, le dispositif de guidage et le raccord de liaison de la colonne latérale.
  • Les figures 3A, 3B et 3C représentent l'extrémité inférieure du dispositif de guidage.
  • Les figures 3D et 3E représentent une autre réalisation de l'ancrage du dispositif de guidage.
  • Les figures 4A, 4B et 4C représentent en trois vues, la portion tubulaire comportant l'ouverture.
  • La figure 4D représente la porte d'obturation autour du raccord de liaison.
  • Les figures 5A et 5B représentent l'extrémité supérieure du dispositif de guidage.
  • Les figures 6A et 6B représente le raccord de liaison.
  • Les figures 6C, 6D et 6E représentent une autre réalisation du raccord de liaison.
  • La figure 6F montre en perspective le raccord de liaison assemblé avec l'outil de pose.
  • Les figures 7A, 7B et 7C représentent schématiquement et respectivement, le déplacement dans la colonne principale du dispositif de guidage, le forage latéral, et la descente de la colonne latérale dans le puits latéral.
  • Les figures 8A et 8B illustrent des applications préférentielles selon l'invention.
  • La figure 9A illustre l'outil de pose de la colonne latérale.
  • La figure 9B montre le système d'accrochage de l'outil de pose dans le raccord de liaison.
  • Les figures 10A, 10B et 10C représentent le dispositif de fermeture de la porte.
  • Les figures 11A, 11B et 11C montrent un exemple d'obturation de la portion tubulaire comportant une ouverture.
  • La figure 12 montre un principe de verrouillage d'une porte coulissante après la fermeture.
  • La figure 13 illustre une réalisation d'un joint flexible et tournant de liaison entre le raccord de liaison et les tubes de la colonne latérale.
  • La figure 14 décrit un moyen de connexion entre une portion tubulaire comportant une ouverture et les autres tubes de la colonne principale.
  • Les figures 15A, 15B et 15C montrent une réalisation préférentielle de la portion tubulaire comportant une ouverture et une porte.
  • Les figures 16A et 16B montrent schématiquement une variantes des moyens de fermeture.
The invention will be better understood and its advantages will appear clearly on reading the description illustrated by the appended figures among which:
  • Figure 1 shows a main well and a side well equipped with tubular columns.
  • FIGS. 2A and 2B show in partial section the tubular portion of the main column comprising the opening, the guide device and the connection fitting of the lateral column.
  • Figures 3A, 3B and 3C show the lower end of the guide device.
  • Figures 3D and 3E show another embodiment of the anchoring of the guide device.
  • Figures 4A, 4B and 4C show in three views, the tubular portion having the opening.
  • Figure 4D shows the shutter door around the connection fitting.
  • Figures 5A and 5B show the upper end of the guide device.
  • Figures 6A and 6B show the connection fitting.
  • Figures 6C, 6D and 6E show another embodiment of the connecting fitting.
  • Figure 6F shows in perspective the connection fitting assembled with the installation tool.
  • FIGS. 7A, 7B and 7C show schematically and respectively, the displacement in the main column of the guide device, the lateral drilling, and the descent of the lateral column in the lateral well.
  • Figures 8A and 8B illustrate preferred applications according to the invention.
  • FIG. 9A illustrates the tool for installing the lateral column.
  • Figure 9B shows the attachment system of the installation tool in the connection fitting.
  • Figures 10A, 10B and 10C show the door closing device.
  • Figures 11A, 11B and 11C show an example of sealing the tubular portion having an opening.
  • Figure 12 shows a principle of locking a sliding door after closing.
  • Figure 13 illustrates an embodiment of a flexible joint and rotating connection between the connection fitting and the tubes of the lateral column.
  • Figure 14 describes a connection means between a tubular portion having an opening and the other tubes of the main column.
  • Figures 15A, 15B and 15C show a preferred embodiment of the tubular portion having an opening and a door.
  • Figures 16A and 16B schematically show a variant of the closure means.

Sur la figure 1, les références 1 et 2 désignent le puits principal et le puits latéral dans lesquels a été mis en place respectivement des colonnes tubulaires 4 et 3. L'ensemble 5 comporte principalement une ouverture latérale 21 dans la colonne 4, un raccord de liaison 7 entre la colonne principale 4 et la colonne latérale 3, un joint 8 intermédiaire entre le raccord de liaison 7 et la colonne 3, des moyens 9 d'obturation de l'espace existant entre le raccord 7 et l'ouverture 21. Les détails, ainsi que les autres composants seront illustrés par les figures suivantes.In FIG. 1, the references 1 and 2 designate the main well and the lateral well in which tubular columns 4 and 3 have been placed respectively. The assembly 5 mainly comprises a lateral opening 21 in the column 4, a fitting connecting 7 between the main column 4 and the lateral column 3, a joint 8 intermediate between the connecting fitting 7 and the column 3, means 9 for closing the space existing between the fitting 7 and the opening 21. The details, as well as the other components will be illustrated by the following figures.

Les figures 2A et 2B montrent en coupe partielle la colonne principale 4 dans laquelle sont positionnés les moyens de guidage 10 tel que le système doit être configuré pour l'opération de forage ou d'équipement du puits latéral. Le raccord de liaison 7 est représenté sur cette figure fixé par les moyens de butée et de retenue 14 et une porte coulissante 12 obture l'ouverture latérale 21 autour du raccord 7. Les détails de la porte et de l'ouverture seront plus complètement décrit à l'aide des figures 4A, 4B, 4C, 4D or 15A, 15B and 15C.FIGS. 2A and 2B show in partial section the main column 4 in which the guide means 10 are positioned such that the system must be configured for the drilling or equipping operation of the lateral well. The connection fitting 7 is shown in this figure fixed by the stop and retaining means 14 and a sliding door 12 closes the lateral opening 21 around the fitting 7. The details of the door and the opening will be more fully described using figures 4A, 4B, 4C, 4D or 15A, 15B and 15C.

Il faut noter sur cette figure 2A que l'extrémité 13 du raccord de liaison 7 ne pénètre pas dans l'intérieur de la colonne 4 et se trouve sensiblement dans le même plan que l'ouverture. Les détail du raccord de liaison sont représentés sur les figures 6A, 6B, 6C, 6D et 6E.It should be noted in this FIG. 2A that the end 13 of the connection fitting 7 does not penetrate into the interior of the column 4 and is located substantially in the same plane as the opening. The details of the connection fitting are shown in FIGS. 6A, 6B, 6C, 6D and 6E.

La porte 12 est maintenue sur la colonne 4 par un carter 16. Une goupille de cisaillement 17 fixe la porte 12 en position haute ou ouverte, position dans laquelle l'ouverture 21 a une dimension qui permet le passage de l'outil de forage et de la colonne latérale. Sur les figures 2B et 2A, la goupille 17 est cisaillée et la porte est en position refermée sur l'ouverture 21, autour du raccord de liaison 7.The door 12 is held on the column 4 by a casing 16. A shear pin 17 fixes the door 12 in the high or open position, position in which the opening 21 has a dimension which allows the passage of the drilling tool and of the side column. In FIGS. 2B and 2A, the pin 17 is sheared and the door is in the closed position on the opening 21, around the connection fitting 7.

Les moyens de guidage 10 comportent trois parties principales :

  • une extrémité ou partie inférieure référencée 11, détaillée sur les figures 3A, 3B, 3C, 3D et 3E.
  • une partie centrale comportant une rampe 15 dont la face est orientée en direction de l'ouverture 21. L'angle l que forme la rampe par rapport à l'axe longitudinal est préférentiellement égal ou compris entre 1° et 5°, bien que la valeur de l'angle de la rampe n'est pas limitatif de la portée de la présente invention. En particulier, la rampe peut avoir des angles progressifs entre 1 et 5 degrés,
  • une extrémité ou partie supérieure 18 comportant un passage intérieur 22 de préférence cylindrique permettant le passage de l'outil de forage latéral ainsi que de la colonne 3 d'équipement du drain, des moyens d'accrochage 19 de l'outil de manoeuvre du dispositif de guidage, des moyens d'orientation 20 permettant à la fois de remonter le dispositif dans la direction de la surface sans être bloqué par la clavette 23 solidaire de la colonne 4 et d'orienter le raccord de liaison 7 par rapport à la rampe. Les figures 5A et 5B, décrites ci-après, précisent les différents constituants.
The guide means 10 comprise three main parts:
  • an end or lower part referenced 11, detailed in FIGS. 3A, 3B, 3C, 3D and 3E.
  • a central part comprising a ramp 15 whose face is oriented in the direction of the opening 21. The angle l formed by the ramp relative to the longitudinal axis is preferably equal to or between 1 ° and 5 °, although the value of the angle of the ramp is not limitative of the scope of the present invention. In particular, the ramp can have progressive angles between 1 and 5 degrees,
  • an end or upper part 18 comprising an inner passage 22 preferably cylindrical allowing the passage of the lateral drilling tool as well as of the column 3 of equipment for the drain, hooking means 19 of the device operating tool guide, orientation means 20 allowing both to reassemble the device in the direction of the surface without being blocked by the key 23 secured to the column 4 and to orient the connection fitting 7 relative to the ramp. Figures 5A and 5B, described below, specify the different constituents.

Un canal ou un conduit 36 aménagé dans les moyens de guidage met en communication l'espace intérieur de la colonne 4 de part et d'autre de ces moyens de guidage.A channel or a conduit 36 arranged in the guide means connects the interior space of the column 4 on either side of these guide means.

Des plots de centrages 70 sont disposés sur la circonférence des moyens 10, sensiblement au niveau des deux extrémités 11 et 18.Centering pads 70 are arranged on the circumference of the means 10, substantially at the level of the two ends 11 and 18.

La figure 4A montre en vue de dessus un élément tubulaire 24 destiné à être assemblé avec d'autres tubes pour constituer la colonne 4. L'assemblage se fait au moyen de filetages 25 et 26. L'ouverture 21 est en fait composée de deux fenêtres 27 et 28 découpées respectivement dans le carter ou capot 16 et le corps tubulaire de l'élément 24. Le capot 16 a pour fonction de maintenir et de guider la porte coulissante 12 représentée en vue de dessus sur la figure 4D.FIG. 4A shows a top view of a tubular element 24 intended to be assembled with other tubes to constitute the column 4. The assembly is done by means of threads 25 and 26. The opening 21 is in fact composed of two windows 27 and 28 cut respectively in the casing or cover 16 and the tubular body of the element 24. The function of the cover 16 is to hold and guide the sliding door 12 shown in top view in FIG. 4D.

La largeur de l'ouverture 21 est adaptée à laisser passer l'outil de forage latéral, la longueur de l'ouverture dépend de la pente de la rampe. La surface plane 29 faisant partie du pourtour de la fenêtre 27 du capot est l'endroit où vient buter et éventuellement se fixer le raccord de liaison 7.The width of the opening 21 is adapted to let the lateral drilling tool pass, the length of the opening depends on the slope of the ramp. The flat surface 29 forming part of the circumference of the window 27 of the cover is the place where the connection fitting 7 abuts and possibly attaches.

Une clavette 23 est soudée sur le corps de l'élément 24, préférentiellement dans l'axe longitudinal de l'ouverture. La clavette dépasse de la paroi intérieure de l'élément tubulaire de façon à ce que le sommet du plat de la clavette se trouve à une distance D du point diamétralement opposé. Cette cote D est fonctionnellement importante pour le positionnement du dispositif de guidage, rôle que l'on fait jouer à la clavette 23 solidaire de l'élément 24. Par ailleurs, cette cote est suffisante pour ne pas gêner le passage d'organe ou d'équipement d'intervention.A key 23 is welded to the body of the element 24, preferably in the longitudinal axis of the opening. The key protrudes from the inner wall of the tubular element so that the top of the flat of the key is at a distance D from the diametrically opposite point. This dimension D is functionally important for the positioning of the guide device, role that is played to the key 23 integral with the element 24. Furthermore, this dimension is sufficient not to hinder the passage of organ or d intervention equipment.

La porte 12 est fixée en position ouverte par une goupille de cisaillement 17. Dans cette position, l'ouverture 21 a des dimensions maximales.The door 12 is fixed in the open position by a shear pin 17. In this position, the opening 21 has maximum dimensions.

La figure 4C est une coupe de l'élément 24 qui montre l'empilage de la porte 12 sur le corps de l'élément 24 et l'assemblage du capot 16 sur le même corps par soudure de deux barres 30 et 31 sur toute la longueur. Préférentiellement, la plus grande dimension diamétrale de l'élément 24 ne devra pas être supérieur au diamètre extérieur des manchons des raccords de tubes composant la colonne 4. Ainsi, I'élément 24 peut être descendu dans un puits foré par un outil de diamètre conventionnel sans sensiblement procurer de frottements supérieurs à ceux procurés par un raccord de tubes.FIG. 4C is a section of the element 24 which shows the stacking of the door 12 on the body of the element 24 and the assembly of the cover 16 on the same body by welding two bars 30 and 31 over the entire length. Preferably, the largest diametrical dimension of the element 24 should not be greater than the outside diameter of the sleeves of the tube fittings making up the column 4. Thus, the element 24 can be lowered into a well drilled by a tool of conventional diameter without substantially providing friction greater than that provided by a tube connection.

La figure 4D est une vue de dessus de la tôle constituant la porte 12. Le perçage 32 reçoit la goupille de cisaillement 17. Les branches 33 et 34 séparées par la distance référencée 35 viendront obturer sensiblement totalement le jeu entre l'ouverture 21 et le raccord de liaison 7. La forme du U et sa largeur référencée 35 est fonction de la forme extérieure du raccord de liaison 7. Il faut noter que le U de la fenêtre de la porte, une fois celle-ci fermée, coopère avec la portion 29 du pourtour de la fenêtre 27 du capot 16, pour former un rectangle de dimensions sensiblement égales avec la section de l'extrémité du raccord de liaison 7. En effet, en se reportant aux figures 6A, 6B, 6C, 6D et 6E représentant schématiquement le raccord de liaison de section droite carrée, on remarque que la section 13 d'extrémité du raccord de liaison à une forme rectangulaire correspondante à l'ouverture en U de la porte 12 et à la largeur de la portion de pourtour 29. Dans le cas d'une section de forme différente pour le raccord de liaison 7, la porte et la portion du pourtour 29 de l'ouverture 21 seront toujours adaptés pour, qu'une fois la porte refermée sur le raccord de liaison, il n'y ait qu'un espace ou jeu réduit, si ce n'est nul, entre le raccord de liaison et l'élément 24. L'objectif de la coopération de la porte avec le raccord de liaison est d'obtenir une étanchéité suffisante pour pratiquement empêcher l'écoulement de fluide autour du raccord de liaison ou la pénétration de sable. On peut, dans le cadre de cette invention, adjoindre un joint résilient soit sur le raccord de liaison, soit sur la porte et la ligne 29 ou bien les deux, dans le but d'améliorer l'étanchéité.FIG. 4D is a top view of the sheet metal constituting the door 12. The bore 32 receives the shear pin 17. The branches 33 and 34 separated by the distance referenced 35 will close off the clearance between the opening 21 and the connection connector 7. The shape of the U and its width referenced 35 is a function of the external shape of the connection fitting 7. It should be noted that the U of the door window, once it is closed, cooperates with the portion 29 of the circumference of the window 27 of the cover 16, to form a rectangle of dimensions substantially equal to the section of the end of the connection fitting 7. In fact, referring to FIGS. 6A, 6B, 6C, 6D and 6E representing schematically the connection fitting of square cross section, it is noted that the end section 13 of the connection fitting has a rectangular shape corresponding to the U-shaped opening of the door 12 and to the width of the portion of periphery 29. In l In the case of a section of different shape for the connection fitting 7, the door and the portion of the periphery 29 of the opening 21 will always be adapted so that, once the door is closed on the connection fitting, it does not there is only a reduced space or clearance, if not zero, between the connection fitting and the element 24. The objective of the cooperation of the door with the connection fitting is to obtain a sufficient seal for practically prevent the flow of fluid around the connection fitting or the ingress of sand. It is possible, within the framework of this invention, to add a resilient seal either to the connection fitting, or to the door and the line 29 or else both, in order to improve the sealing.

Des perçages 75 sont usinés dans la porte 12. Leur forme est adaptée à la coopération avec un moyen de déplacement de la porte, moyen faisant partie de l'outil de pose. Une illustration de ce moyen est par exemple le doigt 76 de l'outil de pose illustré par les figures 10A, 10B et 10C. Selon la longueur de la course de déplacement de la porte 12 et de la course en translation du doigt 76 (figures 10), plusieurs ouvertures 75 sont nécessaires et espacées au plus de la longueur de la course dudit doigt 76. Les ouvertures 75 doivent correspondre avec une fente 66 du corps du tube 24 de façon à pouvoir actionner la porte 12 à partie de l'intérieur de la conduite 4 et à travers la paroi de l'élément tubulaire 24.Holes 75 are machined in the door 12. Their shape is adapted to cooperation with a means for moving the door, which is part of the fitting tool. An illustration of this means is for example the finger 76 of the fitting tool illustrated by FIGS. 10A, 10B and 10C. Depending on the length of the travel path of the door 12 and the translational travel of the finger 76 (FIGS. 10), several openings 75 are necessary and spaced apart at most from the length of the travel of the said finger 76. The openings 75 must correspond with a slot 66 in the body of the tube 24 so as to be able to actuate the door 12 from the inside of the pipe 4 and through the wall of the tubular element 24.

Les figures 15A, 15B et 15C montrent une autre réalisation d'un élément tubulaire 24 et un autre dessin de la porte 12. Par rapport aux figures 4A et 4B, les figures 15A et 15B diffèrent principalement par la forme des ouvertures 27 et 28 respectivement dans le capot 16 et le corps tubulaire 24, la coïncidence de ces ouvertures 27 et 28 constituant l'ouverture ou passage 21. La partie large 136 de l'ouverture 27 se rétrécit en forme d'entonnoir 137 pour finalement avoir en 138 sensiblement la largeur du raccord de liaison 7. Ainsi, les ailes 139 du raccord de liaison 7 (figures 6C et 6D) sont bloquées par le capot 16 sensiblement dans les zones référencées 140, en dessous desquelles le tube 24 est ouvert par l'ouverture 28. La pièce 135, soudé sur le corps 24, a une section en forme de dent dont la pente permet le déplacement du raccord de liaison dans le sens de son introduction dans le puits latéral mais bloque le déplacement du raccord de liaison une fois que la pièce 141 dudit raccord a atteint sa position finale. Sur la figure 6C, on peut voir la coopération de la pièce 135 avec la pièce 141 liée au raccord de liaison, après que le raccord de liaison 7 ait été mis en place par rapport à l'ouverture.Figures 15A, 15B and 15C show another embodiment of a tubular element 24 and another drawing of the door 12. Compared to Figures 4A and 4B, Figures 15A and 15B differ mainly in the shape of the openings 27 and 28 respectively in the cover 16 and the tubular body 24, the coincidence of these openings 27 and 28 constituting the opening or passage 21. The wide part 136 of the opening 27 narrows in the form of a funnel 137 to finally have at 138 substantially the width of the connection fitting 7. Thus, the wings 139 of the connection fitting 7 (FIGS. 6C and 6D) are blocked by the cover 16 substantially in the zones referenced 140, below which the tube 24 is opened by the opening 28. The part 135, welded to the body 24, has a tooth-shaped section whose slope allows the displacement of the connection fitting in the direction of its introduction into the lateral well but blocks the movement of the connection fitting once the part 141 of said fitting has reached its final position. In FIG. 6C, one can see the cooperation of the part 135 with the part 141 linked to the connection fitting, after the connection fitting 7 has been put in place with respect to the opening.

Une ou plusieurs goupilles de cisaillement 134 sont fixées dans le capot 16 entre les branches 33 et 34 de la porte, celle-ci étant positionnée ouverte. Une série de goupilles 134 peut être disposée le long de l'axe du U de la porte 12. Le rôle de ces goupilles est le suivant: lorsque les moyens de fermeture de la porte cassent la goupille 17, celle-ci est entraînée en translation jusqu'à ce que le fond du U de la porte vienne se bloquer sur les goupilles 134. Les moyens de fermeture signalent alors à la surface qu'il y a blocage en translation par une montée de la pression hydraulique, si les moyens sont activés hydrauliquement, ou une augmentation de l'effort mécanique (par exemple un couple), s'ils sont activés mécaniquement. L'opérateur sait ainsi que la porte s'est déplacée de la distance entre la position d'origine de la porte et les goupilles 134. En plaçant une succession de séries de goupilles 134, I'opérateur peut déduire à partir de la surface la position atteinte par la porte.One or more shear pins 134 are fixed in the cover 16 between the branches 33 and 34 of the door, the latter being positioned open. A series of pins 134 can be arranged along the axis of the U of the door 12. The role of these pins is as follows: when the means for closing the door break the pin 17, the latter is driven in translation until the bottom of the U of the door comes to lock on the pins 134. The closing means then signal to the surface that there is locking in translation by a rise in hydraulic pressure, if the means are activated hydraulically, or an increase in mechanical force (for example a torque), if they are activated mechanically. The operator thus knows that the door has moved from the distance between the original position of the door and the pins 134. By placing a series of series of pins 134, the operator can deduce from the surface the position reached by the door.

Bien entendu, pour suivre le déplacement de la porte à partir de la surface, il sera également possible de relier la porte à des capteurs dont les informations peuvent être transmises à la surface par un des moyens connus dans la profession.Of course, to follow the movement of the door from the surface, it will also be possible to connect the door to sensors whose information can be transmitted to the surface by one of the means known in the profession.

La figure 15C montre en vue de dessus une porte 12 comportant des branches 33 et 34 séparées d'une distance 35. Les branches 33 et 34 ont leur extrémité 143 découpée en pointe afin de faciliter le guidage par rapport au raccord de liaison 7. La porte est découpée pour former des créneaux 142 favorisant le glissement en translation de la porte. Sur un des créneaux 142, on a usiné des dentures destinées à un verrouillage de la porte en position fermée autour du raccord de liaison. Les détails de ce verrou sont illustrés sur la figure 12.FIG. 15C shows a top view of a door 12 comprising branches 33 and 34 separated by a distance 35. The branches 33 and 34 have their ends 143 cut into a point in order to facilitate guiding with respect to the connection fitting 7. The door is cut to form slots 142 promoting sliding in translation of the door. On one of the slots 142, teeth have been machined for locking the door in the closed position around the connection fitting. The details of this lock are illustrated in Figure 12.

La figure 12 montre le principe d'un verrouillage de la porte 12 en position fermée. Une lame flexible 144 est fixée sur au moins une des barres 30 et 31 qui servent de guidage latéral à la porte et de moyens de fixation du capot 16 sur le corps tubulaire 24. L'extrémité 145 de la lame 144 est adaptée à coopérer avec les dentures 143 lorsque l'on a fait effectuer à la porte son déplacement total. La forme dissymétrique des dentures verrouille de façon irréversible la porte une fois l'extrémité 145 de la lame engagée dans une des dentures 143.Figure 12 shows the principle of locking the door 12 in the closed position. A flexible blade 144 is fixed to at least one of the bars 30 and 31 which serve as lateral guide to the door and means for fixing the cover 16 to the tubular body 24. The end 145 of the blade 144 is adapted to cooperate with the teeth 143 when the door has been made to move completely. The asymmetrical shape of the teeth irreversibly locks the door once the end 145 of the blade is engaged in one of the teeth 143.

Sur la figure 15C, les perçages 75, dont la fonction est identique à ceux de la figure 4D, ont une forme oblongue et une relative grande surface afin d'admettre une certaine tolérance de positionnement de la porte par rapport au doigt 76 du moyen de déplacement de la porte, ainsi qu'un renforcement mécanique de ce doigt.In FIG. 15C, the holes 75, the function of which is identical to those of FIG. 4D, have an oblong shape and a relatively large surface area in order to allow a certain tolerance of positioning of the door relative to the finger 76 of the means of movement of the door, as well as a mechanical reinforcement of this finger.

Les figures 3A, 3B et 3C détaillent l'extrémité 11 des moyens de guidage 10. La figure 3B est une coupe des moyens lorsque ceux-ci sont positionnés et ancrés dans la conduite 4 par la coopération de la clavette 23 et d'une gorge 37. La gorge 37 comporte un cliquet 38 porté par une lame flexible 45 solidaire d'un tiroir 40 pouvant coulisser dans le logement 41 parallèle et disposé sous la gorge 37. Un ressort de rappel 42 du tiroir 40 est maintenu dans le logement 41 par un bouchon 43. Le cliquet 38 possède une pente 44 du coté opposé au fond 39 de la gorge 37, relativement à l'arête 47 définie ci-après. La flexibilité de la lame 45 maintient le cliquet 38 proéminent par rapport au fond de la gorge, à travers une ouverture 46 entre le logement 41 et la gorge 37. Ainsi montée, une arête ou une surface d'appui 47 du cliquet verrouille la clavette 23 dans le logement défini par le fond 39 de la gorge 37 et l'arête 47. Lorsque l'opérateur applique une force de traction suffisante sur les moyens 10 pour comprimer le ressort 42, I'arête 47 bute sur la clavette 23, une arête 48 de l'ouverture 46 coopère avec la pente 44 du cliquet pour faire rétracter le cliquet 38 et libérer les moyens 10 de la clavette.Figures 3A, 3B and 3C detail the end 11 of the guide means 10. Figure 3B is a section of the means when they are positioned and anchored in the pipe 4 by the cooperation of the key 23 and a groove 37. The groove 37 comprises a pawl 38 carried by a flexible blade 45 secured to a drawer 40 which can slide in the parallel housing 41 and disposed under the groove 37. A return spring 42 of the drawer 40 is held in the housing 41 by a plug 43. The pawl 38 has a slope 44 on the side opposite the bottom 39 of the groove 37, relative to the edge 47 defined below. The flexibility of the blade 45 keeps the pawl 38 prominent relative to the bottom of the groove, through an opening 46 between the housing 41 and the groove 37. Thus mounted, an edge or a bearing surface 47 of the pawl locks the key 23 in the housing defined by the bottom 39 of the groove 37 and the edge 47. When the operator applies a sufficient tensile force to the means 10 to compress the spring 42, the edge 47 abuts on the key 23, a edge 48 of the opening 46 cooperates with the slope 44 of the pawl to retract the pawl 38 and release the means 10 of the key.

La gorge 37 possède une extrémité ouverte. Celle-ci opposée au fond 39 de la gorge 37 débouche sur une surface plane 49 formant une face de la pointe de l'extrémité 11. Une autre surface plane 50 forme l'autre coté de la pointe. Ces deux surfaces planes 49 et 50 appartiennent à un dièdre. La pointe formée par les surfaces 49 et 50 constitue les moyens d'orientation des moyens de guidage par rapport à la clavette qui doit, suivant les cas, pénétrer dans la gorge 37 ou dans une gorge 51 diamétralement opposée par rapport à la gorge 37. La gorge 51 est pratiquée sur toute la longueur des moyens 10 de façon à ce que lorsque la clavette est guidée dans la gorge 51, les moyens ne s'ancrent pas et peuvent être déplacés soit vers le fond du puits, soit vers la surface en passant d'un coté de la clavette 23 à l'autre.The groove 37 has an open end. The latter opposite the bottom 39 of the groove 37 opens onto a flat surface 49 forming one face of the tip of the end 11. Another flat surface 50 forms the other side of the tip. These two flat surfaces 49 and 50 belong to a dihedral. The point formed by the surfaces 49 and 50 constitutes the means for orienting the guide means relative to the key which must, as the case may be, penetrate into the groove 37 or into a groove 51 diametrically opposite with respect to the groove 37. The groove 51 is formed over the entire length of the means 10 so that when the key is guided in the groove 51, the means do not anchor and can be moved either towards the bottom of the well or towards the surface passing from one side of the key 23 to the other.

La forme en double biseau de l'extrémité 11 des moyens de guidage 10, obtenue par les surfaces 49 et 50 est une réalisation préférentielle car aisément réalisée. Mais seule la périphérie des surfaces 49 et 50 est fonctionnelle puisque l'extrémité 11 coopère avec la clavette 23 pour le guidage et l'orientation. On restera dans le cadre de l'invention si des rampes de guidage de la clavette dans la gorge 37 ou dans la gorge 51 sont réalisées différemment, pour un résultat équivalent.The double bevel shape of the end 11 of the guide means 10, obtained by the surfaces 49 and 50 is a preferred embodiment since it is easily produced. However, only the periphery of the surfaces 49 and 50 is functional since the end 11 cooperates with the key 23 for guiding and orienting. We will remain within the scope of the invention if the guide rails of the key in the groove 37 or in the groove 51 are produced differently, for an equivalent result.

Les figures 3D et 3E illustrent une autre réalisation du moyen d'ancrage des moyens de guidage 10 dans la conduite 4. Les moyens d'orientation du moyen de guidage par rapport à la clavette 23 restent identiques, ainsi que la disposition des gorges 37 et 51. Le moyen de blocage réversible de la clavette 23 dans le fond de la gorge 37 est constitué par un bouton 77 placé dans un logement tel un alésage 78 usiné radialement par rapport au moyen de guidage, perpendiculairement à l'axe de la gorge 37. Le bouton 77 est maintenu par un écrou 79 et est poussé dans la direction de la gorge 37 par un empilage de rondelles ressort 80 du type Belleville. La force nécessaire pour comprimer le bouton peut être réglée par le nombre et le type de rondelle ressort 80. La forme supérieure 81 du bouton obstrue la gorge empêchant le déplacement de l'extrémité 11 relativement à la clavette 23 tant que l'effort de traction sur les moyens de guidage n'est pas suffisant pour comprimer les rondelles 80. La forme 81 est avantageusement en pente inclinée vers le fond de gorge et vers l'ouverture de la gorge 37.FIGS. 3D and 3E illustrate another embodiment of the means for anchoring the guide means 10 in the pipe 4. The means for orienting the guide means relative to the key 23 remain identical, as does the arrangement of the grooves 37 and 51. The reversible locking means of the key 23 in the bottom of the groove 37 is constituted by a button 77 placed in a housing such as a bore 78 machined radially relative to the guide means, perpendicular to the axis of the groove 37 The button 77 is held by a nut 79 and is pushed in the direction of the groove 37 by a stack of spring washers 80 of the Belleville type. The force required to compress the button can be adjusted by the number and type of spring washer 80. The upper shape 81 of the button obstructs the groove preventing the end 11 from moving relative to the key 23 as long as the tensile force on the guide means is not sufficient to compress the washers 80. The shape 81 is advantageously on a slope inclined towards the bottom of the groove and towards the opening of the groove 37.

On ne sortira pas de la présente invention si d'autres mécanismes sont conçus pour réaliser l'ancrage réversible des moyens de guidage dans la colonne principale.We will not depart from the present invention if other mechanisms are designed to achieve the reversible anchoring of the guide means in the main column.

Dans cette réalisation, le conduit 36, ayant le même axe que la partie 11, est interrompu avant le logement 78. Le conduit 36 est prolongé jusqu'à l'extrémité des moyens de guidage par des conduits 82 et 83 parallèles à l'axe des moyens de guidage et disposés de part et d'autre du logement 78 pour ne pas interférer avec celui-ci.In this embodiment, the conduit 36, having the same axis as the part 11, is interrupted before the housing 78. The conduit 36 is extended to the end of the guide means by conduits 82 and 83 parallel to the axis guide means and arranged on either side of the housing 78 so as not to interfere with the latter.

Sur les figures 3E et 3D, I'extrémité à double pointe n'est pas sensiblement pleine, mais percée d'un trou cylindrique de diamètre référencé 133 et dont le fond est référencé 132. Dans cette variante, les conduits 82 et 83 débouchent dans le fond 132.In FIGS. 3E and 3D, the double-pointed end is not substantially solid, but pierced with a cylindrical hole with a diameter referenced 133 and the bottom of which is referenced 132. In this variant, the conduits 82 and 83 open out into the bottom 132.

Les figures 5A et 5B concernent l'extrémité supérieure 18 des moyens de guidage. Cette partie est de préférence tubulaire, de diamètre extérieur compatible avec le diamètre intérieur de la colonne principale et avec la cote D citée plus haut, et possède un passage intérieur 22 de diamètre compatible avec le diamètre d'outil de forage latéral. Le conduit 22 débouche à l'entrée de la rampe 15.FIGS. 5A and 5B relate to the upper end 18 of the guide means. This part is preferably tubular, with an outside diameter compatible with the inside diameter of the main column and with the dimension D mentioned above, and has an inside passage 22 of diameter compatible with the diameter of lateral drilling tool. The conduit 22 opens at the entrance to the ramp 15.

L'extrémité de la partie 18 est découpée en forme de biseau 20 constituant un moyen de guidage et d'orientation des moyens 10 par rapport à la clavette 23. La gorge 51 débouche dans la partie la plus basse du biseau comme l'indique la figure 5B. En effet, dans le cas où l'opérateur remonte vers la surface lesdits moyens 10, lorsque la clavette 23 fait obstacle contre le biseau 20, l'ensemble des moyens de guidage sera entraîné en rotation suivant la pente du biseau 20 jusqu'à ce que la clavette 23 pénètre dans la gorge 51 précédemment décrite. Comme la gorge 51 débouche à l'autre extrémité des moyens 10, ceux-ci peuvent être remontés vers la surface sans être arrêtés par la ou les clavettes 23.The end of the part 18 is cut in the form of a bevel 20 constituting a means for guiding and orienting the means 10 relative to the key 23. The groove 51 opens into the lowest part of the bevel as indicated by the Figure 5B. Indeed, in the case where the operator ascends to the surface said means 10, when the key 23 is an obstacle against the bevel 20, all of the guide means will be rotated along the slope of the bevel 20 until that the key 23 enters the groove 51 previously described. As the groove 51 opens at the other end of the means 10, these can be raised to the surface without being stopped by the key (s) 23.

Une fente 53, de longueur déterminée est usinée dans l'épaisseur de la paroi de la partie 18, à partir de son alésage intérieur, suivant la direction d'une génératrice sensiblement à 90° de l'axe principal de la gorge 51. Ainsi, la fente 53 n'interrompt pas la continuité de la rampe de guidage du biseau 20, puisque la fente 53 a une profondeur inférieure à l'épaisseur de la paroi de l'extrémité 18.A slot 53, of determined length, is machined in the thickness of the wall of the part 18, from its internal bore, in the direction of a generator substantially at 90 ° from the main axis of the groove 51. Thus , the slot 53 does not interrupt the continuity of the bevel guide ramp 20, since the slot 53 has a depth less than the thickness of the wall of the end 18.

Des rainures internes 19 usinées dans la paroi du passage 22 permettent l'accrochage des tiges de manoeuvre des moyens de guidage par l'intermédiaire d'un outil de pose fixé au bout de ces tiges. La fente 53 peut coopérer avec un doigt solidaire de l'outil de pose afin qu'une rotation des tiges de manoeuvre, à partir de la surface, entraîne dans la même rotation les moyens de guidage. Il pourra y avoir un autre moyen de fixation en rotation des moyens 10 par rapport à l'outil de pose, notamment par une forme adaptée des rainures 19. Pour manoeuvrer et mettre en place les moyens de guidage 10, on utilise préférentiellement un outil conventionnel de repêchage ou "releasing spear" qui s'ancre dans l'alésage 22 par un système de coins.Internal grooves 19 machined in the wall of the passage 22 allow the attachment of the operating rods of the guide means by means of an installation tool fixed to the end of these rods. The slot 53 can cooperate with a finger secured to the setting tool so that a rotation of the operating rods, from the surface, drives the guide means in the same rotation. There may be another means for rotationally fixing the means 10 relative to the setting tool, in particular by an adapted shape of the grooves 19. To maneuver and set up the guide means 10, a conventional tool is preferably used. or "releasing spear" which is anchored in the bore 22 by a system of wedges.

Les figures 6A et 6B, déjà citées plus haut, concernent l'extrémité de la colonne latérale 3 comportant le raccord de liaison 7 et un joint intermédiaire 8 entre les tubes de la colonne 3 et le raccord de liaison 7. Le joint 8 autorise l'orientation du raccord de liaison autour de l'axe longitudinal de la colonne 3 par rapport à l'ouverture latérale, sans nécessiter une rotation de l'ensemble de la colonne 3. En effet, la longueur et/ou la disposition inclinée de cette colonne peut créer des frottements important qu'il faudrait vaincre par les moyens d'orientation coopérant avec la partie supérieure 18 des moyens de guidage. Le joint 8 permet ainsi de découpler en rotation le raccord 7 de la colonne 3 et d'en faciliter l'orientation. De plus, la flexibilité du joint 8 permet la correcte inclinaison du raccord de liaison 7 par rapport à l'ouverture latérale et les moyens de fermeture. Un tel joint 8, illustré par la figure 13 est décrit plus loin.FIGS. 6A and 6B, already cited above, relate to the end of the lateral column 3 comprising the connection fitting 7 and an intermediate seal 8 between the tubes of the column 3 and the connection fitting 7. The seal 8 allows orientation of the connection fitting around the longitudinal axis of column 3 relative to the lateral opening, without requiring rotation of the whole of column 3. Indeed, the length and / or the inclined arrangement of this column can create significant friction that should be overcome by the orientation means cooperating with the upper part 18 of the guide means. The joint 8 thus makes it possible to decouple in rotation the connector 7 of the column 3 and to facilitate its orientation. In addition, the flexibility of the seal 8 allows the correct inclination of the connecting fitting 7 relative to the lateral opening and the closing means. Such a seal 8, illustrated in Figure 13 is described below.

La section droite du raccord 7 a préférentiellement une forme extérieure carrée et de dimension telle qu'elle est sensiblement inscrite dans un cercle de diamètre égal au diamètre intérieur du conduit 22. En effet, l'ensemble de la colonne latérale 3 doit passer à travers le conduit 22 de la partie supérieure 18 du dispositif de guidage 10. Le diamètre intérieur du conduit 22 limite donc le diamètre extérieur des constituants de la colonne 3.The cross section of the connector 7 preferably has a square outside shape and of dimension such that it is substantially inscribed in a circle of diameter equal to the inside diameter of the duct 22. In fact, the whole of the lateral column 3 must pass through the duct 22 of the upper part 18 of the guide device 10. The inside diameter of the duct 22 therefore limits the outside diameter of the components of the column 3.

Le tube carré est découpé suivant un plan, orthogonal à deux faces parallèles et faisant un angle i avec l'axe longitudinal du raccord 7. L'angle i est sensiblement égal à l'angle l de la rampe ou à l'angle de la tangente à l'extrémité de la rampe par rapport à l'axe longitudinal de la colonne principale. Ainsi, la figure 6B montre en vue de dessous la section rectangulaire ABCD de l'extrémité 13 du raccord de liaison. Comme cela a été décrit plus haut, le pourtour constitué des cotés AB-BC-CD vient au proche voisinage ou en contact avec la porte coulissante lorsque celle-ci est refermée. Le coté DA vient en contact avec la portion de pourtour 29 de la fenêtre du capot 16 (figure 4A). Les contacts périphériques limitent ainsi le jeu entre le raccord de liaison et l'ouverture latérale. Bien entendu, cette forme n'est nullement limitative du système, mais a été préférentiellement choisi pour la facilité de dessin et de fabrication de l'ouverture, de la porte et du raccord.The square tube is cut along a plane, orthogonal to two parallel faces and making an angle i with the longitudinal axis of the fitting 7. The angle i is substantially equal to the angle l of the ramp or to the angle of the tangent to the end of the ramp relative to the longitudinal axis of the main column. Thus, Figure 6B shows a bottom view of the rectangular section ABCD of the end 13 of the connecting fitting. As described above, the perimeter consisting of the AB-BC-CD sides comes into close proximity or in contact with the sliding door when the latter is closed. The side DA comes into contact with the periphery portion 29 of the window of the cover 16 (FIG. 4A). The peripheral contacts thus limit the clearance between the connection fitting and the lateral opening. Of course, this form is in no way limitative of the system, but was preferably chosen for the ease of design and manufacture of the opening, the door and the fitting.

Un sabot est soudé sur le raccord afin de constituer une butée 14 et un verrouillage du raccord dans l'ouverture. Le doigt 54 du sabot 14 vient, en fin de translation du raccord sur la glissière, pénétrer dans le logement 55 existant entre le capot 16 et le corps de l'élément tubulaire 24 (figure 4B). Un accrochage mécanique, par exemple un crochet élastique pourra être intégré entre les deux parties coopérantes : le doigt 54 et le logement 55. Le doigt peut avoir une section en queue d'aronde. Le logement 55 aura alors la forme correspondante femelle afin d'améliorer le guidage et le maintien du raccord de liaison. De plus, pour compléter la fixation en position du raccord de liaison dans l'ouverture, la porte peut comporter des moyens de verrouillage coopérant en fin de fermeture avec des moyens complémentaires porté par le raccord 7 au voisinage du pourtour BC. Ces moyens, non représentés, sont à la portée de l'homme de l'art.A shoe is welded to the connector in order to constitute a stop 14 and a locking of the connector in the opening. The finger 54 of the shoe 14 comes, at the end of translation of the fitting on the slide, penetrate into the housing 55 existing between the cover 16 and the body of the tubular element 24 (FIG. 4B). A mechanical coupling, for example an elastic hook can be integrated between the two cooperating parts: the finger 54 and the housing 55. The finger can have a dovetail section. The housing 55 will then have the corresponding female shape in order to improve the guiding and the maintenance of the connection fitting. In addition, to complete the fixing in position of the connection fitting in the opening, the door may include locking means cooperating at the end of closing with complementary means carried by the fitting 7 in the vicinity of the periphery BC. These means, not shown, are within the reach of ordinary skill in the art.

Les figures 6C et 6D montrent une autre réalisation du raccord de liaison 7 comportant des glissières ayant des portions sensiblement parallèles à la section 13. Les glissières sont constituées de deux rails 84 et 85 soudés sensiblement le long de chaque cotés BA et CD. L'espace entre les rails correspond à l'épaisseur des branches 33 et 34 de la porte 12. Les rails inférieur 84 sont plus court que les rails supérieurs 85. L'extrémité des rails 85, coté BC, comporte une partie 146 d'un dispositif de centrage coopérant avec une autre partie 147 liée à la pièce de maintien 86 (figure 9A). Sur la figure 6F, le raccord de liaison 7 est représenté en perspective et assemblé avec la pièce de maintien 86. Le dispositif de centrage est sensiblement en forme de sphère tronquée en forme de V du coté de la pointe du raccord 7. Cette forme en V sert de guidage aux branches 33 et 34 de la porte 12. La partie 147 est adaptée à placer sensiblement le plan de jonction 130 au niveau de l'ouverture 21 lors de la lise en place de la colonne latérale. Une fois la porte fermée, les glissières maintiennent en place le raccord de liaison 7.Figures 6C and 6D show another embodiment of the connection fitting 7 comprising slides having portions substantially parallel to section 13. The slides consist of two rails 84 and 85 welded substantially along each side BA and CD. The space between the rails corresponds to the thickness of the branches 33 and 34 of the door 12. The lower rails 84 are shorter than the upper rails 85. The end of the rails 85, on the BC side, has a part 146 of a centering device cooperating with another part 147 linked to the holding part 86 (FIG. 9A). In FIG. 6F, the connection fitting 7 is shown in perspective and assembled with the holding piece 86. The centering device is substantially in the shape of a V-shaped truncated sphere on the side of the tip of the fitting 7. This shape in V serves as a guide for the branches 33 and 34 of the door 12. The part 147 is adapted to place the junction plane 130 substantially at the level of the opening 21 when the lateral column is read in place. Once the door is closed, the slides hold the connection fitting 7 in place.

Sur la figure 6C, il est illustré une autre variante d'un verrouillage entre le raccord 7 et le corps du tube 24. Il comporte un sabot 141 dont le profil est en forme de dent inversée par rapport au sabot 135 du corps tubulaire 24 (figure 15B). Le profil de la pièce 135 est représenté ici pour la compréhension aisée de la coopération des sabots 135 et 141 qui fournit un blocage du raccord de liaison dans le sens de la remontée vers la surface. La vérification de la position correcte du raccord de liaison peut se faire en tentant de tirer sur le raccord par l'intermédiaire des tiges de manoeuvre, s'il y a une résistance, l'opérateur peut en déduire que le sabot 141 est correctement placé par rapport à l'ouverture 21, et donc que les positions relatives des différents éléments sont bonnes.In FIG. 6C, another variant of a locking device between the connector 7 and the body of the tube 24 is illustrated. It comprises a shoe 141 whose profile is in the form of an inverted tooth relative to the shoe 135 of the tubular body 24 ( Figure 15B). The profile of the part 135 is shown here for the easy understanding of the cooperation of the shoes 135 and 141 which provides a blocking of the connection fitting in the direction of the ascent to the surface. Verification of the correct position of the connection fitting can be done by trying to pull on the fitting via the operating rods, if there is resistance, the operator can deduce that shoe 141 is correctly placed relative to the opening 21, and therefore that the relative positions of the different elements are good.

La figure 6E est une coupe du raccord de liaison au voisinage des ailes 139. Ces ailes 139 positionnent le raccord de liaison 7 par rapport au corps tubulaire 24 par leur placement sous le capot 16 au niveau des zones 140 (figure 15A).FIG. 6E is a section of the connection fitting in the vicinity of the wings 139. These wings 139 position the connection fitting 7 relative to the tubular body 24 by their placement under the cover 16 at the level of the zones 140 (FIG. 15A).

Les avantages et les fonctions des différents éléments du système selon l'invention, seront mieux compris à la lecture de la description qui suit de séquences opérationnelles données en exemple nullement limitatif.The advantages and functions of the various elements of the system according to the invention will be better understood on reading the following description of operational sequences given as a non-limiting example.

La figure 7A représente un puits principal 1 dans lequel a été descendu une colonne 4 dont une portion au moins comporte une ouverture latérale 21. La phase d'équipement du puits 1 est en général similaire à l'opération conventionnelle de tubage d'un puits. La colonne 4 est préférentiellement constituée d'éléments de tubes "casing" ou "tubing" suivant la dénomination normalisée de "l'American Petroleum Institute". Ces tubes sont assemblés les uns aux autres par des filetages. La portion de colonne comportant l'ouverture 21 est, de préférence, fabriquée à partir d'une longueur de tube pour obtenir l'élément 24 tel illustré par les figures 4A, 4B et 4C ou 15A et 15B.FIG. 7A represents a main well 1 into which a column 4 has been lowered, at least a portion of which has a lateral opening 21. The equipment phase of well 1 is generally similar to the conventional operation of casing a well. Column 4 is preferably made up of elements of "casing" or "tubing" according to the standard name of "the American Petroleum Institute". These tubes are assembled to each other by threads. The column portion comprising the opening 21 is preferably made from a length of tube to obtain the element 24 as illustrated by FIGS. 4A, 4B and 4C or 15A and 15B.

Au fur et à mesure de la descente de la colonne 4, les opérateurs intègrent dans la colonne le ou les éléments 24 pour qu'en fin de descente ceux-ci se trouvent au droit du départ prévu des forages latéraux.As the column 4 descends, the operators integrate the element (s) 24 into the column so that, at the end of the descent, these are located at the start of the planned lateral drilling.

Dans le cas, le plus courant, où il est préparé plusieurs forage latéraux à partir du puits principal 1, il faut orienter entre eux les éléments 24 afin que la direction des ouvertures soit selon les prévisions du schéma de drainage désiré par les exploitants. Le moyen de connexion inférieur 25 (figures 4B, 15B) de l'élément 24 pourra comporter un moyen de fixation spécifique de l'orientation dudit élément 24 par rapport à la colonne tubulaire inférieure. Tous les moyens connus en mécanique générale pourront être utilisés, par exemple le principe vis-écrou avec contre-écrou de blocage. Ce principe peut être transposé dans le cas présent comme suit : la connexion 25 est constituée d'un filetage male cylindrique; le tube sur lequel est vissé la connexion 25 comporte un filetage correspondant femelle; une bague jouant le rôle de contre-écrou est montée sur le filetage mâle.In the most common case, where several lateral drilling is prepared from the main well 1, it is necessary to orient the elements 24 between them so that the direction of the openings is according to the forecasts of the drainage scheme desired by the operators. The lower connection means 25 (FIGS. 4B, 15B) of the element 24 may comprise means for specific fixing of the orientation of said element 24 relative to the lower tubular column. All the means known in general mechanics can be used, for example the principle of screw-nut with locking lock nut. This principle can be transposed in the present case as follows: the connection 25 consists of a cylindrical male thread; the tube on which the connection 25 is screwed has a corresponding female thread; a ring acting as a lock nut is mounted on the male thread.

Le vissage de l'élément 24 est effectué en surface sur l'extrémité de la colonne déjà assemblée et introduite dans le puits. On ajuste la direction de l'ouverture de l'élément en montage, en connaissant l'orientation de l'ouverture du précédent élément déjà assemblé dans la colonne principale par la mise en place dans la colonne d'un outil de mesure au niveau de cette première ouverture. L'outil de mesure, par exemple du type gyroscope "steering tool" ou "MWD", est indexé par rapport à l'ouverture par exemple à l'aide de la clavette 23. On bloque la position de l'élément en vissant, à un couple de serrage déterminé par la dimension du filetage, la bague contre l'épaulement d'extrémité du filetage femelle. D'autres systèmes de fixation sont à la portée du mécanicien connaissant les caractéristiques des connexions des tubes "casing" ou "tubing".The element 24 is screwed on the surface on the end of the already assembled column and introduced into the well. We adjust the direction of opening of the element in assembly, knowing the orientation of the opening of the previous element already assembled in the main column by the installation in the column of a measurement tool at this first opening. The measurement tool, for example of the gyroscope type "steering tool" or "MWD", is indexed with respect to the opening for example using the key 23. The position of the element is blocked by screwing, at a tightening torque determined by the size of the thread, the ring against the end shoulder of the female thread. Other fixing systems are within the reach of the mechanic knowing the characteristics of the connections of the tubes "casing" or "tubing".

La figure 14 illustre un moyen simple de liaison entre un élément tubulaire 24 et un tube de la colonne 4, liaison permettant un réglage et la fixation en orientation de l'élément 24. Un manchon de casing 150 comporte deux types de filetages femelles différents, 151 et 153. Le filetage 151 correspond au type de filetage male des tubes constituant la colonne 4. La connexion par les filetages 151 comporte un épaulement 152 sur lequel l'extrémité male du tube 4 est bloquée sous l'action d'un couple de serrage. Cette connexion conventionnellement appelée "premium connection" a, entre autres, la particularité de ne pas permettre de rotation relative des tubes les uns par rapport au autres en cas d'application d'un couple de torsion sur l'ensemble de la colonne. Au contraire, la connexion comportant le filetage 153 n'est pas épaulée, par exemple du type LTC (Long Thread Collar) selon les normes 5CT de American Petroleum Institute. Ainsi on peut ajuster la rotation de l'élément 24 par rapport au manchon 150 en fonction du couple de blocage appliqué. L'orientation étant effectuée, on bloque des vis-pointeau latérales 154 sur l'extérieur du filetage male 25 de l'élément 24.FIG. 14 illustrates a simple means of connection between a tubular element 24 and a tube of the column 4, connection allowing adjustment and fixing in orientation of the element 24. A casing sleeve 150 comprises two different types of female threads, 151 and 153. The thread 151 corresponds to the male thread type of the tubes constituting the column 4. The connection by the threads 151 comprises a shoulder 152 on which the male end of the tube 4 is blocked under the action of a tightening torque. This connection conventionally called "premium connection" has, among other things, the particularity of not allowing relative rotation of the tubes with respect to each other in the event of the application of a torque to the entire column. On the contrary, the connection comprising the thread 153 is not shouldered, for example of the LTC (Long Thread Collar) type according to the 5CT standards of the American Petroleum Institute. Thus, the rotation of the element 24 can be adjusted relative to the sleeve 150 as a function of the locking torque applied. The orientation being carried out, lateral needle screws 154 are blocked on the outside of the male thread 25 of the element 24.

Lorsque l'ensemble de la colonne 4 a été descendu dans le puits principal, on tourne la colonne autour de son axe pour orienter ensemble toutes les ouvertures par rapport à la formation productrice. Le mouvement de rotation se fait à partir de la surface soit directement sur le sommet de la colonne si celle-ci remonte jusqu'en surface, soit sur les tiges de manoeuvre si la colonne est de type "liner" c'est à dire qu'elle est interrompue au niveau du sabot de la colonne cimentée précédente.When the entire column 4 has been lowered into the main well, the column is rotated about its axis to orient all the openings relative to the producing formation. The rotational movement is done from the surface either directly on the top of the column if it rises to the surface, or on the operating rods if the column is of the "liner" type, ie 'it is interrupted at the hoof of the previous cemented column.

La colonne principale et ses ouvertures sont correctement positionnées en contrôlant l'orientation à l'aide d'un appareil de mesure conventionnel, adapté au type de puits principal concerné.The main column and its openings are correctly positioned by controlling the orientation using a conventional measuring device, adapted to the type of main well concerned.

Une phase de forage latéral sera entreprise après mise en place des moyens de guidage 10 illustré par la figure 7A.A lateral drilling phase will be undertaken after installation of the guide means 10 illustrated in FIG. 7A.

On assemble en surface les moyens sur un outil de pose 56, par exemple à l'aide de moyens d'accrochage 19 comportant des rainures (figure 5A) et de la fente 53 ou à l'aide d'un "releasing spear" comportant un raccord d'orientation 161, des moyens d'accrochage 160 et un guide 162. On ne sortira pas du cadre de cette invention si la fixation se fait par un autre moyen équivalent. On descend les moyens dans la colonne 4 au moyen de tiges de manoeuvre 57. On contrôle la profondeur atteinte par ces moyens en additionnant les longueurs de tiges 57. Lorsque la pointe 58 à double pente (49, 50) bute sur la clavette 23, la pointe 58 guide le dispositif 10, soit dans la position d'ancrage lorsque la clavette pénètre dans la gorge 37 (figure 3B), soit dans la position de déplacement lorsque la clavette pénètre dans la gorge 51 (figure 3C).The means are assembled on the surface on a setting tool 56, for example using hooking means 19 comprising grooves (FIG. 5A) and slot 53 or using a "releasing spear" comprising an orientation fitting 161, hooking means 160 and a guide 162. It is not going beyond the scope of this invention if the fixing is done by another equivalent means. The means are lowered into column 4 by means of operating rods 57. The depth reached by these means is checked by adding the lengths of rods 57. When the tip 58 with double slope (49, 50) abuts on the key 23, the tip 58 guides the device 10, either in the anchoring position when the key enters the groove 37 (FIG. 3B), or in the displacement position when the key enters the groove 51 (FIG. 3C).

Comme cela a déjà été expliqué, lorsque le guidage de la pointe 58 se fait vers une position non désirée, I'opérateur remonte les moyens 10 au-dessus de la clavette 13, tel représenté sur la figure 7A, puis tourne d'un demi tour les tiges 57 et dans le même mouvement les moyens 10 présentent maintenant l'autre plan de guidage (49 ou 50 de la figure 3A) sur la clavette 23. L'opérateur peut ainsi choisir d'ancrer ou de ne pas ancrer les moyens 10 sur la clavette 23 située à la cote concernée.As has already been explained, when the tip 58 is guided towards an unwanted position, the operator raises the means 10 above the key 13, as shown in FIG. 7A, then rotates by half turn the rods 57 and in the same movement the means 10 now have the other guide plane (49 or 50 of FIG. 3A) on the key 23. The operator can thus choose to anchor or not to anchor the means 10 on the key 23 located at the dimension concerned.

Dans le cas où l'ancrage est fait au niveau de l'ouverture prévue pour le forage latéral, on déconnecte l'outil de pose 56 par une action contrôlée à partir de la surface. On connaît des systèmes pouvant être déconnecté par exemple par rotation, battage mécanique ou par commande hydraulique. L'opération de forage peut alors être exécutée selon la schématisation de la figure 7B.In the case where the anchoring is made at the opening provided for lateral drilling, the setting tool 56 is disconnected by a controlled action from the surface. Systems are known which can be disconnected, for example by rotation, mechanical threshing or by hydraulic control. The drilling operation can then be carried out according to the diagram of FIG. 7B.

Dans l'autre cas, il faut ajouter des tiges 57 pour atteindre une autre ouverture située plus profond, en direction du fond du puits principal.In the other case, it is necessary to add rods 57 to reach another opening located deeper, towards the bottom of the main well.

Il est également possible de descendre ensemble dans le puits les moyens de guidage et la garniture de forage latéral. Celle-ci est alors fixée aux moyens de guidage par un verrouillage réversible, par exemple du type goupille de cisaillement. Dans ce cas, une fois les moyens 10 mis en place relativement à la clavette 23, la libération de la garniture de forage des moyens de guidage en cisaillant ladite goupille, permet d'effectuer le forage latéral sans manoeuvre supplémentaire.It is also possible to descend together into the well the guide means and the lateral drilling string. This is then fixed to the guide means by a reversible lock, for example of the shear pin type. In this case, once the means 10 put in place relative to the key 23, the release of the drill string from the guide means by shearing said pin, makes it possible to perform lateral drilling without additional maneuver.

La figure 7B montre un outil de forage 59 en cours de forage du puits latéral 2, l'angle de déviation I1 entre le puits principal et le début du forage latéral est sensiblement égal à l'angle I2 que fait la tangente à la surface de la rampe 15 à son extrémité inférieure. La surface de la rampe peut être plane, comme représenté sur la figure 2A, mais sera préférentiellement courbe de façon à pouvoir diminuer la longueur de l'ouverture. La courbure de la rampe peut également être à angle variable et croissant dans la direction de la fenêtre 21. Bien entendu, la courbure admissible de la rampe est limitée par la rigidité de la garniture de forage et à celle de la colonne latérale.FIG. 7B shows a drilling tool 59 during drilling of the lateral well 2, the deflection angle I1 between the main well and the start of the lateral drilling is substantially equal to the angle I2 formed by the tangent to the surface of the ramp 15 at its lower end. The surface of the ramp may be flat, as shown in FIG. 2A, but will preferably be curved so as to be able to reduce the length of the opening. The curvature of the ramp can also be at a variable angle and increasing in the direction of the window 21. Of course, the admissible curvature of the ramp is limited by the rigidity of the drill string and that of the lateral column.

La figure 7C concerne l'introduction de la colonne latérale 3 dans le puits latéral 2. La figure 7C montre les équipements en cours de descente, avant la mise en place définitive du raccord de liaison 7 au niveau de la fenêtre 21. La colonne de type liner se termine par un raccord de liaison 7. Le raccord de liaison est relié aux tubes de la colonne 3 par l'intermédiaire d'un joint 8. La colonne 3 est représentée en train d'être introduite dans le puits latéral 2, mais le joint 8 et le raccord de liaison 7 sont encore situés dans l'espace intérieur de la colonne principale (figure 7C). L'ensemble de la colonne est descendue par le moyen de tiges de manoeuvre 60 remontant jusqu'en surface. Un outil de pose 61 est vissé sensiblement à l'extrémité inférieure des tiges 60. La colonne 3 est suspendue à l'outil de pose 61 par des moyens d'accrochages 62.FIG. 7C relates to the introduction of the lateral column 3 into the lateral well 2. FIG. 7C shows the equipment being lowered, before the final fitting of the connection fitting 7 at the level of the window 21. The column of liner type ends with a connection fitting 7. The connection fitting is connected to the tubes of column 3 by means of a seal 8. Column 3 is shown being introduced into the lateral well 2, but the seal 8 and the connection fitting 7 are still located in the interior of the main column (FIG. 7C). The entire column is lowered by the means of operating rods 60 rising to the surface. An installation tool 61 is screwed substantially to the lower end of the rods 60. The column 3 is suspended from the installation tool 61 by hooking means 62.

Cet outil de pose 61 est de préférence adapté à réaliser au moins les fonctions suivantes :

  • tenir la charge représentée par le poids de la colonne 3,
  • supporter une poussée vers le bas sur la colonne, poussée exercée généralement par des masses-tiges ou des tiges lourdes vissées au-dessus de l'outil 61,
  • contrôler son ancrage sur la colonne latérale à partir de la surface,
  • orienter le raccord de liaison dans le voisinage de la glissière pour permettre son positionnement par rapport à l'ouverture, les moyens d'orientation coopérant avec la partie supérieure 20 des moyens de guidage 10,
  • déplacer en translation le raccord de liaison 7 sur la glissière en maintenant l'orientation désirée,
  • manoeuvrer la porte 12 dans le sens de la fermeture autour du raccord 7 une fois celui-ci lié à la colonne principale.
This fitting tool 61 is preferably adapted to perform at least the following functions:
  • hold the load represented by the weight of column 3,
  • withstand a downward thrust on the column, thrust generally exerted by drill collars or heavy rods screwed above the tool 61,
  • check its anchoring on the lateral column from the surface,
  • orient the connection fitting in the vicinity of the slide to allow its positioning relative to the opening, the orientation means cooperating with the upper part 20 of the guide means 10,
  • move the connection fitting 7 in translation on the slide while maintaining the desired orientation,
  • maneuver the door 12 in the closing direction around the fitting 7 once the latter is connected to the main column.

L'outil de pose peut comporter des moyens d'ancrage 62 par l'intérieur des tubes de la colonne 3, un ensemble d'orientation et de déplacement 63, un ensemble 64 de manoeuvre de la porte 12 comportant un doigt 65 adapté à coopérer avec la fente 66 du corps du tube 24 (figure 4B) pour se placer au-dessus de la porte. Le doigt 65 est adapté à être déplacé en translation pour faire coulisser la porte dans son logement et obturer l'espace entre l'ouverture et le raccord de liaison. Le doigt peut être activé diamétralement et longitudinalement par l'intermédiaire d'un moyen comportant une vis entraînée en rotation par la rotation en surface des tiges 60, ou par le déplacement d'un vérin hydraulique soumis à un fluide sous pression injecté depuis la surface.The installation tool may include anchoring means 62 from the inside of the tubes of the column 3, an orientation and displacement assembly 63, an assembly 64 for operating the door 12 comprising a finger 65 adapted to cooperate with the slot 66 of the body of the tube 24 (FIG. 4B) to be placed above the door. The finger 65 is adapted to be moved in translation to slide the door in its housing and close the space between the opening and the connection fitting. The finger can be activated diametrically and longitudinally via a means comprising a screw driven in rotation by the surface rotation of the rods 60, or by the displacement of a hydraulic cylinder subjected to a pressurized fluid injected from the surface .

On restera dans le cadre de cette invention, en utilisant un outil de pose conçu à partir d'autres systèmes mécaniques, dans la mesure où les fonctions principales, décrites ci-dessus, ont notamment pour but la mise en oeuvre du système ou de la méthode présente.We will remain within the framework of this invention, using a fitting tool designed from other mechanical systems, insofar as the main functions, described above, are in particular for the implementation of the system or the present method.

La figure 9A représente un outil de descente et de pose 61 de la colonne latérale 3, ancré dans le raccord de liaison 7, lequel est solidaire de la colonne 3 par l'intermédiaire d'un joint 8. L'outil comporte un ensemble 64 de manoeuvre de la porte 12, non représenté sur la figure 9A mais détaillé par les figures 10A, 10B et 10C, un ensemble 63 d'orientation et de positionnement du raccord de liaison 7 dans l'ouverture 21, un ensemble d'ancrage 62 de l'outil de pose 61 dans le raccord 7. L'ensemble d'ancrage comprend un moyen de verrouillage 87 solidaire de l'extrémité d'un tube de manoeuvre 88 et une pièce 86 de maintien du raccord 7. La pièce de maintien 86 possède une face 130 complémentaire à la section 13 du raccord de liaison 7. La solidarisation de la pièce 86 sur le tube 88 fixe en rotation le raccord 7 par rapport au tube 88 lorsque la section 13 du raccord 7 est en contact avec la face 130 de la pièce de maintien. Pour augmenter la résistance au couple de torsion, la partie du tube 88 située à l'intérieur du raccord de liaison 7 peut comporter des gorges longitudinales dans lesquelles sont emprisonnées des broches transversales solidaires de la paroi du raccord 7.FIG. 9A represents a tool for lowering and placing 61 of the lateral column 3, anchored in the connection fitting 7, which is integral with the column 3 by means of a seal 8. The tool comprises an assembly 64 for operating the door 12, not shown in FIG. 9A but detailed by FIGS. 10A, 10B and 10C, an assembly 63 for orientation and positioning of the connection fitting 7 in the opening 21, an anchoring assembly 62 of the fitting tool 61 in the connector 7. The anchoring assembly comprises a means of locking 87 secured to the end of an operating tube 88 and a piece 86 for holding the connection 7. The holding piece 86 has a face 130 complementary to the section 13 of the connection fitting 7. The joining of the piece 86 on the tube 88 fixes the connector 7 in rotation relative to the tube 88 when the section 13 of the connector 7 is in contact with the face 130 of the holding part. To increase the resistance to torsional torque, the part of the tube 88 located inside the connection fitting 7 may include longitudinal grooves in which are trapped transverse pins secured to the wall of the fitting 7.

Le dispositif de centrage constitué pas les parties 146 et 147 de la figure 6F, n'est pas représenté sur cette figure pour des raisons de clarté.The centering device constituted by the parts 146 and 147 of FIG. 6F, is not shown in this figure for reasons of clarity.

La figure 9B illustre un système d'ancrage 87. Le raccord 7 comporte une gorge 89 circulaire dans son passage intérieur. Une pièce cylindrique 90 est solidaire de l'extrémité du tube 88 par un filetage 92. La pièce 90 possède plusieurs fentes 93 réparties sur la périphérie permettant une expansion radiale de l'extrémité 91 de la pièce fendue 90. Cette extrémité est usinée selon une forme mâle, complémentaire de la gorge 89. Un bouchon 94 élargit l'extrémité 91 de la pièce fendue 90, verrouillant le tube 88 dans le raccord 7. Le bouchon 94 est solidaire d'un piston 95 situé dans l'alésage du tube 88. Des moyens d'étanchéité 96 isolent l'espace intérieur du tube 88 de l'espace annulaire. Une goupille de cisaillement 97 solidarise le piston 95 dans le tube 88. Ainsi monté, la colonne 3 est descendue dans le puits par des tiges solidaires du tube 88. Les efforts longitudinaux sont supportés par la coopération de la gorge 89 et de la forme 91. Le déverrouillage sera effectué en augmentant la pression à l'intérieur du tube 88, par l'intermédiaire de l'espace interne des tiges de manoeuvre et d'une installation de pompage en surface. Lorsque la pression fournit une poussée sur le piston 95 supérieure à la résistance au cisaillement de la goupille 97, celle-ci en cassant libère le piston qui se déplace sous l'effet de la pression vers le bas de la figure d'une course C déterminée. Ce mouvement de translation du piston entraîne le dégagement du bouchon 94 hors de l'extrémité de la pièce 90. Compte tenu de l'élasticité de la forme 91, celle-ci se rétracte d'elle même ou sous l'action d'une force longitudinale appliquée sur le tube 88, libérant ainsi le tube 88 du raccord 7.FIG. 9B illustrates an anchoring system 87. The connector 7 has a circular groove 89 in its interior passage. A cylindrical piece 90 is secured to the end of the tube 88 by a thread 92. The piece 90 has several slots 93 distributed over the periphery allowing a radial expansion of the end 91 of the split piece 90. This end is machined according to a male shape, complementary to the groove 89. A plug 94 widens the end 91 of the slotted piece 90, locking the tube 88 in the connector 7. The plug 94 is integral with a piston 95 located in the bore of the tube 88 Sealing means 96 isolate the interior space of the tube 88 from the annular space. A shear pin 97 secures the piston 95 in the tube 88. Thus mounted, the column 3 is lowered into the well by rods integral with the tube 88. The longitudinal forces are supported by the cooperation of the groove 89 and the shape 91 Unlocking will be carried out by increasing the pressure inside the tube 88, via the internal space of the operating rods and a pumping installation on the surface. When the pressure provides a thrust on the piston 95 greater than the shear resistance of the pin 97, this breaking breaks free the piston which moves under the effect of the pressure down the figure of a stroke C determined. This translational movement of the piston causes the plug 94 to be disengaged from the end of the part 90. Given the elasticity of the form 91, the latter retracts by itself or under the action of a longitudinal force applied to tube 88, thereby releasing tube 88 from fitting 7.

Sur la figure 9A, l'ensemble d'orientation 63 comporte une chemise 98 solidaire du tube 88 par une goupille de cisaillement 99. La chemise comporte une forme 100 complémentaire à la forme du moyen d'orientation 20 de l'extrémité supérieure des moyens de guidage 10 (figure 2B). Pour faciliter la compréhension, la silhouette de la partie supérieure 18 des moyens de guidage est représentée en pointillés sur la figure 9A. Une clavette 101, solidaire du tube 88 est située dans une fente 102 découpée dans la chemise 98. A la fin de la mise en place de la colonne 3 dans le forage latéral, la forme 100 de la chemise de l'outil de pose coopère avec le moyen d'orientation 20 des moyens de guidage. La coopération oriente l'outil de pose et le raccord de liaison 7 dans une direction déterminée, direction donnée par l'orientation des moyens de guidage dans la conduite 4. En fin d'orientation, le déplacement vers le bas de l'outil de pose et de la colonne 3, est bloqué par la partie 18. La fente 102 se trouve en face de la fente 53 de la partie supérieure 18 des moyens de guidage. L'opérateur applique une force de cisaillement sur la goupille 99 par l'action de tiges ou de masses-tiges. La rupture de la goupille libère le tube 88 de la chemise 98, et dans le même mouvement se déplace vers le bas dans un mouvement de translation. Dans ce mouvement, la clavette 101 pénètre dans la fente 53. Lorsque le mouvement de translation a effectué une course de longueur prédéterminée, au plus égale à la longueur de la fente 53, le raccord 7 est correctement positionné dans l'ouverture 21. De même, à la fin de ce dernier déplacement, l'ensemble de manoeuvre de la porte est en position d'opération.In FIG. 9A, the orientation assembly 63 comprises a jacket 98 secured to the tube 88 by a shear pin 99. The jacket has a shape 100 complementary to the shape of the orientation means 20 of the upper end of the means guide 10 (Figure 2B). To facilitate understanding, the silhouette of the upper part 18 of the guide means is shown in dotted lines in FIG. 9A. A key 101, integral with the tube 88 is located in a slot 102 cut in the jacket 98. At the end of the positioning of the column 3 in the lateral drilling, the shape 100 of the jacket of the fitting tool cooperates with the orientation means 20 of the guide means. The cooperation directs the fitting tool and the connecting fitting 7 in a determined direction, direction given by the orientation of the guide means in the pipe 4. At the end of orientation, the downward movement of the pose and column 3, is blocked by the part 18. The slot 102 is located opposite the slot 53 of the upper part 18 of the guide means. The operator applies a shearing force to the pin 99 by the action of rods or drill collars. The rupture of the pin releases the tube 88 from the jacket 98, and in the same movement moves downward in a translational movement. In this movement, the key 101 enters the slot 53. When the translational movement has made a stroke of predetermined length, at most equal to the length of the slot 53, the connector 7 is correctly positioned in the opening 21. From even, at the end of this last movement, the door operating assembly is in the operating position.

Les figures 10A et 10B représentent une réalisation d'un ensemble de manoeuvre 64 de la porte 12. La figure 10C montre ledit ensemble en action. Les deux extrémités 103 et 104 de l'ensemble 64 sont respectivement reliées à l'ensemble d'orientation 63 et à la garniture de manoeuvre, laquelle pouvant comporter des masses-tiges, des tiges lourdes ou des tiges. Le corps extérieur 105 de l'ensemble 64 comporte une fenêtre 106 de forme allongée suivant une génératrice du corps 105, un palier de guidage supérieur 107 et un palier de guidage inférieur 108. Un ensemble mobile longitudinalement 109, coaxial audit corps extérieur 105, comporte un piston supérieur 110, un piston inférieur 111, solidaires d'un support 112 d'un doigt 76 de manoeuvre de la porte 12. Des moyens d'étanchéité 113 et 114 sont placés respectivement dans les paliers de guidage 107 et 108 de l'ensemble 109 dans le corps extérieur 105. Les épaulements 117 et 116 du corps 105 limitent le déplacement en translation de l'ensemble 109 par leur coopération respective avec les épaulements 118 et 115 solidaires du support 112. Un ressort de rappel 119 maintient l'ensemble 109 en position haute par rapport au corps 105 ou position de repos. Dans cette position de repos les épaulements 118 et 117 sont en contact, comme représenté sur les figures 10A et 10B. Le diamètre extérieur du piston supérieur 110, ou le diamètre intérieur des étanchéités 113, est sensiblement supérieur au diamètre extérieur du piston inférieur 111, ou au diamètre intérieur des étanchéités 114. L'ensemble 109 constitue ainsi un piston différentiel, la pression qui règne dans l'espace intérieur des tubes s'applique sur des sections différentes, la plus grande section étant du coté piston supérieur 110. Le doigt 76 est articulé autour de l'axe 120. Un ressort à lame 131 (figure 10C) est maintenu sur le corps 112 par une pièce 122 portant l'axe 120. Le ressort disposé sous le doigt 76 a tendance à faire pivoter celui-ci vers l'extérieur du support 112. Dans la position dite de repos, représenté sur les figures 10A et 10B, le doigt 76 est maintenu rétracté, parallèle à l'axe de l'outil 64, par la partie 121 du corps extérieur 105. Une tige tubulaire 123 est située intérieurement au piston inférieur 111 La tige 123 comporte à son extrémité inférieure un épaulement 132 adapté à coopérer avec une butée (non représentée) placée à une distance déterminée dans le tube d'extrémité 103, et à son extrémité supérieure un manchon d'étanchéité 124. Un ressort de rappel 126 maintient la tige 123 en butée sur l'épaulement 127 du piston inférieur 111. Le manchon d'étanchéité 124 comporte des moyens d'étanchéité 128 et 129 de part et d'autre d'au moins un orifice 125 percé dans le support 112.Figures 10A and 10B show an embodiment of an operating assembly 64 of the door 12. Figure 10C shows said assembly in action. The two ends 103 and 104 of the assembly 64 are respectively connected to the orientation assembly 63 and to the operating lining, which may include drill collars, heavy rods or rods. The outer body 105 of the assembly 64 comprises a window 106 of elongated shape along a generatrix of the body 105, an upper guide bearing 107 and a lower guide bearing 108. A longitudinally movable assembly 109, coaxial with said outer body 105, comprises an upper piston 110, a lower piston 111, integral with a support 112 of a finger 76 for operating the door 12. Sealing means 113 and 114 are placed respectively in the guide bearings 107 and 108 of the assembly 109 in the outer body 105. The shoulders 117 and 116 of the body 105 limit the movement in translation of the assembly 109 by their respective cooperation with the shoulders 118 and 115 secured to the support 112. A return spring 119 holds the assembly 109 in the high position relative to the body 105 or the rest position. In this rest position the shoulders 118 and 117 are in contact, as shown in FIGS. 10A and 10B. The outside diameter of the upper piston 110, or the inside diameter of the seals 113, is substantially greater than the outside diameter of the lower piston 111, or the inside diameter of the seals 114. The assembly 109 thus constitutes a differential piston, the pressure in the interior of the tubes applies to different sections, the largest section being on the upper piston side 110. The finger 76 is articulated around the axis 120. A leaf spring 131 (FIG. 10C) is held on the body 112 by a piece 122 carrying the axis 120. The spring disposed under the finger 76 tends to pivot it towards the outside of the support 112. In the so-called rest position, shown in the figures 10A and 10B, the finger 76 is kept retracted, parallel to the axis of the tool 64, by the part 121 of the external body 105. A tubular rod 123 is located inside the lower piston 111 The rod 123 has at its lower end a shoulder 132 adapted to cooperate with a stop (not shown) placed at a determined distance in the end tube 103, and at its upper end a sealing sleeve 124. A return spring 126 keeps the rod 123 in abutment e on the shoulder 127 of the lower piston 111. The sealing sleeve 124 comprises sealing means 128 and 129 on either side of at least one orifice 125 drilled in the support 112.

Le fonctionnement de l'ensemble de manoeuvre 64 de la porte 12 est décrit ci-après. Lorsque la colonne 3 et son raccord de liaison 7 sont correctement positionnés et orientés par l'outil de pose 61, la clavette 101 est en butée dans le fond de la fente 53 de la partie supérieure des moyens de guidage. La fenêtre 106 se trouve en face de la fenêtre 66 du corps du tube 24 (figures 4A et 4B). On monte en pression dans l'espace intérieur des tiges et du tube 88 par des moyens de pompage situés à la surface. L'espace intérieur est bouché par le piston 95 des moyens d'ancrage 87. Compte tenu des sections différentielles de l'ensemble 109, celui-ci reçoit une poussée vers le bas, proportionnelle à la pression et à la section différentielle. Par exemple, pour des diamètres extérieurs des pistons supérieur et inférieur, respectivement de 3,870'' (9,8298 cm) et 3,495'' (8,8773 cm) et une pression de 2000 psi (13789 kpa), la force de poussée est environ de 4300 Ibs, soit 19126 Newton. La force comprime le ressort 119 en faisant descendre l'ensemble 109. Lorsque l'axe 120 est sensiblement dégagé du carter 121, le doigt 76 est expansé radialement par son ressort 131 (figure 10C). Le doigt 76 passe ainsi à travers la fenêtre 106, la fenêtre 66 et l'extrémité du doigt vient coopérer avec une des ouvertures 75 de la porte 12. La force de poussée déplace la porte ainsi entraînée par l'ensemble 109 jusqu'à ce que la butée 115 arrive à proximité de la butée 116. Dans le même temps, la butée 132 de la tige 123 coopère avec une butée (non représentée), déplaçant, en fin de course de l'ensemble 109, le manchon d'étanchéité 124. Dans ce déplacement, l'orifice 125 est dégagé, mettant en communication l'espace intérieur des tiges 88 avec l'espace annulaire du puits et provoquant ainsi une chute de pression à l'intérieur de ces tubes 88. La fin d'une course est ainsi signalée à l'opérateur qui peut faire chuter la pression interne pour faire reprendre à l'ensemble 109 sa position de repos sous l'action du ressort de rappel 119. Dans le sens de la remontée, la forme du doigt 76 et de l'ouverture 75 sont tels que ce doigt 76 est automatiquement dégagé de cette ouverture 75. L'opérateur répète l'opération pour faire avancer la porte par courses successives, jusqu'à la fermeture totale. Un certain nombre d'ouvertures 75 sont nécessaires à ce déplacement par courses successives. Lorsque, à la suite d'une montée en pression dans les tubes, I'opérateur ne constate aucune chute de pression provoquée par le signal de fin de course constitué par le manchon 124 et le tube 123, il peut en déduire que la porte est entièrement fermée. Cela peut être confirmé par le nombre de cycles de fermeture ayant déjà été effectués.The operation of the operating assembly 64 of the door 12 is described below. When the column 3 and its connection fitting 7 are correctly positioned and oriented by the fitting tool 61, the key 101 is in abutment in the bottom of the slot 53 of the upper part of the guide means. The window 106 is located opposite the window 66 of the body of the tube 24 (FIGS. 4A and 4B). The pressure is increased in the interior space of the rods and of the tube 88 by pumping means located on the surface. The interior space is blocked by the piston 95 of the anchoring means 87. Taking into account the differential sections of the assembly 109, the latter receives a downward thrust, proportional to the pressure and to the differential section. For example, for outer diameters of the upper and lower pistons, respectively 3.870 '' (9.8298 cm) and 3.495 '' (8.8773 cm) and a pressure of 2000 psi (13789 kpa), the pushing force is about 4300 Ibs, or 19126 Newton. The force compresses the spring 119 by lowering the assembly 109. When the axis 120 is substantially released from the casing 121, the finger 76 is radially expanded by its spring 131 (FIG. 10C). The finger 76 thus passes through the window 106, the window 66 and the end of the finger cooperates with one of the openings 75 in the door 12. The pushing force moves the door thus driven by the assembly 109 until that the stop 115 arrives near the stop 116. At the same time, the stop 132 of the rod 123 cooperates with a stop (not shown), moving, at the end of the race of the assembly 109, the sealing sleeve 124. In this movement, the orifice 125 is released, putting the interior space of the rods 88 into communication with the annular space of the well and thus causing a pressure drop inside these tubes 88. The end of a stroke is thus signaled to the operator who can cause the internal pressure to drop so that the assembly 109 returns to its rest position under the action of the return spring 119. In the direction of the ascent, the shape of the finger 76 and the opening 75 are such that this finger 76 is automatically released from this opening 75. The operator repeats the operation to advance the door by successive strokes, until total closure. A certain number of openings 75 are necessary for this displacement by successive strokes. When, following a rise in pressure in the tubes, the operator does not observe any pressure drop caused by the end-of-stroke signal constituted by the sleeve 124 and the tube 123, he can deduce therefrom that the door is fully closed. This can be confirmed by the number of closing cycles that have already been carried out.

Pour libérer l'outil de pose 61 de la colonne 3, maintenant assemblée par le raccord 7 à la colonne principale, il suffit de monter à une pression interne suffisante pour casser la goupille de cisaillement 97, le piston 95 dégage le bouchon 94 de l'extrémité 91, libérant celle-ci de la gorge 89 (figure 9B). Pour la sécurité de l'opération, un raccord spécifique de secours peut être intercalé entre le système d'ancrage 87 et le tube 88. Ce raccord de secours est adapté à libérer le tube 88 du système d'ancrage 87 qui serait éventuellement coincé, par une action mécanique comme un couple, un poids ou une traction, ou par explosion selon les opérations de dévissage du type "back-off".To release the installation tool 61 from column 3, now assembled by connection 7 to the main column, it suffices to mount to an internal pressure sufficient to break the shear pin 97, the piston 95 releases the plug 94 from the 'end 91, releasing it from the groove 89 (Figure 9B). For operational safety, a specific emergency connection can be inserted between the anchoring system 87 and the tube 88. This emergency connection is suitable for releasing the tube 88 from the anchoring system 87 which could be trapped, by a mechanical action such as a torque, a weight or a traction, or by explosion according to the back-off type unscrewing operations.

La figure 13 est une variante particulièrement avantageuse du joint 8 intermédiaire entre les tubes 3 de la colonne latérale et le raccord de liaison 7. Il comporte deux parties tubulaires 171 et 172 reliées entre elles par une liaison 170 du type sphérique. La partie 171 a une certaine longueur (environ 1 mètre) et une section transversale telle qu'elle présente une relative flexibilité. La partie 171 peut être avantageusement en forme de soufflet ou d'un tube à paroi ondulée qui présente ainsi une grande flexibilité latérale même pour une courte longueur. Une extrémité 173 a une forme sensiblement sphérique, l'autre extrémité 174 est solidaire du raccord de liaison 7. L'extrémité 173 est maintenue dans une partie tubulaire 175, solidaire d'une extrémité de la partie 172 et dont la forme intérieure coopère avec la forme sphérique 173 pour constituer une liaison sphérique 170. L'autre extrémité de la partie 172 est reliée aux tubes de la colonne latérale 3. Ainsi est constitué un joint tournant flexible permettant la rotation axiale et le désalignement longitudinal du raccord de liaison par rapport à la colonne latérale 3. De plus la partie 173 comporte dans sa paroi intérieure la forme 89 (figure 9B) adaptée à coopérer avec le dispositif d'accrochage 87 fixé au bout du tube 88 situé dans l'espace intérieur des différentes parties tubulaires.FIG. 13 is a particularly advantageous variant of the joint 8 intermediate between the tubes 3 of the lateral column and the connection fitting 7. It comprises two tubular parts 171 and 172 connected together by a connection 170 of the spherical type. Part 171 has a certain length (about 1 meter) and a cross section such that it has relative flexibility. Part 171 may advantageously be in the form of a bellows or of a tube with a corrugated wall which thus has great lateral flexibility even for a short length. One end 173 has a substantially spherical shape, the other end 174 is integral with the connection fitting 7. The end 173 is held in a tubular part 175, integral with one end of the part 172 and whose internal shape cooperates with the spherical shape 173 to constitute a spherical connection 170. The other end of the part 172 is connected to the tubes of the lateral column 3. Thus a flexible rotary joint is formed allowing the axial rotation and the longitudinal misalignment of the connection fitting relative to the side column 3. In addition, part 173 comprises in its inner wall the shape 89 (FIG. 9B) adapted to cooperate with the hooking device 87 fixed to the end of the tube 88 located in the interior space of the different tubular parts.

Les figures 11A, 11B et 11C détaillent un exemple de bouchage de l'ouverture 21 de l'élément 24 pendant le cuvelage du puits principal et avant le forage des puits latéraux à partir de la fenêtre 21. Des bandes 180 sont enroulées autour de l'élément 24 sur toute la longueur de capot 16 en veillant à ce que le recouvrement des extrémités du capot soit selon le détail illustré figure 11C. De plus pour augmenter la solidité du bandage, les espaces 181 (figure 11A) sont comblés par une matière de remplissage avant l'enroulement. Dans une autre variante, une plaque 182 en matériau reforable peut obturer l'ouverture 27 (figure 15B) avant d'être recouvert par des bandages. Les bandages peuvent être en matériau composite renforcé de fibres.FIGS. 11A, 11B and 11C detail an example of plugging the opening 21 of the element 24 during the casing of the main well and before drilling the side wells from the window 21. Strips 180 are wound around the element 24 over the entire length of the cover 16, taking care that the covering of the ends of the cover is as shown in detail in FIG. 11C. In addition to increase the strength of the bandage, the spaces 181 (FIG. 11A) are filled with a filling material before the winding. In another variant, a plate 182 made of reforable material can seal the opening 27 (FIG. 15B) before being covered with bandages. The bandages can be made of fiber-reinforced composite material.

Les figures 16A et 16B illustrent une variante des moyens de fermeture de l'espace compris entre le raccord de liaison 7 et la périphérie de l'ouverture 21. Le principe est ici d'équiper l'élément 24 de moyens de fermeture en plusieurs parties 191 et 190. Une partie 190 coulisse parallèlement à l'axe longitudinal de l'élément 24, et deux parties 191 ont un déplacement en rotation autour de ce même axe. Les figures 16A et 16B montrent uniquement le principe de fonctionnement car la réalisation de ces moyens est à la portée de l'homme du métier, compte tenu de la présente invention.FIGS. 16A and 16B illustrate a variant of the means for closing the space between the connection fitting 7 and the periphery of the opening 21. The principle here is to equip the element 24 with closing means in several parts 191 and 190. A part 190 slides parallel to the longitudinal axis of the element 24, and two parts 191 have a rotational movement around this same axis. FIGS. 16A and 16B only show the operating principle because the production of these means is within the reach of those skilled in the art, taking into account the present invention.

La référence 193 représente l'ouverture 27 du capot 16 en vue de dessus selon les figures 15A ou 4A. La référence 192 représente la section du raccord de liaison 7 sensiblement dans le plan de l'ouverture 27. Sur la figure 16B, l'ouverture est maximale. Des portes latérales 191 sont écartées l'une de l'autre d'une distance correspondante à la largeur de l'ouverture 21. Une porte 190 à déplacement longitudinal comporte une extrémité 194 en forme de V dont la pente correspond à la forme 195 des portes latérales. Les portes 190 et 191 sont maintenues dans un carter constitué par le corps de l'élément tubulaire 24 et un capot 16. Une fois la colonne latérale et son raccord de liaison 7 mis en place dans le forage latéral, on fait effectuer une translation de la porte 190 vers la droite de la figure 16B. Le système de coins entre les formes 194 et 195 fait alors se resserrer les portes latérales 191 autour du raccord de liaison dans un mouvement de rotation autour de l'axe de l'élément 24. La figure 16A montre les portes 190 et 191 qui obturent l'espace entre le raccord et l'ouverture, après leurs déplacements. Bien entendu, d'autres systèmes mécaniques équivalents peuvent être utilisés pour déplacer des éléments de fermeture dans une direction donnée à partir d'un premier déplacement de translation.The reference 193 represents the opening 27 of the cover 16 in top view according to FIGS. 15A or 4A. The reference 192 represents the cross section of the connection fitting 7 substantially in the plane of the opening 27. In FIG. 16B, the opening is maximum. Side doors 191 are spaced from each other by a distance corresponding to the width of the opening 21. A door 190 with longitudinal displacement has a V-shaped end 194 whose slope corresponds to the shape 195 of the side doors. The doors 190 and 191 are held in a casing constituted by the body of the tubular element 24 and a cover 16. Once the lateral column and its connection fitting 7 put in place in the lateral drilling, a translation is made of door 190 to the right of Figure 16B. The wedge system between the shapes 194 and 195 then causes the side doors 191 to tighten around the connection fitting in a rotational movement around the axis of the element 24. FIG. 16A shows the doors 190 and 191 which close off the space between the fitting and the opening, after they have moved. Of course, other equivalent mechanical systems can be used to move closing elements in a given direction from a first translational movement.

Les figures 8A et 8B donnent en exemple des applications de la méthode et du système selon l'invention.FIGS. 8A and 8B give examples of applications of the method and of the system according to the invention.

Sur la figure 8A, un puits principal est foré à partir de la surface jusqu'à une zone géologique 71, de préférence un gisement pétrolier. Le puits 69 s'étend dans la formation productrice 71 par une partie sensiblement horizontale 74. La réalisation du puits principal se fait suivant les techniques connues. La partie 74, au moins, est cuvelée suivant la méthode selon l'invention. Ledit cuvelage, perforé ou non, comporte au moins une portion comportant au moins une ouverture latérale à partir de laquelle on fore des drains latéraux 72. Les drains latéraux peuvent être sensiblement horizontaux dans la couche productrice 71, ascendant ou descendant. La disposition des puits de drainage 72 dépend de la couche productrice. L'orientation relative des ouvertures, selon la présente invention, permet l'exécution des drains dans les directions désirées.In Figure 8A, a main well is drilled from the surface to a geological area 71, preferably an oil deposit. The well 69 extends in the producing formation 71 by a substantially horizontal part 74. The main well is made according to known techniques. Part 74, at least, is cased according to the method according to the invention. Said casing, perforated or not, comprises at least one portion comprising at least one lateral opening from which side drains 72 are drilled. The side drains can be substantially horizontal in the producing layer 71, ascending or descending. The arrangement of the drainage wells 72 depends on the producing layer. The relative orientation of the openings, according to the present invention, allows the execution of the drains in the desired directions.

Sur la figure 8B, le puits principal 69 est sensiblement vertical jusqu'à la zone productrice 71. Les forages latéraux 72 sont exécutés inclinés, de préférence sensiblement horizontaux dans la couche productrice. La portion tubulaire 73 du cuvelage du puits principal 69 comporte au moins une ouverture à partir de laquelle est foré le drain 72. Pour obtenir un drainage sensiblement rayonnant du gisement, plusieurs ouvertures situées au voisinage de la portion 73 permettent le forage de plusieurs drains 72. De préférence, les ouvertures seront situées à des niveaux différents, par exemple pour des raisons de résistance mécanique du cuvelage principal ou pour une simplification de la mise en place des différents moyens utilisés selon le système et la méthode de la présente invention. La portion 73 peut ne pas être située dans la formation productrice. De plus, le puits principal 69 peut comporter plusieurs portions 73 permettant le drainage du gisement à des niveaux de différentes profondeurs.In FIG. 8B, the main well 69 is substantially vertical up to the producing zone 71. The lateral drilling 72 is carried out inclined, preferably substantially horizontal in the producing layer. The tubular portion 73 of the casing of the main well 69 has at least one opening from which the drain 72 is drilled. To obtain a substantially radiant drainage of the deposit, several openings located in the vicinity of the portion 73 allow the drilling of several drains 72 Preferably, the openings will be located at different levels, for example for reasons of mechanical strength of the main casing or for a simplification of the implementation of the different means used according to the system and the method of the present invention. The portion 73 may not be located in the producing formation. In addition, the main well 69 may include several portions 73 allowing the drainage of the deposit to levels of different depths.

L'invention peut s'appliquer également au drainage de plusieurs couches productrices séparées et traversées par le puits principal 69. Le cuvelage du puits principal comportant plusieurs portions 73 et drains 72, par exemple un ensemble par couche.The invention can also be applied to the drainage of several producing layers separated and crossed by the main well 69. The casing of the main well comprising several portions 73 and drains 72, for example one assembly per layer.

Sur la figure 8B, le puits principal 69 est représenté traversant entièrement la couche productrice 71. Cette disposition n'est nullement limitative de la portée de l'invention.In FIG. 8B, the main well 69 is shown crossing entirely the producing layer 71. This arrangement is in no way limitative of the scope of the invention.

Claims (58)

1) Méthode de forage et d'équipement de puits latéral à partir d'un puits principal (1) cuvelé par une colonne tubulaire (4) comportant au moins une ouverture latérale (6, 21), caractérisée en ce qu'elle comporte les étapes suivantes : - on positionne dans ladite colonne tubulaire des moyens de guidage (10) sensiblement au niveau de ladite ouverture, - on introduit des moyens de forage latéral pour forer un puits latéral à partir de ladite ouverture, - on équipe un puits latéral (2) d'une colonne latérale (3) tubulaire, - on réalise une jonction de la colonne latérale sensiblement sur la périphérie de la colonne tubulaire. 1) Method of drilling and lateral well equipment from a main well (1) cased by a tubular column (4) comprising at least one lateral opening (6, 21), characterized in that it comprises the following steps : - guide means (10) are positioned in said tubular column substantially at the level of said opening, - lateral drilling means are introduced to drill a lateral well from said opening, - a lateral well (2) is fitted with a tubular lateral column (3), - A junction of the lateral column is made substantially on the periphery of the tubular column. 2) Méthode selon la revendication 1, caractérisée en ce que l'on descend des moyens de forage (59) latéral dans le puits principal et en ce qu'ils sont guidés dans ladite ouverture par lesdits moyens de guidage. 2) Method according to claim 1, characterized in that one descends from the lateral drilling means (59) in the main well and in that they are guided in said opening by said guide means. 3) Méthode selon l'une des revendications 1 ou 2, caractérisée en ce que l'introduction de ladite colonne latérale dans le puits latéral est guidée par lesdits moyens de guidage. 3) Method according to one of claims 1 or 2, characterized in that the introduction of said lateral column into the lateral well is guided by said guide means. 4) Méthode selon l'une des revendications 1 à 3, caractérisée en ce que l'on oriente des moyens de jonction (7) relativement à ladite ouverture par les moyens de guidage. 4) Method according to one of claims 1 to 3, characterized in that one directs the joining means (7) relative to said opening by the guide means. 5) Méthode selon l'une des revendications 1 à 4, caractérisée en ce que l'on bouche sensiblement l'espace compris entre ladite ouverture et la colonne latérale sensiblement au niveau des moyens de jonction. 5) Method according to one of claims 1 to 4, characterized in that one substantially plugs the space between said opening and the lateral column substantially at the junction means. 6) Méthode selon la revendication 5, caractérisée en ce que l'on active des moyens de fermeture (12) liés à ladite colonne tubulaire sensiblement au niveau de l'ouverture latérale, pour boucher ledit espace. 6) Method according to claim 5, characterized in that one activates closing means (12) linked to said tubular column substantially at the level of the lateral opening, for blocking said space. 7) Méthode selon l'une des revendications 1 à 6, caractérisée en ce que l'on déplace lesdits moyens de guidage après avoir effectué la jonction de la colonne latérale sur la colonne tubulaire du puits principal. 7) Method according to one of claims 1 to 6, characterized in that one moves said guide means after performing the junction of the lateral column on the tubular column of the main well. 8) Méthode selon l'une des revendications 1 à 7, caractérisée en ce que ladite colonne latérale est introduite dans le puits latéral par le moyen de tiges de manoeuvre (57, 60) assemblées depuis la surface, lesdites tiges étant reliées à ladite colonne latérale par l'intermédiaire d'un outil de pose (64, 63,62). 8) Method according to one of claims 1 to 7, characterized in that said lateral column is introduced into the lateral well by means of operating rods (57, 60) assembled from the surface, said rods being connected to said column lateral by means of a fitting tool (64, 63,62). 9) Méthode selon la revendication 8, caractérisée en ce que lesdits moyens de fermeture sont activés en faisant varier la pression dans l'espace intérieur de l'outil de pose. 9) Method according to claim 8, characterized in that said closure means are activated by varying the pressure in the interior of the setting tool. 10) Méthode selon la revendication 8, caractérisée en ce que l'on libère l'outil de pose de ladite colonne latérale en faisant varier la pression dans l'outil de pose. 10) Method according to claim 8, characterized in that the setting tool is released from said lateral column by varying the pressure in the setting tool. 11) Méthode selon la revendication 1, dans laquelle la colonne principale comporte plusieurs portions de tube comportant une ouverture, caractérisée en ce que : - on oriente les ouvertures les unes par rapport aux autres par rotation desdites portions autour de l'axe de la colonne, - et on contrôle lesdites orientations à l'aide d'un outil de mesure descendu dans l'espace intérieur de ladite colonne. 11) Method according to claim 1, in which the main column comprises several portions of tube comprising an opening, characterized in that: - the openings are oriented relative to each other by rotation of said portions around the axis of the column, - And we control said orientations using a measurement tool lowered into the interior of said column. 12) Système de forage et d'équipement d'au moins un puits latéral à un puits principal cuvelé par une colonne tubulaire comportant au moins une ouverture latérale (6, 21), ladite ouverture étant adaptée au passage d'un outil de forage (59), ledit système comportant une colonne tubulaire latérale logée dans ledit puits latéral et des moyens de guidage (10) positionnés relativement à ladite ouverture, caractérisé en ce que ledit système comporte des moyens de jonction (7) de la colonne latérale situés sensiblement sur la périphérie de la colonne tubulaire. 12) System for drilling and equipping at least one lateral well to a main well cased by a tubular column comprising at least one lateral opening (6, 21), said opening being suitable for the passage of a drilling tool ( 59), said system comprising a lateral tubular column housed in said lateral well and guide means (10) positioned relative to said opening, characterized in that said system comprises joining means (7) of the lateral column situated substantially on the periphery of the tubular column. 13) Système selon la revendication 12, caractérisé en ce qu'il comporte des moyens de fermeture (12) de l'espace entre ladite colonne latérale et ladite ouverture, lesdits moyens de fermeture étant situés sensiblement au niveau des moyens de jonction. 13) System according to claim 12, characterized in that it comprises means for closing (12) the space between said lateral column and said opening, said closing means being located substantially at the junction means. 14) Système selon l'une des revendications 12 ou 13, caractérisé en ce que lesdits moyens de guidage sont adaptés à guider lesdits moyens de forage et ladite colonne latérale. 14) System according to one of claims 12 or 13, characterized in that said guide means are adapted to guide said drilling means and said side column. 15) Système selon l'une des revendications 12 à 14, caractérisé en ce que les moyens de guidage comportent des moyens de déplacement permettant le déplacement desdits moyens de guidage dans la colonne tubulaire après la jonction de la colonne latérale. 15) System according to one of claims 12 to 14, characterized in that the guide means comprise displacement means allowing the displacement of said guide means in the tubular column after the junction of the lateral column. 16) Système selon la revendication 15, caractérisé en ce qu'il comporte une clavette solidaire de la colonne principale au voisinage de ladite ouverture, en ce que lesdits moyens de déplacement sont constitués d'une gorge continue le long des moyens de guidage, et en ce que lesdits moyens d'ancrage sont constitués d'une autre gorge et d'un verrou réversible bloquant la clavette dans ladite autre gorge. 16) System according to claim 15, characterized in that it comprises a key integral with the main column in the vicinity of said opening, in that said displacement means consist of a continuous groove along the guide means, and in that said anchoring means consist of another groove and a reversible lock blocking the key in said other groove. 17) Système selon la revendication 12, caractérisé en ce qu'il comporte un outil de pose de ladite colonne latérale, ledit outil étant lié à la colonne latérale par un ancrage réversible, ledit outil comportant des moyens d'orientation des moyens de jonction par coopération avec les moyens de guidage et des moyens de d'activation des moyens de fermeture, et en ce que ledit outil est descendu dans le puits par des tiges de manoeuvre. 17) System according to claim 12, characterized in that it comprises a tool for installing said lateral column, said tool being linked to the lateral column by a reversible anchoring, said tool comprising means for orienting the joining means by cooperation with the guide means and means for activating the closure means, and in that said tool is lowered into the well by operating rods. 18) Système selon la revendication 17, caractérisé en ce que lesdits moyens d'activation comportent un piston différentiel et un doigt d'entraînement en translation lesdits moyens de fermeture. 18) System according to claim 17, characterized in that said activation means comprise a differential piston and a drive finger in translation said closure means. 19) Dispositif de liaison entre deux éléments tubulaires, caractérisé en ce qu'un premier élément tubulaire comporte une ouverture latérale de dimension adaptée à permettre le passage du second élément, et en ce qu'il comporte des moyens de jonction du second élément sur le premier situés à la périphérie du premier élément. 19) Connecting device between two tubular elements, characterized in that a first tubular element comprises a lateral opening of dimension adapted to allow the passage of the second element, and in that it comprises means for joining the second element on the first located on the periphery of the first element. 20) Dispositif selon la revendication 19, caractérisé en ce qu'il comporte des moyens de fermeture de l'espace compris entre le second élément tubulaire et l'ouverture. 20) Device according to claim 19, characterized in that it comprises means for closing the space between the second tubular element and the opening. 21) Dispositif selon la revendication 19, caractérisé en ce que lesdits moyens de jonction comportent un raccord de liaison solidaire du second élément tubulaire par l'intermédiaire d'un joint flexible et rotatif. 21) Device according to claim 19, characterized in that said joining means comprise a connection fitting secured to the second tubular element by means of a flexible and rotary joint. 22) Dispositif selon l'une des revendications 20 ou 21, caractérisé en ce que l'extrémité du raccord de liaison comporte une section suivant un plan incliné par rapport à l'axe principal du raccord, en ce qu'une portion de la périphérie de ladite section est en contact avec une portion correspondante de la périphérie de l'ouverture, et en ce que les moyens de fermeture comportent au moins une plaque coulissante adaptée à sensiblement obturer l'espace compris entre les autres portions de périphérie de ladite section et de l'ouverture. 22) Device according to one of claims 20 or 21, characterized in that the end of the connection fitting has a section along a plane inclined relative to the main axis of the fitting, in that a portion of the periphery of said section is in contact with a corresponding portion of the periphery of the opening, and in that the closing means comprise at least one sliding plate adapted to substantially close off the space between the other peripheral portions of said section and of the opening. 23) Dispositif selon la revendication 22, caractérisé en ce que ladite section est rectangle. 23) Device according to claim 22, characterized in that said section is rectangle. 24) Dispositif selon la revendication 23, caractérisé en ce que l'extrémité dudit raccord de liaison comporte sur les cotés sensiblement parallèles à l'axe du premier élément, des moyens de liaison coopérant avec la plaque coulissante lorsque celle-ci est déplacée. 24) Device according to claim 23, characterized in that the end of said connecting connector comprises on the sides substantially parallel to the axis of the first element, connecting means cooperating with the sliding plate when the latter is moved. 25) Dispositif selon l'une des revendications 22 à 24, caractérisé en ce que les moyens de fermeture comportent trois plaques coulissantes dont deux sont adaptées à être déplacées par une translation de la troisième. 25) Device according to one of claims 22 to 24, characterized in that the closure means comprise three sliding plates, two of which are adapted to be moved by a translation of the third. 26) Système de forage et d'équipement d'au moins un puits latéral à un puits principal cuvelé par une colonne tubulaire, caractérisé en ce que ladite colonne comporte au moins une portion tubulaire équipée d'une ouverture latérale (6, 21) et de moyens de fermeture au moins partiellement de ladite ouverture. 26) System for drilling and equipping at least one lateral well to a main well cased by a tubular column, characterized in that said column comprises at least one tubular portion equipped with a lateral opening (6, 21) and means for at least partially closing said opening. 27) Système selon la revendication 26, caractérisé en ce qu'il comporte des moyens de guidage adaptés à être placés dans ladite colonne et à guider un outil ou équipement de l'intérieur de ladite colonne vers ladite ouverture. 27) System according to claim 26, characterized in that it comprises guide means adapted to be placed in said column and to guide a tool or equipment from the interior of said column towards said opening. 28) Système selon la revendication 27, caractérisé en ce qu'il comporte des moyens de positionnement desdits moyens de guidage par rapport à ladite ouverture, lesdits moyens de positionnement étant contrôlés à partir de la surface. 28) System according to claim 27, characterized in that it comprises means for positioning said guide means relative to said opening, said positioning means being controlled from the surface. 29) Système selon la revendication 28, caractérisé en ce que lesdits moyens de guidage sont déplacés à l'intérieur de ladite colonne par le moyen de tiges de manoeuvre, en ce que lesdits moyens de guidage comportent une rampe inclinée par rapport à l'axe longitudinal de ladite portion tubulaire et en ce que lesdits moyens de positionnement comportent des moyens d'ancrage réversibles desdits moyens de guidage dans ladite colonne. 29) System according to claim 28, characterized in that said guide means are moved inside said column by means of operating rods, in that said guide means comprise a ramp inclined relative to the axis longitudinal of said tubular portion and in that said positioning means comprise reversible anchoring means of said guide means in said column. 30) Système selon l'une des revendications 27 ou 28, caractérisé en ce qu'il comprend des moyens d'ancrage réversibles desdits moyens de guidage dans ladite colonne, lesdits moyens d'ancrage étant adaptés à ancrer lesdits moyens de guidage lorsque ceux-ci, déplacés de la surface vers le fond du puits, sont orientés dans une première position par rapport à l'axe longitudinal de la colonne, et à ne pas ancrer lesdits moyens de guidage lorsque ceux-ci sont orientés dans une seconde position. 30) System according to one of claims 27 or 28, characterized in that it comprises reversible anchoring means of said guide means in said column, said anchoring means being adapted to anchor said guide means when these- ci, moved from the surface to the bottom of the well, are oriented in a first position relative to the longitudinal axis of the column, and not to anchor said guide means when they are oriented in a second position. 31) Système selon l'une des revendications 27 à 30, caractérisé en ce que lesdits moyens de positionnement comportent une clavette solidaire avec au moins une portion tubulaire, en ce que lesdits moyens de guidage comportent deux gorges adaptées à coopérer avec ladite clavette, une première gorge comporte un cliquet pour verrouiller les moyens de guidage sur la clavette, et une deuxième gorge s'étendant sur la longueur totale des moyens de guidage. 31) System according to one of claims 27 to 30, characterized in that said positioning means comprise a key integral with at least one tubular portion, in that said guide means comprise two grooves adapted to cooperate with said key, a first groove has a pawl to lock the guide means on the key, and a second groove extending over the total length of the guide means. 32) Système selon la revendication 31, caractérisé en ce que les moyens de guidage comportent des moyens pour engager ladite clavette dans l'une ou l'autre des deux gorges, lesdits moyens d'engagement étant contrôlés à partir de la surface. 32) System according to claim 31, characterized in that the guide means comprise means for engaging said key in one or the other of the two grooves, said engagement means being controlled from the surface. 33) Système selon la revendication 32, caractérisé en ce que les moyens d'engagement comportent une pièce sensiblement cylindrique de diamètre extérieur inférieur au diamètre intérieur de ladite portion tubulaire, une extrémité de ladite pièce cylindrique en pointe formée par deux plans symétriques par rapport à un plan passant par l'axe longitudinal et sécants sur une ligne orthogonale audit axe longitudinal, et chacune des gorges débouchant sur une des faces de ladite pointe, symétriquement par rapport audit axe. 33) System according to claim 32, characterized in that the engagement means comprise a substantially cylindrical part with an outside diameter less than the inside diameter of said tubular portion, one end of said cylindrical point part formed by two planes symmetrical with respect to a plane passing through the longitudinal axis and intersecting on a line orthogonal to said longitudinal axis, and each of the grooves emerging on one of the faces of said point, symmetrically with respect to said axis. 34) Système selon l'une des revendications 27 à 33, caractérisé en ce que lesdits moyens de guidage comportent des moyens de connexion avec les tiges de manoeuvre, lesdits moyens de connexion étant adaptés à libérer les tiges lorsque les moyens de guidage sont positionnés dans la partie tubulaire. 34) System according to one of claims 27 to 33, characterized in that said guide means comprise means of connection with the operating rods, said connection means being adapted to release the rods when the guide means are positioned in the tubular part. 35) Système selon la revendication 26, caractérisé en ce que lesdits moyens de fermeture sont adaptés à être opérés de la surface par le moyen des tiges de manoeuvre. 35) System according to claim 26, characterized in that said closing means are adapted to be operated from the surface by means of the operating rods. 36) Système selon l'une des revendications 26 à 35, caractérisé en ce qu'il comporte un élément placé dans l'ouverture et en ce que les moyens de fermeture comporte des moyens d'obturation adaptés à sensiblement isoler l'intérieur de la colonne de l'espace annulaire entre la colonne et le puits principal. 36) System according to one of claims 26 to 35, characterized in that it comprises an element placed in the opening and in that the closure means comprises closure means adapted to substantially isolate the interior of the column of the annular space between the column and the main well. 37) Système selon la revendication 36, caractérisé en ce que lesdits moyens d'obturation comporte des formes complémentaires entre lesdits moyens de fermeture, I'extrémité dudit élément et l'ouverture, lesdites formes complémentaires coopérant entre elles. 37) System according to claim 36, characterized in that said sealing means comprises complementary shapes between said closing means, the end of said element and the opening, said complementary shapes cooperating with each other. 38) Système selon la revendication 37, caractérisé en ce que ledit élément comporte un colonne tubulaire latérale adaptée à être placée dans le puits latéral et un raccord de liaison entre la colonne latérale et la portion tubulaire. 38) System according to claim 37, characterized in that said element comprises a lateral tubular column adapted to be placed in the lateral well and a connection fitting between the lateral column and the tubular portion. 39) Système selon la revendication 38, caractérisé en ce que le raccord de liaison comporte des moyens d'ancrage adaptés à être engagés par une translation du raccord sur la rampe des moyens de guidage, en ce que une portion de la périphérie de l'ouverture est en contact avec une portion de la périphérie d'une extrémité du raccord, limitant ainsi l'espace entre les portions correspondantes et en ce que les moyens de fermeture comporte une porte adaptée à sensiblement obturer l'espace entre l'ouverture et le raccord de liaison. 39) System according to claim 38, characterized in that the connection fitting comprises anchoring means adapted to be engaged by a translation of the fitting on the ramp of the guide means, in that a portion of the periphery of the opening is in contact with a portion of the periphery of one end of the connector, thus limiting the space between the corresponding portions and in that the closing means comprise a door adapted to substantially close the space between the opening and the connection fitting. 40) Système selon la revendication 39, caractérisé en ce que ladite périphérie d'une extrémité du raccord de liaison est rectangle. 40) System according to claim 39, characterized in that said periphery of one end of the connection fitting is rectangle. 41) Système selon la revendication 38, caractérisé en ce que ledit raccord de liaison est relié à la colonne latérale par un joint flexible et rotatif et en ce que ledit système comporte un outil de pose adapté à mettre en place ladite colonne latérale dans le puits latéral, ledit outil de pose coopérant avec des moyens d'orientation du raccord de liaison par rapport à l'ouverture, lesdits moyens d'orientation coopérant avec lesdits moyens de guidage. 41) System according to claim 38, characterized in that said connecting connector is connected to the lateral column by a flexible and rotary joint and in that said system comprises a fitting tool adapted to place said lateral column in the well lateral, said fitting tool cooperating with means for orienting the connection fitting relative to the opening, said orienting means cooperating with said guide means. 42) Système selon la revendication 41, caractérisé en ce que ledit outil de pose est fixé à l'extrémité inférieure de tiges de manoeuvre, ledit outil comportant des moyens de déplacement d'une porte adaptée à fermer l'espace compris entre l'ouverture et le raccord de liaison. 42) System according to claim 41, characterized in that said setting tool is fixed to the lower end of operating rods, said tool comprising means for moving a door adapted to close the space between the opening and the connecting fitting. 43) Système selon l'une des revendications 41 ou 42, caractérisé en ce que ledit outil de pose comportant des moyens de déplacement de la porte est adapté à être actionné par une pression hydraulique générée à partir de la surface. 43) System according to one of claims 41 or 42, characterized in that said fitting tool comprising means for moving the door is adapted to be actuated by a hydraulic pressure generated from the surface. 44) Système selon la revendication 26, caractérisé en ce que ladite ouverture est obturée par des moyens de fermeture adaptés à être perforés par un outil de forage latéral, lesdits moyens comportant des bandes en matériau composite enroulées circonférentiellement autour de la colonne tubulaire du puits principal. 44) System according to claim 26, characterized in that said opening is closed by closing means adapted to be punctured by a lateral drilling tool, said means comprising strips of composite material wound circumferentially around the tubular column of the main well . 45) Méthode de forage et d'équipement de puits latéral à partir d'un puits principal (1) cuvelé par une colonne tubulaire (4), caractérisée en ce qu'elle comporte les étapes suivantes : - Le puits principal est cuvelé par une colonne tubulaire dont au moins une portion comporte au moins une ouverture latérale, - L'orientation de la direction de ladite ouverture latérale est effectuée par une rotation de la colonne à partir de la surface, - La direction de ladite ouverture est contrôlée par des moyens de mesure. 45) Method of drilling and lateral well equipment from a main well (1) cased by a tubular column (4), characterized in that it comprises the following stages: - the main well is cased by a tubular column, at least a portion of which has at least one lateral opening, - The orientation of the direction of said lateral opening is effected by a rotation of the column from the surface, - The direction of said opening is controlled by measuring means. 46) Méthode selon la revendication 45, caractérisée en ce que : - des moyens de guidage sont positionnés dans la colonne principale sensiblement au niveau de ladite ouverture latérale, - une garniture de forage est assemblée et descendue dans la colonne tubulaire principale, - un puits latéral est foré à partir de ladite ouverture, un outil de forage étant guidé par lesdits moyens de guidage. 46) Method according to claim 45, characterized in that: - guide means are positioned in the main column substantially at the level of said lateral opening, - a drill string is assembled and lowered into the main tubular column, - A lateral well is drilled from said opening, a drilling tool being guided by said guide means. 47) Méthode selon la revendication 46, caractérisée en ce que ladite colonne tubulaire comporte au moins deux portions tubulaires comportant au moins une ouverture latérale, en ce que les ouvertures sont orientées les unes par rapport aux autres par rotation autour de l'axe desdites portions tubulaires, et en ce que l'orientation est contrôlée par le moyen d'outil de mesure descendu dans ladite colonne. 47) Method according to claim 46, characterized in that said tubular column comprises at least two tubular portions comprising at least one lateral opening, in that the openings are oriented relative to each other by rotation about the axis of said portions tubular, and in that the orientation is controlled by means of a measuring tool lowered into said column. 48) Méthode selon l'une des revendications 46 ou 47, caractérisée en ce que lesdits moyens de guidage sont déplacés et leur ancrage contrôlé dans la colonne principale à l'aide d'une garniture de tiges de manoeuvre s'étendant jusqu'à la surface. 48) Method according to one of claims 46 or 47, characterized in that said guide means are moved and their anchoring controlled in the main column using a packing of operating rods extending to the area. 49) Méthode selon la revendication 48, caractérisée en ce que dans le cas où il n'y a pas ancrage des moyens de guidage pendant leur déplacement de part et d'autre d'une ouverture, lesdits moyens sont remontés vers la surface d'une hauteur déterminée, puis une rotation de sensiblement 180° est effectuée et les moyens sont déplacés vers le bas pour être ancrés. 49) Method according to claim 48, characterized in that in the case where there is no anchoring of the guide means during their movement on either side of an opening, said means are raised to the surface of a determined height, then a rotation of substantially 180 ° is carried out and the means are moved down to be anchored. 50) Méthode selon la revendication 48, caractérisée en ce que dans le cas où les moyens de guidage sont ancrés à la suite de leur déplacement dans la colonne, une force de traction est appliquée sur la garniture de manoeuvre pour déverrouiller l'ancrage et positionner lesdits moyens au-dessus de l'ouverture, en ce qu'une rotation de sensiblement 180° est appliquée sur lesdits moyens afin de déplacer lesdits moyens dans ladite colonne. 50) Method according to claim 48, characterized in that in the case where the guide means are anchored following their movement in the column, a tensile force is applied to the operating lining to unlock the anchoring and position said means above the opening, in that a rotation of substantially 180 ° is applied to said means in order to move said means in said column. 51) Méthode selon la revendication 48, caractérisée en ce que la garniture de tiges de manoeuvre est sortie de la colonne principale une fois l'ancrage des moyens de guidage effectué. 51) Method according to claim 48, characterized in that the lining of operating rods is taken out of the main column once the anchoring of the guide means has been carried out. 52) Méthode selon l'une des revendications 46 à 51, caractérisée en ce que le puits latéral est équipé avec une colonne tubulaire latérale comportant à son extrémité supérieure un raccord de liaison avec la colonne tubulaire principale. 52) Method according to one of claims 46 to 51, characterized in that the lateral well is equipped with a lateral tubular column comprising at its upper end a connection fitting with the main tubular column. 53) Méthode selon la revendication 52, caractérisée en ce que ladite colonne tubulaire latérale est guidée dans le puits latéral par lesdits moyens de guidage et en ce que la colonne tubulaire latérale est descendue dans la puits par le moyen d'une garniture de tiges de manoeuvre et un outil de pose fixé à l'extrémité inférieure de ladite garniture. 53) Method according to claim 52, characterized in that said lateral tubular column is guided in the lateral well by said guide means and in that the lateral tubular column is lowered into the well by means of a lining of rods maneuver and a setting tool attached to the lower end of said packing. 54) Méthode selon l'une des revendications 52 ou 53, caractérisée en ce que le raccord de liaison est orienté par rapport à l'ouverture latérale et fixé dans le voisinage de l'ouverture après avoir été guidé par lesdits moyens de guidage, et en ce que l'espace entre le raccord de liaison et l'ouverture latérale est sensiblement obturé. 54) Method according to one of claims 52 or 53, characterized in that the connecting connector is oriented relative to the lateral opening and fixed in the vicinity of the opening after being guided by said guide means, and in that the space between the connection fitting and the lateral opening is substantially closed. 55) Méthode selon la revendication 54, caractérisée en ce qu'une porte est déplacée pour obturer ledit espace. 55) Method according to claim 54, characterized in that a door is moved to close off said space. 56) Méthode selon la revendication 55, caractérisée en ce que ladite porte est déplacée par l'injection d'un fluide sous pression au niveau dudit outil de pose. 56) Method according to claim 55, characterized in that said door is moved by the injection of a pressurized fluid at said laying tool. 57) Dispositif selon la revendication 21, caractérisé en ce que ledit joint flexible et rotatif comporte une partie tubulaire à paroi ondulée. 57) Device according to claim 21, characterized in that said flexible and rotary joint comprises a tubular part with corrugated wall. 58) Système selon la revendication 41, caractérisé en ce que ledit joint flexible et rotatif comporte une partie tubulaire à paroi ondulée. 58) System according to claim 41, characterized in that said flexible and rotary joint comprises a tubular part with a corrugated wall.
EP93401501A 1992-06-12 1993-06-11 Apparatus, system and method for well drilling and equipment for a lateral hole Expired - Lifetime EP0574326B1 (en)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
FR9207142A FR2692316B1 (en) 1992-06-12 1992-06-12 SYSTEM AND METHOD FOR LATERAL DRILLING AND EQUIPMENT, APPLICATION TO OIL OIL EXPLOITATION.
FR9207142 1992-06-12
FR9300154 1993-01-08
FR939300154A FR2692315B1 (en) 1992-06-12 1993-01-08 System and method for drilling and equipping a lateral well, application to the exploitation of oil fields.

Publications (2)

Publication Number Publication Date
EP0574326A1 true EP0574326A1 (en) 1993-12-15
EP0574326B1 EP0574326B1 (en) 1997-10-22

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EP (1) EP0574326B1 (en)
CN (3) CN1035784C (en)
AU (1) AU663951B2 (en)
CA (1) CA2098272C (en)
DK (1) DK0574326T3 (en)
FR (1) FR2692315B1 (en)
MY (1) MY110459A (en)
NO (1) NO306266B1 (en)
RU (1) RU2103472C1 (en)

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NO932123L (en) 1993-12-13
FR2692315A1 (en) 1993-12-17
AU4016893A (en) 1993-12-16
CN1136127A (en) 1996-11-20
CN1087965A (en) 1994-06-15
CN1059252C (en) 2000-12-06
FR2692315B1 (en) 1994-09-02
CA2098272C (en) 2006-01-17
NO932123D0 (en) 1993-06-10
US5458209A (en) 1995-10-17
CN1059253C (en) 2000-12-06
MY110459A (en) 1998-05-30
NO306266B1 (en) 1999-10-11
CA2098272A1 (en) 1993-12-13
CN1035784C (en) 1997-09-03
EP0574326B1 (en) 1997-10-22
DK0574326T3 (en) 1997-12-01
CN1136128A (en) 1996-11-20
RU2103472C1 (en) 1998-01-27
AU663951B2 (en) 1995-10-26

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