RU190758U1 - REVERSE EXTENSIONER FOR DRILLING RISING WELLS - Google Patents

Abstract

The proposed utility model relates to the mining industry, in particular to backstop extenders for drilling revolving wells in the form of a multipath stepped body containing a sectional drilling rig with intermediate support lights and a splined bar-spacer. backfill extender and improving the process of outflow of destruction products from the stepped bottom of the expansion chamber to the pioneer well and e to its mouth in the area of the drilling rig. The backward extender for drilling upright wells includes a hollow sectional drill stand with intermediate support lights, a spline rod-spacer with nozzles of the lower tier of irrigation, a multi-beam step case with a cutting rock cutting tool, a fastening screw for the threaded screw spacer rods. At the same time, in the mounting screw there is a longitudinal blind channel, which is connected to the radial holes to which the nozzles of the upper irrigation layer are attached above the last stage of the multi-beam body with the maximum diameter of the expansion well. 1 hp f-ly, 2 ill.

Description

The proposed utility model relates to the mining industry, in particular to backstop expanders for drilling rising wells in the form of a multipath stepped body, containing a sectional drilling stand with intermediate support lights and a splined bar-spacer.

Known extender wells reverse (patent RF №160664, IPC EV 7/28, E21D 3/00, publ. 03/27/2016, Bull. No. 9), containing multipath housings rigidly attached to each other and placed on the through splined shaft such form multistage overhangs of disk tool blades from the longitudinal axis of the spline shaft, equal to the diameters of the expansion stages, which increase with a certain step in the direction from the diameter of the pilot well to the required diameter of the expandable well, and above each disk tool Two nozzles are placed, and the axes of their nozzles are located in a plane that intersects the plane passing through the annular cutting edge of the disk tool.

The disadvantages of this device is the complexity of the design and the recommended scope only for use with a disk tool.

The closest technical solution to the claimed utility model is the backward extender of drilling rigs (Machines and tools for drilling wells in coal mines / MS Safohin, I. D. Bogomolov, N. M. Skornyakov, AM Tsekhin. - M. : Nedra, 1985, Fig. 3.7, pp. 76), including the lower and upper hull-beams with tool holders and chisels, an adapter in the form of a spacer bar, nozzles, a screw fixing the hull-beams from axial movement.

The disadvantages of this design are the low efficiency of irrigation nozzles located only up to the first expansion stage, the lack of access of the irrigation liquid to the last expansion stage, which leads to insufficient wetting of fracture products, high level of dust formation, and also complicates the outflow of fracture products from the expansion chamber to the pioneer well before stitching them on the ledges of the expandable well.

The technical result of the claimed utility model is to increase the effectiveness of dust suppression in the process of drilling an ascending well with a backstop expander and improving the process of outflow of destruction products from the stepped bottom of the expansion chamber to the pioneer well and further to its mouth in the area of the drilling rig.

This technical result is achieved by the fact that the backfill extender for drilling rising wells, comprising a hollow sectional drill with intermediate support lights, a splined bar-spacer with nozzles of the lower irrigation layer, a multibeam stepped body with a cutting rock-cutting tool, a fixing screw in a threaded slot, a slotted pin piece - spacers, according to the utility model, in the mounting screw there is a longitudinal blind channel, which is connected to the radial holes to which the force is attached Nki upper irrigation tier above the last stage of the multipath body with the maximum diameter of the expansion well of the rising well.

The essence of the utility model is illustrated by drawings, where in FIG. 1 - a general view of the expander; in fig. 2 is a top view along arrow A in FIG. one.

The backfill dilator for drilling rising wells (Fig. 1, 2) consists of a hollow sectional drill rod 1 with intermediate support lights 2, rigidly connected with a splined spacer bar 3, made with an internal through channel 4, which is connected with through radial holes 5 In the area of the through radial holes 5 inside the protective casing, the nozzles 6 of the lower irrigation tier are fixed, located under the first stage 7 of the multi-beam body with the initial diameter D _{2 of the} expansion of the ascending pilot-sk diameter of D ₁ . The first stage 7 and the last stage 8 of the final diameter D _{3 of the} multipath body of the expander are equipped with cutting rock-cutting tools 9 and rigidly fixed on the spline rod spacer 3 using a fixing screw 10. The fastening screw 10 is rigidly fixed on the spline rod spacer 3 and is made an internal blind channel 11, which is connected to the through radial holes 12. In the zone of the through radial holes 12 inside the protective casing, the nozzles 13 of the upper irrigation tier are fixed, Assumption of the last stage of the multi-8 expander housing.

The nozzles 6 and 13 form jet plumes 14 of dust suppression fluid to interact with fracture products 15 on the stepped faces of the bottom and the walls of the expandable well.

When drilling, the operation of the utility model is as follows.

When drilling a rising pilot bore from diameter D ₁ to diameter D ₃ , stepwise destruction of the bottom is produced, for example, to the initial leading initial stage with diameter D ₂ and axially lagging final stage with diameter D ₃ . At the same time, the backward extender from the drilling machine through the hollow sectional drilling rig 1 with intermediate support lights 2, splined spacer bar 3, first stage 7 and last stage 8 of the multi-beam body, the fastening screw 10 simultaneously transmits relative rotational motion with frequency n and axial translational moving to the bottom with a speed of V _p (Fig. 1). As soon as the cutting rock-destroying tool 9 comes into force contact with the surfaces of the stages of destruction of the face, they form volumes of destruction products 15 of different fractional composition from large particles to dust-like. Fracture products 15 come into force contact not only with cutting rock-cutting tools 9, but also with steps 7 and 8 of the multi-beam expander body, increasing the moment of resistance to rotation.

To combine the processes of stepwise destruction of the face when the pilot bore is expanded with dust removal, irrigation and dilution of fracture products 15 pressurized fluid through the internal through channel 4 of the hollow sectional drill rod 1 and splined spacer bar 3 to its through radial holes 5 and respectively to the nozzles 6 inside the protective enclosure of the lower tier of irrigation. At the same time, the flow of fluid under pressure through the inner through channel 4 of the slotted rod spacer 3 and the inner blind channel 11 with through radial holes 12 in the fastening screw 10 goes to the nozzles 13 inside the protective cover of the upper irrigation layer. This forms the jet torches 14 dust suppression fluid, covering the area of operation of the cutting rock cutting tool 9, respectively, under the first 7 and above the last 8 steps of the multi-beam body of the expander.

As a result, in the process of expanding the pilot hole with a diameter of D ₁ to the required diameter D ₃ , the fracture products 15 are moistened with jet plugs 14 of the dust suppression fluid and diluted to the yield boundary, which improves the process of their outflow from the stepped bottom of the expansion chamber to the pilot well and then to it wellhead in the area of the drilling machine.

Thus, the design of the utility model allows to increase the effectiveness of dust suppression in the process of drilling an ascending well with a backstop expander and to improve the flow of destruction products from the stepped bottom of the expansion chamber to the pioneer well and further to its mouth in the area of the drilling rig.

Claims (1)

Backward extender for drilling of revolving wells, containing a hollow sectional drilling stand with intermediate support lights, a spline rod-spacer with nozzles of the lower irrigation tier, a multibeam stepped body with a cutting rock-cutting tool, a mounting screw in a threaded slot, a spline rod-spacers, and a spacer in the mounting screw, a longitudinal blind channel is made, which is connected to the radial holes to which the nozzles of the upper irrigation layer above the last stage are attached the training case with the maximum diameter of the expansion wellbore.

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