RU199828U1 - REVERSE SPREADER FOR RISING WELLS - Google Patents

Abstract

The proposed utility model relates to the mining industry, namely, retracers for drilling rising wells in the form of a multi-beam stepped casing containing a sectional drilling string with support lights and a spacer rod. Backstop reamer containing a hollow sectional drilling string with support lights, a spacer bar with nozzles for the lower tier of irrigation, a multi-beam stepped body with a rock-cutting cutting tool, a fastening screw in the threaded seat of the spacer bar. In this case, two beam bodies of one stage are fastened with a lock connection with cylindrical-conical pins, made in the form of two fastening half-knobs that are detachable in the radial direction with internal female U-shaped profiles with faces congruent to the faces of the outer male square profiles of the spacer bar. The half-shells-rays of the adjacent stages of the expander with an increase in the diameter of the borehole expansion from the smallest to the largest are deployed by the setting-orienting angle α relative to each other. The locking connection of the semi-beam support-guide lantern is made in the form of a sleeve with a stepped outer male profile with two flat grooves, parallel and opposite to each other to a depth that provides a rigid connection by cylindrical-conical fingers of two radially detachable inner female arc cylindrical profiles of the half-beams fastening half-nibs a supporting-guide lantern made in the form of two supporting arcs coupled with a retaining rib and congruent to the outer male profile of the stepped sleeve of the glass body, 9 ill.

Description

The proposed utility model relates to the mining industry, namely, retracers for drilling rising wells in the form of a multi-beam stepped body containing a sectional drilling string with intermediate support lights and a splined spacer rod.

Known backstroke reamer for drilling rising wells (RF patent No. 190758 for a utility model, IPC Е21В 7/28, E21D 3/00, (2006.01) publ. 07/11/2019, bull. No. 20) containing a hollow sectional drilling string with intermediate supporting lanterns, a slotted spacer bar with nozzles of the lower tier of irrigation, a multi-beam stepped body with a cutting rock breaking tool, a fastening screw in the threaded socket of a slotted spacer bar with a longitudinal blind channel, which is connected to the radial holes, to which the nozzles of the last tier are attached multibeam casing with the maximum diameter of the rising well expansion.

The disadvantages of this device are the intense radial runout of the expander due to the cantilever attachment of its beams and the likelihood of breakage of the spacer bar from alternating bending deformations, which is caused by the absence of a rear support lamp.

The closest in technical solution to the claimed utility model is the RS-1 reamer for drilling rigs BGA-2 (Machines and tools for drilling wells in coal mines / M.S.Safokhin, I.D.Bogomolov, N.M. Skornyakov, AM Tsekhin. - M .: Nedra, 1985, Fig. 7.3, p. 130), including the lower and upper case-beams with cutters, a rear support-guide lantern fixed on the drill shaft, a fastening screw fixing the case-beams and a lantern from axial movement relative to the longitudinal axis of the expander.

The disadvantage of this design is the large overall dimensions of the beam bodies and their weight, which complicates the installation of the expander on the upper drift and its dismantling in cramped conditions when the return expander comes out of the mouth of the drilled rising well.

The technical result of the claimed utility model is to simplify installation operations in the process of drilling the backstop on the upper roadway and dismantling operations in cramped conditions when the backstroke expander comes out of the wellhead of a drilled rising well and increases the safety of the installation and dismantling operations.

The specified technical result is achieved by the fact that the backward reamer for drilling upwelling wells, containing a hollow sectional drilling rod with a support lantern, a spacer bar with nozzles of the lower tier of irrigation, a multi-beam stepped body with cutting rock cutting tools, a fastening screw in the threaded seat of the spacer rod, which, according to the utility model, is made with outer covered sections of a square profile, separated by cylindrical beads, the outer diameter of which exceeds the size of the edge of a section of a square profile, to the surfaces of the faces of which two half-frame-beams with rock-cutting tools are rigidly attached to the surfaces of the faces through a radially detachable lock joint and with an internal U-shaped wrap-around profile forming the jaw edges, the U-shaped jaw edges are congruent to the square profile of the spacer bar, parallel to each other and in the assembled state they cover pairwise opposite faces corresponding x sections of the square profile of the spacer rod with the possibility of pressing against one of the two dividing cylindrical beads and mutual rotation relative to the half-cases-rays of the adjacent stage of the multi-beam stepped body with rock-cutting cutting tools to the setting-orienting angle a, with one fastening half-hub in each locking joint of the half-body - beams with rock cutting tools have two lugs with four coaxial through holes, and the opposite fastening half-hub has two spikes with two through holes, made with the possibility of their alignment with the lugs of the fastening half-hubs, so that the axes of the coaxial through holes of the fastening half-hubs, when aligned, are parallel to the axis of the rod - spacers and in them cylindrical-conical fingers are placed with the possibility of extraction, and behind the last cylindrical shoulder there is a cylindrical stepped section of a spacer bar with a threaded socket for fastening the glass body with a screw bearing assembly with semi-beams and skis of the radially detachable lock connection of the support-guide lantern, while the cup body is made in the form of a sleeve with a stepped outer male profile having two groove flats, which are formed by chords of the circumference of the stepped outer male profile of the cup body, are parallel and oppositely located relative to each other to a depth that provides a rigid connection of two inner enclosing arcuate semi-cylindrical profiles of the fastening half-knobs of the semi-beam supporting-guide lantern, which are detachable in the radial direction, while each internal covering arched semi-cylindrical profile is made in the form of two supporting arcs conjugated with an edge - retainer and congruent to the stepped outer male profile of the stepped sleeve of the cup body, including the groove flats, while one fastening half-hub of the half-beam of the guide lantern has two lugs with four coaxial sk holes, and the opposite fastening half-hub has two spikes with two through holes, while in the radially detachable lock connection of the semi-beam of the support-guide lantern, the pins are made with the possibility of placing between the lugs, and the axes of the through holes of the fastening half-hubs when aligning the fastening half-hubs are parallel to the rod axis - spacers and bushing axles with a stepped outer male profile of the cup body and cylindrical-conical fingers are placed in them with the possibility of extraction.

The essence of the utility model is illustrated by drawings, where Fig. 1 is a general view of the expander; in fig. 2 is a view A along the arrow in FIG. 1; in fig. 3 - section along B-B in Fig. 1; in fig. 4 - spacer bar; in fig. 5 - section along B-B in Fig. 4; in fig. 6 - section along G-G in Fig. 4; in fig. 7 - diagram of the exit of the reamer from the head of the drilled rising well; in fig. 8 is a diagram of dismantling a detachable double-beam body equipped with a cutting tool; in fig. 9 is a diagram of dismantling the beams of the guide lantern.

The backward reamer for drilling upwelling wells is made in the form of a multibeam, multistage body, for example, a three-stage, and consists (Fig. 1, 2, 3) of a spacer rod 1, on which multibeam connections are attached by means of locking radially detachable connections 2, for example, two-beam half-shells-rays of the first 3 and 3 'with a diameter of D ₂ , the second 4 and 4' with a diameter of D ₃ and the third 5 and 5 'with a diameter of D ₄ steps, with the possibility of mutual rotation of adjacent half-shells-rays relative to each other by an alignment and orientation angle α (Fig. 3). The half-shells-rays of the first 3 and 3 ', the second 4 and 4' and the third 5 and 5 'stages are equipped with a rock-cutting cutting tool 6 and clamps 7. Irrigation nozzles 8 are rigidly attached to the spacer bar 1 and is installed with the possibility of free rotation relative to the spacer bar 1 glass body 9 support and guide lantern. On the body-glass 9 with the help of a lock detachable in the radial direction of the connection 10, a two-beam, support-guide lantern is attached, which includes removable half-beams 11 and 11 'with skis 12 and 12' of the same design. Half-cases-rays of the first 3 and 3 ', the second 4 and 4' and the third 5 and 5 'steps with a rock-cutting cutting tool, as well as a glass case 9 with half-beams 11 and 11' with skis 12 and 12 'are fixed on the spacer bar 1 screw 13.

The spacer bar 1 (Fig. 4, 5) has sections, for example, three sections 14, 15, 16 with outer male square profiles, which are separated by cylindrical ribs 17, 18, 19, 20, the outer diameter of which exceeds the edge of the square section. The half-shells-rays of the first 3 and 3 ', the second 4 and 4' and the third 5 and 5 'stages with the rock cutting cutting tool are mounted on the spacer rod 1 with the possibility of pressing against one of the two separating cylindrical beads 17, 18, 19, 20. The body - the glass 9 (Fig. 4, 6) is fixed against axial displacement relative to the spacer rod 1 by means of the screw 13, bushings 21 and 22. The screw 13 is fixed in the threaded socket 23, which is located inside the stepped section of the spacer rod 1 above the shoulder 20. The body-glass 9 is made in the form of a sleeve with a stepped outer male profile having two groove-flats 24 and 25 (Fig. 4, 6), the number of which is determined by the number of removable semi-beams 11 and 1 G of the support-guide lantern.

The body-cup 9 (Fig. 4) is mounted on two bearings 26 and 27, protected from the penetration of the pin, grease leaks by caps 28 and 29 with seals. The flats-grooves 24 and 25 (Fig. 6) are formed by the chords of the circle of the stepped outer male profile of the body-glass 9 are parallel and oppositely located relative to each other to a depth that provides rigid attachment to them of radially detachable semi-beams 11 and 11 'with skis 12 and 12 'support and guide lantern (Fig. 2).

While drilling, the utility model operates as follows.

When drilling a rising pilot hole from diameter D to diameters D ₂ , D ₃ , D ₄ (Figs. 1, 7), half-hull beams 3 and 3 ', 4 and 4', 5 and 5 'with rock cutting cutting tool produce a stepwise destruction of the bottom hole 30 (Fig. 7) of the rising well. In this case, the multi-beam stepped backward reamer with a rock-cutting cutting tool is driven by the drilling rod 31 of the drilling rig 32 rotates around the borehole axis at a speed n and moves in the axial direction at a speed V from the upper to the lower drift. The destroyed rock mass spills out by gravity from the wellhead 33 and is directed by the barriers 34 and 35 of the drilling rig 32 to the scraper conveyor 36.

Dismantling of the return expander is carried out at the junction of the well and the lower drift in three stages: preparatory, main and final.

At the first stage, preparatory operations are carried out, which include securing the wellhead with anchor support: drilling holes for bolting, installing steel-polymer anchors 37 with lattice tightening, washers and nuts, as well as metal strips of the W-shaped profile 38. These activities and availability support and guide lantern with half beams 11, 11 'and skis 12, 12' ensure safety when dismantling the backstop extension.

At the second main stage, split half-hulls-rays 3 and 3 'with a diameter D ₂ , 4 and 4' with a diameter D ₃ , 5 and 5 'with a diameter D ₄ with a rock cutting cutting tool (Figs. 1, 7) are dismantled alternately with performing the same technological operations. The number of cycles of dismantling operations is determined by the number of stages of the back expander.

In particular, the sequence of operations for dismantling the split half-shells-beams 3 and 3 'of the first stage of a smaller diameter is as follows. The drilling rig 32 (Fig. 7) drills the borehole until the half-shells-rays 3 and 3 'of the first stage of a smaller diameter from the rising borehole to the lower drift into the free space with a gap D between the drilling rig 32 and the wellhead 33. Further, the drilling rig 32 is turned off and the disassembly of the half-cases-rays 3 and 3 'is performed (Figs. 1, 8). First, the cylindrical-conical fingers 39 and 40 are removed, attached to the half-body-beam 3 by chains 41 and 42. Further, the lugs 43 with through coaxial holes 44 in the fastening half-hub 45, made in the form of a U-shaped internal female profile with jaw edges 46 and 47 for gripping outer male square profile 14 (Fig. 4) and spikes 48 with holes 49 in the fastening half-hub 50, made in the form of a U-shaped inner female profile with jaw edges 51 and 52 to grip the outer male square profile 14 (Fig. 4), are separated in the direction K (Fig. 8). In this case, the edges-jaws 46, 47, 51 and 52 come out of contact with the mating edges 53 and 54 of the outer male square profile 14 of the spacer bar 1. In the same way, the split half-shells-rays 4 and 4 ', 5 and 5' with the rock cutting cutting back expander tool.

At the third, final stage, a removable multi-beam, for example, a double-beam support and guide lantern, is dismantled (Fig. 9). The sequence of operations for dismantling the guide lantern of the backstop is as follows.

The drilling rig 32 lowers the support-guide lantern until it exits the well onto the lower drift into the free space with a gap D between the drilling rig 32 and the wellhead 33 (Fig. 7). Next, the machine is turned off and alternate dismantling of the semi-beam 11 and 11 'with skis 12 and 12' (Fig. 1) of the support-guide lantern is carried out.

First, the cylindrical-conical fingers 55 and 56 are removed, attached to the beam 11 with skis 12 by chains 57 and 58 (Fig. 9).

Further, the outer lugs 59 with four through coaxial holes 60 in the fastening half-hub 61, made in the form of two internal female arcuate semi-cylindrical profiles 69, 70, conjugated with the retainer rib 65 of the fastening half-hub 61 are removed from the contact in the L direction with the congruent lip-sponge 67 flat grooves 24 (Fig. 4, 6), as well as in the direction L from contact with congruent outer cylindrical male profiles 73, 74 of the stepped sleeve of the body-glass 9 of the support-guide lantern.

Then two thorns 62 with two through holes 63 in the fastening half-hub 64, made in the form of two internal female arcuate semi-cylindrical profiles 71, 72, conjugated with the retainer rib 66 of the fastening half-hub 64 are removed from the contact in the L direction with the congruent lip-sponge 68 grooves 25 (Fig. 4, 6), as well as in the direction L from contact with congruent outer cylindrical male profiles 73, 74 of the stepped sleeve of the body-glass 9 of the support-guide lantern.

In this case, half-beams 11 and 11 'with skis 12 and 12' are separated in the direction L (Fig. 9) and are alternately dismantled.

Thus, the design of the utility model makes it possible to simplify the installation and dismantling operations in the process of drilling the backstop on the upper roadway and dismantling operations in cramped conditions when the backstroke reamer exits the wellhead of a drilled rising well and to increase the safety of the mounting and dismantling operations.

Claims (1)

A backward reamer for drilling upward wells, containing a hollow sectional drill string with a support lantern, a spacer bar with nozzles of the lower tier of irrigation, a multi-beam stepped body with cutting rock cutting tools, a fastening screw in the threaded seat of the spacer bar, characterized in that the spacer bar made with outer covered sections of a square profile, separated by cylindrical beads, the outer diameter of which exceeds the size of the edge of a section of a square profile, to the surfaces of the edges of which two half-beam-shells with rock-cutting tools are rigidly attached to the surfaces of the faces through a radially detachable lock connection with rock-cutting tools and with an inner sponge-face With a U-shaped enclosing profile, the edges-jaws of the U-shaped profile are congruent to the square profile of the spacer bar, parallel to each other and, in the assembled state, cover the opposite sides of the corresponding sections of the square profile of the spacer bar with the possibility of pressing against one of the two dividing cylindrical beads and mutual reversal relative to the half-beams of the adjacent stage of the multi-beam stepped body with rock-cutting cutting tools to the setting-orienting angle α, while one fastening half-hub in each locking joint of the half-shells-beams with two rock-cutting tools with four coaxial through holes, and the opposite fastening half-hub has two spikes with two through holes, made with the possibility of their alignment with the lugs of the fastening half-hubs so that the axes of the coaxial through holes of the fastening half-hubs, when aligned, are parallel to the axis of the spacer rod and are removable in them cylindrical-conical pins, and behind the last cylindrical shoulder there is a cylindrical stepped section of a spacer bar with a threaded socket for attaching by a screw the sleeve housing of the bearing assembly with half-beams and skis detachably in the radial direction of the locking connection of the support-guide lantern, while the body-glass is made in the form of a sleeve with a stepped outer male profile having two groove flats, which are formed by the chords of the circle of the stepped outer male profile of the body-glass, are parallel and opposite to each other each other to a depth that provides a rigid connection of two inner covering arcuate semi-cylindrical profiles of the fastening half-nubs of a semi-beam support-guide lantern, which are split in the radial direction, while each internal covering arcuate semi-cylindrical profile is made in the form of two support arcs conjugated with an edge-retainer and congruent to a stepped external male the profile of the stepped sleeve of the body-glass, including the flats-grooves, while one fastening half-hub of the half-beam of the support-guide lantern has two lugs with four coaxial through holes, and the opposite fastening half The hub has two spikes with two through holes, while in the radially detachable lock connection of the semi-beam of the support-guide lantern, the pins are made with the possibility of placing between the lugs, and the axes of the through holes of the fastening half-hubs when aligning the fastening half-hubs are parallel to the axis of the spacer rod and the axis of the sleeve with with a stepped outer male profile of the cup body and in them cylindrical-conical fingers are placed with the possibility of extraction.

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