RU2301324C1 - Method for sealing-and-unsealing hollow plug securing in circulation orifices of wire-based well screen body without thread usage - Google Patents

Abstract

FIELD: oil refinery industry, particularly downhole oil and gas production equipment, namely wire-based well screens.

SUBSTANCE: method involves boring circulation orifices having predetermined shapes in well screen body; producing sealing-and-unsealing plugs conformed to the shape of the circulation orifices and having thimble-shaped hollow bottoms; inserting hollow plugs in circulation orifices of well screen body; retaining plugs in the circulation orifices. Circulation orifices are provided with two-stage smooth cylindrical surfaces arranged so that orifice surface parts having larger diameters are located from outer body side. Plug also has two-stage smooth cylindrical surface with surface part having larger diameter located from plug orifices. Hollow plugs are freely inserted well screen body orifices as far as they abut against ledge of lower orifice stage so that plug end projects from well screen body wall for predetermined length. The predetermined length is defined by reference hairline made in plug surface. Upper plug end having opened orifice is within body orifice and distance between upper plug end and body surface ΔS=S₀-S_l, where S₀ is depth of orifice stage having larger diameter and S_l is depth of hollow plug stage having larger diameter. Plugs are fixed in well screen body orifices by local plastic deformation method. Local plastic deformation method involves applying pressing tool action to upper well screen body surface in orifice zone so that body metal encloses plug surface touching the body and metal covers opened plug end. Plugs are secured to well screen body orifices by local plastic deformation method where pressing tool acts simultaneously on plug orifice sides and opened ends thereof so that plug metal snugly fits contact surface of well screen body.

EFFECT: decreased labor inputs for well screen production and decreased plug metal consumption.

8 cl, 5 dwg

Description

The invention relates to the refining industry, and more particularly to the manufacture of downhole equipment for oil and gas production, in particular downhole filter based on wire.

A known method of fastening sealing and depressurizing hollow plugs in the circulation holes made in the housing of the downhole filter on a wire basis.

The method includes:

- drilling of conical shaped circulation holes in the filter housing of a tubular section;

- cutting tapered threads in these holes;

- the manufacture of hollow plugs used as plugs when sealing the circulation holes in the filter housing;

- cutting tapered threads on the outer surface of the hollow tube;

- the introduction of a hollow plug in the circulation holes of the filter housing;

- fastening a hollow plug in the holes of the filter.

(See Technical conditions for the manufacture of filters for horizontal wells of the FGS type, developed by VNIIBT in Moscow and an enterprise in Kalushi, Ukraine:

"FGS 146.6000-I TU U3800136700.036-96"; AC 1280112).

Filter drawings and plugs are attached, see appendices 1, 2, 3 to the application.

The filter housings are sealed by closing the circulation holes in them with hollow plugs in the manufacture of filters. Next, the filters in the casing string are lowered into the well and, after cementing, is flushed. After washing, the filter housing is depressurized, cutting off the protruding ends of the plugs in the filter housing with a descent mandrel or, for example, a cutting funnel of tubing tubing that is lowered into the well.

The known method of fastening plugs in the circulation openings of the filter housings has the following disadvantages. The fact is that, depending on the length of the filter in its housing, it is necessary to drill and cut tapered threads in an amount from 50 to several hundred thousand circulation holes. For each hole, it is necessary to make a hollow plug in the form of a "thimble" and cut into a tapered thread. Labor costs for the manufacture of threaded holes and plugs for them make up the lion's share of labor costs for the manufacture of the entire well filter.

The closest method of the same purpose to the claimed object according to the totality of features is the method according to the specified specifications. The method adopted as a prototype.

The invention consists in the following.

It is proposed to provide sealing of the circulation (passage) openings in the filter housing not due to threaded conical connections of the plugs with the filter housing, but in another less labor-intensive way without using a conical threaded connection.

Cylindrical, smooth two-stage openings without threads are drilled in the walls of the filter housing. The drilling depth of the hole of the first stage of a larger diameter is So, i.e.

S ₀ = S _p + ΔS

where S _p - the height corresponding to the size of the hole diameter of the tube;

ΔS - understatement of the end face of the tube in relation to the surface of the filter housing. The value of ΔS is taken equal to ΔS = 1.0 ÷ 2.0 mm The height S _{p of the} plug is taken depending on the variant of its fastening in the filter housing.

A hollow plug is made correspondingly to a hole in the body - two-stage. Each step is smooth, cylindrical, without thread.

The plug is inserted into the opening of the housing until it stops in the shoulder of the step of a smaller diameter. In this case, the end face of the plug with an open inner hole is buried in the hole of the housing by ΔS. And the lower end of the plug extends beyond the thickness of the wall of the housing by a predetermined amount. This value on the cork surface is indicated by a notch-notch. The notch risk remains exactly beyond the wall thickness of the enclosure. The notch risk facilitates chipping of the end of the plug during depressurization of the filter housing.

Fixing the plug in the hole of the filter housing can be done in several ways. All of them are based on the deformation of either the metal of the filter housing in the area of the hole, or the metal of the cork by the method of distributing its hole, a conical (wedge) mandrel or a rolling roller.

When carrying out the invention, the following technical result can be obtained:

- canceled labor-intensive technological operation for drilling conical holes, their reaming under tapered thread;

- canceled labor-intensive technological operation for cutting tapered threads in the openings of the filter housing;

- the labor-intensive operation of manufacturing a cork with a tapered outer surface and a turnkey internal hexagon is canceled;

- the operation for cutting tapered threads on the conical surface of the cork is canceled;

- the manufacture of a hollow tube with a tapered thread determines the only way to manufacture it - by machining from a bar stock - by turning on automatic lathes. The method is time-consuming and involves the waste of metal in the chips, which is not economical in the manufacture of a large number of plugs.

Since the threaded connection is canceled, and with it the turning of the plugs, a more efficient and economical method of manufacturing the plugs opens: by stamping or injection molding.

As a result, a significant economic effect can be obtained by reducing the complexity of manufacturing and saving the consumption of metal plugs.

The specified technical result in the implementation of the invention is achieved by the fact that the method of fastening the sealing and depressurizing hollow plugs in the circulation holes in the housing of the well filter on a wire basis includes:

- drilling of circulation holes in the filter housing of a given shape;

- the manufacture of sealing-depressurizing hollow plugs corresponding to the holes in the mold filter housing;

- the introduction of hollow plugs into the holes in the filter housing;

- fastening of hollow plugs in the openings of the filter housing.

The proposed method is characterized in that:

1. The circulation openings in the filter housing are made by smooth, cylindrical two-stage larger diameters on the outside of the housing, and the hollow plugs have an external shape corresponding to the shape of the hole: smooth two-stage cylindrical with a large diameter from the open side.

Hollow plugs are inserted into the openings of the filter housing freely without interference in diameter to the stop in the shoulder of the lower stage of the hole so that the end of the plug protrudes by a predetermined value, determined by the notch on the surface of the plug, beyond the wall thickness of the housing, and the upper end of the plug with an open hole immersed in it in the opening of the casing by ΔS equal to

ΔS = S ₀ -S _p , mm

where S ₀ is the depth of the step of the large diameter of the hole; S _p - the height of the step of large diameter on the hollow tube.

The ΔS value is usually taken in the range of ΔS = 1.0-2.0 mm, and the value of S _p - depending on the option of attaching the plug in the hole.

Fixing the plug in the openings of the filter housing is carried out by the method of local plastic deformation of the metal of the housing in the immediate vicinity of the hole in it, by unscrewing in at least four places to a depth that provides a tight fit of the metal of the housing near the surface of the tube with the possibility of metal flowing onto the open end of the tube ( figa, fig.5).

2. The cork is fixed in the openings of the filter housing by local plastic deformation of the surface of the casing adjacent to the opening by rolling it, for example, by spherically movable stamping, including pressing the end of the cork by the metal of the filter housing (Fig.3b).

3. The cork is fixed in the openings of the filter housing by rolling the surface of the opening of the cork inserted into its opening to a depth lower than the thickness of the wall of the casing, the profile rolling roller, forming a circular cavity of the radius profile on the surface of the hole, and a circular radius protrusion on the surface of the tube (Fig.3c) )

4. Fixing the plug in the holes of the filter housing is done by distributing the walls of the plug by introducing a conical (wedge) deforming mandrel into the plug hole, ensuring a tight fit of the plug surface to the surface of the housing of the corresponding diameter (Fig. 3d).

5. Fixing the plug in the openings of the filter housing is performed by simultaneously deforming the surface of the hole and the end of the plug by distributing the hole with a conical (wedge) mandrel inserted into it and the draft of the end of the plug, by the action of the conical mandrel with a collar provided on it. In this case, the hole in the casing is made conical with a slope widening the hole in the direction of the step of a smaller diameter (Fig. 3d).

6. The interface of the contacting surfaces of the plug and the holes in the filter housing is coated with an adhesive, for example, grade BF-2 according to GOST 12172-74.

7. On the surface of the protrusion formed by the difference in the diameters of the steps, in the hole or on the cork, put a sealing gasket, for example, in the form of a standard size rubber ring or apply a sealing compound such as "Sealant" on this surface.

The set of essential distinguishing features presented in the characterizing part of the formula of the invention provides a technical result, as indicated above, and is the aim of the invention.

The analysis of the prior art, including a search by patent and scientific and technical sources of information, allowed us to establish that the applicant has not found an analogue characterized by features identical to all the essential features of the claimed invention.

The claimed invention meets the requirements of "the materiality of the features of the claimed method" and "novelty" of it under applicable law.

The claimed invention does not follow for a specialist explicitly and obvious from the prior art used in the oil industry and general engineering.

The claimed invention meets the requirement of "inventive step" in accordance with applicable law.

The drawings show:

Figure 1 is a General view of the downhole filter with an image of one of the methods of fastening hollow plugs in the holes of its housing.

Figure 2 is a cross section aa of the filter of figure 1.

Figure 3 - possible methods of fastening plugs in the openings of the filter housing:

a) - fastening by unfolding the housing,

b) - fastening by rolling (running) the housing,

c) - fastening by means of the recess obtained in the rolling hole in the plug hole,

g) - fastening by dispensing a hole in the plug with a conical mandrel,

d) - fastening simultaneously with the distribution of the hole and the draft of the end face of the tube by means of a combined mandrel.

Figure 4 is a drawing of the cork (option) to figure 1, 2, 3A).

5 is a drawing (fragment) of the device for attaching plugs by unfolding the filter housing.

Information confirming the possibility of carrying out the invention with obtaining the above technical result.

A detailed description of the method will be given for the mounting option according to figa). For other options, we indicate the features of the fastener design.

Drilling of the circulation holes in the filter housing 1 3. A special machine (based on a turning) is used, which has two clamping headstocks: a front drive and a back, and a support that is moved along the machine guides. A drill head is installed on the caliper.

The filter housing, representing a standard pipe 1 (Fig. 1, 2) of a given diameter with a given wall thickness, is mounted on a machine, clamped in a headstock and fixed. The support with a drill head is brought to one of the ends of the pipe 1 and a series of through holes of smaller diameter are drilled in it along the entire length of the pipe-body 1. Next, the body is rotated 45 ° and a second row of holes is drilled. The operations are repeated by drilling four or more rows of holes. Next, a drill of a smaller diameter in the drill head is changed to a countersink (larger diameter), if you want to get a flat (rectangular) end at the junction of the steps of the hole. Or change to a drill of large diameter, if the shape of the joint does not matter, for example, with a slight difference in the diameter of the steps of the hole.

Countersink - boring a hole to a larger diameter to a predetermined depth to produce a rectangular flat end. On figa) this depth is determined by the thickness of the collar 4 on the cork. Countersinks are made at all holes, repeating operations similar to drilling small-diameter holes.

At the same time, the manufacture of cork 2 (Fig.1, 2) according to the drawing shown in Fig.4. A rod of a viscoplastic material, for example, from AK12M2 GOST1583-89 alloy, is used as a preform.

Cork 2 is manufactured on automatic lathes using universal technology and requires no explanation. The dimensions of the steps on the plug 2 correspond to the dimensions of the steps in the opening of the housing 1. In this case, the end of the plug with a blank bottom should protrude beyond the thickness of the wall of the housing by a predetermined amount. On the surface of the cork, the protruding part of it is indicated by a notch - notch 5 of the cork (figure 4). This notch facilitates cleavage of plugs during depressurization of the filter, i.e. opening the circulation of the reservoir medium from the annulus of the well.

The design of the plugs in other mounting options differs, as follows from figure 3, the height of the step of the plug having a larger diameter.

The plug is inserted into the holes in the filter housing freely without interference in diameter, mainly manually until it stops against the shoulder of the step of the hole with a smaller diameter. If necessary, an aluminum drift is used, by means of which the cork is pushed all the way to the end with light strokes. Fastening the plugs in the circulation openings of the housing 1 of the filter 3 in order to seal the annular space is carried out in several ways.

The mounting method according to figa).

The design of the holes in the housing 1 of the filter 3 and, accordingly, of the hollow plug 2 are as follows. The depth of the hole of large diameter in the housing and, accordingly, the height of this diameter in the tube are made of small size. In cork 2, this height is made in the form of a collar 4. Burt 4 is buried in the opening of the housing 1 by a value of ΔS. Fastening the plug 2 in the hole is performed by uncoating the core metal 6 of the housing 1 in the hole zone with a special device, as follows (Fig. 5).

The filter housing 1 is mounted on a prism stand (not shown in the drawings) and fixed. A movable carriage 7 (not fully shown in FIG. 5) with a tool head 8 is mounted on the housing 1.

The carriage 7 covers the housing 1 so that the unscrewing force of the housing 1 is closed between the housing 1 and the carriage 7. At least four cores 10 are fixed on the head 8, covering the hole with the plug 2 inserted into it. The cores 10 are placed in pairs relative to the longitudinal axis of the housing 1 The head 8 is centered by a guide mandrel 9 in the center of the hole in the plug 2 so that the cores 10 are at a predetermined distance from the shoulder 4 of the plug 2 and, when deepened into the metal of the housing 1, provide a snug fit to the surface of the plug 2 with the possibility of a metal flow La to the open end of the plug 2. For guaranteed sealing of the holes in the housing 1 with the plugs 2, sealing gaskets are installed under their collar 4, for example, in the form of rubber rings 10. Or, the end of the collar 4 is lubricated with a sealing compound of type “Sealant”.

The tool head 8 is kinematically connected to the rod of the hydraulic cylinder of its drive (not shown). After the core 10 acts on the housing 1, the head 8 is lifted up and the carriage 7 is rolled to the second hole. Next, the process is repeated many times until the fastening of the plugs 2 in this row of them. After this, the housing 1 is rotated, and fasten the plugs in their next rows.

The method of fastening the plugs according to figb).

The method differs from the previous method of fastening plugs in that instead of cores that distribute the body metal in the hole zone, a roll head with a tool - mandrel 11 is used. The mandrel 11 has a deforming metal of the body 1 profile, as shown in FIG. 3b).

In this case, the mandrel 11 makes a circular, for example wave-like, movement, as is customary for sphere-forged stamping — stamping by rolling. In this case, it deforms the metal of the body in the zone of the hole not over the entire surface simultaneously, but acting locally. In this case, the required deformation force decreases, and the plastic properties of the metal increase.

The rolling head with the mandrel 11 by the electric motor of its drive is mounted on a movable carriage like a carriage 7 described in the method according to figa).

The surface of the cork in contact with the housing 1, in this case, can be coated with an adhesive composition, for example, type BF-2 according to GOST 12172-74.

The method of fastening the plugs according to figv).

The method is characterized in that the fastening of the plug 2 in the housing 1 is carried out by extruding a circular depression 13 in the hole of the plug 2. In this case, a protrusion is formed on the outer surface of the plug 2, by which the plug 2 covers the housing 1, forming a “lock” connection. The covering surface of the cork may be coated with adhesive. A sealing gasket or standard size rubber ring can be installed under the cork collar.

The circular cavity is squeezed out by a rolled profile roller 14 inserted into the hole of the plug 2. The roller 14 is mounted on the spindle 15 kinematically connected with the drive. The drive is mounted on a movable carriage similar to the carriage 7 described in the fastening method according to figa).

In order to reliably seal the plugs 2 in the openings of the housing at the points of transition of the diameters of the steps between the plug 2 and the housing 1, sealing gaskets 18 are installed in the form of, for example, standard rubber sealing rings.

The method of fastening traffic jams according figg).

The method is based on the distribution of the hole in the plug 2 by introducing a conical (wedge) mandrel 16 into the hole 16. A sealing gasket is installed under the shoulder of the plug 2, for example, in the form of a ring. The mandrel 16 is fixed in the carriage 7 instead of the head 8 described in the method of fastening the plugs 2 according to figa).

The drive mandrel 16 is similar to the drive of the head 8 described in the specified method. The procedure for using the mandrel 16 is similar.

The method of fastening the plugs according figd).

The method differs from the previous one in the following:

- the design of the mandrel 16, which is made with a shoulder 17, through which it is made simultaneously with the distribution of holes in the tube 2 of the sediment of its end;

- the construction of the first stage of the hole; it is made conical with a slope expanding it towards the second stage - a smaller diameter.

The rest of the mounting method does not differ from that described according to figg).

When distributing the hole of the plug 2 with the mandrel and the precipitation of the end of the plug 2, the hole is filled with a slope in the body 1 of the plug metal, which creates a tight connection and does not allow the plug 2 to exit the hole in the case 1 when washing (pumping) the well with a working solution of a given pressure.

The methods of fastening the sealing plugs 2 in the circulation openings of the filter housing 1 are carried out by means of the same fastening device when changing the deforming tool - cores, mandrels.

The filter housings 1 with the stoppers 2 fixed in their openings are subjected to a verification test for the tightness of the fasteners 2. For this, plugs are screwed onto the ends of the housing 1 and water is supplied through one of them. Create the specified pressure p _n in the housing. If in case 2 during time t _the pressure does not fall below the permissible level and there are no external leaks through plugs 2, case 1 is considered to have passed the test.

Thus, the above information indicates when using the claimed invention to fulfill the following set of conditions:

- a method embodying the claimed invention is intended for use in the oil and gas industry;

- confirmed the possibility of implementing the method using the above means and methods;

- the method is capable of ensuring the achievement of the result seen by the applicant.

Therefore, the claimed invention meets the requirement of "industrial applicability" under applicable law.

Claims (8)

1. The method of threadless fastening of sealing and depressurizing hollow plugs in the circulation holes of the downhole filter housing, comprising drilling a circulation holes of a given shape in the filter housing; the manufacture of sealing-depressurizing plugs corresponding to the holes in the mold body, while the plugs are hollow with a bottom in the form of a thimble; insertion of hollow plugs into the circulation holes in the filter housing; fastening plugs in the circulation openings of the filter housing; characterized in that the circulation holes in the filter housing are smooth two-stage cylindrical, of a larger diameter from the outside of the housing, and the plugs are respectively two-stage smooth cylindrical holes, of a larger diameter, from the side of the open hole in them; hollow plugs into the openings of the filter housing are introduced freely without interference in diameter to the stop in the shoulder of the lower stage of the hole, so that the end of the plug protrudes by a predetermined value, determined by the notch on the surface of the plug, beyond the wall thickness of the housing, and the upper end of the plug with an open hole immersed in it in the opening of the casing by ΔS equal to ΔS = S ₀ -S _p mm, where S ₀ is the depth of the step of a larger diameter in the hole; S _p - the height of the step of larger diameter on the hollow tube, fastening of the plugs in the openings of the filter housing is carried out by the method of local plastic deformation, using a pressing tool on the surface of the filter housing in the hole zone, ensuring that the metal of the housing contacts the surface of the tube contacting it, including the influx of metal on the open end of the tube; fastening of the plugs in the openings of the filter housing is carried out by the method of local plastic deformation, acting simultaneously with a pressing tool on the side walls of the opening in the plug and its open end, ensuring a tight fit of the plug metal to the contact surface of the filter housing. 2. The method according to claim 1, characterized in that the fastening of the plugs in the openings of the filter housing is performed by uncoiling the surface of the housing in the immediate vicinity of the hole in it, at least in four places to a depth, which provides a tight fit of the metal of the housing to the surface of the tube with the possibility of metal flow on the open end of the tube. 3. The method according to claim 1, characterized in that the fastening of the plugs in the openings of the housing is carried out by deformation of the surface of the housing adjacent to the opening by rolling it, for example, by spherically movable stamping, crushing the end of the plug by the metal of the filter housing. 4. The method according to claim 1, characterized in that the fastening of the plugs in the openings of the filter housing is carried out by rolling the wall of the plug inserted into its hole to a depth slightly lower than the thickness of the wall of the housing by a shaped rolling roller, forming a circular recess on the surface of the hole, and on the outer surface - protrusion of the radius profile. 5. The method according to claim 1, characterized in that the fastening of the plugs in the openings of the filter housing is done by distributing the walls of the plug, introducing a conical - wedge deforming mandrel into the plug opening, ensuring a tight fit of the plug surface to the surface of the housing of the corresponding diameter. 6. The method according to claim 1, characterized in that the fastening of the plugs in the openings of the filter housing is performed by simultaneously deforming the surface of the hole and the end of the plug by distributing the hole with a conical - wedge mandrel inserted into it and the draft of the end of the plug by the action of the same mandrel provided on it . 7. The method according to claim 1, characterized in that the interface of the contacting surfaces of the plugs and / or holes in the filter housing is coated with an adhesive, for example, grade BF-2 according to GOST 12172-74. 8. The method according to claim 1, characterized in that on the surface of the protrusion formed by the difference in the diameters of the steps into the hole or on the cork, a sealing gasket is introduced, for example, in the form of a standard size rubber ring or a layer of sealing paste is applied, for example, type "Sealant".

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