RU2386783C2 - Device for cleaning of well - Google Patents

Abstract

FIELD: oil-and-gas production.

SUBSTANCE: device contains sub with inner pass channel in which in initial position is installed with ability of movement upward travelling valve, fixed in initial position. In the first version of implementation of device in the bottom nondetachable or detachable part of sub is stationary connected bell guide. Top part of funnel is connected to bottom part of sub or with receiving hollow lengthener or with flushing pipe with ability of passing through it item or is connected to sub. Bottom end of bell guide is implemented with opening by helical curve and with cone face at internal surface or in the form of "stylus" etc. According to another version of implementation of device with bottom part of sub is connected driving casing, in which it is installed with ability of limited lengthwise movement hollow draw bar, in top part of which it is implemented cylindrical thrust journal with ability of interaction with movable valve.

EFFECT: increased purification efficiency of extracted pipes, reliability of capture of extracted pipes, provided destroying of tight sludge and its capture.

37 cl, 31 dwg

Description

The invention relates to drilling and overhaul of wells in the oil and gas industry, in particular to a fishing tool, and is intended for cleaning the dangling part of the extracted pipe string, their capture and extraction from the wells.

A device for cleaning wells, containing a sub (1. Oil grade pipes: Handbook. / Under the general editorship of A.E. Saroyan. - 3rd ed., Revised and additional - M .: Nedra, 1987. 488 p. ./s.75, s.229, s.231, s.363 /). The disadvantage of this device for cleaning wells is its low reliability during the work cycle due to the low cleaning efficiency of the extracted pipes and the low reliability of their capture, since there is the possibility of washing the "head" of the emergency pipes by the movement of the flow of flushing fluid pumped (pumped) by the pump ( unit) direct or reverse circulation through the device, respectively, either to the column of the fishing tool, or to the annular annular space of the well and the presence of a large axle the gap to ensure the movement of the pumped fluid between the lower end surface of the device and the upper surface of the bottom hole, which densely fills the internal cavity of the wellbore, does not significantly affect the permeability of the device in the wellbore until full interaction (contact) in the working position, for example, the length of the external threaded surface of the lower part of the device with the entire length of the internal threaded surface of the upper part of the extracted pipes when capturing and the extracted pipes, for example, by screwing the outer threaded surface of the lower part of the device with the inner threaded surface of the captured pipe of the upper part of the extracted pipes due to the low cleaning efficiency of the annular annular space between the inner surface of the borehole and the outer surface of the device, the internal cavity of the borehole under the device, "Head" or the upper part of the emergency pipes, annular annular space, for example, between the internal threaded surface of the upper part the capture pipe and the external threaded surface of the lower part of the device, as well as below the “head” of the emergency pipes caught from bottomhole sludge, sand, clay particles, sludge, small and foreign objects, solid sediment after washing the well with lift pipes, saline growth, resinous and others borehole deposits, knocked down from the borehole wall with the outer surface of the fishing tool string when the device is lowered into the borehole and other elements located in the borehole that densely fill the internal cavity of the well wells and, being sealed on the “head” of the emergency pipes, prevent the entry, passage of the lower part of the device into the upper, for example, the threaded part of the gripping pipe, and the device on the emergency “head” in the working position until the entire length, for example, threaded outside the surface of the lower part of the device, for example, with an internal threaded surface of the upper part of the extracted pipes; low reliability in the operation of the device due to the low efficiency of combining the axes of the device and the extracted pipe string; in addition, low reliability in the operation of the device due to the low efficiency of capture and extraction of bottomhole sludge and other elements from the well.

The closest technical solution known is a device for cleaning wells, containing a sub with an internal passage channel, in the passage channel of the sub in the initial position, a movable valve fixed in the initial position is installed with the ability to move upward (2. Patent RU No. 2282016, ЕВВ 31/18 , 2006). A disadvantage of the known device for cleaning wells is its low reliability during the work cycle due to the low cleaning efficiency of the extracted pipes and the low reliability of their capture, the low throughput of the device in the wellbore until full interaction (contact) in the working position, for example, the entire length of the outer the threaded surface of the lower part of the device with the entire length of the internal threaded surface of the upper part of the extracted pipes when capturing the extracted pipes, for example, by screwing external threaded surface of the lower part of the device with the internal threaded surface of the captured pipe of the upper part of the extracted pipes due to the low cleaning efficiency of the annular annular space between the inner surface of the borehole and the outer surface of the device, the internal cavity of the borehole under the device, the head or top of the emergency pipes, annular annular space, for example, between the internal threaded surface of the upper part of the captured pipe and the external threaded the surface of the lower part of the device, as well as below the “head” of the emergency pipes caught from the bottomhole sludge, sand, clay particles, silt, small and foreign objects, solid sediment after washing the well with lift pipes, saline growth, tarry and other wellbore deposits that are knocked down the walls of the borehole with the outer surface of the column of the fishing tool when the device is lowered into the borehole and other elements located in the borehole that densely fill the internal cavity of the borehole and become denser on the head of the accident pipes prevent the entry, passage of the lower part of the device into the upper, for example, the threaded part of the grip pipe, and the landing of the device on the emergency "head" in the working position until full contact of the entire length, for example, threaded threads on the outer surface of the bottom of the device, for example, with the inside threaded surface of the upper part of the extracted pipe; low reliability in the operation of the device due to the low efficiency of combining the axes of the device and the extracted pipe string; in addition, low reliability in the operation of the device due to the low efficiency of capture and extraction of bottomhole sludge and other elements from the well.

The purpose of the invention is to increase the reliability of the device by improving the efficiency of cleaning pipes, combining the axes of the device and the extracted pipes, the reliability of the capture of the extracted pipes by increasing the throughput of the device in the wellbore until the device is fully seated on the emergency head and until full interaction in the working position of the working part devices with the upper part of the extracted pipes, by improving the reliability of capture and extraction of bottomhole cuttings and other elements from the well, as well as by simplifying working with him during the work cycle.

This goal is achieved by the fact that a guide funnel is fixedly installed in the lower or integral, or detachable part of the sub, the upper or integral, or detachable part of the guide funnel is connected to the lower part of the supporting sub or by threaded connection of the upper part of the guide funnel to the lower part of the sub or via hollow extension, or by means of an adapter with the ability to pass large-sized captured objects through itself, the lower end of the funnel guide to improve the cleaning efficiency of recoverable tubing string formed or cut in a helical line forming step, and a tapered chamfer on an inner surface; or with an annular conical bevel on the inner surface; or in the form of a “pen” and with a conical chamfer on the inner surface; or with a wide U-shaped longitudinal cut and with a tapered chamfer on the inner surface; or in case of deviation of the upper end of the extracted pipe string from the center of the well with a notch along a spiral line passing into a lateral curly longitudinal groove with a retracting hook; or in the form of an annular milling cutter with cutting teeth of various shapes, which can be reinforced with cutting carbide elements or deposited with an alloy containing brass and cutting carbide inclusions by abrasion of brass of corresponding grain size; or in the form of an annular milling cutter, which inside is made, for example, conical and with shoe teeth on a conical surface, which are fused with an alloy containing brass and carbide inclusions cutting as a result of abrasion of brass of corresponding grain size; or in the form of an annular milling cutter with hard-alloy shoe teeth welded inside or outside or inside and outside, containing brass and carbide inclusions cutting by abrasion of brass of corresponding grain size; or threaded to attach another fixture; or with a thread for attaching other devices, while the outer diameter of the lower part of the guide funnel can be made according to the diameter of the well with the appropriate clearance for the device to pass through the well, in the lower, for example, one-piece part of the sub, the drive housing can be fixedly installed, in which with the possibility of limited axial movement of the hollow rod, in the upper part of the hollow rod there is, for example, a cylindrical heel integral with a hollow rod, a hollow t the rod is installed in the lead housing with the possibility of interaction, for example, of the lower end, for example, of the integral lower part of the movable valve, for example, of the upper end, for example, of the upper part of the cylindrical heel of the hollow rod, between the contacting surfaces, for example, of the cylindrical heel and the lead body, there are sealing elements, the lower part of the drive housing and the middle part of the hollow rod, for example, are interconnected by a movable, for example, in the axial direction of the connection, the outer surface of the middle part of the hollow rod and the mating inner surface of the hole that engages with it in the lower part of the lead housing is made in cross section, for example, in an octagonal shape, and to increase the reliability of the device by providing the ability to capture and extract bottomhole cuttings and other elements from the well, to improve the efficiency of cleaning extracted pipes in the passage the channel of the cylindrical heel of the hollow rod can be installed in the initial position reed valve, for example, with a seat ring, which is fixedly installed in the passage the bottom channel of the cylindrical heel of the hollow thrust, the reed valve is made, for example, in the form of a circular reed valve, which is placed on the upper end surface of the landing ring with the possibility of overlapping its passage channel and tilting upward from the initial position to the extreme, for example, vertical position, in the upper part the landing ring above its base is made, for example, in a horizontal plane, for example, a semi-cylindrical surface curved upwards, the lower surface of the circular reed valve and the mating upper end surface of the seat ring in a shape that repeats its semi-cylindrical surface, convex upward, and the upper surface of the circular reed valve, curved up, the diameter of the bore of the landing ring and the radius of the lower surface of the circular reed valve , for example, by the diameter of the dangling pipe with the provision of an appropriate clearance for the passage of the dangling pipe inside the device.

Figure 1 shows a device for cleaning wells a longitudinal section (General view); figure 2 shows another embodiment of a device for cleaning wells, including a guide funnel, a longitudinal section (General view); figure 3 shows another embodiment of a device for cleaning wells, including a leading sub, a cylindrical heel with a hollow draft, a longitudinal section (General view); in Fig.4-5 section aa in Fig.3; figure 6 shows another embodiment of a device for cleaning wells, including a hollow rod and a guiding funnel, a longitudinal section (General view); 7-8 shows another embodiment of a device for cleaning wells, including a cylindrical heel with a circular reed valve, a longitudinal section (General view); figure 9 shows another embodiment of a device for cleaning wells, including a cylindrical heel with a circular reed valve, a guiding funnel, a longitudinal section (General view); figure 10 shows another embodiment of a device for cleaning wells, including a cylindrical heel with a hollow thrust, bearing sub with a circular reed valve, a longitudinal section (General view); figure 11 shows another embodiment of a device for cleaning wells, including a cylindrical heel with a hollow thrust, bearing sub with a circular reed valve, a guiding funnel, a longitudinal section (General view); on Fig depicts another embodiment of a device for cleaning wells, including a cylindrical heel with a circular reed valve, a housing with a spiral tape gripping element, a longitudinal section (General view); Fig.13 section BB in Fig.12; on Fig shows another embodiment of a device for cleaning wells, including a cylindrical heel with a hollow thrust, bearing a sub with a circular reed valve, bearing a housing with a spiral tape gripping element, a longitudinal section (General view); on Fig depicts another embodiment of the connection of the lower part of the device with a guide funnel for gripping pipes of small diameters, a longitudinal section (General view) (bottom of the device); on Fig shows another embodiment of a device for cleaning wells, including; a cylindrical heel with a circular reed valve, a supporting body with a gripping sleeve, a longitudinal section (general view); on Fig shows another embodiment of a device for cleaning wells, comprising a bearing housing with a gripping sleeve, a guide conical bevel, made under a spiral conical surface on the inner surface of the lower end of the bearing housing, a longitudinal section (General view) (lower part of the device); on Fig shows another embodiment of a device for cleaning wells, including a bearing housing with a gripping sleeve, an annular protrusion made below the end surface of the gripping sleeve under a spiral conical surface and a guiding annular conical chamfer made on the inner surface of the lower end of the bearing body, longitudinal section (general view) (lower part of the device); on Fig depicts another embodiment of a device for cleaning wells, including a bearing body with segmented inserts, gripping elements for gripping pipes or rods of different diameters for the body under the protruding ring element on the body of the pipe or rod, longitudinal section (General view) (bottom part) devices); in Fig.20 section BB in Fig.19; on Fig.21-22 shows another embodiment of a device for cleaning wells, including a hollow extension with elastic gripping elements under the protruding ring element on the pipe body, a partial longitudinal section, side view (general view) (bottom of the device); on Fig shows another embodiment of a device for cleaning wells, including an annular mill with a hollow extension, a partial longitudinal section (General view) (bottom of the device); on Fig shows another embodiment of a device for cleaning wells, including a bearing sub with a circular reed valve, a longitudinal section (General view); on Fig shows a side view of Fig.24, a longitudinal section (General view); on Fig shows another embodiment of a device for cleaning wells, including a guide funnel with a circular reed valve, a longitudinal section (General view); on Fig shows another embodiment of a device for cleaning wells, including a hollow extension with elastic gripping elements under the protruding annular element on the pipe body and with a circular reed valve, longitudinal section (General view); on Fig shows another embodiment of a device for cleaning wells, including annular cutters with a circular reed valve, a longitudinal section (General view); on Fig shows another embodiment of a device for cleaning wells, including an annular milling cutter with a hollow extension and with a circular reed valve, a longitudinal section (General view); on Fig shows another embodiment of a device for cleaning wells, including a supporting valve, a partial longitudinal section (General view); on Fig section AA in Fig.

A device for cleaning wells includes a sub 1 with an internal passage channel. In the upper integral or detachable part of the sub 1 there is a thread, for example, internal or left, or right direction for attaching the device to the column of the fishing tool or left or right direction. In the passage channel of the sub 1, a disconnecting valve is installed in the initial position, made in the form of a movable valve 2 to increase the passability of the device in the wellbore and to ensure the cleaning of the extracted pipes by the movement of the fluid flow under the pressure of the annular hydrostatic column of fluid in the well. The movable valve 2 divides the internal cavity of the device under the pressure of the annular hydrostatic column of the well fluid under the movable valve 2 and the internal cavity of the air chamber of the tubing or process pipe of the fishing tool string, filled with air at atmospheric pressure above the uncoupling movable valve 2. Mobile valve 2 installed in the initial position with the ability to move up in the passage channel, for example, in a saddle of cylindrical shape, made, for example the example, concentrically, for example, in the lower, for example, integral part of the sub 1, which makes it possible to clean the extracted pipes by the movement of the fluid flow under the influence of the pressure of the annular hydrostatic column of liquid (see figure 1). This increases the permeability of the device in the wellbore to the full interaction of the lower working part of the device with the upper trapped part of the extracted pipes, which increases the reliability of the device.

The movable valve 2 is installed in the initial position with the possibility of moving up, for example, on an annular ledge made, for example, on the inner surface of the passage channel of the lower, for example, integral part of the sub 1. The movable valve 2 is fixed in the initial position with the possibility of moving up inside the passage channel sub 1, for example, with shear pins (screws, bolts, other elements) or one pin (one screw, one bolt, another one element). One end of, for example, shear pins can be installed, for example, in holes arranged, for example, around a circumference, for example, the integral lower part of the movable valve 2. This increases the stability of the longitudinal movement of the movable valve 2 in the passage channel of the sub 1 when cutting the pins. The other opposite end of, for example, shear pins can be installed, for example, in holes arranged, for example, around a circumference, for example, the integral lower part of the sub 1. This prevents or precludes premature cutting of the pins when grazing the lower end of the device lowered into the well, annular ledges at the joints of threaded pipe casing joints. The shear pins located at the bottom of the movable valve 2 and the sub 1 can, for example, be secured against falling out of the holes, for example, with bushings. The shear pins can be fixed from falling out of the holes of the sub 1 by a sleeve fixedly mounted on the outer surface, for example, the lower, for example, one-piece part of the sub 1. Shear pins can be fixed from falling out of the holes of the movable valve 2 with a tip fixedly mounted, for example, in the lower for example, the integral part of the movable valve 2. Diameter, material and number of shear pins (screws, bolts, other elements) or one pin (one screw, one bolt, another one element nt) is determined by the value of the axial load acting on the movable valve 2, which is due to the pressure of the annular hydrostatic column of fluid under the movable valve 2, taking into account the safety factor for shear.

Between the contacting surfaces of the annular seat of the sub 1 and the movable valve 2, for example, sealing elements are placed on its outer surface, for example, at two levels in height of the movable valve 2 to seal the internal cavity of the device. The sealing elements can be made, for example, in the form of a sealing ring, for example, round in cross section. The upper end surface of the movable valve 2 can be made, for example, in the form of a conical surface, for example, tapering upwards, which serves to center the movable valve 2 when axially moving upward inside the column of the fishing tool. A movable valve 2, installed in the passage channel of the lower, for example, integral part of the sub 1, forms the internal cavity of the device, closed at the top, under the pressure of the annular hydrostatic column of liquid in the well, corresponding to the depth of the device. The movable valve 2 may be either cylindrical in shape to provide a differential pressure between the pressure of the hydrostatic column of fluid in the well under the movable valve 2 and the atmospheric pressure in the air chamber above the movable valve 2, or another shape.

The inner diameter of the passage channel of the sub 1 can be, for example, larger than the diameter of the outer surface of the dangling pipe with the provision of an appropriate clearance for the free passage of the pipe inside the device.

To enable capture of the extracted pipes, for example, by screwing their upper threaded part with the lower part of the sub 1 at the lower end of the lower, for example, integral part, for example, a fishing thread can be made, for example, similar or, for example, the counterpart of the upper threaded part recoverable pipes.

To increase the reliability of capture of the extracted pipes in the lower, for example, one-piece part of the sub 1, a fishing sub, or a fishing coupling, or a tap, for example, with a similar fishing thread or, for example, a mating thread of the upper threaded part, can be fixedly mounted recoverable pipes. Fixedly connected with the lower one-piece or detachable part of the sub 1 by means of a threaded connection with a hollow extension cord or with another device or with other devices, a fishing sub or fishing sleeve, or a tap, makes it possible to clean the “head” of the pipes to be removed, to capture the bottomhole sludge, pipes to be extracted, for example, by screwing the fishing thread or fishing sub, or fishing coupling, or tap with the upper thread of the extracted pipes, striking up or down on the grip nnym pipes percussion mechanism during a complete cycle for one spuskopodem fishing tool.

To capture the extracted pipes, the outer working conical surface of the tap can be made with a smooth working conical surface for gripping (holding) the extracted pipes by the friction force between the inner surface of the coupling of the extracted pipes and the external conical surface of the tap created by its tilt angle and axial force as a result of weight unloading fishing tool columns; or with a fishing thread on a working conical surface similar to the thread of the upper threaded portion of the extracted pipes for gripping them by screwing the fishing thread of the tap with the upper thread of the extracted pipes; or with a screw fishing thread, for example, a triangular profile for gripping the extracted pipes by cutting the reciprocal fishing thread on the inner surface of the coupling of the extracted pipes when turning off the stuck pipes to extract them in parts and with grooves, for example longitudinal, for example, a persistent triangular profile for chip formation and exit .

At the lower end of the lower, for example, integral part of the sub 1, a thread can be made to enable capture of the extracted pipes, for example, by screwing the threads of their upper threaded part with the threads of the lower part of the sub 1; or a thread for attaching a guide funnel 3, which serves to combine the axes of the device and the extracted pipe string. Moreover, in the framework of the invention, in order to increase the reliability of the device by providing the possibility of combining the axes of the device and the extracted pipe string, a variant of the device for cleaning wells is possible (can be made) (see figure 2).

To improve the reliability of the device by providing the possibility of combining the axes of the device and the extracted string of pipes and to increase the efficiency of cleaning the upper part of the extracted pipes in the lower, for example, one-piece part of the sub 1, the guide funnel 3 is fixedly (rigidly) mounted (see Fig. 2). In the lower, for example, integral part of the sub 1, there is a thread, for example, external, for attaching a guide funnel 3, which serves to combine the axes of the device and the extracted pipe string and improve the cleaning efficiency of the annular annular space between the inner surface of the wellbore and the outer surface of the upper part of the extracted pipes. The guide funnel 3 can be fixedly mounted, for example, in the lower integral part of the sub 1, for example, by screwing the threads of the lower, for example, the integral part of the sub 1 with a thread made in the upper, for example, the integral part of the guide funnel 3. The upper part of the guide funnel 3 is connected by means of a threaded connection to the lower part of the sub 1, or to a receiving hollow extension cord, or a washing pipe of a one-piece or detachable design with the ability to pass a gripper through itself Pipeline objects or associated, e.g., with an adapter with the ability to pass through itself captured items of large size.

The upper part of the guide funnel 3 can be rigidly connected with the lower one-piece or detachable part of the sub 1 or through a threaded connection, this ensures the transmission of axial force and torque to the guide funnel 3; or by means of a receiving hollow extension cord of an appropriate length for cleaning and placing the lengthy upper part of the pipes to be removed; or by means of, for example, a washing pipe (washer) for thawing hydratoparaffin deposits or hydratoparaffin plugs in a well; or by means of an adapter with the ability to pass large-sized captured objects or work with a receiving hollow extension cord with a large internal diameter; or through an adapter associated with a receiving hollow extension, with the possibility of placing cleaned pipes; or by means of another device of one-piece or detachable design with the ability to pass large-sized captured objects and accommodate pipes to be cleaned through themselves; or by arranging interconnected other devices with the possibility of placing a lengthy part of the pipes being cleaned; or through another device; or by arranging interconnected other devices. The receiving hollow extension cord or washer for cleaning and placement inside its lengthy upper part of the extracted pipes can be made integral or detachable (prefabricated) design.

To transmit the axial load and torque from the sub 1 to the guide funnel 3, the upper, for example, one-piece part of the guide funnel 3 can be rigidly connected to the lower part of the receiving extension or washing pipe or by screwing the upper part of the guide funnel 3 with the lower part of the receiving extension; or by welding, for example, two longitudinal protrusions, for example a U-shaped, made in the upper part of the funnel 3, placed in the corresponding longitudinal grooves, made in the lower part of the receiving hollow extension or washing pipe, with the possibility of passing through the protruding on the pipe body ring element of large diameter; or through another compound.

The lower end of the guide funnel 3 to ensure the alignment of the axes of the device and the extracted pipe string can be made either with a notch along a helical line forming a ledge, and with a conical chamfer on the inner surface; or for circulation of the downhole fluid, for example, with undulating teeth and with a conical chamfer on the inner surface; or to ensure cleaning near the planted part, or the castle part, or other protrusions of the pipe with an annular conical bevel on the inner surface; or in the form of a “pen” and with a conical chamfer on the inner surface to increase the circulation of flushing fluid; or to ensure the removal of the upper end of the extracted pipes from the borehole wall and to enter the device inside and to ensure the cleaning of the short part of the dangling pipe near the upset part, or the lock part, or other projections of the pipe with a wide, for example, “P” -shaped, for example, longitudinal cut and with a conical chamfer on the inner surface; or in case of deviation of the upper end of the extracted pipe string from the center of the well with a notch along a spiral line passing into a lateral curly longitudinal groove with a retracting hook to ensure the removal of the upper end of the extracted pipes from the "cavity" of the borehole and into the device; or for drilling pipes (ring milling) in the form of an annular milling cutter with cutting teeth or in the form of an annular milling cutter with welded alloys containing brass and cutting corresponding grain size carbide inclusions, or reinforced cutting carbide elements, or in the form of an annular milling cutter with cutting teeth various shapes depending on the type (purpose) of milling work, which can be reinforced with cutting corresponding carbide elements or welded Avomo comprising cutting brass and the corresponding grain carbide inclusions; or for annular milling of a deformed pipe in the form of an annular milling cutter, which inside is made, for example, with bevel and with shoe teeth on a conical surface or on a conical and external surface, which are fused with an alloy containing brass and corresponding carbide inclusions cutting as a result of abrasion of brass of corresponding grain size; or for milling dense slurry in the form of an annular milling cutter with hard-alloy carbide teeth welded inside or outside or inside and outside using brass and corresponding carbide cutting by abrasion of brass of corresponding grain size; or in the form of a spider, or in the form of a pike mouth to capture foreign objects; or in the form of a pike mouth with hooks placed along the length and radius of its internal working surfaces to capture the dangling part of the cable; or threaded to attach another fixture; or threaded for connecting other devices; or, for example, with two, for example, longitudinal protrusions of a U-shaped or other shape, made for placement in the corresponding longitudinal grooves, made in the upper part of another device for connection with the device or with the layout of other devices by means of a welded joint; or other form. To center the device in the well, when the inner diameter of the well is much larger than the diameter of the extracted pipes, the outer diameter of the lower part of the guide funnel 3 can be made along the diameter of the well with the appropriate clearance for the device to pass through the well.

To create a tightness between the contacting surfaces in the threaded joints of the device for cleaning wells, seals can be installed, made, for example, in the form of an o-ring, for example, a round shape in cross section.

To improve the reliability of the device by increasing the efficiency of cleaning the extracted pipes by increasing the destruction efficiency of the dense bottomhole sludge, another embodiment of the device for cleaning wells is possible (can be performed) (see Figs. 3-5).

Within the framework of the invention, a variant of a device for cleaning wells may be implemented, comprising a sub 1 with an internal passage channel in which a movable valve 2 fixed in its initial position is mounted with the ability to move upward. To improve the cleaning efficiency of the extracted pipes by increasing the destruction efficiency of the dense bottomhole sludge by providing the possibility of introducing the lower end of the device into the dense bottomhole sludge and at the same time cleaning the extracted pipes by the fluid flow under the pressure of the annular hydrostatic column of liquid in the well, the sub 1 is detachable, while in the lower detachable part of the sub 1 has a leading housing 4. In the leading housing 4 is placed with the possibility of limited longitudinal movement of the hollow rod 5. In the upper part of the hollow rod 5, a cylindrical heel 6 is made integral or detachable with the hollow rod 5. The cylindrical heel 6 is installed in the lead housing 4 with the possibility of limited longitudinal movement and interaction with the movable valve 2. The hollow rod 5 is installed in the lead housing 4, for example, concentrically and with the possibility of limited longitudinal movement and interaction of the cylindrical heel 6 with the movable valve 2 (see figure 3). The lower detachable part of the sub 1 is fixedly mounted in the upper, for example, one-piece part of the drive housing 4. Moreover, the lower part of the sub 1 is rigidly connected to the upper part of the drive housing 4, for example, by threading the threaded connection of the lower detachable part of the adapter 1 with the thread, for example, the inner upper parts of the drive housing 4. The lower and middle parts of the hollow rod 5 are passed through an opening made, for example, concentrically in the lower, for example, integral part of the drive housing 4. In the upper part of the hollow rod 5, ying, e.g., concentric cylindrical heel 6, for example a closed-end hollow rod 5 to increase the bearing capacity (loading capacity) of the device. The cylindrical heel 6 of the hollow rod 5 is installed in the drive housing 4 with the possibility of limited longitudinal movement and interaction in the working position, for example, the upper end, for example, the upper part of the cylindrical heel 6 of the hollow rod 5, for example, with the lower end, for example, the integral lower part of the movable valve 2. The movable valve 2 is made, for example, of a cylindrical shape and installed inside the sub 1 with the possibility of landing, for example, on the upper end face, for example, the upper part of the cylindrical heel 6 of the hollow rod 5 and moving p. The movable valve 2 is installed in the passage channel of the sub 1 in the initial position with the possibility of interaction in the working position, for example, the lower end, for example, the integral lower part of the movable valve 2, for example, with the upper end, for example, the upper part of the cylindrical heel 6 of the hollow rod 5.

Between the contacting surfaces of the drive housing 4 and the cylindrical heel 6, for example, sealing elements are placed on its outer surface, for example, at two levels in height of the cylindrical heel 6 for sealing the internal cavity of the device. The sealing elements can be made, for example, in the form of a sealing ring, for example, round in cross section. Sealing elements can be installed between the contacting surfaces in the threaded connections of the device to seal the internal cavity of the device. To seal the internal cavity of the device, the sealing elements in the places of its sealing are made, for example, in the form of ring elements, for example, round in cross section.

An annular ledge is made on the outer surface at the lower end of the cylindrical heel 6, for example, one-piece with a hollow rod 5, and a reciprocal annular protrusion is made on the inner surface of the lead body 4, for example, on the inner surface thereof, which restricts the downward movement of the cylindrical heel 6 of the hollow rod 5 in the drive housing 4. The inner diameters of the passage channels of the sub 1, the cylindrical heel 6 of the hollow rod 5 and the hollow rod 5 can be made, for example, larger than the diameter of the outer surface of the dangling pipe with appropriate clearance for free passage of the pipe inside the device. This increases the permeability of the device in the wellbore to the full interaction of the lower working part of the device with the upper captured part of the extracted pipes. The cylindrical heel 6 of the hollow rod 5 is installed in the initial extreme lower position inside the lead body 4, for example, on the annular protrusion, for example, the lower part of the lead body 4. The cylindrical heel 6 of the hollow rod 5 is installed in the lead case 4 with the possibility of limited longitudinal upward movement and interaction a cylindrical heel 6 in its working position with a movable valve 2 installed in its original position in the passage channel of the sub 1. The cylindrical heel 6 of the hollow rod 5 is installed in the drive housing 4 with the possibility of limited longitudinal upward movement and interaction with the movable valve 2, this increases the permeability of the device in the wellbore, the efficiency of cleaning the extracted pipes, provides strikes by the weight of the fishing tool string on the stuck pipes, which increases the reliability of the device.

The middle part of the hollow rod 5 and the lower part of the drive housing 4 can be interconnected by a longitudinally movable joint. The outer surface of the middle part of the hollow rod 5 and the inner surface of the lower part of the driving housing 4 in contact with it can be made in cross section or round with the possibility of longitudinal movement of the driving housing 4 with respect to the hollow rod 5 (see Fig. 4); or, for example, an octagonal shape for transmitting torque from sub 1 to recoverable pipes; or with slotted longitudinal grooves to increase the rigidity of the transmission of torque from the sub 1 to the extracted pipes; or other form.

To improve the reliability of the device by providing the possibility of transmitting torque from the sub 1 to the hollow rod 5 through the lower, for example, one-piece part of the drive housing 4, another embodiment of the device is possible (see figure 5).

The inner surface of the through hole in the lower, for example, one-piece part of the drive housing 4 and the reciprocal outer longitudinal surface of the middle part of the hollow rod 5 in contact with it are made in cross section, for example, in an octagonal shape. This ensures the transmission of torque from the sub 1 to the hollow rod 5 through the drive housing 4 during rotation of the device, for example, when unscrewing the stuck pipes to extract them in parts (see figure 5).

The cylindrical heel 6 of the hollow rod 5 is installed in the drive housing 4 with the possibility of limited longitudinal movement upwards and interacts with the movable valve 2, this increases the cleaning efficiency of the extracted pipes, ensures they are unscrewed without simultaneously lifting the tool and striking the weight of the fishing tool string along the stuck pipes, which increases the reliability of the device.

To accommodate foreign objects located at the upper end of the protruding annular element on the pipe body of the pipes to be removed, a receiving chamber can be made in the passage channel of the lower and middle parts of the hollow rod 5.

To enable capture of the extracted pipes, for example, by screwing their upper threaded part with the lower part of the hollow rod 5 at the lower end of the lower, for example, one-piece part, for example, a fishing thread, for example, similar or, for example, a mating thread of the upper threaded part of the extracted pipe.

To increase the reliability of capture of the extracted pipes in the lower, for example, integral part of the hollow rod 5, either a fishing sub, or a fishing coupling, or a tap, for example, with a similar fishing thread or, for example, a mating thread of the upper threaded part, can be fixedly mounted recoverable pipes. Associated with the lower one-piece or detachable part of the hollow rod 5 by means of a threaded connection with a hollow extension cord or with another device or with other devices, a fishing sub or fishing sleeve or tap enables cleaning of the extracted pipes, capture of the bottom slurry, the extracted pipes, for example, by screwing the fishing a thread or a fishing sub, or a fishing coupling, or a tap with the upper thread of the pipes to be removed, striking up or down on the stuck pipes with a shock anizmom during a complete working cycle for one spuskopodem fishing tool.

To capture the extracted pipes, the outer working conical surface of the tap can be made with a smooth working conical surface for gripping (holding) the extracted pipes by the friction force between the inner surface of the coupling of the extracted pipes and the external conical surface of the tap created by its tilt angle and axial force as a result of weight unloading fishing tool columns; or with a fishing thread on a working conical surface similar to the thread of the upper threaded portion of the extracted pipes for gripping them by screwing the fishing thread of the tap with the upper thread of the extracted pipes; or with a screw fishing thread, for example, a triangular profile for gripping the extracted pipes by cutting the reciprocal fishing thread on the inner surface of the coupling of the extracted pipes when turning off the stuck pipes to extract them in parts and with grooves, for example longitudinal, for example, a persistent triangular profile for chip formation and exit.

The sub 1 with an internal passage channel in which the movable valve 2 is mounted in the initial position with the possibility of moving upward, is fixed in the initial position and the drive housing 4 is installed in the lower part of the sub 1, in which the hollow rod 5 is placed with the possibility of limited longitudinal movement, in the upper parts of which a cylindrical heel 6 is installed, installed with the possibility of interaction with the movable valve 2, increases the efficiency of cleaning the extracted pipes, ensures the capture of bottomhole sludge, impact striking by the weight of a fishing tool string or striking up or down by a percussion mechanism on stuck pipes, unscrewing the pipes to be removed without lifting the tool at the same time, which increases the reliability (in operation) of a well cleaning device during a full working cycle for one tripping of the fishing tool.

The leading body 4, in which the hollow rod 5 is placed with the possibility of longitudinal movement, in the upper part of which a cylindrical heel 6 is made, which is installed with the possibility of limited longitudinal movement in the leading case 4, which is fixedly installed in the lower one-piece or detachable part of the sub 1, ensures the implementation of the lower the end of the device into a tightly packed bottomhole sludge by striking with the weight of the fishing tool column, which increases the reliability (in operation) of the device by increasing the efficiency spine fracture dense cuttings downhole devices and improve permeability in the borehole.

In the framework of the invention, to improve the reliability of the device by providing the possibility of combining the axes of the device and the extracted string of pipes and to increase the efficiency of cleaning the upper part, another embodiment of the device for cleaning wells is possible (can be performed) (see Fig. 6).

To increase the reliability of the device by providing the possibility of combining the axes of the device and the removable string of pipes and to increase the efficiency of cleaning the upper part of the pipes in the lower, for example, integral part of the hollow rod 5, a guide funnel 3 can be fixedly (rigidly) mounted on the lower end of the lower integral part of the hollow rod 5 can be made or fishing thread to enable capture of the extracted pipes by screwing their upper threaded part with the lower part of the hollow rod 5; or a thread for attaching a guide funnel 3, which serves to combine the axes of the device and the extracted pipe string. A thread is made in the lower, for example, integral part of the hollow rod 5, for example, an external thread for attaching a guide funnel 3, which serves to combine the axes of the device and the extracted pipe string and improve the cleaning efficiency of the annular annular space between the inner surface of the borehole and the outer surface of the upper part of the extracted pipes. The guide funnel 3 can be fixedly mounted, for example, in the lower integral part of the hollow rod 5, for example, by screwing the threads of the lower, for example, the integral part of the hollow rod 5 with the thread made in the upper, for example, the integral part of the guide funnel 3. The upper part the funnel guide 3 is connected by means of a threaded connection to the lower part of the hollow rod 5 or to the receiving hollow extension or to the washing pipe of an integral or detachable design with the possibility of passing through itself a gripper emye objects or associated, e.g., with an adapter with the ability to pass through itself captured items of large size.

The upper, for example, integral part of the guide funnel 3 can be rigidly connected with the lower, for example, integral part of the hollow rod 5 or by threadedly connecting the upper part of the guide funnel 3 with the lower part of the hollow rod 5 to transmit axial force and torque; or by means of a receiving hollow extension for cleaning recoverable pipes; or by means of a washing pipe for thawing hydratoparaffin plugs or hydratoparaffin deposits; or by means of an adapter with the ability to pass large-sized captured objects through itself in the diametrical direction or with the possibility of working with a receiving hollow extension cord with a large internal diameter; or through another device; or through other interconnected devices.

The receiving hollow extension for cleaning and placement inside its long top of the extracted pipes can be made, for example, one-piece construction. The receiving hollow extension may be either integral (integral design), for example, to clean the pipe, below the "head" of the extracted pipe; or a prefabricated structure from the corresponding pipes for placement inside it, gripping and removing the long, unscrewed or dangling part of the extracted pipes, or long objects.

To transmit the axial load and torque from the sub 1 to the guide funnel 3, the upper, for example, one-piece part of the guide funnel 3 can be rigidly connected to the lower part of the receiving extension or washing pipe or by screwing the upper part of the guide funnel 3 with the lower part of the receiving extension; or by means of a welded joint, for example, two longitudinal protrusions, for example a U-shaped, made in the upper part of the receiving hollow extension or a washing pipe, placed in the corresponding longitudinal grooves, made in the lower part of the receiving hollow extension or washing pipe, with the ability to pass through itself a ring element of large diameter protruding on the body of the pipe; or through another compound.

The lower end of the guide funnel 3 to ensure the alignment of the axes of the device and the extracted pipe string can be made either with a notch along a helical line forming a ledge, and with a conical chamfer on the inner surface; or for circulation of the downhole fluid, for example, with undulating teeth and with a conical chamfer on the inner surface; or to ensure cleaning near the planted part, or the castle part, or other protrusions of the pipe with an annular conical bevel on the inner surface; or in the form of a “pen” and with a conical chamfer on the inner surface to increase the circulation of flushing fluid; or to ensure the removal of the upper end of the extracted pipes from the borehole wall and to enter the device inside and to ensure cleaning of the short part of the dangling pipe near the upset part, or the lock part, or other projections of the pipe with a wide, for example, “P” -shaped, for example, longitudinal cut with a conic facet on the inner surface; or in case of deviation of the upper end of the extracted pipe string from the center of the well with a notch along a spiral line passing into a lateral curly longitudinal groove with a retracting hook to ensure the removal of the upper end of the extracted pipes from the "cavity" of the borehole and into the device; or for drilling pipes (ring milling) in the form of an annular milling cutter with cutting teeth or in the form of an annular milling cutter with cutting teeth deposited with an alloy containing brass and carbide cutting with appropriate grain size or reinforced with carbide cutting elements; or for drilling pipes (ring milling) in the form of a ring mill with cutting teeth of various shapes, depending on the type (purpose) of milling work, which can be fused with an alloy containing brass and cutting corresponding carbide inclusions by abrasion of brass of corresponding grain size, or reinforced cutting corresponding carbide elements; or for annular milling of a deformed pipe in the form of an annular milling cutter, which inside is made, for example, with bevel and with shoe teeth on a conical surface or on a conical and external surface, which are fused with an alloy containing brass and corresponding carbide inclusions cutting as a result of abrasion of brass of corresponding grain size; or for milling dense sludge in the form of an annular milling cutter with internal or external, or inside and outside shoe-shaped carbide teeth containing brass and cutting corresponding carbide inclusions by abrasion of brass of corresponding grain size; or in the form of a spider, or in the form of a pike mouth to capture foreign objects; or in the form of a pike mouth with hooks placed along the length and radius of its internal working surfaces to capture the dangling part of the cable; or threaded to attach another fixture; or threaded for connecting other devices; or, for example, with two, for example, longitudinal protrusions of a U-shaped or other shape, made for placement in the corresponding longitudinal grooves, made in the upper part of another device for connecting to the device with the layout of other devices by means of a welded joint; or other form. To center the device in the well, when the inner diameter of the well is much larger than the diameter of the extracted pipes, the outer diameter of the lower part of the guide funnel 3 can be made along the diameter of the well with the appropriate clearance for the device to pass through the well.

The passage channel of a cylindrical heel 6, one-piece or detachable with a hollow rod 5, can be made in the form of a hollow cylindrical barrel, the diameter of the inner surface of which is made, for example, along the outer diameter of the dangling pipe with a corresponding gap for the free passage of the dangling pipe inside the device (Fig. 3); or in the passage channel of a cylindrical heel 6, one-piece or detachable with a hollow rod 5, a reed circular valve 7 or another shape can be installed in the initial position with the ability to capture downhole cuttings and other elements remaining in the well. At the same time, to increase the reliability of the device by providing the ability to capture and extract bottomhole sludge, another embodiment of the device for cleaning wells is possible (see Fig. 7-8).

In the framework of the invention, to improve the reliability of the device by providing the ability to capture downhole sludge and other elements, increase the efficiency of cleaning the extracted pipes, a device for cleaning wells is made, comprising a sub 1 with an internal passage channel, in which the movable valve 2 is installed in the initial position to move up fixed in the starting position. At the same time, to increase the reliability of the device by providing the possibility of introducing the lower end of the device into a dense bottomhole sludge and at the same time cleaning the extracted pipes by the movement of the fluid flow under the pressure of the annular hydrostatic column of fluid in the well, the sub 1 is detachable, the leading body is fixedly mounted in the lower detachable part of the sub 1 4, in which a hollow rod 5 is placed with a possibility of limited longitudinal movement, in the upper part of which a cylindrical fifth is made that 6, which is installed with the possibility of interaction with the movable valve 2. In the passage channel of the cylindrical heel 6, a receiving valve of a reed circular shape 7 or another shape is installed in its initial position, configured to deflect upward from its original position to a vertical position and capture the bottomhole sludge. The lower part of the drive housing 4 and the middle part of the hollow rod 5 are interconnected by an axially movable joint, in which the outer surface of the hollow rod 5 and the corresponding inner surface of the hole in the lower part of the lead housing 4 are made in cross section, for example, in an octagonal shape (see Figs. 7-8).

To increase the reliability of the device by providing the ability to capture, extract bottomhole cuttings and other elements from the well in the passage channel of the cylindrical heel 6, for example, one-piece with a hollow rod 5 is installed in the initial, for example horizontal, position, for example, a reed valve, for example, with a landing ring. In the passage channel of the cylindrical heel 6 of the hollow rod 5 is made, for example, concentrically to its axis, for example, an annular seat, in which, for example, on the annular ledge, made, for example, inside the cylindrical heel 6, the landing ring can be fixedly mounted. Performing in the passage channel of the cylindrical heel 6 of the hollow thrust 5 of the annular saddle forms a receiving chamber in the cylindrical heel 5, which serves to accommodate and capture the bottomhole sludge and foreign objects. The passage channel of the landing ring is, for example, cylindrical in the form of an opening.

The cylindrical heel 6 can be performed or integral with a hollow rod 5 to increase the load capacity of the device; or detachable with a hollow rod 5 and connected, for example, by means of a threaded connection with a hollow rod 5 for transmitting axial force from the sub 1 to the extracted pipes.

The landing ring can be installed either in the saddle on the annular ledge of the passage channel of the cylindrical heel 6, integral with the hollow rod 5 to increase the load capacity of the device; or on the upper annular stop of the end surface of the hollow rod 5, detachable with a cylindrical heel 6 for transmitting axial force from the sub 1 to the reed valve; or on a ledge of another form of another element.

The reed valve is, for example, circular in projection, for example, onto a horizontal plane in the form of a circular reed valve 7 with the possibility of overlapping the bore of the landing ring and with the possibility of trapping downhole sludge. The circular reed valve 7 is connected, for example, with a landing ring with the possibility of deviation upward from its original position. The reed valve 7 is installed in the initial position on the end surface, made, for example, in a horizontal plane, for example, a landing ring. A circular reed valve 7 is placed on the upper end surface of the landing ring with the possibility of overlapping its passage channel and deflecting upward from the initial position to the extreme, for example, vertical, position. The circular reed valve 7 is installed in the initial position on the upper end surface of the landing ring with the possibility of capture, extraction of bottomhole cuttings, foreign objects and other elements remaining in the well, for example, under the protruding ring element on the body of the removed rods or pipes of small diameter. Between the contacting surfaces of the cylindrical heel 6 of the hollow rod 5 and the seat ring, a seal can be installed to increase the sealing of the internal cavity of the device. In the upper part of the landing ring above its base is made, for example, in a horizontal plane, for example, a semi-cylindrical surface, curved (convex) upwards. The lower surface of the circular reed valve 7 is made reciprocal upper end surface of the landing ring in a shape that repeats its semi-cylindrical surface, convex upward convexity. The upper surface of the circular reed valve 7 is made in a form similar to its lower semi-cylindrical surface curved upwards. The diameter of the bore of the seat ring is, for example, made according to the diameter of the outer surface of the dangling pipe with a corresponding clearance for the passage of the dangling pipe inside the device. The radius of the lower surface of the circular reed valve 7 is made, for example, along the radius of the outer surface of the dangling pipe with a corresponding gap for the passage of the dangling pipe inside the lower half-cylindrical surface of the circular reed valve 7. The seat ring is fixed from longitudinal movement or fixed in the passage channel of the cylindrical heel 6 hollow rod 5, for example, by means of an annular nut and a spacer sleeve located on the upper half-cylindrical surface of the seat th ring. For rigid fixation of the landing ring of the reed valve 7 from the longitudinal movement of the annular ledge on the inner surface of the cylindrical heel 6 can be performed either under the landing ring in the lower part of the cylindrical heel 6; or, for example, above the spacer sleeve in the upper part of the cylindrical heel 6 detachable with a hollow rod 5.

A circular reed valve 7 is mounted on the upper end surface of the seat ring with the possibility of tilting upward with rotation to the side from the extreme initial (working) position to the extreme, for example, vertical position. The circular reed valve 7 is connected, for example, with a seat ring, for example, by means of a swivel joint. A swivel with a seat ring, for example, a circular reed valve 7 contains a fixed support, made, for example, in the form of a bracket, fixedly mounted on the landing ring, for example, on the edge of its bore, a rotary support made, for example, in the form of a bracket, motionless mounted, for example, on the edge of the circular reed valve 7, and, for example, a cylindrical finger. The cylindrical pin is passed, for example, in the horizontal position of its axis through holes made in the rotary and fixed supports, and is fixed from axial movement. A cylindrical pin is installed, for example, with the possibility of limited, for example, longitudinal movement in holes made, for example, in a fixed support, for example, in the form of longitudinal grooves and the lower half-cylindrical surface of the circular reed valve 7 is seated upward on the upper half-cylindrical surface of the seat ring with a uniform fit of their contact surfaces. The circular reed valve 7, for example, is spring-loaded in the initial position by means of a spring, for example a torsion, which serves to facilitate closing of the internal passage channel of the device with a circular reed valve 7. A torsion spring is mounted, for example, on a cylindrical pin in an articulation of the seat ring with the circular reed valve 7. The reed valve may be spring-loaded, for example, in its initial position, for example, with an elastic leaf spring, which serves to facilitate closing of the internal passage channel at devices reed valve.

The reed valve may be spring-loaded, for example, in the lowermost initial position, for example, with an elastic leaf spring, which serves to facilitate closing of the internal passage of the device with the reed valve. One end of the elastic leaf spring can, for example, be fixedly mounted, for example, on the upper surface of the reed valve so that the other end of the elastic leaf spring can interact with, for example, the inner surface of the cylindrical heel 6. Or one end of the elastic leaf spring can be fixedly mounted, for example , on the outer surface of the seat ring with the possibility of interaction of the other end of the elastic leaf spring, for example, with the upper surface of the reed valve.

To ensure the ability to pass retrievable objects of large diameter or large size in cross section through the large diameter of the passage channel of the sub 1 in the lower part of the movable valve 2, a stop rod can be fixedly mounted with the possibility of its lower end interacting with the upper surface, for example, a circular reed valve 7. To ensure the possibility of interaction of the movable valve 2 in its initial position with a cylindrical heel 6 in its upper part can be rigidly installed, for example p, the transverse strap for engagement with the lower end face of the thrust rod and to pass through the cylindrical heel 6 mud slurry. The movable valve 2 can be installed in the passage channel of the sub 1 in the initial position with the possibility of interaction or the lower end of the movable valve 2 with the upper end of the cylindrical heel 6 to pass the dangling part of the pipe through the hollow rod 5; or the lower end surface of the thrust rod fixedly installed in the lower part of the movable valve 2, or with the transverse bar of the upper part of the cylindrical heel 6 for passing the slurry, or with the upper surface of the circular reed valve 7, this makes it possible to pass through the large diameter of the passage channel of the sub 1 large diameter objects; or with the possibility of interaction of other thrust surfaces made on other elements mounted respectively in the lower part of the movable valve 2 and in the upper part of the hollow rod 5.

The reed valve may be made up or convex upward in the initial, for example, horizontal position and round in projection onto the horizontal plane and placed in the passage channel of the cylindrical heel 6 with the possibility of its overlap and deviation upward from the initial position to the extreme, for example, vertical, position for placing the dangling part of the pipe; or a flat shape in the initial position, for example, in a horizontal plane and placed inside the passage channel of the cylindrical heel 6 with the possibility of its overlap and deviation upward from the initial position to its highest position to ensure capture of the bottomhole sludge; or other form. To increase the reliability of the device by increasing the rigidity of the swivel and fixed bearings of a swivel joint, for example, a flat reed valve, for example, with a seat ring, the fixed support can be made on a radial protrusion made, for example, in a segmented shape on the inner surface of the passage channel of the seat ring. Moreover, the movable support can be performed on the edge of the reed valve, made, for example, of a segmented shape in the horizontal plane. In this case, a fixed support, for example, one-piece with a seat ring, and a rotary support, for example one-piece with a reed valve, are configured to deflect up the reed valve installed in its initial position on the end surface, made, for example, in the horizontal plane of the landing ring with the possibility of tight overlap valve of its passage channel and capture of bottomhole sludge.

The reed valve of a flat shape can be made, for example, in the form of a cross-section of the inner surface of the passage channel, for example, a spacer sleeve with a plane aligned, for example, with the flat lower surface of the reed valve in its open extreme upper position with the possibility of overlapping the passage channel of the heel 6 and capture the downhole sludge or other form. The reed valve of a flat shape may be connected, for example, to the seat ring by a swivel joint. The swivel may include a support sleeve fixedly mounted on the edge of the bore of the landing ring, and a swivel support, the body of which is passed through the hole of the support sleeve, while the ends of the swivel support are motionlessly connected to the reed valve so that it can be deflected upward and trapped in the bottom hole; or other movable connection.

The reed valve, either convex upward, or flat, or in another shape to ensure grip, for example, a dangling rod suspension under a protruding ring element on the rod body, can be made either with a U-shaped cut in the diametrical direction at right angles to the axis of rotation of the valve; or with a neckline of a different shape.

The reed valve to enable the capture of bottomhole sludge can be performed either in the form (in the form) of a circular reed valve 7 with a convex upward shape in the initial position; or in the form (in the form) of a valve made of separate, for example, reed spring-loaded in the initial, for example horizontal, position of the reeds placed around the circumference by, for example, a clip inside the passage channel of the heel 6 with the possibility of its overlapping and deviation upward from the initial position to the upper position to enable capture and retrieval of small items; or to enable the capture of (extraneous) objects of irregular shape in the form of a ruff made of elastic, for example, cables of the corresponding diameter, the free ends of which are placed inside the sleeve, and the other ends are rigidly fixed in holes located around the circumference and height of the wall a sleeve mounted, for example, motionless in the passage channel of the cylindrical heel 6; or in the form of a spherical (or mushroom-shaped) valve installed in its initial position in the landing saddle, for example, a passage channel of a cylindrical heel 6 with the possibility, for example, of limited upward movement and capture of bottomhole sludge; or in the form of a circular rotary relative to an axis, for example, coinciding with a diametrical horizontal axis, for example, spring-loaded in the initial, for example horizontal, position of the shutter placed in the passage channel of the cylindrical heel 6 with the possibility of rotation relative to the diametrical axis from the initial position, for example, in a vertical position and capture of bottom mud; or in the form of another valve.

To capture the bottomhole sludge, the ball valve can be installed in the landing seat of the passage channel or the landing ring, motionless and hermetically mounted in the cylindrical heel 6; or lower, for example, integral part of the cylindrical heel 6 to increase the tightness of the internal cavity of the device.

To capture foreign objects located at the upper end, for example, a protruding annular element on the pipe body of the pipes to be removed, a receiving chamber is made in the passage channel of the lower and middle parts of the hollow rod 5.

The reed valve can be configured to capture downhole slurry and foreign objects with a circle diameter that describes them in a horizontal plane greater than the diameter of the outer surface of the dangling pipe or larger than the diameter of the captured outer surface of the protruding annular element on the pipe body with the ability to capture foreign objects of large size in horizontal section the plane.

In the framework of the invention, to improve the reliability of the device by providing the possibility of combining the axes of the device and the extracted pipe string and increasing the efficiency of cleaning the upper part, another embodiment of the device for cleaning wells is possible (can be performed) (see Fig. 9).

To increase the reliability of the device by providing the possibility of combining the axes of the device and the removable string of pipes and increasing the efficiency of cleaning the upper part of the pipes in the lower, for example, integral part of the hollow rod 5, a guide funnel 3 can be fixedly (rigidly) mounted (see Fig. 9).

To improve the cleaning efficiency of the upper part of the extracted pipes in the lower, for example, one-piece part of the hollow rod, a guide funnel 3 can be fixedly (rigidly) installed within the framework of the invention with the full necessary arrangement of the devices described in the description.

In the framework of the invention, to improve the cleaning efficiency of the upper part of the extracted pipes with the lower integral or detachable part of the hollow rod 5, the passage channel of the cylindrical heel 5 of which is hollow or with the lower part of the hollow rod 5, in the passage channel of the cylindrical heel 5 of which the reed valve is installed in the initial position circular shape 7 or another shape, the guide funnel 3 is fixedly connected by means of the complete necessary layout of the devices disclosed in the description, while the lower end of the guide boiling the funnel 3 may be made corresponding to the form disclosed herein.

The upper part of the guide funnel 3 is connected by means of a threaded connection to the lower part of the hollow rod 5 or sub 1 or by means of a receiving hollow extension cord or washing pipe of an integral or detachable design with the ability to pass captured objects through itself; or by means of an adapter with the ability to pass large-sized captured objects through itself or by means of an adapter connected to a receiving hollow extension cord of an integral or detachable structure with the possibility of accommodating removable pipes; or by means of another device of an integral or detachable design with the ability to pass through large-sized capture objects and capture downhole cuttings; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or through another device; or by arranging interconnected other devices. The receiving hollow extension cord or washer for cleaning and placing inside its long top part of the pipes to be removed can be made, for example, of an integral structure, for example, for cleaning the pipe, below the "head" of the pipes to be removed. The receiving hollow extension cord or washer can be made either integral (integral design), for example, to clean the pipe, below the "head" of the extracted pipes; or a prefabricated structure of the corresponding pipes, including the appropriate number of pipes of the appropriate length for placement inside it, gripping and removing the long unscrewed or torn top of the extracted pipes, or long items.

The lower end of the guide funnel 3 to ensure the alignment of the axes of the device and the extracted pipe string can be made either with a notch along a helical line forming a ledge, and with a conical chamfer on the inner surface; or for circulation of the downhole fluid, for example, with undulating teeth and with a conical chamfer on the inner surface; or to ensure cleaning near the planted part, or the castle part, or other protrusions of the pipe with an annular conical bevel on the inner surface; or in the form of a “pen” and with a conical chamfer on the inner surface to increase the circulation of flushing fluid; or to ensure the removal of the upper end of the extracted pipes from the borehole wall and to enter the device inside and to ensure the cleaning of the short part of the dangling pipe near the upset part or the lock part, or other protrusions of the pipe with a wide longitudinal cutout of a U-shaped or other shape and with a conical bevel on the inside surface; or in case of deviation of the upper end of the extracted pipe string from the center of the well with a notch along a spiral line passing into a lateral curly longitudinal groove with a retracting hook to ensure the removal of the upper end of the extracted pipes from the "cavity" of the borehole and into the device; or for drilling pipes (ring milling) in the form of an annular milling cutter with cutting teeth or in the form of an annular milling cutter with cutting teeth deposited with an alloy containing brass and carbide cutting with appropriate grain size or reinforced with carbide cutting elements; or in the form of an annular milling cutter with cutting teeth of various shapes, depending on the type (purpose) of milling work, which can be welded with an alloy containing brass and corresponding carbide cutting cutting by abrasion of brass of the corresponding grain size, or reinforced with cutting corresponding carbide elements; or for annular milling of a deformed pipe in the form of an annular milling cutter, which inside is made of a conical or other shape and with shoe teeth on a conical surface or on a conical and external surface, which are fused with an alloy containing brass and corresponding carbide inclusions cutting as a result of abrasion of brass of corresponding grain size; or for milling dense slurry in the form of an annular milling cutter with hard-alloy carbide teeth welded inside or outside or inside and outside using brass and corresponding carbide cutting by abrasion of brass of corresponding grain size; or in the form of a spider, or in the form of a pike mouth to capture foreign objects; or in the form of a pike mouth with hooks placed along the length and radius of its internal working surfaces to capture the dangling part of the cable; or threaded to attach another fixture; or threaded for connecting other devices; or, for example, with two, for example, longitudinal protrusions of a U-shaped or other shape, made for placement in the corresponding longitudinal grooves, made in the upper part of the device or devices for connecting to the guide funnel 3 by means of a welded joint; or other form. To center the device in the well, when the inner diameter of the well is much larger than the diameter of the extracted pipes, the outer diameter of the lower part of the guide funnel 3 can be made along the diameter of the well with the appropriate clearance for the device to pass through the well.

Within the framework of the invention, an embodiment of a device for cleaning wells may be implemented, comprising a sub with an internal passage channel, and a movable valve fixed in the initial position can be moved upward in the passage channel of the sub in the initial position. At the same time, to improve the reliability of the device by providing the possibility of trapping downhole slurry and large foreign objects in cross section by a horizontal plane near the protruding ring element on the pipe body or near the upper end of the dangling pipe, another embodiment of the device for cleaning wells was made within the framework of the invention (see Fig. 10).

To increase the efficiency of cleaning the extracted pipes by allowing the capture of bottomhole sludge and foreign objects of large size in the horizontal plane near the protruding ring element on the pipe body or near the upper end of the dangling pipe, a leading housing 4 is connected to the lower integral or detachable part of the sub 1, in which installed with the possibility of limited longitudinal movement of the hollow rod 5, in the upper part of which is made a cylindrical heel 6, installed in the lead body ce 4 with the possibility of interaction with the movable valve 2. In the lower, for example, one-piece part of the hollow rod 5, a supporting sub 8 is fixedly mounted, the upper part of which is connected by means of a threaded connection to the lower part of the hollow rod 5 or with the receiving hollow extension cord or washing pipe, one-piece or detachable structures with the ability to pass captured objects through itself or is connected, for example, with an adapter with the ability to pass large captured objects through itself. In the passage channel of the carrier sub 8 is placed (installed) in the initial, for example horizontal, position a receiving valve made, for example, in the form of a reed valve 7 with the possibility of tilting upwards, for example, to the vertical extreme position, trapping downhole slurry and large foreign objects in section horizontal plane. The lower part of the drive housing 4 and the middle part of the hollow rod 5 are interconnected by an axially movable joint, in which the outer surface of the hollow rod 5 and the mating inner surface of the hole in the lower part of the drive housing 4 are in cross section, for example, in an octagonal shape (see figure 10).

To capture, extract bottomhole cuttings and other elements from the well, a reed-type receiving valve of circular shape 7 or other shape can be installed in the initial position inside the passage channel of the cylindrical heel 6, one-piece or detachable with a hollow rod 5 (see Figs. 7-8); or inside the carrier sub 8, which is fixedly installed in the lower integral or detachable part of the hollow rod 5, the passage channel of the cylindrical heel 6 of which is hollow to allow capture, near the protruding ring element on the pipe body or near the upper end of the extracted downhole slurry pipes, large objects size or inside the passage channel of the cylindrical heel 6 and inside the passage channel of the supporting sub, motionless or connected to the hollow rod 5 to prevent the bottom mud from falling out of it and to allow the capture of bottom mud and foreign objects near the protruding ring element on the pipe body or near the upper end of the dangling pipe .

At the same time, to increase the reliability of the device by providing the ability to capture downhole sludge and foreign objects of large size near the upper end of the extracted pipes, another embodiment of the device for cleaning wells is possible within the framework of the invention (see Fig. 10).

To improve the cleaning efficiency of the extracted pipes by providing the possibility of capture of bottomhole sludge and large foreign objects near the protruding ring element on the pipe body or near the upper end of the dangling pipe, in the lower integral or detachable part of the hollow rod 5, the passage channel of the cylindrical heel 6 of which is made hollow, the carrier sub 8 is fixedly mounted 7 howling circular shape or other shape to deflect upwards, e.g., in the vertical end position, gripping a downhole slurry and large foreign objects in the cross section horizontal plane (see. Figure 10).

To enable capture of downhole sludge and large foreign objects near the upper end of the pipes to be removed, the upper integral or detachable part of the supporting sub 8 with the receiving valve of the reed circular shape 7 or another shape can be fixedly connected to the lower integral or detachable part of the hollow rod 5. The upper integral or the detachable part of the supporting sub 8 can be rigidly connected to the hollow rod 5 or by means of a threaded connection for transmitting axial force and torque to 3-governing funnel; or by means of a receiving hollow extension cord of an appropriate length for cleaning and placing the lengthy upper part of the pipes to be removed; or by means of a washing pipe (washer) for thawing hydrate-paraffin deposits or hydrate-paraffin plugs in the well; or through an adapter with the ability to pass large-sized captured objects through itself; or by means of an adapter connected with a receiving hollow extension cord of an integral or detachable structure, with the ability to pass captured objects and accommodate removable pipes; or by means of another device of an integral or detachable design with the ability to pass large-sized captured objects and accommodate retrievable pipes through themselves; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or by other means of an integral or detachable structure; or by arranging interconnected other devices. The receiving hollow extension cord or washer for cleaning and placing inside its long top part of the pipes to be removed can be made, for example, of an integral structure, for example, for cleaning the pipe, below the "head" of the pipes to be removed. The receiving hollow extension cord or washer may be made either integral (integral design), for example, for cleaning the pipe, below the "head" of the extracted pipes; or a prefabricated structure of the corresponding pipes, including the appropriate number of pipes of the appropriate length for placement inside it, gripping and removing the long unscrewed or torn top of the extracted pipes, or long items.

To enable capture of bottomhole sludge and large foreign objects in the horizontal plane section, the supporting sub 8 with a receiving valve, for example, a circular reed shape 7, can be fixedly installed in the lower one-piece or detachable part of the hollow rod 5 to prevent the bottom mud from falling out of it; or in the lower one-piece or detachable part of the sub 1 to capture the bottomhole sludge and large foreign objects in cross section in a horizontal plane under the sub 1.

To improve the reliability of the device by providing the ability to capture downhole slurry and foreign objects of large size in cross section with a horizontal plane near the protruding ring element on the pipe body or near the upper end of the dangling pipe, another version of the device for cleaning wells can be made. Within the framework of the invention, a variant of a device for cleaning wells may be implemented, comprising a sub 1 with an internal passage channel in which a movable valve 2 fixed in its initial position is mounted with the ability to move upward. At the same time, in order to increase the efficiency of cleaning the extracted pipes by allowing the capture of bottomhole sludge and large foreign objects in cross section by a horizontal plane near the protruding annular element on the pipe body or near the upper end of the dangling pipe, the supporting sub 8 is fixedly mounted in the lower integral or detachable part of the sub 1 The upper one-piece or detachable part of the supporting sub 8 is connected through a threaded connection with the lower part of the sub 1 or with a hollow dlinitelem obmyvochnoy pipe or one-piece or split design with the ability to pass through a grippable objects or associated, e.g., with an adapter with the ability to pass through itself captured items of large size. In the passage channel of the carrier sub 8 is placed (installed) in the initial, for example horizontal, position a receiving valve made, for example, in the form of a reed valve 7 with the possibility of tilting upwards, for example, to the vertical extreme position, trapping downhole slurry and large foreign objects in section horizontal plane.

To enable capture of downhole slurry and large foreign objects near the upper end of the pipes to be removed, the upper integral or detachable part of the supporting sub 8 with the receiving valve of the reed circular shape 7 or other shape can be fixedly connected to the lower integral or detachable part of the sub 1. The upper integral or the detachable part of the supporting sub 8 can be rigidly connected to the lower part of the sub 1 or by means of a threaded connection for transmitting axial force and torque moment to guide funnel 3; or by means of a receiving hollow extension cord of an appropriate length for cleaning and placing a long upper part of the pipes to be removed, or by means of a washing pipe (washer) of an integral or detachable structure for thawing hydratoparaffin deposits or hydratoparaffin plugs in the well; or through an adapter with the ability to pass large-sized captured objects through itself; or by means of an adapter connected with a receiving hollow extension cord of an integral or detachable design with the ability to pass captured objects and accommodate removable pipes; or by means of another device of one-piece or detachable design with the ability to pass large objects that can be captured and to accommodate recoverable pipes, to capture downhole sludge and objects to be captured; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or by other means of an integral or detachable structure; or by arranging interconnected other devices. The receiving hollow extension cord or washer for cleaning and placing inside its long top part of the pipes to be removed can be made, for example, of an integral structure, for example, for cleaning the pipe, below the "head" of the pipes to be removed. The receiving hollow extension cord or washer can be made either integral (integral design), for example, to clean the pipe, below the "head" of the extracted pipes; or a prefabricated structure of the corresponding pipes, including the appropriate number of pipes of the appropriate length for placement inside it, gripping and removing the long unscrewed or torn top of the extracted pipes, or long items.

To ensure capture, extraction of bottomhole sludge and other elements from the well, the receiving valve of the reed circular shape 7 or other shape can be installed in the initial position inside the passage channel or cylindrical heel 6, one-piece or detachable with a hollow rod 5 (see Fig. 7-8 ); or to enable capture near the upper end of the extracted pipes of the bottom slurry and large foreign objects, inside the supporting sub 8, fixedly installed in the lower integral or detachable part of the hollow rod 5, the passage channel of the cylindrical heel 6 of which is made hollow (see Fig. 10) ; or inside the passage channel of the cylindrical heel 6 and inside the carrier sub 8, fixedly connected with the hollow rod 5, in order to increase the grip reliability by preventing the bottom slurry from falling out of the lead body 4 and allowing the placement of large foreign objects inside the device and capture near the upper end of the extracted pipes .

At the same time, to increase the reliability of the device by increasing the reliability of the capture, preventing the slurry from dropping from the leading body 4, ensuring that large objects can be placed inside the device and capture large objects, another embodiment of the device for cleaning wells is possible in the framework of the invention within the scope of the invention.

To improve the reliability of the capture, to prevent the loss of bottom slurry from the lead body 4, with the possibility of placing large-sized foreign objects inside the device and capture near the upper end of the pipes to be removed, with a lower integral or detachable part of the hollow rod 5, including a receiving valve of a reed circular shape 7 or another the form installed in the initial position inside the cylindrical heel 6 (see Fig. 7-8), the supporting sub is connected 8. In the passage channel of the supporting sub 8 is placed (installed) in in the forward position, a receiving valve of a reed circular shape 7 or another shape with the possibility of upward deviation from the initial position, for example, to a vertical position and capture downhole slurry and large foreign objects in cross section in a horizontal plane.

To improve the cleaning efficiency of the extracted pipes, the upper integral or detachable part of the bearing sub 8 can be connected by a threaded connection to the lower part of the hollow rod 5, the passage channel of the cylindrical heel 6 of which is hollow or in the passage channel of the cylindrical heel 6 of which the receiving valve is installed in the initial position, for example, a reed circular shape 7, or with a lower integral or detachable part of the sub 1 or by means of a receiving hollow extension cord (washer) integral or detachable constructions with the ability to pass large-sized captured objects through themselves; or through an adapter with the ability to pass large-sized captured objects through itself; or by means of an adapter connected with a receiving hollow extension cord (washer) of an integral or detachable design with the ability to pass large-sized captured objects through itself; or by means of another device of an integral or detachable design with the ability to pass large-sized captured objects through them, to capture downhole sludge, sand, proppant and other elements; or by arranging interconnected other devices with the possibility of placing a lengthy part of the extracted pipes, capturing the bottomhole sludge, sand, proppant and captured objects; or through another device; or by arranging interconnected other devices.

The reed valve is placed in the initial, for example horizontal, position, for example, on the upper end surface made, for example, in a horizontal plane, for example, a seat ring, which is fixedly mounted in the passage channel of the carrier sub 8. In the passage channel of the carrier sub 8, for example concentrically to its axis, for example, an annular saddle, in which, for example, on the annular ledge of the bearing sub 8, a landing ring is fixedly mounted. The passage channel of the landing ring is, for example, cylindrical in shape, for example, in the form of an opening.

The lower part of the supporting sub 8 can be made or one-piece with its upper part to increase the carrying capacity of the device; or detachable with the upper part of the supporting sub 8 and connected with its upper part, for example, by means of a threaded connection for transmitting axial force and torque from the sub 1 to the extracted pipes.

The landing ring can be installed either in the saddle on the annular ledge made in the bearing sub 8 to increase the load capacity of the device; or at the upper end of the lower part of the supporting sub 8 detachable with its upper part for transmitting axial force from the sub 1 to the reed valve.

The reed valve is, for example, circular in projection, for example, onto a horizontal plane in the form of a circular reed valve 7 with the possibility of overlapping the bore of the landing ring and with the possibility of trapping downhole sludge. The circular reed valve 7 is connected, for example, with a landing ring with the possibility of deviation upward from its original position. A circular reed valve 7 is placed on the upper end surface of the landing ring with the possibility of overlapping its passage channel and deflecting upward from the initial position to the extreme, for example, vertical, position. A circular reed valve 7 is placed on the upper end surface of the landing ring with the possibility of blocking its passage channel, trapping downhole sludge and foreign objects with a maximum diameter of a circle that describes them horizontally greater than the diameter of the outer surface of the dangling pipe, but less than the diameter of the captured outer surface of the protruding annular element on the body of the pipe.

To ensure the capture of downhole sludge and foreign objects, the bearing sub 8 is mounted motionless in the lower, for example, integral part of the hollow rod 5 with the possibility of limited longitudinal movement of the bearing sub 8 with respect to the lead body 4 and the interaction of the cylindrical heel 6 with the movable valve 2. The upper one-piece or the detachable part of the supporting sub 8 can be rigidly connected, for example, with the lower one-piece or detachable part of the hollow rod 5 or sub 1, for example, by means of a threaded connection thread, for example, the inner upper part of the carrier sub 8 with the thread of the outer lower part of the hollow rod 5 or sub 1 for transmitting axial force and torque.

The circular reed valve 7 can be installed in the initial, for example horizontal, position on the upper end surface of the landing ring with the possibility of capture, extraction of bottom mud, foreign objects and other trapped objects, for example, under the protruding ring element on the body of the removed rods or pipes of small diameter. Between the contacting surfaces of the bearing sub 8 and the seat ring, a seal can be installed to increase the sealing of the internal cavity of the device. In the upper part of the landing ring above its base is made, for example, in a horizontal plane, for example, a semi-cylindrical surface, curved (convex) upwards. The lower surface of the circular reed valve 7 is made reciprocal upper end surface of the landing ring in a shape that repeats its semi-cylindrical surface, curved (convex) up. The upper surface of the circular reed valve 7 is made in a form similar to its lower semi-cylindrical surface, curved upwards.

The diameter of the bore of the landing ring is made, for example, by the diameter of the outer surface of the dangling tube with the provision of an appropriate clearance for the passage of the dangling pipe inside the device. The radius of the lower surface of the circular reed valve 7 is made, for example, along the radius of the outer surface of the dangling pipe with a corresponding gap for the passage of the dangling pipe inside the lower half-cylindrical surface of the circular reed valve 7. The seat ring is fixed from longitudinal movement or fixed in the passage channel of the bearing sub 8, for example, a spacer sleeve located on the upper semi-cylindrical surface of the seat ring. For rigid fixation of the landing ring from the longitudinal movement of the annular ledge on the inner surface of the bearing sub 8 can be performed either under the landing ring to increase the carrying capacity of the device; or in the upper part of the carrier sub 8, for example, above the seat ring with the possibility of transmitting axial force from the sub 1 to the reed valve 7.

The circular reed valve 7 is mounted on the upper end surface of the seat ring with the possibility of tilting upward with rotation to the side from the initial (working) position to the highest upper, for example, a vertical position, allowing the upper end of the broken pipe to pass above the circular reed valve 7.

The circular reed valve 7 is connected, for example, with a seat ring, for example, by means of a swivel joint. The swivel of the circular reed valve 7 with the seating ring comprises a fixed support, made, for example, in the form of a bracket, fixedly mounted on the landing ring, for example, at the edge of its passage opening, a rotary support, made, for example, in the form of a bracket, fixedly mounted, for example , on the edge of the circular reed valve 7, and, for example, a cylindrical finger. A cylindrical pin is passed, for example, in the horizontal position of its axis through holes made in the rotary and fixed supports, and is fixed from axial movement. A cylindrical pin is installed, for example, with the possibility of limited, for example, longitudinal movement in holes made, for example, in a fixed support, for example, in the form of longitudinal grooves and the lower half-cylindrical surface of the circular reed valve 7 is seated upward on the upper half-cylindrical surface of the seat ring with a uniform fit of their contact surfaces. The circular reed valve 7, for example, is spring-loaded in the initial position by means of a spring, for example a torsion, which serves to facilitate closing of the internal passage channel of the device with a circular reed valve 7. A torsion spring is mounted, for example, on a cylindrical pin in an articulation of the seat ring with the circular reed valve 7. The reed valve may be spring-loaded in the initial position, for example, by an elastic leaf spring to facilitate closing the reed channel of the device through the reed valve.

The reed valve may be spring-loaded, for example, in its highest position, for example, with an elastic leaf spring, which serves to facilitate closing of the internal passage of the device with the reed valve. One end of the elastic leaf spring can be fixedly mounted, for example, on the upper surface of the reed valve with the possibility of interaction of the other end of the elastic leaf spring, for example, with the inner surface of the supporting sub 8. Or one end of the elastic leaf spring can be fixedly mounted, for example, on the outer the surface of the seat ring with the possibility of interaction of the other end of the elastic leaf spring, for example, with the upper surface of the reed valve.

The reed valve can be made up or convex upward in the initial, for example horizontal, position and round in projection onto the horizontal plane and placed in the passage channel of the carrier sub 8 with the possibility of its overlapping and deviation upward from the initial position to the extreme, for example, vertical, position placing the dangling part of the pipe; or a flat shape in the initial position, for example, in a horizontal plane and placed inside the passage channel of the supporting sub 8 with the possibility of its overlapping and deviation upward from the initial position to the highest position to capture small objects; or other form. To increase the reliability of the device by increasing the rigidity of the swivel and fixed bearings of a swivel joint, for example, a flat reed valve, for example, with a seat ring, the fixed support can be made on a radial protrusion made, for example, in a segmented shape on the inner surface of the passage channel of the seat ring. Moreover, the movable support can be performed on the edge of the reed valve, made, for example, of a segmented shape in the horizontal plane. In this case, a fixed support, for example, one-piece with a seat ring, and a rotary support, for example one-piece with a reed valve, are configured to deflect up the reed valve installed in its initial position on the end surface, made, for example, in the horizontal plane of the landing ring with the possibility of tight overlap valve of its passage channel and capture of bottomhole sludge.

A reed valve of a flat shape can be made, for example, in the form of a cross-section of the inner surface of the passage channel, for example, a spacer sleeve with a plane aligned, for example, with the flat lower surface of the reed valve in its open extreme upper position with the possibility of overlapping the inner passage channel of the device by the reed valve.

A reed valve of a flat shape can be connected, for example, with a seat ring by a swivel with the possibility of upwardly biasing the reed valve, blocking the passage channel of the device and trapping downhole sludge; or other movable connection. The swivel may include a support sleeve fixedly mounted on the edge of the bore of the landing ring, and a swivel support, the body of which is passed through the hole of the support sleeve, while the ends of the swivel support are motionlessly connected to the reed valve so that it can be deflected upwards and capture the downhole cuttings. The swivel may include a support sleeve fixedly mounted on the edge of the reed valve, and a swivel support, the body of which is passed through the hole of the support sleeve, while the ends of the swivel support are motionless connected to the wall, for example, a receiving extension with the ability to tilt up the reed valve, blocking the passage channel device and capture bottom mud.

The reed valve, either convex upward, or flat, or in another shape to ensure grip, for example, a dangling rod suspension under a protruding ring element on the rod body, can be made either with a U-shaped cut in the diametrical direction at right angles to the axis of rotation of the valve; or with a neckline of a different shape.

The reed valve can be made either in the form (in the form) of a circular reed valve 7 upwardly convex in the initial position with the ability to pass through a torn part of the pipe; or from separate, for example, reeds spring-loaded in the initial, for example horizontal, positioned around the circumference by means of, for example, clips inside the passage channel of the carrier sub 8 with the possibility of its overlapping and tilting up from the initial position to the upper position to enable capture and extraction of small items; or to enable the capture of foreign objects of irregular shape in the form (in shape) of a ruff made of elastic, for example, cables of the corresponding diameter, the free ends of which are placed inside the sleeve, and the other ends are rigidly fixed in the holes located around the circumference and height of the wall of the sleeve, installed, for example, motionless in the passage channel of the carrier sub 8; or in the form of a spherical (or mushroom-shaped) valve installed in its initial position in the landing saddle, for example, the passage channel of the supporting sub 8 with the possibility, for example, of limited upward movement and capture of bottomhole sludge; or in the form of a circular rotary relative to an axis, for example, coinciding with a diametrical horizontal axis, for example, spring-loaded in the initial, for example horizontal position of the shutter, placed in the passage channel of the bearing sub 8 with the possibility of rotation relative to the diametrical axis from the initial position, for example, in a vertical position and capture the bottomhole sludge; or in the form of another valve.

To capture the bottomhole sludge, the ball valve can be installed in the landing seat of the passage channel or the landing ring, motionless and hermetically installed in the carrier sub 8; or lower, for example, integral part of the bearing sub 8 to increase the tightness of the internal cavity of the device; or other appropriate place on the device; or other appropriate places on the device.

A receiving valve, for example, a circular reed shape 7 can be installed in the initial position or in the upper part of the supporting sub 8 to capture the bottom slurry and foreign objects with the upper part of the sub 8; or at the bottom of the carrier sub 8 to capture the bottomhole sludge and foreign objects with the bottom of the carrier sub 8; or in the upper and lower parts of the bearing sub 8 to capture the bottom slurry and foreign objects, the upper and lower parts of the bearing sub 8; or other appropriate place on the device; or other appropriate places on the device.

The upper, for example, integral part of the supporting sub 8 can be rigidly connected with the lower, for example, the integral part of the hollow rod 5 or sub 1 or by screwing the upper part of the supporting sub 8 with the lower part of the hollow rod 5 or sub 1 to transmit axial force and torque moment to recoverable pipes; or by means of a receiving hollow extension cord (s) of an integral or detachable design of appropriate length for placement inside its lengthy objects, their capture, simultaneous capture of downhole sludge and other elements; or by means of a washing pipe (s) of an integral or detachable structure for cleaning recoverable pipes and thawing hydrate-paraffin plugs or hydratoparaffin deposits; or through an adapter with the ability to pass large-sized captured objects through itself; or through an adapter associated with a receiving hollow extension, with the ability to pass through the captured objects and placement of the extracted pipes; or by means of another device with the ability to pass captured large-sized objects and capture downhole sludge, sand, proppant; or by arranging interconnected other devices with the possibility of placing a lengthy part of the extracted pipes, capturing the bottomhole sludge, sand, proppant and captured objects; or by other means of an integral or detachable structure; or by arranging interconnected other devices.

The receiving hollow extension for placement inside it and gripping long objects can be made, for example, of an integral structure for cleaning dangling pipes below the “head” of the pipes to be removed. The receiving hollow extension may be either integral (integral design), for example, to clean the pipe, below the "head" of the extracted pipe; or a prefabricated structure from the corresponding pipes for placement inside it, gripping and removing the long, unscrewed or dangling part of the extracted pipes, or long objects.

The cylindrical heel 6 of the hollow rod 5 can be installed in the lead housing 4 with the possibility of interaction or the lower end surface, for example, the lead housing 4 with the upper end surface, for example, the bearing sub 8, which ensures the transfer of the weight of the fishing tool column through the lead case 4 to the bearing sub 8; or the upper end surface, for example, a cylindrical heel 6 of the hollow rod 5 with the lower end surface, for example, the integral lower part of the sub 1, which ensures the transfer of the weight of the fishing tool string from the sub 1 through the hollow rod 5 to the carrier sub 8 of the device during the duty cycle.

The cylindrical heel 6 of the hollow rod 5 can be installed in the initial position in the drive housing 4 or with the possibility of free longitudinal movement with respect to the movable valve 2 to freely open the internal cavity of the device using the weight of the column of the fishing tool; or spring-loaded (fixed by the force of the compression spring) to prevent the premature opening of the internal cavity of the device when it is lowered into the well due to the possibility of grazing the lower end of the device over the ring ledges at the joints of the threaded joints of the casing pipes and cutting off the shear pins of the device, not reaching "Heads" of the extracted pipes. The compression spring can be placed either on the outer surface of the hollow rod 5 between the lower end of the drive housing 4 and the upper end, for example, of the supporting sub 8 to increase the resistance to longitudinal movement of the cylindrical heel 6 with respect to the movable valve 2; or inside the drive body 4 between the upper end of the cylindrical heel 6 and the lower end, for example, the integral lower part of the sub 1 to increase the resistance to the longitudinal movement of the cylindrical heel 6 with respect to the movable valve 2. To enable the capture of captured pipes, for example, by screwing the upper their threaded part with the lower part of the supporting sub 8 at the lower end of the lower, for example, integral part thereof, can be made, for example, fishing thread, for example, similar or, n example, mating threaded upper threaded portion recoverable tubes. To increase the reliability of capture of the extracted pipes in the lower, for example, one-piece part of the supporting sub 8, at its lower end, either a fishing sub, or a fishing coupling, or a tap, for example, with a similar fishing thread or, for example, with a reciprocal thread, can be fixedly installed threaded part of the extracted pipe. Associated with the lower detachable or integral part of the supporting sub 8 by means of a threaded connection with a hollow extension cord or with another device, or with other interconnected devices, a fishing sub or fishing sleeve, or a tap allows the capture of downhole sludge, extracted pipes, for example, by screwing the fishing thread, or fishing sub, or fishing coupling, or tap with the upper thread of the pipes to be removed, striking up or down on stuck t rub with a shock mechanism during a full working cycle for one tripping of a fishing tool.

To capture the extracted pipes, the outer working conical surface of the tap can be made with a smooth working conical surface for gripping (holding) the extracted pipes by the friction force between the inner surface of the coupling of the extracted pipes and the external conical surface of the tap created by its tilt angle and axial force as a result of weight unloading fishing tool columns; or with a fishing thread on a working conical surface similar to the thread of the upper threaded portion of the extracted pipes for gripping them by screwing the fishing thread of the tap with the upper thread of the extracted pipes; or with a screw fishing thread, for example, a triangular profile for gripping the extracted pipes by cutting the reciprocal fishing thread on the inner surface of the coupling of the extracted pipes when turning off the stuck pipes to extract them in parts and with grooves, for example longitudinal, for example, a persistent triangular profile for chip formation and exit .

The lower end, for example, of the integral part of the supporting sub 8 for combining the axes of the device and the removable pipe string can be made either with a notch along a helical line forming a ledge and with a conical chamfer on the inner surface; or with wavy teeth and with a tapered chamfer on the inner surface for circulation of the downhole fluid; or for cleaning near the planted part, or the castle part, or the coupling part, or other projections of the pipe with an annular conical chamfer on the inner surface; or in the form of a “pen” and with a conical chamfer on the inner surface to increase the circulation of flushing fluid; or to ensure the removal of the upper end of the extracted pipes from the borehole wall and enter the device inside and to ensure the cleaning of the short part of the dangling pipe near the upset part, or the lock part, or other projections of the pipe with a wide, for example, U-shaped, for example, longitudinal cut and conical chamfer on the inner surface; or in case of deviation of the upper end of the extracted pipe string from the center of the well with a notch along a spiral line passing into a lateral curly longitudinal groove with a retracting hook to ensure the removal of the upper end of the extracted pipes from the "cavity" of the borehole and into the device; or for drilling pipes (ring milling) in the form of an annular milling cutter with cutting teeth, or in the form of an annular milling cutter with cutting teeth deposited with an alloy containing brass and carbide cutting with appropriate grain size or reinforced with carbide cutting elements; or in the form of an annular milling cutter with cutting teeth of various shapes, depending on the type (purpose) of milling work, which can be welded with an alloy containing brass and corresponding carbide cutting cutting by abrasion of brass of corresponding grain size, or reinforced with cutting corresponding carbide elements; or for annular milling of a deformed pipe in the form of an annular milling cutter, which inside is made, for example, with bevel and with shoe teeth on a conical surface or on conical and external surfaces, which are fused with an alloy containing brass and corresponding carbide inclusions cutting as a result of abrasion of brass of corresponding grain size; or for milling dense slurry in the form of an annular milling cutter with hard-alloy carbide teeth welded inside or outside or inside and outside using brass and corresponding carbide cutting by abrasion of brass of corresponding grain size; or in the form of a spider, or in the form of a pike mouth to capture foreign objects; or in the form of a pike mouth with hooks placed along the length and radius of its inner working surface to capture the dangling part of the cable; or threaded to attach another fixture; or threaded for connecting other devices; or, for example, with two, for example, longitudinal protrusions, for example, a U-shape for placement in corresponding longitudinal grooves, made in the upper part of another device for connecting to the device or to other devices by means of a welded joint; or other form.

To center the device in the well, when the inner diameter of the well is much larger than the diameter of the extracted pipes, the outer diameter of the lower part of the supporting sub 8 can be made along the diameter of the well with the appropriate clearance for the passage of the device in the well.

In the framework of the invention, to improve the reliability of the device by providing the possibility of combining the axes of the device and the extracted string of pipes and increasing the efficiency of their cleaning, it is possible (can be performed) another embodiment of the device for cleaning wells (see 11)

To increase the reliability of the device by providing the possibility of combining the axes of the device and the extracted pipe string and increasing the efficiency of cleaning the annular annular space in the lower, for example, integral part of the supporting sub 8, a guide funnel 3 can be fixedly mounted (rigidly). At the lower end of the lower, for example, integral part of the supporting sub 8 can be performed or fishing thread to enable capture of the extracted pipes by screwing fishing thread not existing sub 8 with thread of recoverable pipes; or a thread for attaching a guide funnel 3, which serves to combine the axes of the device and the extracted pipe string. In the lower, for example, one-piece part of the supporting sub 8, a thread is made, for example, an external thread for attaching a guide funnel 3, which serves to combine the axes of the device and the extracted pipe string and improve the cleaning efficiency of the upper part of the pipes. The guide funnel 3 can be fixedly mounted, for example, in the lower integral part of the supporting sub 8, for example, by threadedly connecting the threads of the lower, for example, the integral part of the supporting sub 8 with a thread made in the upper, for example, integral part of the guide funnel 3.

A receiving valve, for example, a circular reed shape 7 can be installed in the initial position inside the guide funnel 3 to capture the bottomhole sludge, foreign objects guide funnel 3; or other appropriate place on the device; or other appropriate places on the device.

The upper, for example, one-piece part of the guide funnel 3 can be rigidly connected with the lower, for example, one-piece part of the carrier sub 8 or by means of a threaded connection for transmitting axial force and torque to the guide funnel 3; or by means of a receiving hollow extension cord of an appropriate length for cleaning and placing the lengthy upper part of the pipes to be removed; or by means of, for example, a washing pipe for thawing hydratoparaffin deposits or hydratoparaffin plugs; or by means of an adapter connected with a receiving hollow extension cord of large diameter with the ability to pass large-sized captured objects through itself; or by means of another device with the ability to pass through the captured large-sized objects and capture downhole sludge; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or by other means of an integral or detachable structure; or by arranging interconnected other devices.

The receiving hollow extension for cleaning and placement inside its long top of the extracted pipes can be made, for example, one-piece construction. The receiving hollow extension may be either integral (integral design), for example, to clean the pipe, below the "head" of the extracted pipe; or a prefabricated structure from the corresponding pipes for placement inside it, gripping and removing the long, unscrewed or dangling part of the extracted pipes, or long objects.

To transmit axial load and torque from the sub 1 to the guide funnel 3, the upper, for example, one-piece part of the guide funnel 3 can be rigidly connected to the bottom, for example, the one-piece part of the receiving extension or washing pipe or by screwing the upper part of the guide funnel 3 to the lower part of the receiving extension cord; or by welding, for example, two longitudinal protrusions, for example, a U-shaped, made in the upper part of the guide funnel 3 and placed in the corresponding longitudinal grooves of the lower part of the receiving hollow extension, with the possibility of passing a large diameter ring element protruding on the pipe body ; or through another compound.

The lower end of the guide funnel 3 to ensure the alignment of the axes of the device and the extracted pipe string can be made either with a notch along a helical line forming a ledge, and with a conical chamfer on the inner surface; or for circulation of the downhole fluid, for example, with undulating teeth and with a conical chamfer on the inner surface; or to ensure cleaning near the planted part, or the castle part, or other protrusions of the pipe with an annular conical bevel on the inner surface; or in the form of a “pen” and with a conical chamfer on the inner surface to increase the circulation of flushing fluid; or to ensure the removal of the upper end of the extracted pipes from the borehole wall and enter the device inside and to ensure the cleaning of the short part of the dangling pipe near the upset part, or the lock part, or other projections of the pipe with a wide, for example, U-shaped, for example, longitudinal cut and conical chamfer on the inner surface; or in case of deviation of the upper end of the extracted pipe string from the center of the well with a notch along a spiral line passing into a lateral curly longitudinal groove with a retracting hook to ensure the removal of the upper end of the extracted pipes from the "cavity" of the borehole and into the device; or for drilling pipes (ring milling) in the form of an annular milling cutter with cutting teeth, or in the form of an annular milling cutter with cutting teeth deposited with an alloy containing brass and carbide cutting with appropriate grain size or reinforced with carbide cutting elements; or in the form of an annular milling cutter with cutting teeth of various shapes, depending on the type of milling work, which can be deposited with an alloy containing brass and corresponding carbide cutting cutting by abrasion of brass of corresponding grain size, or reinforced with cutting corresponding carbide elements; or for annular milling of a deformed pipe in the form of an annular milling cutter, which inside is made, for example, with bevel and with shoe teeth on a conical surface or on a conical and external surface, which are fused with an alloy containing brass and corresponding carbide inclusions cutting as a result of abrasion of brass of corresponding grain size; or for milling dense slurry in the form of an annular milling cutter with hard-alloy carbide teeth welded inside or outside or inside and outside using brass and corresponding carbide cutting by abrasion of brass of corresponding grain size; or in the form of a spider, or in the form of a pike mouth to capture foreign objects; or in the form of a pike mouth with hooks placed along the length and radius of its inner working surface to capture the dangling part of the cable; or threaded to attach another fixture; or with a thread for attaching devices; or, for example, with two, for example, longitudinal protrusions, for example a U-shaped, for placement in the corresponding longitudinal grooves made in the upper part of another device for connecting to the device or to other devices by means of a welded joint; or other form.

To center the device in the well, when the inner diameter of the well is much larger than the diameter of the extracted pipes, the outer diameter of the lower part of the guide funnel 3 can be made along the diameter of the well with the appropriate clearance for the device to pass through the well.

To transmit axial load and torque to the guide funnel 3 during the working cycle of cleaning the extracted pipes, the upper, for example, one-piece part of the guide funnel 3 can be rigidly connected with the bottom, for example, one-piece part of the carrier sub 8 or through a threaded connection; or by welding, for example, two longitudinal protrusions, for example a U-shaped, made in the upper part of the guide funnel 3, placed in the corresponding longitudinal grooves, made in the lower part of the supporting sub 8, with the possibility of passing through itself an annular element protruding on the pipe body large diameter; or through another compound.

To increase the reliability of the device by providing the ability to capture removable pipes on the outer surface of the protruding annular element on the pipe body, with a lower integral or detachable part of the hollow rod 5, the passage channel of the cylindrical heel 6 of which is hollow or in the passage channel of the cylindrical heel 6 of which is installed in the original in position, the receiving valve of the reed circular shape 7 or another shape can be fixedly connected to the supporting body 9 with an internal spiral conical surface (see Fig. 12-13). In this case, the upper one-piece or detachable part of the bearing body 9 can be connected with the lower part of the hollow rod 5 by means of a threaded connection with the ability to pass through a torn part of the pipe or by means of a bearing sub 8 with a receiving valve of a reed circular shape 7 or another shape with the possibility of capturing the bottomhole sludge ; or through another device; or through interconnected other devices. A spiral tape gripping element 10 is mounted with axial movement in the main body 9, a spiral conical surface is made on the outer surface of the spiral tape gripping element 10, and a screw fishing cut is made on the inside.

To enable capture of the extracted pipes by the outer surface of the protruding annular element on the pipe body of the extracted pipes, the supporting housing 9 can be fixedly mounted in the lower integral or detachable part of the sub 1, or the hollow rod 5, or the supporting sub 8. To enable the capture of the extracted pipes, the outer surface in the bearing housing 9 is mounted with the possibility of longitudinal movement of the gripping element. To enable capture of the retrievable pipes by the outer surface of the protruding annular element on the pipe body of the retrievable pipes, the capture element is made in the form of a spiral tape capture element 10. The spiral tape capture element 10 (capture element) is mounted axially movable in the bearing body 9 with an internal spiral conical surface.

In the framework of the invention, to improve the reliability of the device by providing the ability to capture the extracted pipes on the outer surface of the protruding annular element on the pipe body, another embodiment of the device for cleaning wells is possible (see Figs. 12-13).

To increase the reliability of the device by providing the ability to capture removable pipes on the outer surface of the protruding annular element on the body of the pipe, with a lower integral or detachable hollow rod 5, in the passage channel of the cylindrical heel 6 which is installed in the initial position, the receiving valve reed circular shape 7 or other shape , the carrier body 9 is fixedly connected with the internal spiral conical surface (see Figs. 12-13). A spiral tape gripping element 10 is mounted in the main body 9 with the possibility of axial movement. A spiral conical surface is made on the outer surface of the spiral tape gripping element 10, and a screw fishing thread is cut on the inside (see Figs. 12-13).

To increase the cleaning efficiency of the pipes to be removed, the upper integral or detachable part of the bearing body 9 can be connected by a threaded connection to the lower integral or detachable part of the hollow rod 5, in the passage channel of the cylindrical heel 6 of which the receiving valve of the reed circular shape 7 is installed in the initial position (see Fig. .12-13) or of another form, or by means of a receiving hollow extension cord (washer) of an integral or detachable design with the ability to pass captured objects of large zmera; or by means of an adapter with the ability to pass large-sized captured objects through itself or by an adapter connected with a receiving hollow extension cord (washer) with the ability to pass large-sized captured objects through it; or by means of another device of an integral or detachable design with the ability to pass through large-sized capture objects and capture downhole cuttings; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or through another device; or by arranging interconnected other devices.

In the framework of the invention, to improve the reliability of the device by providing the ability to capture the extracted pipes on the outer surface of the protruding annular element on the pipe body, another embodiment of the device for cleaning wells is possible.

To improve the reliability of the device by providing the ability to capture removable pipes on the outer surface of the protruding annular element on the pipe body, with a lower integral or detachable part of the hollow rod 5, the passage channel of the cylindrical heel 6 of which is hollow, the bearing body 9 is fixedly connected to the inner spiral conical surface , in the bearing case 9 is mounted axially movable with a spiral tape gripping element 10, on the outer surface of the spiral tape gripper vayuschego element 10 is a spiral conical surface, but on the inside - the picker helical thread.

To increase the cleaning efficiency of the extracted pipes, the upper one-piece or detachable part of the bearing housing 9 can be connected by a threaded connection to the lower one-piece or detachable part of the hollow rod 5, the passage channel of the cylindrical heel 6 of which is hollow, or by the hollow extension cord (washer) of one-piece or detachable constructions with the ability to pass large-sized captured objects through themselves; or by means of an adapter with the ability to pass large-sized captured objects through itself or by an adapter connected with a receiving hollow extension cord (washer) with the ability to pass large-sized captured objects through it; or by means of another device of an integral or detachable design with the ability to pass through large-sized capture objects and capture downhole cuttings; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or through another device; or by arranging interconnected other devices.

In the framework of the invention, to improve the reliability of the device by providing the ability to capture the extracted pipes on the outer surface of the protruding annular element on the pipe body, another embodiment of the device for cleaning wells is possible (see Fig. 14-15).

To increase the reliability of the device by providing the ability to capture removable pipes on the outer surface of the protruding annular element on the pipe body with a lower integral or detachable part of the supporting sub 8, connected with the hollow rod 5, the passage channel of the cylindrical heel 6 of which is hollow, and in the passage channel of the carrier the sub 8 is installed in the initial position, the valve reed circular shape 7 or another shape, the carrier body 9 is fixedly connected with the internal spiral conical surface (see f ig. 14). A spiral tape gripping element 10 is mounted in the main body 9 with the possibility of axial movement. On the outer surface of the spiral tape gripping element 10 there is a spiral conical surface, and on the inside a screw fishing thread (see Figs. 14-15).

To increase the cleaning efficiency of the extracted pipes, the upper one-piece or detachable part of the bearing housing 9 can be connected via a threaded connection to the lower one-piece or detachable part of the bearing sub 8, including an in-position receiving valve of a reed circular 7 or another shape or through a receiving hollow extension (washer) ) one-piece or detachable design with the ability to pass captured large objects; or by means of an adapter with the ability to pass large-sized captured objects through itself or by means of an adapter connected to a hollow extension cord (washer) of an integral or detachable structure with the ability to pass large-sized captured objects through itself; or by means of another device of an integral or detachable design with the ability to pass through large-sized capture objects and capture downhole cuttings; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or through another device; or by arranging interconnected other devices.

In the framework of the invention, to improve the reliability of the device by providing the ability to capture the extracted pipes on the outer surface of the protruding annular element on the pipe body, another embodiment of the device for cleaning wells is possible.

To increase the reliability of the device by providing the ability to capture removable pipes on the outer surface of the protruding annular element on the pipe body with a lower integral or detachable part of the supporting sub 8, connected with the hollow rod 5, in the passage channel of the cylindrical heel 6 of which and in the passage channel of the bearing sub 8 installed in the initial position, the valve reed circular shape 7 or another shape, the carrier body 9 is fixedly connected with the inner spiral conical surface. A spiral tape gripping element 10 is mounted with axial movement in the main body 9, a spiral conical surface is made on the outer surface of the spiral tape gripping element 10, and a screw fishing cut is made on the inside.

To increase the cleaning efficiency of the extracted pipes, the upper integral or detachable part of the bearing housing 9 can be connected by a threaded connection to the lower integral or detachable part of the bearing sub 8, including a reed circular valve 7 or other shape installed in the initial position, or by means of a receiving hollow extension ( washer) of one-piece or detachable design with the ability to pass large-sized captured objects through itself; or through an adapter with the ability to pass large-sized captured objects through itself; or by means of an adapter connected with a receiving hollow extension cord (washer) of an integral or detachable design with the ability to pass large-sized captured objects through itself; or by means of another device of an integral or detachable design with the ability to pass through large-sized capture objects and capture downhole cuttings; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or through another device; or by arranging interconnected other devices.

Associated with the lower one-piece or detachable part of the carrier sub 8 by means of a threaded connection with a hollow rod or with another device or with other devices, the carrier body 9 with an internal spiral conical surface mounted inside it with the possibility of axial movement of the spiral tape gripping element 10 provide gripping, unscrewing the removable pipes, striking up or down with a shock mechanism on stuck pipes, releasing the device from stuck pipes in one joint venture borehole lifting device for cleaning wells.

The lead body 4 connected to the sub 1, installed inside it with limited travel capability, a hollow rod 5, on the upper end of which a cylindrical heel 6 is made with the possibility of interaction with the movable valve 2, increase the efficiency of cleaning the extracted pipes, ensure the capture of bottomhole sludge, striking by the weight of the column a fishing tool or striking up or down with a percussion mechanism on stuck pipes, unscrewing the pipes to be removed or releasing the device from stuck pipes without neous lifting tool during a complete working cycle for one spuskopodem wells for cleaning the device.

To increase the cleaning efficiency of the extracted pipes, the upper one-piece or detachable part of the bearing housing 9 can be connected through a threaded connection to the lower one-piece or detachable part of the sub 1 by means of a receiving hollow extension (washer) of one-piece or detachable design or by means of an adapter with the ability to pass large objects size; or by means of an adapter connected with a receiving hollow extension cord (washer) of an integral or detachable design with the ability to pass large-sized captured objects through itself; or by means of another device of an integral or detachable design with the ability to pass through large-sized capture objects and capture downhole cuttings; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or through another device; or by arranging interconnected other devices.

To enable capture of the extracted pipes over the outer surface, a gripping element is mounted with the possibility of longitudinal movement in the supporting housing 9. To enable capture of the retrievable pipes by the outer surface of the protruding annular element on the body of the pipe of the retrievable pipes, the capture element is made in the form of a spiral tape gripping element 10. On the inner surface of the supporting body 9, on the outer screw surface of the spiral tape gripping element 10 in contact with it, there is a spiral conical surface, for example, left to work, for example, with the right column of the fishing tool. To ensure the release of the device on the inner screw surface of the spiral tape picking element 10, a multi-start screw cutting is made, made, for example, with a persistent triangular profile, which serves to increase adhesion to the outer surface of the emergency pipe. Screw fishing cutting on the inner surface of the spiral tape gripping element 10 has the same direction and pitch as the spiral conical surface of the supporting body 9.

The upper integral or detachable part of the bearing housing 9 may be rigidly connected with the lower integral or detachable part of the sub 1 or the hollow rod 5, or the supporting sub 8 or a threaded connection for transmitting axial force and torque to the extracted pipes; or by means of a receiving hollow extension cord of an appropriate length for placing inside it and gripping long objects located at the upper end, for example, a protruding ring element on the pipe body of the pipes to be removed; or by means of, for example, a washing pipe for thawing hydratoparaffin deposits or hydratoparaffin plugs in a well; or, for example, a tube, including gripping elements, used to capture small diameter pipes or rods of different diameters behind the body under the protruding ring element on the pipe or rod body, when the long part remaining in the well, for example, the rod suspension, is free from tubing, great for grabbing on the outer surface of dangling tubing; or a device, for example, a tube, including a corresponding gripping element for gripping a pipe string, for example, by the body of the pipe; or by means of an adapter with the ability to pass large captured objects in cross section in a horizontal plane or with the possibility of working with a receiving hollow extension cord with a large inner diameter; or other device; or arrangement of interconnected other devices.

The supporting sub 8, including a valve, for example, of a circular reed shape 7, to prevent the slurry from falling out of the receiving hollow extension (washing pipe) of the device, can be installed either below the extender to prevent the slurry from falling out of the extension, or above the receiving hollow extender to prevent downhole slurry falling from the top of the device; or one supporting sub 8, including a valve, for example, of a circular reed shape 7, can be placed below the receiving extension to catch the bottom slurry under the extension, and another supporting sub 8, for example, with a valve of circular reed shape 7, simultaneously above the receiving hollow extension for preventing the fall of bottom mud from the top of the device; or at another appropriate location in the well cleaning device; or other appropriate places on the device.

The receiving valve, for example, reed circular shape 7 can be installed in the initial position in the receiving extension cord or in the upper, for example, one-piece part to capture the bottom slurry and foreign objects with the upper part of the receiving extension cord; or in the lower, for example, one-piece part for trapping downhole sludge and foreign objects with the lower part of the receiving extension; or in the upper part, for example, the integral part and the lower part, for example, the integral part to capture the bottom slurry and foreign objects, the upper and lower part of the receiving extension; or other appropriate place on the device; or other appropriate places on the device.

The receiving hollow extension may be either integral (integral design), for example, to clean the pipe, below the "head" of the extracted pipe; or a prefabricated structure from the corresponding pipes for placement inside it, gripping and removing the long, unscrewed or dangling part of the extracted pipes, or long objects.

To ensure maximum lifting force that is applied to the device when removing the pipe string, the angle of inclination of the conical surface of the bearing body 9 and the spiral tape gripping element 10 is made from the condition of ensuring the strength of the connection of the device with the pipe close to the tensile strength of the pipe string being removed, and from the condition of self-jamming the capturing element 10.

To increase the load-bearing capacity (load-bearing capacity) of the device, for example, the lower part of the spiral conical surface of the bearing body 9 and the upper part of the spiral conical surface of the spiral tape gripping element 10 can be made either with a tape helical cylindrical surface, or other shape.

Under the spiral conical surface in the lower part of the supporting body 9, an annular saddle is made. A longitudinal groove is made in the bearing housing 9 on a spiral conical surface in its lower part above the annular saddle. In the lower part of the spiral tape gripping element 10, to limit its rotation relative to the bearing body 9, a pull flag is fixedly mounted or rigidly fixed or made, which is located in a longitudinal groove on the spiral conical surface of the bearing case 9 to ensure the emergency pipe is guided into the device. In the lower part of the carrier body 9 under the spiral tape gripping element 10, on the inner surface of the carrier flag, in the annular seat of the carrier body 9, a guide ring 11 with a carrier pin is fixedly mounted, which is located in the longitudinal groove of the spiral conical surface of the carrier body 9. On the outer surface of the guide rings 11 with a lead finger a longitudinal groove is made, which is aligned in the longitudinal plane with the longitudinal groove of the spiral conical surface of the bearing body 9 with a possible the ability to ensure axial and radial movement of the leader flag. The driving finger of the guide ring 11 is placed in the longitudinal groove of the spiral conical surface of the bearing body 9 with the possibility of interaction with the lower end of the spiral tape gripping element 10 and the side surface of the leader flag. The lower end of the spiral tape gripping element 10 through the longitudinal end surface and the longitudinal side surface of the leash flag is associated with the possibility of interaction with the longitudinal lateral surface of the leash pin, which ensures the transmission of torque from the bearing body 9 to the spiral tape gripping element 10 when the device is released. The lower end of the spiral tape gripping element 10 with a leash flag is installed in a longitudinal groove on the inner spiral conical surface of the bearing body 9 with the possibility of axial and radial movement.

The longitudinal side surface of the driving finger may be either a reciprocal longitudinal side surface of the longitudinal groove on the spiral conical surface of the bearing body 9 to limit the rotation of the spiral tape gripping element 10 relative to the bearing body 9; or the longitudinal lateral part of the driver’s finger and the longitudinal ledge in contact with it on a spiral conical surface, combined with the longitudinal lateral surface of the longitudinal groove of the bearing housing 9, can be wedge-shaped in cross section to increase the rigidity of the connection of the driver’s finger to the bearing housing 9; or other form.

Moreover, the longitudinal ledge on the spiral conical surface in the longitudinal groove of the bearing housing 9 can be made in the cross section of a wedge-shaped shape, expanding unilaterally from the axis of the bearing housing 9, and the longitudinal side of the driver pin can be made in the cross-section of a wedge-shaped shape, expanding unilaterally to the axis of the guide rings 11.

The longitudinal lateral surface of the driving finger and the corresponding longitudinal end surface of the lower end of the spiral tape gripping element 10, the lateral surface of the flag are made, for example, inclined to the generatrix of the cylindrical surface in the longitudinal groove of the spiral conical surface to divert the lower end of the gripping element 10 from the outer surface pipes when releasing the device. Moreover, the lateral part of the leader flag and the longitudinal lower end of the spiral tape gripping element 10 have a wedge-shaped cross-section with a one-sided extension to its axis, and the counter longitudinal side surface of the driver’s finger is made in a cross-section of a wedge-shaped one-sided extension from the axis of the guide ring 11. For tap the lower end of the spiral tape gripping element 10 from the outer surface of the pipe side of the flag with a longitudinal lower end of the spiral rod catching member 10 may be formed in cross-section or a wedge shape with a one-sided extension axis of the device. The longitudinal lateral surface of the leader finger can be made in the cross section of a wedge-shaped shape with one-sided expansion from the axis of the device; or other form.

In the bearing housing 9 above or above its spiral conical surface, in order to create a tightness between the outer surface, for example, a protruding annular element on the pipe body and the inner surface of the device, for example, a seal, for example a lip seal, is installed on the thrust ring, which allows the circulation of the washing liquid to be restored, intensive flushing; install oil and acid baths.

A screw ledge on a spiral conical surface in the bearing body 9 and a thrust upper screw part of the spiral tape gripping element 10 (gripping element) interacting with it in the extreme upper position can be made in section by a longitudinal plane or rectangular shape to limit the axial upward movement of the spiral tape gripping element 10; or wedge-shaped to increase the reliability of centering the device on the capture pipe or when the retrievable pipe enters the device or when it is released; or other form. In this case, the screw ledge of the bearing housing 9 can be made in a wedge-shaped shape, expanding one-sidedly upward from its axis, and the thrust upper screw part of the spiral tape gripping element 10 can be made in a wedge-shaped shape, expanding one-sidedly downward to its axis.

In the upper part of the bearing body 9 at the lower end of the lower, for example, integral part, or sub 1, or hollow rod 5, or bearing sub 8, an annular stop can be made with the possibility of landing on the upper end of the protruding ring element on the pipe body in the working position of the spiral tape gripping element 10.

An annular stop restricts the longitudinal movement in the device of the protruding ring element on the pipe body (sleeve) in the working position of the spiral band gripping element 10 on the outer surface of the sleeve, located, for example, in the lower part of the broken pipe. An annular stop for limiting longitudinal movement in the device of the annular element protruding on the pipe body in the working position of the spiral band gripping element 10 can be performed either on the lower end, the lower, for example, one-piece part, or sub 1, or hollow rod 5, or supporting sub 8 ; or at the lower end of the thrust sleeve located inside the upper part of the bearing housing 9 with the possibility of gripping for a short sleeve; or at the bottom of the thrust sleeve with the possibility of gripping the coupling; or in the upper part of the thrust sleeve with the possibility of gripping the coupling; or on the corresponding abutment surface of another abutment element located inside the upper part of the device above the spiral conical surface of the bearing housing 9.

The inner diameter of the passage channel, or sub 1, or of the cylindrical heel 6 and the hollow rod 5, or of the supporting sub 8, or other stop element can be made, for example, larger than the diameter of the outer surface of the dangling pipe, but not larger than the diameter of the inner surface of the spiral tape gripping element 10 in the free position. In this case, the inner diameter of either the sub 1, or the cylindrical heel 6 and the hollow rod 5, or the supporting sub 8, or another thrust element can be made, for example, less than the diameter of the outer surface of the grip, for example, the sleeve of the extracted pipes, forming an annular stop in the bearing housing 9 with the possibility of interaction with the upper end face of the coupling.

The bearing body 9 and the hollow rod 5 are connected to the sub 1 by the lead body 4 with the possibility of its limited, for example, axial movement with respect to the bearing case 9 and the interaction of the cylindrical heel 6 with the movable valve 2. The cylindrical heel 6 of the hollow rod 5 is installed in the lead case 4 with the possibility of limited longitudinal movement upward by a length, for example, not less than the necessary and sufficient depth of the working approach of the spiral tape gripping element 10 on the outer surface of the clutch.

The length of the lower part of the hollow rod 5, which protrudes from the driving housing 4, or the length of the working stroke of the bearing housing 9 with respect to the sub 1 should, for example, be not less than the working depth of the spiral tape gripping element 10 on the outer surface of the clutch.

The length of the working stroke of the bearing housing 9 with respect to the sub 1 can be made or not less than the depth of the working approach of the spiral tape gripping element 10 on the outer surface of the clutch; or not less than the length used to release the device by screwing it from the outer surface of the coupling without applying axial load; or not less than another length serving, for example, to ensure the interaction of the cylindrical heel 6 with the movable valve 2 with the possibility of opening the internal cavity of the device with the movable valve 2.

The cylindrical heel 6 of the hollow rod 5 can be installed in the lead housing 4 with the possibility of interaction or the lower end surface, for example, the lead housing 4 with the upper end surface, for example, the bearing housing 9, which ensures the transfer of the weight of the fishing tool string from the sub 1 through the lead housing 4 to the bearing housing 9; or the upper end surface, for example, a cylindrical heel 6 of the hollow rod 5 with the lower end surface, for example, the integral lower part of the sub 1, which ensures the transfer of the weight of the fishing tool string from the sub 1 through the hollow rod 5 to the carrier body 9 of the device during the duty cycle.

The presence of a longitudinal movement of the hollow rod 5 with respect to the sub 1 makes it possible to knock down the stuck recoverable pipes down by the weight of the fishing tool string to effect the movement of the recoverable pipes down, and then up, i.e. to implement the possibility of "pacing" stuck recoverable pipes, which increases the reliability of the device.

The cylindrical heel pin 6 of the hollow rod 5 is installed in the drive housing 4 with the possibility of limited longitudinal movement upwards, this increases the efficiency of cleaning the pipes to be removed, unscrewing them, releasing the device without simultaneously lifting the tool and striking the weight of the fishing tool string against the stuck pipes, which increases the reliability of operation devices.

The cylindrical heel 6 of the hollow rod 5 can be installed in its original position in the drive housing 4 or with the possibility of free axial movement with respect to the movable valve 2 to ensure the release of the device by torsion without simultaneously lifting the tool; or is spring-loaded (fixed) by the force of the compression spring to prevent premature opening of the device’s internal cavity when moving downward due to the possibility of grazing its lower end on the ring ledges at the joints of the threaded joints of the casing string and cutting off the shear pins without reaching the “head” pipes. In this case, the compression spring can be placed either between the lower end, for example, the integral lower part of the drive housing 4 and, for example, the upper end, for example, the integral upper part of the bearing body 9, or between the upper end, for example, a cylindrical heel 6 and the lower end, for example, the integral lower part of the sub 1 inside the lead housing 4; or to reduce the axial resistance force from the weight of the device when it is released by torsion (rotation) without simultaneously lifting the tool inside the drive housing 4 on the outer surface of the hollow rod 5 between the annular ledge of the outer surface of the cylindrical heel 6 and the annular protrusion, for example, the inner surface of the lower part of the lead housing four.

A thread is made in the lower part of the bearing body 9 under the guide ring, for example, an internal thread for attaching a device, for example, a guide funnel 12 (in other figures, the guide funnel is indicated by 3). To create tightness between the contacting surfaces in the connection of the guide funnel 12 with the supporting body 9, for example, between the guide ring 11 and the guide funnel 12, a seal is made, for example, in the form of an o-ring, for example, round in cross section.

The lower end of the guide funnel 12 to ensure the alignment of the axes of the device and the extracted pipe string can be made either with a notch along a helical line forming a ledge, and with a conical chamfer on the inner surface; or for circulation of the downhole fluid, for example, with undulating teeth and with a conical chamfer on the inner surface; or to ensure cleaning near the pronounced part, or the locking part, or the coupling part, or other protrusions of the pipe with an annular conical bevel on the inner surface; or in the form of a “pen” and with a conical chamfer on the inner surface to increase the circulation of flushing fluid; or to ensure the removal of the upper end of the extracted pipes from the borehole wall and enter the device inside and to ensure the cleaning of the short part of the dangling pipe near the upset part, or the lock part, or other projections of the pipe with a wide, for example, U-shaped, for example, longitudinal cut and conical chamfer on the inner surface; or in case of deviation of the upper end of the extracted pipe string from the center of the well with a notch along a spiral line passing into a lateral curly longitudinal groove with a retracting hook to ensure the removal of the upper end of the extracted pipes from the "cavity" of the borehole and into the device; or for drilling pipes (ring milling) in the form of an annular milling cutter with cutting teeth, or in the form of an annular milling cutter with cutting teeth deposited with an alloy containing brass and carbide cutting with appropriate grain size or reinforced with carbide cutting elements; or in the form of an annular milling cutter with cutting teeth of various shapes for each type of milling work and cleaning of the extracted pipes, which can be fused with an alloy containing brass and corresponding carbide cutting cutting by abrasion of brass of corresponding grain size, or reinforced with cutting corresponding carbide elements; or for annular milling of a deformed pipe in the form of an annular milling cutter, which inside is made, for example, with bevel and with shoe teeth on a conical surface or on a conical and external surface, which are fused with an alloy containing brass and corresponding carbide inclusions cutting as a result of abrasion of brass of corresponding grain size; or for milling dense slurry in the form of an annular milling cutter with hard-alloy carbide teeth welded inside or outside or inside and outside using brass and corresponding carbide cutting by abrasion of brass of corresponding grain size; or with a thread for attaching, for example, an external releasing tube, including, for example, a spiral tape gripping element, which serves to enable capture on the outer surface, for example, of a sleeve when, for example, the dangling part of the pipe remaining in the well is small for trapping body close to the coupling; or threaded to attach another fixture; or threaded for connecting other devices; or, for example, with two, for example, longitudinal protrusions, for example a U-shaped, made for placement in the corresponding longitudinal grooves, made in the upper part of another device for connecting to the device or to other devices by means of a welded joint; or other form. To center the device in the well, when the inner diameter of the well is much larger than the diameter of the extracted pipes, the outer diameter of the lower part of the guide funnel 12 can be made along the diameter of the well with the appropriate clearance for the passage of the device in the well.

To ensure the alignment of the axes of the device and the extracted pipe string in the annular saddle of the supporting body 9, either a guide ring 11 or a guide ring longitudinal protrusion made over the thread of the guide funnel 12 can be fixed to ensure capture of pipes of small diameters. Moreover, to improve the reliability of the device by providing the ability to capture pipes of small diameters, another embodiment of the device for cleaning wells is possible (see Fig. 15).

To enable the capture of pipes of small diameters in the upper part above the thread of the guide funnel 12, a longitudinal longitudinal protrusion can be made or the guide ring 11 can be made in the form of a longitudinal longitudinal ring protrusion in the upper part above the thread of the funnel 12. On the outer surface of the annular protrusion above a threaded guide funnel 12 is made annular landing neck. The annular landing neck of the annular protrusion of the guide funnel 12 is fixedly placed in the annular saddle of the bearing housing 9 on the inner surface of the lead flag of the spiral tape gripping element 10 with the ability to capture pipes of small diameter, axial and radial movement of the lead flag.

In the framework of the invention, to improve the reliability of the release of the device, another embodiment of the device for cleaning wells can be made. At the same time, an inner annular surface is made on the spiral conical surface in the lower part of the bearing housing 9 on an eccentric axis. An annular saddle is made under the inner annular surface eccentrically to the axis of the bearing body 9 above the thread in its lower part. On the inner annular surface and on the inner surface of the saddle to the depth of the screw ledge in the bearing housing 9, a longitudinal ledge is made with the possibility of interaction with the lower end of the spiral tape gripping element 10 and the side surface of the flag. In the upper part on the outer surface of the guide ring 11, an annular landing neck is made eccentrically to its axis. The neck is motionlessly placed in the eccentric annular saddle of the bearing housing 9 on the inner surface of the flag with the possibility of axial and radial movement. The longitudinal ledge of the eccentric annular surface and the inner surface of the eccentric annular seat in the bearing body 9 can be made, for example, with a wedge-shaped profile, tapering unilaterally in the radial direction to the axis of the bearing body 9. This increases the stiffness of the removal of the lower end of the spiral tape gripping element 10 from the pipe surface and stability of centering of the device on its outer surface during torsion without axial loads in the process of carrying out the working cycle of the release of devices . The longitudinal lower end of the spiral tape gripping element 10 has, for example, a wedge-shaped profile, tapering unilaterally in the radial direction from its axis. The longitudinal surface of the lower end of the spiral tape gripping element 10 and the surface of the longitudinal ledge in contact with it are made, for example, uniformly inclined to the generatrix of the cylindrical surface in the longitudinal groove of the bearing housing 9. In the framework of the invention, another variant of connecting the guide funnel 12 with the lower part of the bearing housing 9 can be made to ensure the capture of pipes of small diameters. In this case, the guide ring can be made integral with the guide funnel 12 in the form of an annular landing neck made concentrically in the upper part above the thread of the guide funnel 12. The annular landing neck of the guide funnel 12 is concentrically placed in the eccentric annular saddle of the bearing housing 9 on the inner surface of the leader flag. Moreover, the height and outer diameter of the annular landing neck of the guide funnel 12 is made with the possibility of free axial and radial movement of the lead flag in the longitudinal groove of the bearing housing 9.

In the supporting body 9 can be mounted with the possibility of axial movement or a spiral tape gripping element 10, which serves to enable the capture of the extracted pipes on the outer surface of the protruding annular element on the pipe body; or to enable capture of the retrievable pipes by the pipe body, the gripping sleeve and the guide ring 11 are fixed in the lower part of the bearing body 9, for example, by means of a lug protrusion located in the longitudinal grooves of the bearing body 9 and the gripping sleeve with the possibility of its axial movement.

At the same time, to increase the reliability of the device by providing the ability to capture recoverable pipes by the body of the pipe and increase the reliability of the transmission of torque to the recoverable pipes, another embodiment of the device for cleaning wells is possible (see Fig. 16).

In the framework of the invention, to increase the reliability of the device by providing the ability to capture the extracted pipes by the pipe body and increase the reliability of the transmission of torque to the extracted pipes, with the lower integral or detachable part of the hollow rod 5, the passage channel of the cylindrical heel 6 of which is hollow or with the lower integral detachable part of the hollow rod 5, in the passage channel of the cylindrical heel 6 of which is installed in the initial position, the valve reed circular shape 7 or other shape (see Fig. 16), motionlessly connected supporting body 9 with an internal spiral conical surface.

To increase the cleaning efficiency of the extracted pipes, the upper integral or detachable part of the bearing body 9 can be fixedly connected with the lower integral or detachable part of the hollow rod 5, the passage channel of the cylindrical heel 6 of which is hollow or with the lower integral or detachable part of the hollow rod 5, in the passage channel a cylindrical heel 6 which is installed in the initial position, the valve reed circular shape 7 or another shape. In this case, the upper one-piece or detachable part of the bearing body 9 can be rigidly connected with the lower one-piece or detachable part of the hollow rod 5 or by means of a threaded connection for transmitting axial force and torque to the extracted pipes; either by means of a receiving hollow extension cord of an appropriate length for cleaning and placement of the lengthy upper part of the pipes to be removed, or by means of a washing pipe (washer) of an integral or detachable design with the ability to pass captured objects through itself; or through an adapter with the ability to pass large-sized captured objects through itself; or by means of an adapter connected with a receiving hollow extension cord of an integral or detachable design with the ability to pass captured objects and accommodate removable pipes; or by means of another device of an integral or detachable design with the ability to pass large-sized captured objects through itself, to place recoverable pipes, to capture downhole sludge and captured objects; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or by other means of an integral or detachable structure; or by arranging interconnected other devices.

To improve the reliability of the device by providing the ability to capture the extracted pipes by the body of the pipe and increase the reliability of the transmission of torque to the extracted pipes with the lower part of the supporting sub 8, connected with the hollow rod 5, the passage channel of the cylindrical heel 6 is hollow, and in the passage channel of the carrier the sub 8 is installed in the initial position, the valve reed circular shape 7 or another shape, or with the bottom of the supporting sub 8 connected with the hollow rod 5, in the passage channel minutes and a heel flow channel sub carrier 8 is in the rest position the valve tongue 7 forms a circular or other shape, is fixedly connected a supporting body 9 with an internal tapered surface of the spiral. In this case, the upper one-piece or detachable part of the bearing housing 9 can be rigidly connected with the lower part of the one-piece or detachable part of the bearing sub 8 or by means of a threaded connection for transmitting axial force and torque to the extracted pipes; either by means of a receiving hollow extension cord of an appropriate length for cleaning and placement of the lengthy upper part of the pipes to be removed, or by means of a washing pipe (washer) of an integral or detachable design with the ability to pass captured objects through itself; or through an adapter with the ability to pass large-sized captured objects through itself; or by means of an adapter connected with a receiving hollow extension cord of an integral or detachable design with the ability to pass captured objects and accommodate removable pipes; or by means of another device of an integral or detachable design with the ability to pass large-sized captured objects through itself, to place recoverable pipes, to capture downhole sludge and captured objects; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or by other means of an integral or detachable structure; or by arranging interconnected other devices.

To increase the reliability of the device by eliminating the rotation of the pipe relative to the gripping element, the spiral tape gripping element (gripping element) is made in the form of a gripping sleeve 10. An axial movement of the gripping sleeve 10 (gripping element) is mounted with the possibility of axial movement.

Associated with the lower one-piece or detachable part of the carrier sub 8 or the hollow rod 5 by means of a hollow extension cord or other device or other devices, the carrier body 9 with an internal spiral conical surface and mounted in the carrier body 9 with the possibility of axial movement of the spiral tape gripping element 10 or gripping sleeve 10 provide capture of downhole sludge, extracted pipes for the pipe body or for the protruding ring element on the pipe body, the transmission of torque from the columns the fishing tool to the retrievable pipes, striking up or down with a percussion mechanism on the stuck pipes, unscrewing the retrieved pipes, releasing the device without simultaneously lifting the fishing tool string, which increases the reliability of the device (during operation) during a full working cycle for one tripping of the fishing tool .

To increase the cleaning efficiency of the extracted pipes, the upper one-piece or detachable part of the bearing housing 9 can be connected through a threaded connection to the lower one-piece or detachable part of the sub 1 by means of a receiving hollow extension (washer) of one-piece or detachable design or by means of an adapter with the ability to pass large objects size; or by means of an adapter connected with a receiving hollow extension cord (washer) of an integral or detachable design with the ability to pass large-sized captured objects through itself; or by means of another device of an integral or detachable design with the ability to pass through large-sized capture objects and capture downhole cuttings; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or through another device; or by arranging interconnected other devices.

The gripping sleeve 10 is installed in the supporting body 9 with the possibility of axial movement and capture of the extracted pipes by the pipe body. To transmit torque to the extracted pipes and release the “device for cleaning wells” from the emergency pipe string on the inner surface of the supporting body 9 and on the outer surface of the pickup sleeve 10, for example, a spiral conical surface is made, and on the inner surface of the pickup sleeve 10 is made, for example , screw fishing thread. In this case, the gripping sleeve 10 can be installed in the supporting body 9, for example, with the possibility of releasing the device from the emergency tower in the usual way either by making screwing up or by pulling it from the emergency tower.

On the outer surface of the pickup sleeve 10, a spiral conical surface is provided that responds to the spiral conical surface of the bearing body 9. The spiral conical surface on the inner surface of the bearing housing 9, on the outer surface of the pickup sleeve 10 in contact with it, is made, for example, left-handed, for example, with the right column fishing tool. To ensure the release of the device on the inner surface of the pickup sleeve 10 made fishing cuts, for example, left to work, for example, with the right column of the fishing tool. The fishing cut on the inner surface of the pickup sleeve 10 is made, for example, screw, for example multiple, for example, with a persistent triangular profile, which serves to increase adhesion to the outer surface of the emergency pipe. The screw fishing cut on the inner surface of the pickup sleeve 10 has, for example, the same direction as the spiral conical surface of the support body 9 and pickup sleeve 10.

In the upper part of the bearing body 9, for example, on the lower end of the lower, for example, integral part or sub 1, or hollow rod 5, or bearing sub 8, an annular stop can be made with the possibility of landing on the upper end of the protruding ring element on the pipe body in the working position of the pickup sleeve 10.

An annular stop restricts the longitudinal movement in the device of the protruding annular element on the pipe body (sleeve) in the working position of the gripping sleeve 10 on the outer surface of the sleeve located, for example, in the lower part of the broken pipe. An annular stop to limit longitudinal movement in the device of the annular element protruding on the pipe body in the working position of the gripping sleeve 10 can be performed either at the lower end, the lower, for example, integral part of either sub 1, or hollow rod 5, or supporting sub 8; or on the lower end of the thrust sleeve located inside the upper part of the bearing housing 9 with the possibility of landing the gripping sleeve 10 on the outer surface of the coupling of small length; or at the bottom of the thrust sleeve with the possibility of gripping the coupling; or in the upper part of the thrust sleeve with the possibility of gripping the coupling; or in the form of an annular protrusion on the inner surface in the upper part of the gripping sleeve 10 with the possibility of gripping the annular element of small length protruding on the pipe body; or on the corresponding abutment surface of another abutment element located above the spiral conical surface inside the upper part of the bearing body 9.

To ensure the maximum lifting force that is applied to the device when removing the pipe string from the well, the angle of inclination of the conical surface of the bearing body 9 and the gripping sleeve 10 is made from the condition of ensuring the strength of the connection of the device to the pipe close to the tensile strength of the pipe string being removed, and from the condition of self-jamming pickup sleeve 10.

To increase the bearing capacity (load-carrying capacity) of the device, for example, the lower part of the spiral conical surface of the bearing housing 9 and the upper part of the spiral conical surface of the gripping sleeve 10 can be made with a tape helical cylindrical surface; or other form.

The capture sleeve 10 is made with one through, for example, a longitudinal section and with incomplete circumferentially placed cuts, which are made, for example, longitudinally, for example, above its lower guide part, which serve to reduce the rigidity of the capture sleeve 10 and increase its adhesion to the outer the surface of the pipe during rotation of the device. To reduce the rigidity of the pickup sleeve 10, corresponding slots can be made either on its outer surface, or on its inner surface, or on its outer and inner surface.

A through cut can be made, for example, longitudinally to the entire height of the pickup sleeve 10 to reduce its rigidity; or with a circumferential displacement of the picking sleeve 10 of its lower part with respect to its upper part to increase the rigidity of the transmission of torque from the housing 9 to the extracted pipes; or other form. In this case, the through cuts of the lower and upper parts of the pickup sleeve 10 are interconnected through, for example, a transverse section, for example, in the middle part of the pickup sleeve 10.

Under the spiral conical surface in the lower part of the supporting body 9 there is an annular saddle. In the supporting body 9, a longitudinal groove is made on its spiral conical surface in its lower part above the annular saddle. In the annular saddle of the bearing body 9 under the pickup sleeve 10, a guide ring 11 is fixedly mounted axially movable to pick up the sleeve 10 to ensure alignment of the axes of the device and the retrievable pipe string. The guide ring 11 is secured in the lower part of the carrier body 9 from rotation, for example, by a lug protrusion that is placed in the corresponding longitudinal groove of the carrier body 9. In the lower part of the gripping sleeve 10, to limit its rotation relative to the carrier body 9, a longitudinal groove is made into which the lead protrusion of the guide ring 11 with the possibility of axial movement of the gripping sleeve 10.

The longitudinal lateral part of the driving protrusion of the guide ring 11 in contact with the longitudinal lateral part of the longitudinal groove of the gripping sleeve 10 may be either a longitudinal longitudinal side of the longitudinal groove on the spiral conical surface of the bearing housing 9 to limit the rotation of the gripping sleeve 10 relative to the bearing housing 9; or the longitudinal lateral part of the lead protrusion can be made, for example, in a wedge-shaped cross-section for torque removal of the lower part of the gripping sleeve 10 from the outer surface of the pipe during torsion without axial loads during the working cycle of the device release; or other form.

The longitudinal side part of the longitudinal groove of the pickup sleeve 10 in contact with the longitudinal side part of the drive protrusion of the guide ring 11 may be either a reciprocal longitudinal side part of the longitudinal groove on the spiral conical surface of the bearing housing 9 to limit the rotation of the picking sleeve 10 relative to the bearing housing 9; or the longitudinal lateral part of the longitudinal groove of the pickup sleeve 10 may be, for example, wedge-shaped in cross section for torque removal of the bottom of the pickup sleeve 10 from the outer surface of the pipe during torsion without axial loads during the working cycle of releasing the device; or other form.

Moreover, the longitudinal side of the drive ledge of the guide ring 11 in contact with the longitudinal side of the longitudinal groove of the gripping sleeve 10 can be made in cross section, for example, a wedge-shaped shape, expanding unilaterally in the radial direction from the axis of the guide ring 11, and the longitudinal side side of the longitudinal groove the gripping sleeve 10 in contact with the longitudinal side of the ledge protrusion of the guide ring 11 may be made in cross section, for example, wedge-shaped th form, unilaterally expanding in the radial direction to the axis of the gripping sleeve 10.

The longitudinal lateral surface of the drive ledge and the longitudinal lateral surface of the longitudinal groove of the gripping sleeve 10 in contact with it can be made, for example, inclined to the forming cylindrical surface in the longitudinal groove of the spiral conical surface at an angle, for example, to allow torque to divert the lower part of the gripping sleeve 10 from the outer pipe surface.

To divert the lower part of the pickup sleeve 10 from the outer surface of the pipe, the side part of the longitudinal groove of the pickup sleeve 10 and the longitudinal side part of the drive protrusion of the guide ring 11 in contact with the side part of the longitudinal groove of the pickup sleeve 11 may be made in cross section or wedge-shaped; or other form.

The lateral surface of the longitudinal groove of the gripping sleeve 10 and the side surface of the driving protrusion of the guide ring 11 in contact with it can be made, for example, uniformly inclined to the generatrix of the cylindrical surface in the longitudinal groove of the bearing body 9.

To ensure the possibility of releasing the device by means of a torque, either one guide ring 11, which is fixedly mounted with a drive protrusion, fixedly mounted below the pickup sleeve 10, can be installed in the bearing housing 9; or two motionlessly fixed guide rings 11 with drive protrusions, one of which is located below and the other above the pickup sleeve 10 to increase the stability of the pickup sleeve 10 and the reliability of its contact with the pipe during torsion without axial loads in the duty cycle of the device .

The longitudinal lateral part of the driving protrusion of the guide ring 11 in contact with the longitudinal lateral part of the longitudinal groove of the gripping sleeve 10 may be either a longitudinal longitudinal side of the longitudinal groove on the spiral conical surface of the bearing housing 9 to limit the rotation of the gripping sleeve 10 relative to the bearing housing 9; or the longitudinal lateral part of the lead protrusion can be made, for example, in a wedge-shaped cross-section for torque removal of the lower part of the gripping sleeve 10 from the outer surface of the pipe during torsion without axial loads during the working cycle of the device release; or other form.

The longitudinal side part of the longitudinal groove of the pickup sleeve 10 in contact with the longitudinal side part of the drive protrusion of the guide ring 11 may be either a reciprocal longitudinal side part of the longitudinal groove on the spiral conical surface of the bearing housing 9 to limit the rotation of the picking sleeve 10 relative to the bearing housing 9; or the longitudinal lateral part of the longitudinal groove of the pickup sleeve 10 may be, for example, wedge-shaped in cross section for torque removal of the bottom of the pickup sleeve 10 from the outer surface of the pipe during torsion without axial loads during the working cycle of releasing the device; or other form.

Moreover, the longitudinal side of the drive ledge of the guide ring 11 in contact with the longitudinal side of the longitudinal groove of the gripping sleeve 10 can be made in cross section, for example, a wedge-shaped shape, expanding unilaterally in the radial direction from the axis of the guide ring 11, and the longitudinal side side of the longitudinal groove the gripping sleeve 10 in contact with the longitudinal side of the ledge protrusion of the guide ring 11 can be made in cross section, for example, wedge-shaped forms unilaterally expanding radially towards the axis of the sleeve 10 gripping.

The longitudinal lateral surface of the drive ledge and the longitudinal lateral surface of the longitudinal groove of the gripping sleeve 10 in contact with it can be made, for example, inclined to the forming cylindrical surface in the longitudinal groove of the spiral conical surface at an angle, for example, to allow torque to divert the lower part of the gripping sleeve 10 from the outer pipe surface.

To divert the lower part of the pickup sleeve 10 from the outer surface of the pipe, the side part of the longitudinal groove of the pickup sleeve 10 and the longitudinal side part of the drive protrusion of the guide ring 11 in contact with the side part of the longitudinal groove of the pickup sleeve 11 may be made in cross section or wedge-shaped; or other form.

The lateral surface of the longitudinal groove of the gripping sleeve 10 and the side surface of the driving protrusion of the guide ring 11 in contact with it can be made, for example, uniformly inclined to the generatrix of the cylindrical surface in the longitudinal groove of the bearing body 9.

To transmit torque to the extracted pipes, the guide ring 11 may be secured in the bearing housing 9 from rotation or by means of a lug protrusion that is fixedly placed in the corresponding longitudinal groove of the bearing housing; or by means of a fixed eccentric connection of the guide ring with the bearing housing 9; or through another fixed connection.

The lower end of the guide ring 11 to ensure the alignment of the axes of the device and the extracted pipe string can be performed or, for example, with a conical chamfer on the inner surface; or for annular milling of the external deformed part of the pipe to the size of the gripping sleeve 10 or for cleaning the extracted pipes in the form of a milling cutter, which inside is made cylindrical and, for example, with a tapered bevel on the lower end and cutting or abrasive teeth on working surfaces that can be reinforced with hard alloy; or other form. On the working surfaces of the milling guide ring 11 can be made or cutting teeth of the appropriate shape for each type of milling work and cleaning the extracted pipes; or a carbide alloy containing brass can be deposited and the corresponding carbide inclusions for milling the deformed part of the pipe cutting by abrasion in brass of the corresponding grain size. The cutting teeth of the milling cutter of the guide ring 11 can either be reinforced with cutting corresponding carbide elements for cleaning the extracted pipes, or fused with a carbide alloy containing brass and corresponding carbide cutting by abrasion in brass of corresponding grain size for milling the deformed part of the pipe.

On the inner surface of the guide ring 11 to create a tightness between the outer surface of the emergency pipe and the inner surface of the device, for example, one seal, for example at the same level as the height of the guide ring 11, is installed, for example a lip seal that allows you to restore the back circulation of the flushing fluid, to produce an intensive back flushing, install oil and acid baths.

There is a thread in the lower part of the bearing housing 9 under the guide ring 11, for example, an internal one for attaching a device, for example a guide funnel 12. To create tightness between the contacting surfaces in the connection of the guide funnel 12 with the bearing body 9, for example, between the guide ring 11 and the guide funnel 12 a seal is installed, made, for example, in the form of a sealing ring, for example, a circular shape in cross section. The lower part of the guide funnel 12 to ensure the alignment of the axes of the device and the extracted pipe string can be made either with a notch along a helical line forming a ledge, and with a conical chamfer on the inner surface; or for circulation of the downhole fluid, for example, with undulating teeth and with a conical chamfer on the inner surface; or to ensure cleaning near the planted part, or the castle part, or other protrusions of the pipe with an annular conical bevel on the inner surface; or in the form of a “pen” and with a conical chamfer on the inner surface to increase the circulation of flushing fluid; or to ensure the removal of the upper end of the extracted pipes from the borehole wall and enter into the device and to ensure that the body grabs a short part of the dangling pipe near the upset part, or the lock part, or other projections of the pipe with a wide, for example, U-shaped, for example, longitudinal cut and with a conic facet on the inner surface; or in case of deviation of the upper end of the extracted pipe string from the center of the well with a notch along a spiral line passing into a lateral curly longitudinal groove with a retracting hook to ensure the removal of the upper end of the extracted pipes from the "cavity" of the borehole and into the device; or for drilling pipes (ring milling) in the form of an annular milling cutter with cutting or abrasive teeth of various shapes for each type of milling work, which can be fused with an alloy containing brass and cutting the corresponding carbide inclusions by abrasion of brass of corresponding grain size or reinforced with carbide cutting relevant elements; or for milling a deformed tube in the form of an annular milling cutter, which inside is made, for example, with bevel and with shoe teeth on a conical surface or on a conical and external surface, which are fused with an alloy containing brass and corresponding carbide inclusions cutting as a result of abrasion of brass of corresponding grain size; or for milling dense sludge in the form of an annular milling cutter with hard-alloy shoe teeth welded inside or outside or inside and outside with brass and carbide inclusions cutting by abrasion of brass of the corresponding grain size; or with a thread for attaching a device, for example, an external releasing tube, including, for example, a spiral tape gripping element 10, which serves to enable capture on the outer surface, for example, of a sleeve, when, for example, the dangling part of the pipe remaining in the well is small for trapping it body close to the coupling; or with a thread for attaching devices; or, for example, with two, for example, longitudinal protrusions, for example a U-shaped, made for placement in the corresponding longitudinal grooves, made in the upper part of another device for connecting to the device or to other devices by means of a welded joint; or other form. To center the device in the well, when the inner diameter of the well is much larger than the diameter of the extracted pipes, the outer diameter of the lower part of the guide funnel 12 can be made along the diameter of the well with the appropriate clearance for the passage of the device in the well.

The lower end of the carrier body 9 may be either threaded to attach a funnel guide 12; or to enable the capture of pipes near the protruding ring element on the pipe body with an annular conical bevel on the inner surface under the spiral conical surface of the supporting body 9. To improve the reliability of the device by providing the possibility of gripping pipes near the protruding ring element on the pipe body of the removed pipes, another option is possible the implementation of the device for cleaning wells (see Fig.17).

To improve the reliability of the device for cleaning wells by providing the possibility of gripping pipes near the protruding annular element on the body of the pipe of the extracted pipes, the guide ring 11 with the drive protrusion is fixedly mounted in the upper part of the bearing body 9 above the pickup sleeve 10 (gripping element) with the possibility of interaction of the drive ledge guide ring 11 with the upper leading part of the gripping sleeve 10 and with the possibility of its axial movement. The guide ring 11 is secured in the upper part of the carrier body 9 from rotation, for example, by a lug protrusion, which is placed in the corresponding longitudinal groove of the carrier body 9. In the upper part of the pickup sleeve 10, to limit its rotation relative to the carrier body 9, a longitudinal groove is made into which the lead protrusion of the guide ring 11. The longitudinal side of the lead protrusion of the guide ring 11 in contact with the longitudinal side of the longitudinal groove of the gripping sleeve 10 may be l is made or mating longitudinal lateral part of the longitudinal groove on the spiral conical surface of the bearing housing 9 to limit the rotation of the gripping sleeve 10 relative to the bearing housing 9; or the longitudinal lateral part of the lead protrusion can be made, for example, in a wedge-shaped cross-section for torque removal of the lower part of the gripping sleeve 10 from the outer surface of the pipe during torsion without axial loads during the working cycle of the device release; or other form. The longitudinal side part of the longitudinal groove of the pickup sleeve 10 in contact with the longitudinal side part of the drive protrusion of the guide ring 11 may be either a reciprocal longitudinal side part of the longitudinal groove on the spiral conical surface of the bearing housing 9 to limit the rotation of the picking sleeve 10 relative to the bearing housing 9; or the longitudinal lateral part of the longitudinal groove of the pickup sleeve 10 may be, for example, wedge-shaped in cross section for torque removal of the bottom of the pickup sleeve 10 from the outer surface of the pipe during torsion without axial loads during the working cycle of releasing the device; or other form.

Moreover, the longitudinal side of the drive ledge of the guide ring 11 in contact with the longitudinal side of the longitudinal groove of the gripping sleeve 10 can be made in cross section, for example, a wedge-shaped shape, expanding unilaterally in the radial direction from the axis of the guide ring 11, and the longitudinal side side of the longitudinal groove the gripping sleeve 10 in contact with the longitudinal side of the ledge protrusion of the guide ring 11 may be made in cross section, for example, wedge-shaped th form, unilaterally expanding in the radial direction to the axis of the gripping sleeve 10.

The longitudinal lateral surface of the drive ledge and the longitudinal lateral surface of the longitudinal groove of the gripping sleeve 10 in contact with it can be made, for example, inclined to the forming cylindrical surface in the longitudinal groove of the spiral conical surface at an angle, for example, to allow torque to divert the lower part of the gripping sleeve 10 from the outer pipe surface.

To divert the lower part of the pickup sleeve 10 from the outer surface of the pipe, the side part of the longitudinal groove of the pickup sleeve 10 and the longitudinal side part of the drive protrusion of the guide ring 11 in contact with the side part of the longitudinal groove of the pickup sleeve 11 may be made in cross section or wedge-shaped; or other form. The lateral surface of the longitudinal groove of the gripping sleeve 10 and the side surface of the driving protrusion of the guide ring 11 in contact with it can be made, for example, uniformly inclined to the generatrix of the cylindrical surface in the longitudinal groove of the bearing body 9.

To transmit torque to the extracted pipes, the guide ring 11 can be fixed in the bearing housing 9 from rotation or by means of a lug protrusion, which is fixedly placed in the corresponding longitudinal groove of the bearing housing 9; or by means of a fixed eccentric connection of the guide ring with the bearing housing 9; or through another fixed connection.

The gripping sleeve 10 has one through, for example, a longitudinal section and incomplete circumferential sections, which are made, for example, longitudinally, for example, under its upper leading part, which serve to reduce the rigidity of the gripping sleeve 10 and increase its adhesion to the outer surface of the pipe when rotating the device. A through cut can be made, for example, longitudinally to the entire height of the pickup sleeve 10 to reduce its rigidity; or with a circumferential displacement of the picking sleeve 10 of its lower part with respect to its upper part to increase the rigidity of the transmission of torque from the housing 9 to the extracted pipes; or other form. In this case, the through cuts of the lower and upper parts of the pickup sleeve 10 are interconnected through, for example, a transverse section, for example, in the middle part of the pickup sleeve 10.

To combine the axes of the device and the “head” of the pipe string to be removed when it enters the pickup sleeve 10, the lower end of the pickup sleeve 10 can be made either with a guide, for example, a tapered chamfer on the inner surface, which serves to enable the pickup pipes to be caught near the protruding ring element on pipe body; or other form. On the inner surface of the lower end of the bearing body 9, under its spiral conical surface, a guide ring conical chamfer is made, which serves to enable capture of the retrievable pipes near the protruding ring element on the pipe body and to ensure the alignment of the axes of the device and the extracted pipe string (see Fig. 17) .

The lower end of the bearing body 9 to ensure alignment of the axes of the device, the extracted pipe string and to enable the capture of pipes near the protruding ring element on the pipe body can be performed either with a guide ring conical bevel on the inner surface; or to ensure the removal of the upper end of the extracted pipes from the borehole wall and enter into the device and to ensure that the body grabs a short part of the dangling pipe near the upset part, or the castle part, or other pipe protrusions with a wide, for example, “P” -shaped, cut and guide ring conical chamfer on the inner surface; or with a notch along a helix forming a ledge, and with a tapered chamfer on the inner surface; or to increase the efficiency of cleaning the “head” of emergency pipes, beveled in the form of a “feather” and with a tapered chamfer on the inner surface; or with a thread for attaching a device, for example, another external releasing tube, including a spiral band gripping element for gripping, for example, a sleeve, when, for example, the dangling short part of the pipe remaining in the well is small to engage it close to the sleeve; or threaded to attach the fixture; or with a thread for attaching devices; or other form.

In the guide ring 11, in order to create a tightness between the outer surface of the emergency pipe and the inner surface of the device, for example, a seal, for example, lip seal, which allows you to restore the back circulation of the flushing fluid, to produce intensive backwash, is installed, for example, at the same level (one tier) along the height of the guide ring 11 install oil and acid baths. To create tightness between the contacting surfaces in the connection of the guide ring 11 with the bearing housing 9, a seal is made, made, for example, in the form of a sealing ring, for example, a circular shape in cross section.

The lower end of the bearing body 9 to ensure alignment of the axes of the device, the extracted pipe string and to enable the capture of pipes near the protruding ring element on the pipe body can be performed either with a guide ring conical bevel on the inner surface; or to ensure the removal of the upper end of the extracted pipes from the borehole wall and enter into the device and to ensure that the body grabs a short part of the dangling pipe near the upset part, or the castle part, or other pipe protrusions with a wide, for example, “P” -shaped, cut and guide ring conical chamfer on the inner surface; or with a notch along a helix forming a ledge, and with a tapered chamfer on the inner surface; or to increase the efficiency of cleaning the “head” of emergency pipes, beveled in the form of a “feather” and with a tapered chamfer on the inner surface; or with a thread for attaching a device, for example, another external releasing tube, including a spiral band gripping element for gripping, for example, a sleeve, when, for example, the dangling short part of the pipe remaining in the well is small to allow it to be caught close to the sleeve; or threaded to attach the fixture; or with a thread for attaching devices; or other form.

The lower end of the bearing housing 9 to ensure the alignment of the axes of the device and the extracted pipe string can be performed either with a guide ring conical bevel on the inner surface; or with an annular protrusion on the inner surface of the lower guide part of the bearing body 9 and with an annular conical bevel chamfer on the inner surface of its through passage of the cylindrical channel to increase the reliability of capture of the extracted pipes by preventing deformation of the gripping sleeve 10 when the device is rotated on the “head” of the pipe pipe to be removed. To improve the reliability of the device by increasing the reliability of the capture of pipes by eliminating the possibility of deformation of the pickup sleeve 10 or its destruction when combining the axes of the device and the extracted pipe string using a torque (torque), another embodiment of the device for cleaning wells is possible (see Fig. 18 ) To increase the reliability of the device by increasing the reliability of the capture of pipes by eliminating the possibility of deformation of the pickup sleeve 10 when the device is rotated on the “head” of the pipes to be removed to align the axes of the device and the upper end of the pipes inside the lower guide part of the supporting body 9, a passage cylindrical is made axial channel, which serves to combine the axes of the device and the extracted pipe string. An annular protrusion is made on the inner surface of the lower guide part of the bearing body 9 between its inner surface and the inner surface of its bore axial channel, which serves to prevent deformation or destruction of the gripping sleeve 10 when the device is rotated at the upper end of the retrievable pipe string to align their axes. An annular protrusion on the inner surface of the lower guide portion of the bearing housing 9 is made below the lower end surface of the gripping sleeve 10 with the possibility of axial movement. The diameter of the cylindrical axial bore of the lower guide part of the bearing body 9 is made larger than the outer diameter of the pipes to be removed, but, for example, no more than the inner diameter of the spiral conical surface of the bushing 9. On the inner surface of the cylindrical axial bore of the lower end of the guide part of the carrier 9 below its annular the protrusion is made guide ring conical chamfer, which serves to ensure the alignment of the axes of the device and the extracted pipe string and to ensure the possibility of capturing pipes near a protruding annular element on the pipe body (see Fig. 18). The lower end of the bearing body 9 to ensure alignment of the axes of the device, the extracted pipe string and to enable the capture of pipes near the protruding ring element on the pipe body can be performed either with a guide ring conical bevel on the inner surface; or to ensure the removal of the upper end of the extracted pipes from the borehole wall and to enter the device inside and to ensure that the body captures a short part of the dangling pipe near the upset part, or the lock part, or other projections of the pipe with a wide, for example, U-shaped, cutout and with an annular guide conical chamfer on the inner surface; or with a notch along a helical line forming a ledge, and with a tapered chamfer on the inner surface to align the axes of the device of the retrievable pipe string; or to increase the efficiency of cleaning the “head” of emergency pipes, beveled in the form of a “feather” and with a tapered chamfer on the inner surface; or with a thread for attaching a device, for example, another external releasing tube, including a spiral band gripping element for gripping, for example, a sleeve, when, for example, the dangling short part of the pipe remaining in the well is small to allow it to be caught close to the sleeve; or threaded to attach the fixture; or with a thread for attaching devices; or other form.

To prevent grazing of the ends of the device during lowering and lifting it in the well behind the annular ledges at the joints of the threaded joints of the casing pipes on the outer surfaces, for example, the lower end of the drive housing 4, the upper ends of the sub 1 and the bearing body 9, the lower and upper end of the bearing sub 8 chamfers made, for example, conic.

To increase the load capacity by increasing the strength of the connection between the device and the column to be removed by means of torque, the gripping sleeve 10 can be installed in the bearing housing 9 with the possibility of axial and screw movement. At the same time, the gripping sleeve 10 (gripping element) is installed in the supporting body 9 with the possibility of interaction in its extreme upper position with an annular step made, for example, on the surface of the passage channel of the lower, for example, one-piece part of the hollow rod 5 and placed in the upper part of the bearing body 9. An annular ledge to limit the rotation of the gripping sleeve 10 in its upper position can be performed, for example, on the inner surface of the passage channel of the lower, for example, integral part or sub 1, l bo sub carrier 8; or in the upper part of the bearing housing 9; or other intermediate fixed or movable element. On the inner surface of the bearing body 9 and on the outer surface of the gripping sleeve 10 in contact with it, a spiral conical surface is made, for example, left to work, for example, with the left column of the fishing tool. On the inner surface of the elastic gripping sleeve 10, a fishing thread is made, for example, in the form of a left, for example, multi-thread, which serves to ensure adhesion to the emergency pipe. The fishing cut on the inner surface of the pickup sleeve 10 is made, for example, with a persistent triangular profile, which serves to increase adhesion to the outer surface of the emergency pipe. The possibility of interaction of the upper end of the gripping sleeve 10 in its extreme upper position with an annular ledge made, for example, on the inner surface of the passage channel of the lower, for example, integral part of the hollow rod 5 and placed in the upper part of the bearing housing 9 increases the strength of the connection between the device and the removable column pipes when applying torque. In this case, the rotation of the device allows the capture sleeve 10 to be moved along the spiral conical surface to the upper position until its upper end abuts against the end of the annular ledge. The bearing body 9 thus moves down. The interaction of the ends of the annular ledge and the gripping sleeve 10 converts this torque into axial force, which seizes the gripping sleeve 10 between the pipe and the spiral conical surface of the bearing body 9. After this, a certain increase in the gripping force is performed by applying a small lifting force, and when fishing is carried out further, “Pacing”, unscrewing or removing emergency pipes - the strength of the connection between the device and the emergency tower increases with increasing applied torque and load at both separate and joint application.

This increases the reliability of the device. The capture sleeve 10 is made with one through, for example, longitudinal section and incomplete, for example, longitudinal sections, made, for example, in the middle of the capture sleeve 10 to reduce the rigidity of the capture sleeve 10 and increase its adhesion to the outer surface of the pipe during rotation of the device. To reduce the rigidity of the pickup sleeve 10, corresponding slots (grooves) can be made either on its outer surface, or on its inner surface, or on its outer and inner surface. A through cut can be made, for example, longitudinally to the entire height of the pickup sleeve 10 to reduce its rigidity; or with a circumferential displacement of the picking sleeve 10 of its lower part with respect to its upper part to increase the rigidity of the transmission of torque from the housing 9 to the extracted pipes; or other form. In this case, the through cuts of the lower and upper parts of the pickup sleeve 10 are connected with each other through, for example, a transverse section, for example, in the middle part of the pickup sleeve 10. In the bearing case 9 below the pickup sleeve 10, a guide ring 11 is fixedly mounted with the possibility of axial movement of the pickup sleeve 10 The lower end of the guide ring 11 to ensure the alignment of the axes of the device and the extracted pipe string can be performed or, for example, with a conical chamfer on the inner surface; or for ring milling, for example, the outer deformed part of the pipe to the size of the gripping sleeve 10 or for cleaning the retrievable pipes in the form of a milling cutter, the lower end of which is made, for example, with a tapered chamfer on the inner surface and cutting or abrasive teeth on working surfaces that can be reinforced hard alloy; or other form. On the working surfaces of the milling guide ring 11 can be made or cutting teeth of the appropriate shape to clean the extracted pipes; or abrasive teeth of the corresponding shape for each type of milling work, which can be deposited with a hard alloy containing brass and cutting corresponding hard alloy inclusions by abrasion in brass of corresponding grain size. The cutting teeth of the milling cutter of the guide ring 11 can either be reinforced with cutting corresponding carbide elements for cleaning the extracted pipes, or fused with a carbide alloy containing brass and corresponding carbide cutting by abrasion in brass of corresponding grain size for milling the deformed part of the pipe. To create a tightness on the inner surface of the guide ring 11 between the outer surface of the emergency pipe and the inner surface of the device, for example, one tier, for example, at the same level as the height of the guide ring 11, a seal, for example a lip seal, which allows you to restore the back circulation of the washing liquid, to produce intensive backwash, install oil and acid baths. To transmit torque from the bearing housing 9 to the milling of the guide ring 11, the guide ring 11 can be fixed in the bearing housing 9 from rotation or by means of a lug protrusion that is fixedly placed in the corresponding longitudinal groove of the bearing housing 9; or by means of a fixed eccentric connection of the guide ring with the bearing housing 9; or through another fixed connection. The lead protrusion of the guide ring 11 is fixedly placed in the corresponding groove of the bearing housing 9 with the possibility of axial movement of the gripping sleeve 10. To create a seal in the connection of the guide ring 11 with the bearing housing 9 between their contacting surfaces and the guide funnel 12 is installed a seal made, for example, in the form o-rings, for example round in cross section.

To increase the strength of the connection between the device and the pipe string during rotation in the bearing housing 9 below, for example, either a sub 1, or a hollow rod 4, or a supporting sub 8, or another element, a spacer ring can be axially moved and interact with the pickup sleeve 10 in its extreme upper position. Moreover, on the contacting end surfaces of the pickup sleeve 10 and the spacer ring restricting the rotation of the pickup sleeve 10 in its uppermost position, cams are made, for example of a triangular profile. To jam the gripping sleeve 10 between the pipe wall and the spiral conical surface of the bearing body 9 under the action of torque (rotation), as well as to ensure the release of the device from the captured pipes, the angle of inclination of the working surfaces of the cams is made smaller than the angle of elevation of the spiral conical surface of the bearing body 9 and the capture sleeve 10. The angle of inclination of the working surfaces of the cams is made from the condition of ensuring self-jamming of the spacer ring under the action of torque between the grips a rolling sleeve 10 and an annular step of the surface of the passage channel of the lower, for example, integral part, or sub 1, or hollow rod 5, or supporting sub 8, or the upper part of the bearing body 9, or another element. The presence of cams on the contacting end surfaces of the pickup sleeve 10 and the spacer ring installed in the upper part of the bearing body 9 with the possibility of axial movement and interaction with the pickup sleeve 10 in its highest position increases the strength of the connection between the device and the extracted pipe string when applying torque. In this case, the rotation of the device allows the capture sleeve 10 to be moved along the spiral conical surface to the upper position together with the spacer ring until the upper end of the spacer ring abuts against the end of the annular ledge of the passage channel of the lower, for example, integral part, or sub 1, or hollow rod 5, or bearing sub 8, or another element. The bearing body 9 thus moves down. The friction force between the annular ledge, for example, the hollow rod 5 and the upper end of the spacer ring, transfers torque from the bearing housing 1 to the spacer ring, and the interaction of the cams converts this torque into axial force, which wedges the pickup sleeve 10 between the pipe and the spiral conical surface of the supporting body 9. After this, a certain increase in the gripping force is performed by applying a small lifting force, and when fishing is carried out further: walking, unscrewing or removing In case of emergency pipes, the strength of the connection between the device and the emergency tower increases with an increase in the applied torque and axial load both when separate and when applied together. This increases the reliability of the device.

To prevent jamming of the pickup sleeve 10 when moving it to a lower inoperative position by rotating the device to subsequently release it by “pulling” in the bearing housing 9 under the pickup sleeve 10 on the annular step of the surface of the passage channel, for example, the guide ring 11, a spacer ring can be installed with the possibility of interaction with a gripping sleeve 10. Moreover, on the contacting end surfaces of the gripping sleeve 10 and the spacer ring restricting the rotation of the gripping sleeve 10 in its lowermost position, cams are made, for example of a triangular profile. The angle of inclination of the working surfaces of the cams is made from the condition of providing a wedge of the spiral conical surface of the bearing body 9 with the spiral conical surface of the gripping sleeve 10 in its extreme lower idle position under the action of torque. This increases the reliability of the device.

To increase the reliability of the device while simultaneously impacting the pipe string with axial load and torque on the inner surface of the pickup sleeve 10, for example, a right fishing threaded thread can be made to work, for example, with a right fishing tool string. The fishing cut on the inner surface of the pickup sleeve 10 is made, for example, with a persistent triangular profile, which serves to increase adhesion to the outer surface of the emergency pipe. The fishing cut on the inner surface of the pickup sleeve 10 can be either single-shot for transmitting torque to the extracted pipes; or multi-start to increase the rigidity of the transmission of torque to the pipes. On the inner surface of the bearing body 9 and on the outer surface of the gripping sleeve 10 in contact with it, for example, a left spiral conical surface is made for working with, for example, the right column of a fishing tool. In this case, in order to eliminate the rotation of the pickup sleeve 10, when it is in its highest working position, for example, a lead protrusion, for example, on a guide ring in the form of a lead finger, which is placed for example, in the corresponding groove of the carrier body 9. A counter protrusion can be formed on the pickup sleeve 10 in the upper part. The height, for example, of the driving finger on the guide ring and the protrusion in contact with it on the pickup sleeve 10 in its working position should be at least a step of the spiral conical surface.

To increase the reliability of the device on the inner surface of the bearing housing 9 and on the outer surface of the pickup sleeve 10 (pickup element) can be performed, for example, the right spiral conical surface for work, for example, with the right column of the fishing tool. The execution on the inner surface of the bearing body 9 and on the outer surface of the gripping sleeve 10, for example, of a right spiral conical surface for working with, for example, the right column of a fishing tool prevents the tool from being unscrewed above the emergency operation when moving the gripping sleeve 10 to its highest working position. This increases the reliability of the device. On the inner surface of the elastic gripping sleeve 10, a fishing thread can be made, for example, in the form of a left, for example, multiple thread, which serves to ensure adhesion to the emergency pipe and release the device. The fishing cut on the inner surface of the pickup sleeve 10 is made, for example, with a persistent triangular profile, which serves to increase adhesion to the outer surface of the emergency pipe. In this case, to eliminate the rotation of the pickup sleeve 10, when it is in its highest working position, in the upper part of the carrier body 9 above the pickup sleeve 10, for example, a lead protrusion is made, for example, on a guide ring, for example in the form of a lead finger, which is placed, for example, in the corresponding groove of the bearing housing 9. On the gripping sleeve 10 in the upper part there is a reciprocal protrusion. The height, for example, of the driving finger on the guide ring and the protrusion in contact with it on the pickup sleeve 10 in its working position should be at least a step of the spiral conical surface.

A screw ledge on a spiral conical surface in the bearing body 9 and a thrust helical part of the upper part of the spiral conical surface of the pickup sleeve 10 interacting with it in the extreme upper position can be made in cross section by a longitudinal plane or rectangular shape to limit the axial upward movement of the pickup sleeve 10; or wedge-shaped to increase the reliability of centering on the captured pipe either when the retrievable pipe enters the device or when it is released. At the same time, to improve the reliability of the device by increasing the reliability of centering the device on the capture pipe when capturing the extracted pipes and releasing the device, another embodiment of the device for cleaning wells is possible. To increase the reliability of the device by increasing the reliability (efficiency) of centering the device on the capture pipe and aligning their axes when capturing the pipes to be removed and releasing the device, the screw ledge on the spiral conical surface of the bearing housing 9 is made in a longitudinal section of a wedge-shaped shape, expanding one-sidedly upward from its axis. The persistent helical part of the gripping sleeve 10 (gripping element) is made in a longitudinal section of a wedge-shaped shape, expanding one-sided downward to its axis. In this case, the conical helical surface, tapering downward of the thrust helical part of the gripping sleeve 10, is made mating conical helical surface, expanding upward of the screw ledge of the bearing body 9.

To improve the reliability of the device by providing the possibility of gripping the pipes by the body of a short part of a dangling pipe near the protruding ring element on the pipe body, another embodiment of the device is possible within the framework of the invention. To ensure that the pipes can be caught by the body of the short part of the dangling pipe near the protruding ring element on the pipe body, the inner spiral conical surface of the bearing body 9 can be made in the form of an internal, tapering down conical surface, which is located in the lower part of the bearing body 9 or in another shape. In this case, the outer spiral conical surface of the pickup sleeve 10 can be made in the form of an outer, tapering down conical surface that is located in the lower part of the pickup sleeve 10. Moreover, the fishing cut on the inner surface of the pickup sleeve 10 is made in its lower part with the possibility of gripping the pipes by the body the short part of the dangling pipe, near the protruding annular element on the body of the pipe. To improve the reliability of the device by providing the possibility of gripping the pipes by the body of a short part of the dangling pipe near the protruding ring element on the pipe body, another embodiment of the device for cleaning wells can be made in the framework of the invention. To enable the pipes to be caught by the body of the short part of the dangling pipe near the protruding annular element on the pipe body on the inner surface in the lower part of the bearing body 9, an inner conical surface is made, tapering downward. Moreover, on the outer surface in the lower part of the gripping sleeve 10, an outer conical surface is made, tapering downward, and on the inside, a fishing thread, for example multi-ring, for example, with a persistent triangular profile. Moreover, the fishing cut on the inner surface of the pickup sleeve 10 is made in its lower part with the possibility of gripping the pipes by the body of the short part of the dangling pipe, near the protruding ring element on the pipe body. The gripping sleeve 10 (gripping element) with the outer conical surface is mounted on the inner conical surface of the bearing body 9 with the possibility of axial movement. In order to reduce the rigidity of the pickup sleeve 10, for example, incomplete, for example, longitudinal sections can be made in its middle and lower parts. To increase the elastic deformation of the pickup sleeve 10, one through cut along the entire length of the pickup sleeve 10 and incomplete, for example, longitudinal cuts, for example, the entire length of its middle and lower parts, can be made. On the inner surface of the elastic split pickup sleeve 10 above the fishing cut, an annular ledge is made with the possibility of capturing the extracted pipes under the protruding ring element on the pipe body. To increase the adhesion stiffness of the annular ledge of the pickup sleeve 10 with the protruding ring element on the pipe body, the inner cylindrical working surface under the annular ledge in the lower part of the pickup sleeve 10 can be made smooth. In the supporting body 9 with an inner conical surface of its lower part, an exciting sleeve 10 can be installed with an external conical surface in its lower part or with the possibility of capturing the extracted pipes by the pipe body; or with the possibility of capturing the extracted pipes under the protruding ring element on the pipe body; or with the possibility of capturing the extracted pipes on the outer surface, the protruding annular element on the pipe body in the working position of the pickup sleeve 10 on its outer surface. The gripping sleeve 10 with the outer conical surface of its lower part can be installed in the supporting body 9 with the inner conical surface of its lower part with the possibility of releasing the device from the removed pipes or by usual “screwing”; or the usual "pulling".

To improve the reliability of the device with pipes or rods of different diameters during rotation during unscrewing, when gripping pipes or rods with gripping the body under the protruding ring element on the body of the pipe or rod, another embodiment of the device for cleaning wells is possible (see Fig. 19- twenty).

To increase the reliability of the device with pipes or rods of different diameters during rotation during unscrewing, when gripping pipes or rods by the body under the protruding ring element on the body of the pipe or rod, with the lower part of the hollow rod 5, the passage channel of the cylindrical heel 6 of which is hollow or with the lower part of the hollow rod 5, in the passage channel of the cylindrical heel 6 of which the reed circular valve 7 or another shape is installed in the initial position, the bearing body 9 is fixedly connected.

To increase the cleaning efficiency of the extracted pipes, the upper integral or detachable part of the bearing body 9 can be fixedly connected with the lower integral or detachable part of the hollow rod 5, the passage channel of the cylindrical heel 6 of which is hollow or with the lower integral or detachable part of the hollow rod 5, in the passage channel a cylindrical heel 6 of which a valve is installed in the initial position, for example a reed circular shape 7, or with a lower one-piece or detachable part of the sub 1. In this case, the upper one-piece or connector a large part of the bearing housing 9 or with the lower integral or detachable part of the sub 1 can be rigidly connected to the lower integral or detachable part of the hollow rod 5 or by means of a threaded connection for transmitting axial force and torque to the extracted pipes; either by means of a receiving hollow extension cord of an appropriate length for cleaning and placement of the lengthy upper part of the pipes to be removed, or by means of a washing pipe (washer) of an integral or detachable design with the ability to pass captured objects through itself; or through an adapter with the ability to pass large-sized captured objects through itself; or by means of an adapter connected with a receiving hollow extension cord of an integral or detachable design with the ability to pass captured objects and accommodate removable pipes; or by means of another device of one-piece or detachable design with the ability to pass large objects that can be captured and to accommodate recoverable pipes, to capture downhole sludge and objects to be captured; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or by other means of an integral or detachable structure; or by arranging interconnected other devices.

To increase the reliability of the device with pipes or rods of different diameters during rotation when turning off, when gripping pipes or rods by the body under the protruding ring element on the body of the pipe or rod, with the bottom of the supporting sub 8 connected to the hollow rod 5, the passage channel is cylindrical the heel 6 of which is made hollow, and in the passage channel of the supporting sub 8, a reed circular valve 7 or another shape is installed in the initial position, or with the lower part of the supporting sub 8 connected with the hollow rod 5, in the passage channel of the cylindrical heel 6 of which and in the passage channel of the bearing sub 8 is installed in the initial position, a reed circular valve 7 or another shape, the bearing body 9 is fixedly connected. In this case, the upper one-piece or detachable part of the bearing body 9 can be rigidly connected with the lower one-piece or the detachable part of the supporting sub 8 or by means of a threaded connection for transmitting axial force and torque to the extracted pipes; either by means of a receiving hollow extension cord of an appropriate length for cleaning and placement of the lengthy upper part of the pipes to be removed, or by means of a washing pipe (washer) of an integral or detachable design with the ability to pass captured objects through itself; or through an adapter with the ability to pass large-sized captured objects through itself; or by means of an adapter connected with a receiving hollow extension cord of an integral or detachable design with the ability to pass captured objects and accommodate removable pipes; or by means of another device of one-piece or detachable design with the ability to pass large objects that can be captured and to accommodate recoverable pipes, to capture downhole sludge and objects to be captured; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or by other means of an integral or detachable structure; or by arranging interconnected other devices.

To clean and make it possible to grab pipes or rods by the body under the protruding ring element, segmented liners 13 can be fixedly mounted on the body of the pipe or rod in the supporting body 9. On the inner surface of the segmented liners 13, longitudinal grooves are made with inclined supporting, for example, flat, surfaces. In the longitudinal grooves are placed the gripping elements 14 (in other figures, the gripping element is indicated by 10) with the possibility of interaction of the side surfaces of the gripping elements 14 with the side surfaces of the longitudinal grooves of the segmented liners 13. The inclined supporting surfaces of the grooves and the gripping elements 14 are made with the possibility of gripping pipes or rods of different diameters behind the body under the protruding annular element on the body of the pipe or rod. While the inner surface of the gripping elements 14 is made, for example, tangent to the outer surface of the pipe or rod. The exciting elements 14 are connected with the liners 13 with the possibility of longitudinal movement along the surfaces of the grooves. The gripping elements 14 are located in the lowermost position on the annular ledge, made, for example, on the surface of the passage channel of the guide ring mounted in the extreme lower position of the gripping elements 14. The gripping elements 14 are connected to the inclined supporting surfaces of the segmented inserts 13 by means of a movable connection made, for example , in the form of a dovetail (see Fig.19-20). The inner working part of the gripping elements 14 is made in cross section, for example, in a trapezoidal shape. The upper part of the bearing body 9 is made, for example, detachable, for example, in the form of an extension sub with the possibility of being gripped by a protruding ring element on the body of the pipe or rod. Segment liners 13 can be rigidly connected to the bearing housing 9 and the extension extender with the possibility of transmitting torque from the extension extender and the bearing housing 9 to the segmented inserts 13, for example, by threaded connection of the upper part of the bearing housing 9 with the lower part of the extension extender. To transmit torque from the bearing housing 9 to the removable pipes through the gripping elements 14, the segmented inserts 13 can be fixed from rotation in the bearing housing 9 by means of protrusions made, for example, on the lower end surface of the extension sub. To transmit torque from the bearing housing 9 to the segmented liners 13, the protrusions of the extension sub can be placed in corresponding, for example, longitudinal cuts made, for example, on opposite side surfaces in the upper part of the segmented liners 13. The lower end of the guide ring to ensure alignment of the axes the device and the retractable pipe string can be made or, for example, with a conical chamfer on the inner surface; or for ring milling, for example, the outer deformed part of the pipe to the size of the gripping elements 14 in the form of an annular milling cutter, the lower end of which is made, for example, with a tapered chamfer on the inner surface and cutting or abrasive teeth on working surfaces that can be reinforced with hard alloy; or other form. On the working surfaces of the milling guide ring can be made or cutting teeth of the appropriate shape to clean the extracted pipes; or abrasive teeth of the corresponding shape for each type of milling work, which can be deposited with a hard alloy containing brass and cutting corresponding hard alloy inclusions by abrasion in brass of corresponding grain size. The cutting teeth of the guide ring milling cutter can either be reinforced with cutting corresponding carbide elements for cleaning the pipes to be removed, or fused with a carbide alloy containing brass and corresponding carbide cutting by abrasion in brass of corresponding grain size for milling the deformed part of the pipe.

On the inner surface of the guide ring to create tightness between the outer surface of the emergency pipe and the inner surface of the device, for example, one seal, for example at the same level as the height of the guide ring, can be fitted with a seal, for example, a lip seal, which allows you to restore the back circulation of the flushing fluid, to produce an intensive back flushing, install oil and acid baths.

To create tightness in the connection of the guide ring with the bearing housing 9, for example, between their contacting surfaces can be installed a seal made, for example, in the form of a sealing ring, for example, a circular shape in cross section.

The guide ring may be secured in the carrier body 9 from rotation or by means of a lug protrusion that is stationary in the corresponding longitudinal groove of the carrier body 9; or by means of a fixed eccentric connection of the guide ring with the bearing housing 9; or through another fixed connection.

To capture, extract bottomhole cuttings and other elements from the well, a receiving valve, for example a circular reed shape, 7 can be installed in the initial position or inside the passage channel of the supporting sub 8 to allow the capture of large foreign objects in cross section in a horizontal plane; or inside the upper part, for example, the integral part of the supporting body 9 above the capturing element (s) with the possibility of capturing downhole sludge and foreign objects above the capturing element (s); or other appropriate place on the device; or other appropriate places on the device.

In the framework of the invention, another device can be made comprising a supporting body 9 with a gripping element (s), i.e. another version of the device in the form of a device for cleaning wells. At the same time, in the upper part, for example, the integral part of the supporting body 9, to increase the reliability of the device by providing capture over the capture element (s) of the bottomhole sludge, foreign objects can be installed in the initial position with the possibility of tilting up the receiving valve, made, for example, in in the form of a circular reed valve 7.

To ensure the capture of the extracted pipes in the supporting body 9, either a spiral tape gripping element can be installed with the ability to capture the extracted pipes by the protruding ring element on the pipe body; or a gripping sleeve with an external spiral conical surface for gripping the extracted pipes by the pipe body; or gripping elements to enable the device to work with pipes or rods of different diameters during rotation, when unscrewing, when gripping pipes or rods by the body under the protruding ring element on the body of the pipe or rod; or a gripping sleeve with an outer conical surface narrowing (tapering) downward to enable the pipes to be gripped by the body of the short part of the dangling pipe near the protruding ring element on the pipe body; or other exciting element; or other exciting elements.

To enable capture of the retrievable pipes by the outer deformed surface of the pipe, the spiral conical surface of the supporting body 9 can be made in the form of a conical surface with an extension downward, while another embodiment of the device is possible. To increase the reliability of the operation of the device by providing the ability to capture removable pipes on the outer deformed surface of the pipe on the inner surface of the supporting body 9, a conical surface can be made with the extension downward, i.e. the bearing housing 9 can be made in the form of a bell.

The angle of inclination of the conical surface of the bearing body 9 (bell) is made no more than the "self-jamming angle" of the captured pipe with the possibility of gripping the extracted pipes by friction between the outer surface of the pipe and the inner conical surface of the bearing body 9 (bell) when unloading the weight of the fishing tool string.

To capture the extracted pipes inside the bell, either a smooth working conical surface can be made with the possibility of gripping (holding) the extracted pipes by friction between the outer deformed surface of the pipe and the inner conical surface of the bearing body 9 (bell) created by its angle of inclination and axial force as a result of unloading weight of the fishing tool column; or a threaded working conical surface with a screw fishing thread, for example a triangular profile, to enable capture of the extracted pipes by cutting the reciprocal fishing thread on the outer deformed surface of the pipe by means of a torque. On the inner conical surface of the supporting body 9 (bells) with screw fishing threading can be made grooves, for example longitudinal, for example, a persistent triangular profile, for the formation and exit of chips.

The lower end of the bell to align the axes of the device and the extracted pipe string can be made either with an annular conical bevel on the inner surface; or to divert the upper end of the extracted pipes from the wall of the well and enter into the device with a notch along a helical line forming a ledge and with a chamfer on the inner surface; or in the form of an annular milling cutter, which is deposited by an alloy containing brass and corresponding carbide inclusions cutting as a result of abrasion of brass of corresponding grain size for drilling of stuck pipes; or with a thread for attaching a device, for example, another large bell (or arrangement of bells), which serves to expand the range of captured diameters of the extracted pipes; or other form. To align the axes of the device and the removable pipe string, a thread, for example external, can be made in the lower part of the bell to attach a device, for example, a funnel 12; or other device or other devices. The lower end of the bell can be reinforced with a hard alloy containing brass and corresponding carbide inclusions cutting as a result of abrasion of brass of corresponding grain size to break down the solid bottom cuttings.

For ring milling of pipes, an annular milling cutter with various cutting teeth can be fixedly mounted in the lower part of the bell depending on the purpose of the milling operations, which can be reinforced with cutting carbide elements or welded with an alloy containing brass and corresponding carbide cutting by abrasion of brass of corresponding grain size inclusion; or for ring milling of dense slurry in the form of an annular milling cutter with internal or external, inside or outside shoe-shaped carbide teeth containing brass and cutting carbide inclusions by abrasion of brass of corresponding grain size.

To transmit torque, the annular milling cutter can be rigidly connected to the bottom of the bell or through a threaded connection; or by means of a welded joint, for example, two longitudinal, protrusions, for example a U-shaped, made in the upper part of the annular milling cutter, placed in the corresponding longitudinal grooves, made in the lower part of the bell; or through another compound.

In the lower integral or detachable part of the sub 1 or the hollow rod 5, or the supporting sub 8, either a guide funnel 3 can be rigidly installed to align the axes of the device and the extracted pipe string; or a supporting body 9 with a spiral tape gripping element for gripping the outer surface of the protruding annular element on the pipe body, or with a gripping sleeve for gripping the outer surface of the pipe body; or a hollow extension with elastic gripping elements with the ability to capture removable pipes under the protruding ring element on the pipe body.

To improve the reliability of the device by providing the ability to capture, for example, removable pipes under the protruding annular element on the pipe body, another embodiment of the device for cleaning wells is possible (see Fig.21-22).

To increase the reliability of the device by providing the ability to capture removable under the protruding ring element on the pipe body, with the lower integral or detachable part of the hollow rod 5, the passage channel of the cylindrical heel 6 of which is hollow or with the lower integral or detachable part of the hollow rod 5, in the passage channel a cylindrical heel 6 which is installed in the initial position, the valve reed circular shape 7 or other shape, motionlessly connected a hollow extension 15, inside of which are placed elastic exciting ele cients 16 (in other figures gripping member is indicated at 10 or 14). The inner and outer diameters of the extension cord 15 are configured to capture retrievable pipes under a protruding annular element on the pipe body. Moreover, to increase the cleaning efficiency of the extracted pipes, the upper integral or detachable part of the hollow extension 15 with elastic gripping elements 16 can be fixedly connected with the lower integral or detachable part of the hollow rod 5. The upper integral or detachable part of the hollow extension 15 with elastic capturing elements 16 can be is rigidly connected to the lower one-piece or detachable part of the hollow rod 5 or by means of a threaded connection for transmitting axial force and torque to the hollow extension 15 s mi gripping elements 16; either by means of a receiving hollow extension cord of an appropriate length for cleaning and placement of the lengthy upper part of the pipes to be removed, or by means of a washing pipe (washer) of an integral or detachable design with the ability to pass captured objects through itself; or through an adapter with the ability to pass large-sized captured objects through itself; or by means of an adapter connected with a receiving hollow extension cord of an integral or detachable design with the ability to pass captured objects and accommodate removable pipes; or by means of another device of an integral or detachable design with the ability to pass large-sized captured objects through itself, to place recoverable pipes, to capture downhole sludge and captured objects; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or by other means of an integral or detachable structure; or by arranging interconnected other devices. In this case, the outer diameter of the lower part of the hollow extension 15 with elastic gripping elements 16 has a diameter corresponding to the diameter of the well with the provision of an appropriate clearance for the passage of the device in the well.

To increase the reliability of the device by providing the possibility of gripping, for example, removable pipes under the protruding annular element on the pipe body, with a lower integral or detachable part of the supporting sub 8 connected with the hollow rod 5, the passage channel of the cylindrical heel 5 of which is made hollow, and in the passage channel the supporting sub 8 is installed in the initial position, the valve reed circular shape 7 or another shape or with the bottom of the supporting sub 8 connected with the hollow rod 5, in the passage channel the heel 6 of which and in the passage channel of the supporting sub 8 is installed in the initial position, a reed circular valve 7 or another shape, the hollow extension 15 is fixedly fixed, inside which elastic gripping elements 16 are placed. Moreover, to increase the cleaning efficiency of the extracted pipes, the upper one-piece or detachable part hollow extension 15 with elastic gripping elements 16 can be fixedly connected with the lower one-piece or detachable part of the supporting sub 8. The upper one-piece or detachable part p logo extension 15 with the elastic strands 16 may be rigidly connected to the lower part of the sub carrier 8 or by a threaded connection for transmitting axial force and torque to the hollow extension piece 15 with the elastic strands 16; either by means of a receiving hollow extension cord of an appropriate length for cleaning and placement of the lengthy upper part of the pipes to be removed, or by means of a washing pipe (washer) of an integral or detachable design with the ability to pass captured objects through itself; or through an adapter with the ability to pass large-sized captured objects through itself; or by means of an adapter connected with a receiving hollow extension cord of an integral or detachable design with the ability to pass captured objects and accommodate removable pipes; or by means of another device of an integral or detachable design with the ability to pass large-sized captured objects through itself, to place recoverable pipes, to capture downhole sludge and captured objects; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or by other means of an integral or detachable structure; or by arranging interconnected other devices. In this case, the outer diameter of the lower part of the hollow extension with elastic gripping elements has a diameter corresponding to the diameter of the well with the provision of an appropriate clearance for the passage of the device in the well.

To enable capture of the extracted pipes under the protruding ring element on the pipe body, the lower integral or detachable part of either the sub 1, or the hollow rod 5, or the supporting sub 8 can be fixedly connected to the hollow extension 15, inside of which elastic gripping elements 16 are placed.

To improve the cleaning efficiency of the extracted pipes, the upper integral or detachable part of the hollow extension 15 with elastic gripping elements 16 can be fixedly connected with the lower integral or detachable part of the sub 1. In this case, the upper integral or detachable part of the hollow extension 15 with elastic capturing elements 16 can be rigidly connected to the bottom of the sub 1 or by means of a threaded connection for transmitting axial force and torque to the hollow extension 15 with elastic gripping elements entami 16; either by means of a receiving hollow extension cord of an appropriate length for cleaning and placement of the lengthy upper part of the pipes to be removed, or by means of a washing pipe (washer) of an integral or detachable design with the ability to pass captured objects through itself; or through an adapter with the ability to pass large-sized captured objects through itself; or by means of an adapter connected with a receiving hollow extension cord of an integral or detachable design with the ability to pass captured objects and accommodate removable pipes; or by means of another device of an integral or detachable design with the ability to pass large-sized captured objects through itself, to place recoverable pipes, to capture downhole sludge and captured objects; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or by other means of an integral or detachable structure; or by arranging interconnected other devices. In this case, the outer diameter of the lower part of the hollow extension with elastic gripping elements has a diameter corresponding to the diameter of the well with the provision of an appropriate clearance for the passage of the device in the well.

The receiving hollow extension cord or washer for cleaning and placing inside its long top part of the pipes to be removed can be made, for example, of an integral structure, for example, for cleaning the pipe, below the "head" of the pipes to be removed. The receiving hollow extension cord or washer can be made either integral (integral design), for example, to clean the pipe, below the "head" of the extracted pipes; or a prefabricated structure of the corresponding pipes, including the appropriate number of pipes of the appropriate length for placement inside it, gripping and removing the long unscrewed or torn top of the extracted pipes, or long items.

Elastic gripping elements 16 can be placed around the circumference and along the length of the inner surface of the hollow extension 15 with the possibility of gripping the extracted pipes under the protruding ring element on the pipe body. The inner and outer diameters of the extension cord 15 (or the receiving extension cord, or the receiving tube, or the receiving tube body) are adapted to grip the extracted pipes under the protruding ring element on the pipe body. The inner diameter of the passage channel of the extension cord 15 can, for example, be larger than the diameter of the outer surface of the protruding annular element (flange) on the casing of the electric centrifugal pump, providing an appropriate clearance for the free passage of the flange of the electric centrifugal pump inside the device.

For example, two elastic gripping elements 16 can be installed inside the hollow extension 15 at an appropriate height from its lower end 16. The elastic gripping elements 16 can be mounted, for example, diametrically opposite to each other, for example at the same level, for example, by one tier along the length of the hollow the extension cord 15 with the possibility of capturing the extracted pipes under the protruding on the pipe body ring element. The free upper part of the elastic gripping elements 16 is placed inside the passage channel of the hollow extension 15 with the possibility of capturing the extracted pipes under the protruding ring element on the pipe body, and the fixed lower part of them is fixedly located in the corresponding through cuts of the extension wall and is rigidly fixed, for example, by means of a welded joint. Elastic gripping elements 16 are placed around the circumference and along the length of the inner surface, for example, of a thin-walled hollow extension 15 with the ability to capture removable pipes under the protruding ring element on the pipe body or with the possibility of gripping the electric centrifugal pump under the protruding ring element on the body of the electric centrifugal pump. The free elastic part of the gripping element 16 is made with the possibility of radial movement inside the extension 15 and capture retrievable pipes under the protruding ring element on the pipe body. The free elastic part of the gripping element 16 can be made with the possibility of radial movement inside the extension 15, for example, inside a through cutout of its wall and capture the extracted pipes under the protruding ring element on the pipe body. To capture the extracted pipes under the protruding ring element on the pipe body, the free part of the elastic gripping element 16 can be made either in the form of a longitudinal plate of a curved arc-shaped profile; or in the form of a plate of a concave arcuate profile to increase the rigidity of the grip under the protruding annular element on the pipe body; or other form. The elastic inner gripping element 16 for gripping the extracted pipes under the protruding annular element on the pipe body is made, for example, of a rectangular contour in cross section. The upper end surface of the elastic gripping elements 16 is made, for example, of a flat shape in the horizontal plane, for example, at right angles to the axis of the hollow extension 15 with the possibility of gripping the extracted pipes under the protruding ring element on the pipe body.

To enable capture of the extracted pipes under the protruding ring element on the pipe body, the end surface of the upper end part of the elastic inner gripping element 16 can be made either at right angles to the axis of the hollow extension 15; or with a chamfer (with an inclined surface at an appropriate angle to the axis of the hollow extension 15) on the outer surface of the upper end of the elastic inner gripping element 16 to increase adhesion to the protruding annular element on the pipe body; or other form.

The inner surface of the elastic gripping element 16 is made, for example, tangentially to the outer surface of the pipe with the ability to capture retrievable pipes under the protruding ring element on the pipe body. To seal the internal cavity of the hollow extension 15 with elastic internal gripping elements 16, the upper part of the through cutouts in the body of the extension 15 can be muffled, for example, with plates of a corresponding shape, for example, by welding with the possibility of radial movement of the free part of the elastic exciting elements 15. On the body of the hollow extension 15 or on the body of the hollow extension 15 with elastic internal gripping elements 16, dents, for example of a spherical shape, can be made with the possibility of w capture their projections on the inner surface of the hollow extension 15 projecting under the annular element on the pipe body or electrocentrifugal pump housing. The dents can be placed in any appropriate place around the circumference and along the length on the body of the hollow extension 15 or on the body of the hollow extension 15 with elastic internal gripping elements 16 and in any appropriate quantity to enable capture of the extracted pipes under the protruding ring element on the pipe body.

To transmit axial force and torque, the upper connecting part of the hollow extension 15 with elastic internal gripping elements 16 can be rigidly connected to the lower part of the extension 15 through a threaded connection.

The receiving valve, for example a circular reed shape 7, can be installed in the initial position in the upper part, for example, the integral part of the hollow extension 15 with elastic internal gripping elements 16 to capture the bottom slurry, foreign objects the upper part of the hollow extension 15 with elastic internal exciting elements 16 ; or other appropriate place on the device; or other appropriate places on the device.

In the device or between the upper, for example, the integral part of the hollow extension with elastic gripping elements 16 and the lower, for example, the integral part of the supporting sub 8, including a receiving valve, for example, a circular reed shape 7; or between the upper, for example, the integral part of the supporting sub 8 and the lower, for example, the integral part of the hollow rod 5; or between the upper, for example, integral part of the hollow extension with elastic gripping elements 16 and the supporting sub 8 and simultaneously between the upper, for example, integral part and the lower, for example, integral part of the hollow rod 5; or between the upper part of the hollow extension with elastic gripping elements 16 and the lower part of the hollow rod 5; or between the upper, for example, integral part of the hollow extension with elastic gripping elements 16 and the lower, for example, integral part of the sub 1, the receiving hollow extension can be fixedly mounted to accommodate, capture and remove the dangling pipe, other long objects and bottom cuttings.

To transmit axial force to the extracted pipes, the upper connecting part of the hollow extension 15 can be made, for example, integral with the lower part of the hollow extension 15 with elastic internal gripping elements 16.

To transmit torque, the upper connecting part of the extension cord 15 with elastic internal gripping elements 16 can be rigidly connected to the lower part of the extension cord, for example, by welding, for example, two longitudinal protrusions, for example, the U-shape of the upper end of the lower part of the extension cord, fixed for example, on the outer surface of the upper connecting portion of the extension cord.

For cleaning and gripping the pipes to be removed, the upper, for example, integral part of the hollow extension with elastic gripping elements 16 can be rigidly connected with the lower, for example, integral part of either sub 1, or hollow rod 5, or supporting sub 8 or threaded connection for transmitting axial force and torque to the extracted pipes; or a receiving hollow extension cord of an appropriate length for placing inside it and capturing the bottom slurry, long objects located at the upper end, for example, a protruding ring element on the pipe body of the pipes to be removed; or, for example, a tube, including gripping elements, used to capture small diameter pipes or rods of different diameters behind the body under the protruding ring element on the pipe or rod body, when the long part remaining in the well, for example, the rod suspension is large from the tubing to capture the outer surface of the dangling tubing; or a device, for example, a tube, including a gripping element for gripping a pipe string, for example by the pipe body; or by means of an adapter (sub) with the ability to pass large-sized captured objects through itself in the diametrical direction or with the possibility of working with a receiving hollow extension cord of large internal diameter; or other device; or other devices.

The supporting sub 8, including a valve 7, for example of a circular reed shape, can be installed either below the receiving hollow extension to prevent the slurry from falling out of the extension, or above the receiving hollow extension to prevent the falling of bottom mud from the top of the device; or to increase the cleaning efficiency of the extracted pipes, one supporting sub 8 including a valve 7, for example a reed shape, can be placed below the receiving extension, and another supporting sub 8, including a valve 7, for example a circular reed shape, simultaneously above the receiving hollow extension; or at another appropriate location in the well cleaning apparatus.

The receiving valve, for example, circular reed form 7 can be installed in the initial position in the receiving extension cord or in the upper, for example, one-piece part to capture the bottom slurry and foreign objects with the upper part of the receiving extension cord; or in the lower, for example, one-piece part for trapping downhole sludge and foreign objects with the lower part of the receiving extension; or in the upper part, for example, the integral part and the lower part, for example, the integral part to capture the bottom slurry and foreign objects, the upper and lower part of the receiving extension; or other appropriate place on the device; or other appropriate places on the device.

The receiving hollow extension may be made of a one-piece construction for cleaning and placement inside its dangling part of the pipe; or a prefabricated structure of appropriate pipes for cleaning and placement inside its lengthy part of the extracted pipes.

To determine (control) the entry of the extracted pipes inside the device inside the wall of the hollow extension with elastic internal gripping elements 16, a control element can be installed in a controlled place of the passage channel; or control elements can be placed in controlled places of the passage channel around the circumference and along the length of the inner surface of the hollow extension 15. Each control element can be made, for example, in the form of a hairpin. To determine the height of entry of the extracted pipes into the device in the body (wall) of the hollow extension with elastic internal gripping elements 16, two (both) ends of the control elements placed inside in height can be rigidly fixed (for example, diametrically opposed to each other) and the circumference of the inner surface of the hollow extension 15. The ends of the control elements can be fixedly mounted, for example, diametrically opposite, for example, in holes made in the body of the hollow extension bodies with elastic internal gripping elements 16, and are rigidly fixed, for example, by means of a welded joint. To facilitate the entry of the emergency pipe into the device, one end of the control elements can be freely placed inside the passage channel of the hollow extension with elastic internal gripping elements 16, and the other fixed end of the control elements is rigidly fixed in the body of the extension with elastic internal gripping elements 16. The fixed end of the control elements can be fixedly mounted, for example, in a hole made in the body of a hollow extension with elastic internal gripping elements 16, It is rigidly fixed, for example by a welded joint.

The lower end, for example, of the integral part of the hollow extension with elastic gripping elements 16 to ensure alignment of the axes of the device and the extracted pipe string can be made either with a notch along a helical line forming a ledge and with a conical chamfer on the inner surface; or to ensure the removal of the upper end of the extracted pipes from the borehole wall and enter into the device and to ensure that the body grabs a short part of the dangling pipe near the upset part, or the lock part, or other pipe protrusions with a wide, for example, U-shaped longitudinal, cut and conical chamfer on the inner surface; or in case of deviation of the upper end of the extracted pipe string from the center of the well with a notch along a spiral line passing into a lateral curly longitudinal groove with a retracting hook to ensure the removal of the upper end of the extracted pipes from the "cavity" of the borehole and into the device; or for drilling pipes (ring milling) in the form of an annular milling cutter with cutting teeth, or in the form of an annular milling cutter with cutting teeth deposited with an alloy containing brass and carbide cutting with appropriate grain size or reinforced with carbide cutting elements; or in the form of an annular milling cutter with cutting teeth of various shapes, depending on the purpose of the milling work, which can be reinforced with cutting carbide elements or deposited with an alloy containing brass and corresponding carbide cutting by abrasion of brass of corresponding grain size; or for ring milling of dense slurry in the form of an annular milling cutter with internal or external or internal and external shoe hard-alloy teeth containing brass and cutting carbide inclusions by abrasion of brass of corresponding grain size; or with a thread for attaching a device, for example a funnel guide 3; or threaded to attach the fixture; or with a thread for attaching devices; or to capture near the planted part, or the castle part, or other protrusions of the pipe with an annular conical bevel on the inner surface; or for circulation of the downhole fluid, for example, with undulating teeth and with a conical chamfer on the inner surface; or, for example, with two, for example, longitudinal protrusions, for example, a U-shape, made for placement in the corresponding longitudinal grooves of the upper part of another device for connecting to the device or to other devices by means of a welded joint; or to increase the circulation of flushing fluid in the form of a “pen” with a conical chamfer on the inner surface; or other form.

To center the device in the well, when the inner diameter of the well is much larger than the diameter of the extracted pipes, the outer diameter of the lower part of the hollow extension 15 with elastic internal gripping elements 16 can be made along the diameter of the well with the appropriate clearance for the device to pass through the well.

To enable capture of recoverable pipes, bottom slurry and foreign objects, a supporting sub 8, for example, with a circular reed valve 7 can be installed in the bottom, for example, one-piece part or a bearing body 9 with the possibility of capturing bottom slurry underneath; or a guiding funnel 12 with the possibility of capturing downhole slurry beneath it; or a hollow extension 15 with elastic gripping elements 16, for example, by means of a sub with the ability to capture downhole slurry underneath; or in the lower part of the bell, for example by means of a sub, with the possibility of trapping bottom slurry under it; or other appropriate place on the device; or other appropriate places on the device.

In the lower integral or detachable part of the sub 1 or the hollow rod 5, or the supporting sub 8, either a guide funnel 3 can be rigidly installed to align the axes of the device and the extracted pipe string; or a supporting body 9 with a spiral tape gripping element for gripping the outer surface of the protruding annular element on the pipe body, or with a gripping sleeve for gripping the outer surface of the pipe body; or a hollow extension with elastic gripping elements with the ability to capture removable pipes under the protruding ring element on the pipe body; or a ring mill to enable drilling (ring milling) of the extracted pipes and milling operations in the well.

To improve the reliability of the device by increasing the efficiency of cleaning the extracted pipes, another variant of the device for cleaning wells can be made, comprising a sub with an internal passage channel; in the passage channel of the sub in the initial position, a movable valve fixed in the initial position can be moved up , and a guiding funnel. At the same time, to ensure the possibility of drilling (ring milling) of the extracted pipes and milling in the well, the guide funnel can be made in the form of a ring mill or a solid structure, or a prefabricated structure that includes either a hollow extension or a wash pipe. The working surfaces of the annular milling machine 17 for drilling the extracted pipes or for annular milling of metal in the annulus of the well, the flanges of the electric centrifugal pump can be welded with an alloy containing brass and carbide inclusions cutting as a result of abrasion of brass of corresponding grain size. An annular milling cutter 17 for cable milling or for pipe drilling can be performed either with cutting teeth, which can be fused with an alloy containing brass and corresponding carbide inclusions cutting as a result of abrasion of brass of corresponding grain size; or with cutting teeth of various shapes for each type of milling work, which can be deposited with an alloy containing brass and corresponding carbide cutting resulting from abrasion of brass of corresponding grain size, or reinforced with cutting carbide elements; or for milling a deformed pipe with shoe teeth on the inner conical surface or on the inner conical and outer surface, which are fused with an alloy containing brass and corresponding carbide inclusions cutting as a result of abrasion of brass of corresponding grain size; or for ring milling of dense sludge with hard-alloy shoe teeth welded inside or outside, or inside and outside, containing brass and corresponding carbide inclusions cutting by abrasion of brass of corresponding grain size; or with teeth of a different shape.

To improve the reliability of the device by increasing the efficiency of cleaning the extracted pipes by providing the possibility of drilling (ring milling) the extracted pipes and milling operations in the well, another embodiment of the device for cleaning wells is possible (can be performed) (see Fig. 23 )

To increase the cleaning efficiency of the extracted pipes by providing the possibility of drilling (ring milling) the extracted pipes and milling operations in the well in the lower integral or detachable part of the sub 1 or in the lower integral or detachable part of the hollow rod 5, or in the lower integral or detachable part of the supporting sub 8, an annular milling cutter 17 or an integral structure or a prefabricated structure comprising either a hollow extension or a wash pipe can be fixedly mounted.

In the lower integral or detachable part of the sub 1 or in the lower integral or detachable part of the hollow rod 5, in the lower integral or detachable part of the supporting sub 8, a thread can be made, for example, external for connecting or a guiding funnel 3, which serves to combine the axes of the device and the removable column pipes; or a bearing body 9 with a spiral tape gripping element for gripping the outer surface of the protruding annular element on the pipe body, or with a gripping sleeve for gripping the outer surface of the pipe body; or a hollow extension with elastic gripping elements 16 for gripping the extracted pipes under the protruding ring element on the pipe body; or an annular milling machine 17 to enable drilling (ring milling) of the extracted pipes and milling operations in the well.

To improve the reliability of the device by increasing the efficiency of cleaning the extracted pipes by providing the possibility of drilling (ring milling) the extracted pipes and milling operations in the well with the lower integral or detachable part of the hollow rod 5, the passage channel of the cylindrical heel 6 of which is hollow or with the lower integral or a detachable part of the hollow rod 5, in the passage channel of the cylindrical heel 6 of which a valve is installed in the initial position, for example, a reed circular shape 7, or with a lower with the detachable or detachable part of the sub 1, the annular milling machine 17 is fixedly fixed. In this case, to increase the cleaning efficiency of the extracted pipes, the upper one-piece or detachable part of the annular milling machine 17 is connected with the lower one-piece or detachable part of the hollow rod 5, or with the lower one-piece or detachable part of the adapter 1 connections for transmitting axial force and torque to the ring mill 17; either by means of a receiving hollow extension cord of an appropriate length for cleaning and placement of the lengthy upper part of the pipes to be removed, or by means of a washing pipe (washer) of an integral or detachable design with the ability to pass captured objects through itself; or through an adapter with the ability to pass large-sized captured objects through itself; or by means of an adapter connected with a receiving hollow extension cord of an integral or detachable design with the ability to pass captured objects and accommodate removable pipes; or by means of another device of an integral or detachable design with the ability to pass large-sized captured objects through itself, to place recoverable pipes, to capture downhole sludge and captured objects; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or by other means of an integral or detachable structure; or by arranging interconnected other devices. In this case, the outer diameter of the lower part of the annular milling cutter 17 has a diameter corresponding to the diameter of the well with the provision of an appropriate clearance for the passage of the device in the well.

To improve the reliability of the device by increasing the efficiency of cleaning the extracted pipes by providing the possibility of drilling (ring milling) the extracted pipes and milling operations in the well, with a lower integral or detachable part of the supporting sub 8 connected to the hollow rod 5, the passage channel of the cylindrical heel 6 which is made hollow, and in the passage channel of the supporting sub 8 is installed in the initial position, the valve reed circular shape 7 or another shape or from the bottom one-piece or I part of the supporting sub 8, connected with the hollow rod 5, in the passage channel of the cylindrical heel 6 of which and in the passage channel of the bearing sub 8 is installed in the initial position, the flapper circular shape 7 or another shape is fixedly connected ring milling machine 17. Moreover, to improve cleaning efficiency extractable pipes, the upper one-piece or detachable part of the annular milling machine 17 is connected with the lower one-piece or detachable part of the bearing sub 8 by means of a threaded connection for transmitting axial force and twisting of torque to the ring Fraser 17; either by means of a receiving hollow extension cord of an appropriate length for cleaning and placement of the lengthy upper part of the pipes to be removed, or by means of a washing pipe (washer) of an integral or detachable design with the ability to pass captured objects through itself; or through an adapter with the ability to pass large-sized captured objects through itself; or by means of an adapter connected with a receiving hollow extension cord of an integral or detachable design with the ability to pass captured objects and accommodate removable pipes; or by means of another device of an integral or detachable design with the ability to pass large-sized captured objects through itself, to place recoverable pipes, to capture downhole sludge and captured objects; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or by other means of an integral or detachable structure; or by arranging interconnected other devices. In this case, the outer diameter of the lower part of the annular milling cutter 17 has a diameter corresponding to the diameter of the well with the provision of an appropriate clearance for the passage of the device in the well.

To increase the efficiency of cleaning the extracted pipes by providing the possibility of drilling (ring milling) the extracted pipes and milling operations in the well with the lower integral or detachable part of the sub 1 or with the lower integral or detachable part of the hollow rod 5, or with the lower integral or detachable part of the supporting sub 8, the annular milling cutter 17 of either an integral structure or a prefabricated structure including a hollow extension or a wash pipe may be fixedly connected.

The working surfaces of the ring milling machine 17 for drilling out the extracted pipes or for ring milling of metal in the annulus of the well, the flanges of the electric centrifugal pump can be welded with an alloy containing brass and carbide inclusions cutting as a result of abrasion of brass of corresponding grain size.

An annular milling cutter 17 for milling a cable or for drilling pipes can be performed either with cutting teeth, which can be fused with an alloy containing brass and corresponding carbide inclusions cutting as a result of abrasion of brass of corresponding grain size; or with cutting teeth of various shapes for each type of milling work, which can be deposited with an alloy containing brass and corresponding carbide cutting resulting from abrasion of brass of corresponding grain size, or reinforced with cutting carbide elements; or for milling a deformed pipe with shoe teeth on the inner conical surface or on the inner conical and outer surface, which are fused with an alloy containing brass and corresponding carbide inclusions cutting as a result of abrasion of brass of corresponding grain size; or for ring milling of dense sludge with hard-alloy shoe teeth welded inside or outside, or inside and outside, containing brass and corresponding carbide inclusions cutting by abrasion of brass of corresponding grain size; or with teeth of a different shape.

For milling, for example, the protruding part of the flange on the outer surface of the electric centrifugal pump casing to the size of its outer diameter with the possibility of gripping the installation of the electric centrifugal pump by the outer surface of the pump casing, the inner diameter of the annular milling machine 17 must be no less than or correspond to the outer diameter of the pump.

On the working surfaces of the annular mill 17 can be made grooves, for example longitudinal, serving to circulate the flushing fluid. In the lower part of the annular milling cutter 17 can be made cutouts, for example, U-shaped, used to circulate the washing fluid.

A receiving valve, for example a circular reed shape 7, can be installed in the initial position in the upper part, for example, the integral part of the milling cutter 17 to capture the bottom slurry, foreign objects, the upper part of the annular milling cutter 17; or other appropriate place on the device; or other appropriate places on the device.

For ring milling of dense sludge, ring milling machine 17 can be rigidly connected with the lower, for example, integral part of either sub 1, or hollow rod 5, or supporting sub 8 or threaded connection for transmitting torque; or a receiving hollow extension cord of an appropriate length for cleaning, placing recoverable pipes, as well as for thawing hydratoparaffin plugs or hydratoparaffin deposits in the annular annular space of the well; or by means of an adapter with the ability to pass large-sized captured objects through itself in the diametrical direction or with the possibility of working with a receiving hollow extension cord of large internal diameter; or a device, for example, a tube, including, for example, a spiral tape gripping element 10 for gripping the sleeve; or a tube, including the gripping elements 14, used to capture small diameter pipes or rods of different diameters for the body under the protruding ring element on the body of the pipe or rod; or other device; or other devices.

The supporting sub 8, including a receiving valve, for example a circular reed shape 7, can be installed either below the receiving hollow extension to prevent the slurry from falling out of the extension, or above the receiving hollow extension to prevent the falling of bottom mud from the top of the device; or to increase the cleaning efficiency of the extracted pipes, one supporting sub 8, including a valve, for example a circular reed shape 7, can be placed below the receiving extension cord, and another supporting sub 8, including a valve, such as a circular reed shape 7, simultaneously above the receiving hollow extension; or at another appropriate location in the well cleaning device; or other appropriate places on the device.

An annular milling cutter 17 for drilling and placement inside its dangling part of the pipe or the upper part of the pipes to be removed can be fixedly mounted in the lower, for example, one-piece part, or a sub 1, or a hollow rod 4, or a supporting sub 8, for example, via a receiving hollow extension. To transmit axial load and torque to the annular milling cutter 17 during the working cycle of cleaning the extracted pipes, the upper part of the annular milling cutter 17 can be rigidly connected to the receiving hollow extension or through a threaded connection; or by means of a welded joint, for example, two longitudinal protrusions, for example a U-shaped, made in the upper part of the annular milling cutter 17, placed in the corresponding longitudinal grooves, made in the lower part of the hollow extension, with the possibility of passing the ring element of the large diameter or through another compound.

To transmit axial load and torque to the annular milling cutter 17 during the working cycle of cleaning the extracted pipes, the upper connecting part of the hollow extension of the annular milling cutter 17 can be rigidly connected to the upper part of the extension or through a threaded connection; or by means of a welded joint, for example, two longitudinal protrusions, for example, a U-shaped upper part of the extension cord, fixedly mounted, for example, on the outer surface of the upper connecting part of the hollow extension cord, with the possibility of passing a large diameter ring element protruding on the pipe body; or through another compound.

The receiving hollow extension may be either integral (integral design), for example, for drilling (ring milling) cleaning the upper part, below the "head" of the extracted pipes from dense sludge; or prefabricated (prefabricated) from the appropriate pipe layout (washing pipes) for cleaning and placing inside its lengthy part of the cleaned extractable pipes.

To determine (control) the height of entry of the extracted pipes inside the device, a control element can be installed inside the annular milling machine 17 in a controlled place of the passage channel; or control elements can be placed in controlled places of the passage channel around the circumference and along the length of the inner surface of the annular milling machine 17. Each control element can be made, for example, in the form of a hairpin. To determine the height of entry of the extracted pipes into the device in the body (wall) of the annular milling cutter 17, two (both) ends of the control elements located inside the height and circumference of the inner surface of the annular can be rigidly (fixedly) fixed, for example, diametrically opposed to each other milling machine 17. The ends of the control elements can be fixedly mounted, for example, diametrically opposite, for example, in holes made in the body (wall) of the annular milling machine 17, and rigidly fixed, for example, means the welded joint. To facilitate the entry of the emergency pipe into the device, one end of the control elements can be freely placed inside the passage channel of the annular milling machine 17, and the other fixed end of the control elements is rigidly fixed in the body (wall) of the milling machine 17. The fixed end of the control elements can be fixedly mounted, for example, in the hole made in the body (wall) of the annular milling machine 17, and is rigidly fixed, for example, by means of a welded joint.

To control the cleaning of the extracted pipes, the control element or control elements can be placed in the controlled places of the passage channel or funnel guide 3; or a hollow extension cord; or washing pipe; or a hollow extension with elastic internal gripping elements 16; or receiving extension of the annular milling cutter 17; or in other controlled locations of the device.

The upper, for example, one-piece, for example, welded, part of the hollow extension of the annular milling cutter 17 can be rigidly connected to the bottom, for example, one-piece part or the supporting sub 8, with the possibility of capturing large-sized retrievable objects in cross section; or hollow thrust 5 with the ability to capture bottomhole sludge near the "head" of the extracted pipes; or sub 1 with the possibility of capturing bottomhole sludge near the upper end of the extracted pipes by means of a threaded connection for transmitting torque, either by means of an adapter with the ability to pass large objects to be captured through them or with the possibility of working with a receiving hollow extension of a large diameter, or by means of another device, or through other devices.

To center the device in the well, when the inner diameter of the well is much larger than the diameter of the extracted pipes, the outer diameter of the lower part of the annular milling cutter 17 can be made along the diameter of the well with the appropriate clearance for the device to pass through the well.

The thread in the lower, for example, one-piece part, either of the sub 1, or of the hollow rod 5, or of the supporting sub 8 can be performed, for example, external or for attaching or a guide funnel 3, which serves to combine the axes of the device and the extracted pipe string; or a bearing body 9 with a spiral tape gripping element for gripping the outer surface of the protruding annular element on the pipe body, or with a gripping sleeve for gripping the outer surface of the pipe body; or a hollow extension with elastic gripping elements 16 for gripping the extracted pipes under the protruding ring element on the pipe body; or annular milling machine 17 to enable drilling (ring milling) of the extracted pipes and milling operations in the well; or other device; or other devices.

To allow the capture of foreign objects of irregular shape inside the guide funnel 3, or the receiving hollow extension, or the hollow extension with elastic internal gripping elements 16, or the receiving hollow extension with the milling cutter 17, or in other appropriate places of the device can be installed in the form of a ruff, for example metal, cables of the appropriate diameter.

The free ends of elastic cables, for example, of small diameter, can be placed in the form of an outer ruff in the passage channel or the guide funnel 3, or the receiving hollow extension, or the hollow extension 15 with elastic internal gripping elements 16, or the receiving extension with an annular milling cutter 17, or other relevant places on the device.

The fixed opposite ends of the elastic cables can be rigidly fixed in holes located along the length and circumference of the wall or guide funnel 3, or the receiving extension, or the hollow extension 15 with elastic internal gripping elements 16, or the receiving hollow extension with an annular milling cutter 17, or other relevant places on the device.

The fixed ends of the elastic cables can be rigidly fixed, for example, by welding in the holes of the wall: either a guide funnel 3, or a receiving extension, or extension 15 with elastic internal gripping elements 16, or an extension with an annular milling cutter 17, or in other corresponding places of the device .

On the outer surface, for example, of the lower, for example, one-piece part or sub 1, or of the hollow rod 5, or of the supporting sub 8 above the fishing thread (or above the thread) for gripping the pipes to be removed by screwing the threads of the upper threaded part of the pipes to be removed, the second thread. The second thread in the lower, for example, integral part of either the sub 1, or the hollow rod 5, or the supporting sub 8 can be made with the possibility of attachment or adaptation, for example, a guide funnel 3 for combining the axes of the device and the extracted pipe string; or an annular milling cutter 17 for drilling out recoverable pipes and milling operations; or devices, for example, a wash pipe for thawing hydratoparaffin deposits or hydratoparaffin plugs in a well; or other device; or other devices.

In the lower, for example, integral part of either sub 1, or hollow rod 5, or supporting sub 8, either a guide funnel 3 can be rigidly mounted to align the axes of the device and the extracted pipe string; or an annular milling cutter 17 can be rigidly mounted to enable drilling of recoverable pipes and milling operations; or a wash pipe to increase the efficiency of cleaning the extracted pipes by allowing cleaning below the "head" of the extracted pipes or thawing hydratoparaffin plugs or hydratoparaffin deposits in the annular annular space of the well. At the same time, to improve the reliability of the device by increasing the efficiency of cleaning extracted pipes by making it possible to clean below the “head” of the extracted pipes or to melt hydrate-paraffin plugs or hydratoparaffin deposits in the annular annular space of the well, another embodiment of the device for cleaning wells is possible.

To ensure the possibility of cleaning below the “head” of the extracted pipes or for thawing hydratoparaffin plugs or hydratoparaffin deposits in the annular annular space of the well in the lower, for example, one-piece part of either sub 1 or hollow rod 5 or supporting sub 8, a wash pipe can be fixedly mounted. The washing pipe can be fixedly mounted, for example, in the lower integral part of either the sub 1, or the hollow rod 5, or the supporting sub 8, for example, by screwing the threads of the lower part or the sub 1, or the hollow rod 5, or the supporting sub 8 with a thread made in the upper, for example, one-piece part of the washing pipe. The thread in the lower, for example, integral part of either sub 1, or hollow rod 5, or supporting sub 8 can be performed either to attach a funnel guide 3; or ring milling cutter for milling operations; or a washing pipe for cleaning the upper part of the extracted pipes; or to attach another fixture or other fixtures.

The receiving valve, for example, circular reed form 7 can be installed in the initial position in the washing pipe or in the upper, for example, one-piece part to capture the bottomhole sludge and foreign objects with the upper part of the washing pipe; or in the lower, for example, one-piece part to capture the bottomhole sludge and foreign objects with the lower part of the washing pipe; or in the upper part, for example, the integral part and the lower part, for example, the integral part to capture the bottom slurry and foreign objects, the upper and lower parts of the washing pipe; or other appropriate place on the device; or other appropriate places on the device.

In the framework of the invention, another device can be made comprising a washing pipe with a passage channel, i.e. another version of the device in the form of a device for cleaning wells. Moreover, to improve the reliability of the device for cleaning wells containing a wash pipe with a passage channel, in the passage channel of the upper part, for example, the integral part of the wash pipe, can be installed in the initial position with the possibility of tilting up the receiving valve, made, for example, in the form of a circular reed valve 7, this ensures the capture of bottomhole sludge, foreign objects by the upper part of the washing pipe.

In the framework of the invention, another device can be made comprising a washing pipe with a passage channel, i.e. another version of the device in the form of a device for cleaning wells. Moreover, to improve the reliability of the device for cleaning wells containing a washing pipe with a passage channel, in the passage channel of the lower part, for example, the integral part of the washing pipe, can be installed in the initial position with the possibility of tilting up the receiving valve, made, for example, in the form of a circular reed valve 7, this ensures the capture of bottomhole sludge, foreign objects, the lower part of the washing pipe.

In the framework of the invention, another device can be made comprising a washing pipe with a passage channel, i.e. another version of the device in the form of a device for cleaning wells. Moreover, to increase the reliability of the device for cleaning wells, containing a washing pipe with a passage channel, in the passage channel of the upper part, for example, the integral part and the lower part, for example, the integral part of the washing pipe, the receiving valve can be deflected upward , made, for example, in the form of a circular reed valve 7, this ensures the capture of bottomhole sludge, foreign objects by the upper and lower parts of the washing pipe.

A washing pipe for cleaning the extractable pipes below the “head” of the extracted pipes or for thawing hydrate-paraffin plugs or hydrate-paraffin deposits in the well can be made, for example, of an integral structure. A washing pipe for cleaning the extracted pipes below the “head” of the removed pipes or for thawing hydrate-paraffin plugs or hydrate-paraffin deposits in the annular annular space of the well can be made of either one-piece construction; or prefabricated design, including the appropriate layout of the washing pipes for placement inside its long dangling part of the extracted pipes.

The lower end of the washing pipe or receiving extension to ensure the alignment of the axes of the device and the extracted pipe string can be made either with a notch along a helical line forming a ledge and with a conical chamfer on the inner surface; or in the form of a “pen” and with a conical chamfer on the inner surface to increase the circulation of flushing fluid; or for circulation of the downhole fluid, for example, with undulating teeth and with a conical chamfer on the inner surface; or to ensure cleaning near the planted part, or the castle part, or other protrusions of the pipe with an annular conical bevel on the inner surface; or to ensure the removal of the upper end of the extracted pipes from the borehole wall and to enter the device inside and to ensure cleaning of the dangling pipe near the upset part, or the castle part, or other pipe protrusions with a wide, for example, “P” -shaped, for example, longitudinal, cut and conical chamfer on the inner surface; or for drilling pipes (ring milling) in the form of an annular milling cutter with cutting teeth, or in the form of an annular milling cutter with cutting teeth deposited with an alloy containing brass and carbide cutting with appropriate grain size or reinforced with carbide cutting elements; or in the form of an annular milling cutter with cutting teeth of various shapes, depending on the type of milling work, which can be welded with an alloy containing brass and corresponding carbide cutting cutting by abrasion of brass of corresponding grain size, or reinforced with cutting carbide elements; or in case of deviation of the upper end of the extracted pipe string from the center of the well with a notch along a spiral line passing into a lateral curly longitudinal groove with a retracting hook to ensure the removal of the upper end of the extracted pipes from the "cavity" of the borehole and into the device; or with a thread for attaching a device, for example, a funnel guide 3; or with a thread for attaching a device, for example, an external releasing tube, including, for example, a spiral tape gripping element for securing a grip, for example, a sleeve; or threaded to attach the fixture; or with a thread for attaching devices; or, for example, with two, for example, longitudinal protrusions, for example a U-shaped, for placement in the corresponding longitudinal grooves made in the upper part of another device for connecting to the device or to other devices by means of a welded joint; or other form. To center the device in the well, when the inner diameter of the well is much larger than the diameter of the extracted pipes, the outer diameter of the lower part of the wash pipe can be made along the diameter of the well with the appropriate clearance for the device to pass through the well. To transmit the axial load and torque to the guide funnel 3 during the working cycle of cleaning the extractable pipes, the upper, for example, one-piece part of the guide funnel 3 can be rigidly connected with the bottom, for example, one-piece part of the washing pipe or through a threaded connection; or by welding, for example, two longitudinal protrusions, for example a U-shaped, made in the upper part of the guide funnel 3, placed in the corresponding longitudinal grooves, made in the lower part of the washing pipe, with the possibility of passing through the protruding ring element of the large diameter or through another compound. To connect the wash pipe (receiving hollow extension) of an integral (integral) or detachable (prefabricated) design to the device for cleaning wells, a thread can be made in the upper part of the wash pipe or an adapter fixed in the upper part of the wash pipe, the thread in the upper part of which and the lower part of the adapter is rigidly connected to the washing pipe by means of a welded joint, for example, two longitudinal protrusions of a U-shaped or other shape, made in the upper part of the washing pipe and not IG Petritskaya placed on the outer surface of the bottom adapter to transmit torque to obmyvochnoy pipe. To clean the extracted pipes and thaw hydrate-paraffin plugs or hydrate-paraffin deposits in the annular annular space of the well, the washing pipe can be rigidly connected to the lower, for example, one-piece part of either sub 1, or hollow rod 5, or supporting sub 8 or threaded connection for transmitting torque; or by means of an adapter with the ability to pass large-sized captured objects through itself in the diametrical direction or with the ability to operate with a large internal diameter washing pipe; or a device, for example, a tube, including, for example, a spiral tape gripping element 10 for gripping the sleeve; or a tube including gripping elements 14, which serve to capture small diameter pipes or rods of different diameters behind the body under the protruding ring element on the body of the pipe or rod free from tubing; or other device; or other devices.

In the framework of the invention, the hollow extension may be made either in the form of a washing pipe for cleaning the extracted pipes below the “head” of the extracted pipes, thawing hydrate-paraffin plugs, hydratoparaffin deposits in the well; or in the form of a receiving extension cord for placement inside it of recoverable pipes, or foreign objects, or sand, or bottomhole sludge, or remaining proppant; or in the form of a borehole to ensure cleaning of the remaining pipes and the wellbore during the milling (drilling) working cycle of either a slurry, or sand, or hydratoparaffin downhole plug, or a plug formed as a result of compaction of tightly packed remaining proppant.

The receiving valve, for example, circular reed form 7 can be installed in the initial position in the receiving extension cord or in the upper, for example, one-piece part to capture the bottom slurry and foreign objects with the upper part of the receiving extension cord; or in the lower, for example, one-piece part for trapping downhole sludge and foreign objects with the lower part of the receiving extension; or in the upper part, for example, the integral part and the lower part, for example, the integral part to capture the bottom slurry and foreign objects, the upper and lower part of the receiving extension; or other appropriate place on the device; or other appropriate places on the device.

In the framework of the invention, another device may be made comprising a receiving extension with a passage channel, i.e. another version of the device in the form of a device for cleaning wells. Moreover, to improve the reliability of the device for cleaning wells, containing a receiving extension with a passage channel, in the passage channel of the upper part, for example, an integral part of the receiving extension, can be installed in the initial position with the possibility of tilting up the reception valve, made, for example, in the form of a circular reed valve 7, this ensures the capture and extraction of bottomhole sludge, foreign objects.

In the framework of the invention, another device may be made comprising a receiving extension with a passage channel, i.e. another version of the device in the form of a device for cleaning wells. Moreover, to increase the reliability of the device for cleaning wells containing a receiving extension cord with a passage channel, in the passage channel of the lower part, for example, an integral part of the receiving extension cord, the reception valve made, for example, in the form of a circular reed valve 7, this ensures the capture and extraction of bottomhole sludge, foreign objects.

In the framework of the invention, another device may be made comprising a receiving extension with a passage channel, i.e. another version of the device in the form of a device for cleaning wells. Moreover, to increase the reliability of the operation of a device for cleaning wells containing a receiving extension with a passage channel, in the passage channel of the upper part, for example, the integral part and the lower part, for example, the integral part of the receiving extension, the receiving valve can be deflected upward , made, for example, in the form of a circular reed valve 7, this ensures the capture and extraction of bottomhole sludge, foreign objects, the upper and lower part of the receiving extension.

In the upper, for example, one-piece part: or funnel guide 3; or a supporting sub 8, for example, with a circular reed valve 7 or a supporting body 9 with the corresponding fishing operations with a capturing element or elements; or a hollow extension 15 with elastic gripping element or elements; or ring milling machine 17; or washing pipe; or bells; or other devices can be installed, with the full necessary disclosed in the description of the layout of other devices, sub 1 with the movable valve 2 installed in the initial position to prevent premature cutting of the locking pins when lowering the device into the well. To increase the reliability of the device by increasing the efficiency of the destruction of dense bottomhole sludge between the sub 1 with the movable valve 2 and the upper, for example, one-piece part: or guide funnel 3; or a carrier sub 8, for example, with a circular reed valve 7; or a supporting body 9 with a gripping element (or elements) corresponding to fishing operations; or a hollow extension 15 with elastic gripping elements 16; or bells; or ring milling machine 17; or washing pipe; or other devices can be installed, with the full necessary disclosed in the description of the layout of other devices, the lead body 4 and the hollow rod 5 with a cylindrical heel 6 installed in the lead case 4 with the possibility of longitudinal movement up and interaction with the movable valve 2.

The lead body 4 and the hollow rod 5 with a cylindrical heel 6 can be installed either in the lower, for example, one-piece part of the sub 1 with a movable valve 2 with the possibility of longitudinal movement of the hollow rod 5 with respect to the sub 1, which increases the efficiency of cleaning the extracted pipes and the wellbore due to the possibility of destruction of the dense bottomhole sludge by the lower end of the device and provides for striking the weight of the column of the fishing tool on the stuck pipes; or between the lower, for example, one-piece part of the sub 1 with the movable valve 2 and the upper part, for example, the one-piece part of the bearing body 9 with the possibility of its longitudinal movement with respect to the lead body 4, this increases the grip reliability, the cleaning efficiency of the extracted pipes by increasing the fracture efficiency dense bottomhole sludge and increase the permeability of the device in the wellbore, provides unscrewing of the extracted pipes and increases the reliability of the release of the device without simultaneously lifting Olona fishing tool provides strikes weight column fishing tool for stuck pipe.

In the framework of the invention, to improve the reliability of the device by ensuring the capture of bottomhole sludge, large foreign objects, another embodiment of a device for cleaning wells containing a bearing sub 8 with an internal passage channel is possible (see Fig.24-25).

At the same time, to increase the reliability of the device by ensuring the capture of bottomhole sludge, large foreign objects in the passage channel of the bearing sub 8, a receiving valve of a reed circular shape 7 or another shape is installed in the initial position with the possibility of tilting upward from the initial position, for example, to a vertical position and capture downhole sludge, foreign objects of large size (Fig.24-25).

Reception valve reed circular form 7 or another shape can be installed either inside the upper part of the carrier sub 8 to capture the bottom slurry and foreign objects with the upper part of the sub 8; or inside the lower detachable part of the sub 8 to capture the bottom mud and foreign objects with the lower part of the supporting sub 8; or in the upper and lower detachable parts of the bearing sub 8 to capture the bottomhole sludge and foreign objects, the upper and lower parts of the bearing sub 8; or other appropriate place on the device; or other appropriate places on the device. The landing ring can be installed either in the saddle on the annular ledge of the passage channel of the supporting sub 8 to increase the load capacity of the device; or on the upper end surface of the lower detachable part of the carrier sub 8 for transmitting the lifting force from the carrier sub 8 to the receiving valve; or on a ledge of another form of another element of the device.

The reed circular valve 7 can be spring-loaded in its initial position by means of a spring, for example a torsion, which serves to facilitate closing the internal passage of the device with the reed valve 7. A torsion spring can be mounted, for example, on a cylindrical pin in the swivel of the seat ring with the reed valve 7. The reed the valve 7 can be spring-loaded in its initial position, for example, by an elastic leaf spring to facilitate closing the internal passage of the device with a reed valve No 7.

Reed circular valve 7, located in the passage channel of the bearing sub 6 or in another appropriate place on the device; or in other appropriate places on the device, it can be spring-loaded, for example, in its highest position, for example, with an elastic leaf spring, which serves to facilitate closing of the device's internal passage channel with the reed valve 7. One end of the elastic leaf spring can be fixedly mounted, for example, on the upper surface reed valve 7 with the possibility of interaction of the other end of the elastic leaf spring, for example, with the inner surface of the supporting sub 8. Or one end of the elastic plate spring of the spring can be fixedly mounted, for example, on the outer surface of the seat ring with the possibility of interaction of the other end of the elastic leaf spring, for example, with the upper surface of the reed valve 7.

The receiving valve may be made up or convex upward in the initial, for example, horizontal position and round in projection onto a horizontal plane and placed in the passage channel of the carrier sub 8 with the possibility of its overlap and deviation upward from the initial position to the extreme, for example, vertical position for placing the dangling part of the pipe; or a flat shape in the initial position, for example, in a horizontal plane and placed inside the passage channel of the supporting sub 8 with the possibility of its overlapping and deviation upward from the initial position to the highest position and capture small items; or other form. To increase the rigidity of the swivel and fixed support of the swivel connection of the reed valve of a flat or other shape, for example with a seat ring, the fixed support can be made on a radial protrusion made of a segment or other shape on the inner surface of the passage channel of the seat ring. Moreover, the movable support can be made on the edge of the reed valve, made of a segment or other shape, with the possibility of upward biasing of the reed valve installed in the initial position on the end surface made in a horizontal or other plane of the landing ring with the possibility of tight overlapping of its passage channel by the valve and capture bottomhole sludge.

A reed valve of a flat shape can be made, for example, in the form of a section of the inner surface of the passage channel, for example, an expansion sleeve, by a plane aligned with the lower surface of the reed valve in its open extreme upper position with the possibility of overlapping the inner passage channel of the device by the reed valve.

A reed valve of a flat shape can be connected, for example, with a seat ring by a swivel with the possibility of upwardly biasing the reed valve, blocking the passage channel of the device and trapping downhole sludge; or other movable connection. The swivel may include a support sleeve fixedly mounted on the edge of the bore of the landing ring, and a swivel support, the body of which is passed through the hole of the support sleeve, while the ends of the swivel support are motionlessly connected to the reed valve so that it can be deflected upwards and capture the downhole cuttings. The swivel may include a support sleeve fixedly mounted on the edge of the reed valve, and a swivel support, the body of which is passed through the hole of the support sleeve, while the ends of the swivel support are motionless connected to a wall, for example, a bearing sub 8 with the possibility of upwardly deflecting the reed valve, overlapping the passage channel device and capture bottom mud.

The reed valve, either convex upward, or flat, or in another form to provide a grip, for example, a dangling rod suspension under a protruding ring element on the rod body, can be made either with a U-shaped cut in the diametrical direction at right angles to the axis of rotation of the valve; or with a neckline of a different shape.

To ensure the capture of downhole sludge, foreign objects, the receiving valve can be made either in the form (in the form) of a circular reed valve 7 with a convex upward shape in the initial position with the ability to pass through a torn part of the pipe; or from separate, for example, reed spring-loaded in the initial, for example horizontal position, arranged around the circumference by means of, for example, a clip inside the passage channel of the carrier sub 8 with the possibility of its overlapping and tilting up from the initial position to the upper position to enable capture and removal of small objects ; or to enable the capture of foreign objects of irregular shape in the form (in shape) of a ruff made of elastic, for example, cables of the corresponding diameter, the free ends of which are placed inside the sleeve, and the other ends are rigidly fixed in the holes located around the circumference and height of the wall of the sleeve, installed, for example, motionless in the passage channel of the carrier sub 8; or to capture foreign objects of irregular shape in the form (in shape) of a ruff made of elastic, for example, cables of the corresponding diameter, the free ends of which are placed inside the supporting sub 8, and the other ends are rigidly fixed in holes located around the circumference and height of the wall of the supporting sub 8; or in the form of a spherical (or mushroom-shaped) valve installed in its initial position in the landing saddle, for example, the passage channel of the supporting sub 8 with the possibility, for example, of limited upward movement and capture of bottomhole sludge; or in the form of a circular rotary relative to an axis, for example, coinciding with a diametrical horizontal axis, for example, spring-loaded in the initial, for example, horizontal position of the shutter, placed in the passage channel of the bearing sub 8 with the possibility of rotation relative to the diametrical axis from the initial position, for example, in a vertical position and capture of bottom mud; or in the form of another valve.

To capture the downhole slurry, the ball valve can be installed in the seat saddle of the passage channel or the seat ring, fixedly and tightly installed in the upper or lower detachable or integral part of the supporting sub 8 to increase the tightness of the internal cavity of the device; or other appropriate place on the device; or other appropriate places on the device.

In the framework of the invention, in order to increase the reliability of the device for cleaning wells by trapping downhole cuttings, large foreign objects, another embodiment of a device for cleaning wells containing a guiding funnel 3 is possible (see Fig. 26).

At the same time, to increase the reliability of the device for cleaning wells by allowing capture of bottomhole cuttings, large foreign objects in the passage channel of the guide funnel 3, a receiving valve of a reed circular shape 7 or another shape configured to deflect upward from the initial position is installed in the initial position, for example, in a vertical position and capture downhole sludge, foreign objects of large size (see Fig.26).

The lower end of the guide funnel 3 to ensure the alignment of the axes of the device and the extracted pipe string can be made either with a notch along a helical line forming a ledge, and with a conical chamfer on the inner surface; or for circulation of the downhole fluid, for example, with undulating teeth and with a conical chamfer on the inner surface; or to ensure cleaning near the planted part, or the castle part, or other protrusions of the pipe with an annular conical bevel on the inner surface; or in the form of a “pen” and with a conical chamfer on the inner surface to increase the circulation of flushing fluid; or to ensure the removal of the upper end of the extracted pipes from the borehole wall and to enter the device inside and to ensure the cleaning of the short part of the dangling pipe near the upset part or the lock part, or other protrusions of the pipe with a wide longitudinal neckline of a “P” -shaped or other shape and with a conical bevel on the inner surface; or in case of deviation of the upper end of the extracted pipe string from the center of the well with a notch along a spiral line passing into a lateral curly longitudinal groove with a retracting hook to ensure the removal of the upper end of the extracted pipes from the "cavity" of the borehole and into the device; or for drilling pipes (ring milling) in the form of an annular milling cutter with cutting teeth, or in the form of an annular milling cutter with cutting teeth deposited with an alloy containing brass and carbide cutting with appropriate grain size or reinforced with carbide cutting elements; or in the form of an annular milling cutter with cutting teeth of various shapes, depending on the type (purpose) of milling work, which can be welded with an alloy containing brass and corresponding carbide cutting cutting by abrasion of brass of the corresponding grain size, or reinforced with cutting corresponding carbide elements; or for annular milling of a deformed pipe in the form of an annular milling cutter, which inside is made of a conical or other shape and with shoe teeth on a conical surface or on a conical and external surface, which are fused with an alloy containing brass and corresponding carbide inclusions cutting as a result of abrasion of brass of corresponding grain size; or for milling dense slurry in the form of an annular milling cutter with hard-alloy carbide teeth welded inside or outside or inside and outside using brass and corresponding carbide cutting by abrasion of brass of corresponding grain size; or in the form of a spider, or in the form of a pike mouth to capture foreign objects; or in the form of a pike mouth with hooks placed along the length and radius of its internal working surfaces to capture the dangling part of the cable; or threaded to attach another fixture; or threaded for connecting other devices; or, for example, with two longitudinal protrusions of a U-shaped or other shape made for placement in the corresponding longitudinal grooves, made in the upper part of the device or arrangement of devices for connecting to the guide funnel 3 by means of a welded joint; or other form. To center the device in the well, when the inner diameter of the well is much larger than the diameter of the extracted pipes, the outer diameter of the lower part of the guide funnel 3 can be made along the diameter of the well with the appropriate clearance for the device to pass through the well. To transmit axial load and torque from the upper part of the guide funnel 3 to its lower part, the guide funnel 3 can be made by means of a welded joint of a prefabricated structure. The upper part of the guide funnel 3 can be rigidly connected with the upper end of its lower part or the receiving hollow extension by means of a welded joint, for example, two longitudinal protrusions of a U-shaped or other shape, placed in the longitudinal grooves of the upper end of the upper part of the guide funnel 3 or the receiving hollow extension one-piece or detachable design.

In the framework of the invention, to improve the reliability of the device for cleaning wells by trapping downhole cuttings, foreign objects, another embodiment of a device for cleaning wells containing a hollow extension 15 with elastic internal gripping elements 16 is possible (see Fig. 27). At the same time, to increase the reliability of the device for cleaning wells by trapping downhole cuttings, foreign objects in the passage channel of the upper integral or detachable part of the hollow extension 15 (washer) with elastic internal exciting elements 16, a receiving valve of a reed circular shape 7 or another is installed in the initial position forms made with the possibility of deviation upward from the starting position, for example, in a vertical position and capture downhole cuttings, foreign objects of large size pa (see. Figure 27). To transmit axial load and torque from the upper part of the hollow extension 15 to its lower part, the hollow extension 15 can be made by means of a welded joint of a prefabricated structure. The upper part of the hollow extension 15 can be rigidly connected to the upper end of its lower part by means of a welded joint, for example, two longitudinal protrusions of a U-shaped or other shape, placed in the grooves of the upper end of the upper part of the hollow extension 15. The lower end of the hollow extension 15 with elastic internal exciting elements 16 can be made of the corresponding shape and hardness or welded with an alloy of the corresponding hardness for each type of fishing and milling operations. In the framework of the invention, to improve the reliability of the device for cleaning wells by ensuring the capture of bottomhole cuttings, foreign objects, another embodiment of a device for cleaning wells containing an annular milling cutter 17 is possible (see Fig. 28). Moreover, to improve the reliability of the device for cleaning wells by trapping downhole cuttings, large foreign objects in the passage channel of the upper one-piece or detachable part of the annular milling machine 17, a receiving valve of a reed circular shape 7 or another shape configured to deflect up is installed in the initial position from the starting position, for example, in a vertical position and capture downhole mud, foreign objects of large size (see Fig.28). The working surfaces or teeth of the annular milling machine 17 can be made of the corresponding shape and hardness or welded with an alloy of the appropriate hardness for each type of milling work.

In the framework of the invention, to improve the reliability of the device for cleaning wells by trapping downhole cuttings, large foreign objects, another embodiment of the device for cleaning wells containing an annular mill 17 with a hollow extension (washing pipe) is possible (see Fig. 29). Moreover, to improve the reliability of the device for cleaning wells by trapping downhole cuttings, large foreign objects in the passage channel of the upper integral or detachable part of the hollow extension cord of the integral or detachable design, a receiving valve of a reed circular shape 7 or another shape made with the possibility of deviation upward from the starting position, for example, in a vertical position and capture downhole sludge, foreign objects of large size (Fig.29 ) A hollow extension cord or washer (oburnnik) can be made, for example, of an integral structure, for example, for cleaning the pipe, below the "head" of the pipes to be removed. The hollow extension may be made of an integral structure or a detachable (prefabricated) structure of interconnected other devices, including an appropriate number of pipes of appropriate length with the possibility of placing inside it and grabbing a long, dangling upper part of extracted pipes or long objects. The working surfaces or teeth of the annular milling cutter 17 can be made of the corresponding shape and hardness or welded with an alloy of the corresponding hardness for each type of fishing, milling and cleaning of the extracted pipes.

To clean the extracted pipes, the isolation valve can be made in the form of a movable valve 2 (see Fig. 1) or to ensure repeated cleaning of the extracted pipes in the form of a movable carrier valve 2 with the possibility of transmitting torque (torque) from the carrier valve 2 to the sub 1 To ensure the possibility of repeated cleaning of the well during the working cycle, the movable valve 2 can be made in the form of a movable carrier valve 2 installed in its original position in the passage channel Evodnik 1 with the possibility of limited longitudinal movement, transfer of torque (torque) from the carrier valve 2 to the sub 1, repeatedly opening, closing the side bypass holes of the longitudinal bypass channel, made in the carrier valve 2 and capture downhole cuttings.

To improve the cleaning efficiency of the extracted pipes in the passage channel of the sub 1 can be installed in the initial position with the ability to move upwardly movable valve 2, fixed in the initial position (see figure 2); or to ensure the possibility of repeated cleaning of the well during the working cycle of downhole operations in the passage channel of the sub 1, a movable supporting valve 2 can be installed in the initial position, in which a longitudinal bypass channel connected to the side bypass openings (cutouts) is made. The carrier valve 2 is placed inside the sub 1 with the possibility of limited longitudinal movement, transfer of torque (torque) from the carrier valve to the sub 1, repeated opening, closing of the side bypass holes of the longitudinal bypass channel made in the carrier valve 2 and capture downhole cuttings.

To improve the reliability of the device by providing the possibility of repeated cleaning of the well during the working cycle of downhole operations, for example, milling a dense bottomhole sludge, another embodiment of the device for cleaning wells is possible (can be performed).

To increase the reliability of the device by providing repeated cleaning of the remaining pipes and the wellbore during the downhole work cycle, for example, milling (drilling) sludge, or sand, or hydrate-paraffin downhole plugs, or plugs from compacted proppant remaining in the well, movable valve 2 made in the form of a movable carrier valve 2. In the carrier valve 2 is a longitudinal bypass channel associated with the side bypass holes and (cutouts) that are made at the end of the longitudinal bypass channel in the end part of the carrier valve 2 with the possibility of capturing the bottomhole slurry by the movement of the fluid flow under the pressure of the annular hydrostatic column of fluid under the carrier valve 2.

Through the hole of the supporting annular stop fixedly installed in the end one-piece or detachable part of the sub 1, the one-piece or detachable bearing part of the bearing valve 2 with the possibility of limited longitudinal movement is passed.

To capture the bottomhole sludge, the bearing part of the bearing valve 2 can be passed through the hole of the bearing ring stop or through the hole of the bearing ring protrusion made on the inner surface of the integral part of the sub 1 to increase the bearing capacity (load capacity) of the sub 1.

On the outer surface of the end part of the supporting valve 2 with side bypass holes, an annular protrusion can be made at right angles or at a different angle with a guaranteed gap between the surface of the protrusion and the end surface of the sub 1 or with the possibility of interaction of the surface of the annular protrusion with the counter surface of the sub 1. The end part one-way valve 2 with side bypass holes can be made one-piece or detachable in the form of a guide tip with a guaranteed gap ohms between the projection surface and the end surface of the sub 1 or capable of interacting with the surface of the annular projection mating surface of sub 1.

The carrier valve 2 and the sub 1 of an integral or detachable design can be connected with each other by a longitudinally movable connection with the possibility of transmitting axial lifting force and torque (torque) from the carrier valve 2 to the sub 1 or from the sub 1 to the carrier valve 2 and capture the downhole sludge.

To capture the bottom slurry, side bypass openings (cutouts) associated with the longitudinal bypass channel can be made in the lower one-piece or detachable part of the carrier valve 2 or another part of the carrier valve 2. The carrier valve 2 with side bypass holes in its lower part can be installed in the passage channel of the sub 1 in the initial extreme upper position with the possibility of a limited longitudinal movement down and capture downhole sludge. In this case, the carrier valve 2 can be connected with the sub 1 with the possibility of transmitting torque (torque) from the carrier valve 2 to the sub 1. With the longitudinal movement of the carrier valve 2 down the side bypass holes (cutouts) located in the lower integral or detachable part of the carrier valve 2, they are pulled out of the sub 1, as a result, under the lower end of the sub 1, the side bypass openings of the longitudinal bypass channel of the carrier valve 2 are opened and the passage channel of the sub 1 opens. m moving the carrier valve 2 up, the side bypass openings of the carrier valve 2 are closed by the inner surface of the sub 1, as a result of the passage channel of the sub 1 is blocked by the carrier valve 2 and the bottomhole sludge is captured.

To capture the bottom slurry, side bypass holes (cutouts) associated with the longitudinal bypass channel can be made in the upper one-piece or detachable part of the carrier valve 2 or another part of the carrier valve 2. The carrier valve 2 with side bypass holes in its upper part can be installed in the passage channel of the sub 1 in the initial extreme lower position with the possibility of limited longitudinal movement up and capture downhole sludge. In this case, the carrier valve 2 can be connected with the sub 1 with the possibility of transmitting torque (torque) from the sub 1 to the carrier valve 2. With the longitudinal movement of the carrier valve 2 up the side bypass holes (cutouts) located in the upper one-piece or detachable part of the carrier valve 2, they are pulled out from the sub 1, as a result, above the upper end of the sub 1, the side bypass openings of the longitudinal bypass channel of the supporting valve 2 open and the passage channel of the sub 1 opens. moving the carrier valve 2 downward, the side bypass openings of the carrier valve 2 are closed by the inner surface of the sub 1, as a result, the passage channel of the sub 1 is blocked by the carrier valve 2 and the bottomhole sludge is captured.

To transmit torque, the middle part of the carrier valve 2 can be made detachable with limited longitudinal movement in sub 1 or integral with its carrier part to increase the bearing capacity (load capacity) of the carrier valve 2.

The carrier valve 2 can be connected to the sub 1 with the possibility of transmitting torque (torque) from the carrier valve 2 to the sub 1 through the middle part of the carrier valve 2 to increase the rigidity of the transmission of torque from the carrier valve 2 to the sub 1 or from the sub 1 to the carrier valve 2.

For milling tightly packed bottom slurry, the middle part or the bearing part of the bearing valve 2 and the bearing annular stop fixedly installed in the end part of the sub 1 can be interconnected with the possibility of transmitting torque from the bearing valve 2 to the sub 1 or from the sub 1 to the bearing valve 2.

The outer surface of the bearing part of the bearing valve 2 of the longitudinally movable connection and the reciprocal contacting inner surface of the hole of the bearing ring stop fixedly installed in the end part of the sub 1 can be made in cross section or octagonal to transmit torque from the bearing valve 2 to sub 1; or with slotted longitudinal grooves to increase the rigidity of the transmission of torque from the supporting valve 2 to the sub 1; or a cylindrical shape (round in cross section) with the possibility of limited longitudinal movement of the carrier valve 2 inside the sub 1; or other form.

For milling tightly packed bottomhole sludge, the carrier valve 2 can be connected to the sub 1 with a longitudinally movable connection of the carrier part of the carrier valve 2 with a supporting ring protrusion made on the inner surface of the sub 1 to increase the rigidity of the transmission of torque (torque).

The outer surface of the middle part of the bearing valve 2 of the longitudinally movable connection and the reciprocal contacting inner surface of the hole of the bearing ring protrusion made on the inner surface of the sub 1 can be made in cross section or octagonal to transmit torque from the bearing valve 2 to the sub one; or with slotted longitudinal grooves to increase the rigidity of the transmission of torque from the supporting valve 2 to the sub 1; or a cylindrical shape (round in cross section) with the possibility of limited longitudinal movement of the carrier valve 2 inside the sub 1; or other form.

The carrier valve 2 is placed in the passage channel of the sub 1 with the possibility of limited longitudinal movement of repeated opening, closing the side bypass holes (cutouts) of the longitudinal bypass channel of the carrier valve 2 and the passage channel of the adapter 1, repeatedly cleaning the extracted pipes and trapping the bottom slurry.

The support valve 2 is hermetically installed, for example, concentrically inside the sub 1 in the initial position with the possibility of repeatedly opening, closing the passage channel of the sub 1, repeatedly cleaning the extracted pipes and the wellbore during milling of the dense bottom hole, without removing the device from the well after each cleaning of the remaining pipes and wellbore.

The carrier valve 2 is placed in the passage channel of the sub 1 with the possibility of limited longitudinal movement, the transmission of torque from the carrier valve 2 to the sub 1 or from the sub 1 to the carrier valve 2 with the possibility of releasing the device with a spiral grip using torque (torque) without simultaneously lifting columns of fishing tool.

The carrier valve 2 is connected to the sub 1 with the possibility of limited longitudinal movement, the transfer of torque from the carrier valve 2 to the sub 1 or from the sub 1 to the carrier valve 2, striking the stuck pipes with the weight of the fishing tool column or by churning off the torque.

The supporting valve 2 is installed inside the sub 1 with the possibility of repeatedly opening, closing the side bypass openings of the longitudinal bypass channel of the supporting valve 2, ensuring cleaning of the remaining pipes and the wellbore during the working cycle of downhole operations and after each working cycle of downhole operations.

Between the outer cylindrical surface of the integral or detachable part of the supporting valve 2 and the inner cylindrical surface of the integral or detachable part of the sub 1 contacting with it below and above or above or below the side bypass openings (cutouts) of the bearing valve 2, sealing elements (seals) can be placed. Between the outer surface of the upper or lower one-piece or detachable part of the bearing valve 2 and the inner surface of the bearing annular contact in contact with it, sealing elements (seals) can be placed. Sealing elements (seals) can be made, for example, in the form of a sealing ring of a round or other shape in cross section for sealing the internal cavity of the device. In connection of the carrier valve 2 with the connecting element (connecting sub), a sealing element can be placed, which can be made, for example, in the form of a round or other sealing ring in cross section for sealing the internal cavity of the device.

The carrier valve 2 can be spring-loaded with a compression spring to prevent premature opening of the side bypass holes (cutouts) of the carrier valve 2 when grazing the lower end of the device over the ledges in the joints of the threaded joints of the casing string.

To prevent premature opening of the side bypass openings of the bearing valve 2, a compression spring can be installed on the outer surface of the bearing part of the bearing valve 2, for example, between the annular end surface of the bearing annular stop and the end annular surface of the coupling or ring protrusion made on the outer surface of the bearing end detachable or integral part of the supporting valve 2. In the end bearing part of the supporting valve 2, an internal thread can be made for connecting the link sub.

To prevent premature opening of the side bypass openings of the carrier valve 2, a compression spring can be installed either on the outer surface of the carrier valve 2 between the end of the carrier annular stop and the end of the connecting element associated with the carrier valve 2; or between the ledge of the middle one-piece or detachable part of the carrier valve 2 and the reciprocal annular protrusion inside the sub 1 between its inner surface and the outer surface of the carrier valve 2 to increase the stability of the compression spring.

A compression spring can be installed inside the sub 1 between the inner surface of the sub 1 and the outer surface of the supporting valve 2 between the annular step of the integral or detachable part of the supporting valve 2 and the annular return protrusion of the integral or detachable part of the sub 1 to increase the stability of the compression spring.

To prevent premature opening of the side bypass openings of the carrier valve 2, the carrier valve 2 can be fixed in the initial position from longitudinal movement inside the sub 1, for example, with shear pins (screws, bolts, other elements) or one pin (one screw, one bolt, another one element). One lower end of, for example, shear screws can be installed in holes located, for example, around the circumference of an integral or detachable cylindrical or middle or supporting part of a supporting valve 2 or in annular grooves made on the outer surface of an integral or detachable cylindrical or average, or bearing parts of the main valve 2. The other upper opposite end, for example, shear screws can be fixedly mounted by means of a threaded connection in the holes, respectively placed, for example p, at 1 sub circle or one-piece design or the split bearing ring abutment, or other connecting member 1 to the top sub.

In the end part of the carrier valve 2 with side bypass holes and sub 1 on their end surfaces can be made integral or detachable end ring protrusions with the possibility of interaction of the outer surface of the end ring protrusion of the bearing sub 2 with the inner surface of the end ring protrusion of the sub 1. The bearing valve 2 may be fixed in the initial position from longitudinal movement inside the sub 1, for example, shear pins (screws, bolts, other elements ) or with one pin (one screw, one bolt, another one element). Shear pins or screws, or bolts, or one pin, or one screw, or one bolt can be installed in holes located, for example, around the circumference of the annular protrusions on the end surfaces of the integral or detachable part of the sub 1 and the supporting valve 2. Shear pins, located in the holes of the annular protrusions on the end surfaces of the integral or detachable part of the sub 1 and the supporting valve 2, can be fixed from falling out by the sleeve and tip. The shear pins from falling out of the holes of the annular protrusion on the end face of the sub 1 can be fixed by a sleeve fixed by means of a threaded connection on the outer surface of the annular protrusion on the end of the sub 1. The shear pins from falling out of the holes of the annular protrusion on the lower end of the supporting valve 2 can be fixed to the outer the surface of the tip fixedly mounted in a blind hole made under the pins at the end of the supporting valve 2. Shear pins in the holes of the sub 1 carrier valve 2 prevents premature opening or eliminate lateral bearing orificed valve 2 at the lower end tripping device for the annular shoulders in the joints of threaded connections of the casing and provide the permissible value of the column weight unloading picker tool for downhole respective works. The diameter, material and number of shear pins (screws, bolts, other elements) or one pin (one screw, one bolt, another one element) is determined by the value of the axial load acting on the movable valve 2, which is due to the value of the permissible axial unloading of the weight of the fishing tool string taking into account the safety factor for shear.

To enable capture of the extracted pipes, for example, by screwing their upper threaded part with the lower part, for example, an adapter 1 with a supporting valve 2 at the lower end of the lower integral or detachable part of the adapter 1, for example, a fishing thread, for example, similar or , for example, the reciprocal thread of the upper threaded part of the extracted pipe. To increase the reliability of capture of the extracted pipes in the lower integral or detachable part of the sub 1, either a fishing sub, or a fishing coupling, or a tap, for example, with a similar fishing thread with the ability to capture the extracted pipes or, for example, with a reciprocal, can be fixedly mounted on its lower end threaded upper threaded part of the extracted pipe. A fishing sub, or a fishing coupling, or a tap fixedly mounted on the lower end of the sub 1, makes it possible to grip the retrievable pipes, for example, by screwing the fishing thread, or the fishing sub, or the fishing coupling, or the tap with the upper thread of the retrieved pipes.

To improve the cleaning efficiency of the extracted pipes during the working cycle of downhole operations in the lower integral or detachable part of the sub 1 or the bearing valve 2, a thread can be made to attach the guide funnel 3 to align the axes of the device and the extracted pipe string; or fixtures or arrangements of fixtures disclosed in the description, for example by means of a receiving hollow extension (shank) of an integral or detachable structure.

The lower integral or detachable part of the sub 1 or the supporting valve 2 may be connected by means of the devices disclosed in the description (arrangement of devices) or by means of an extension of an integral or detachable design with an annular milling cutter 17 for milling the slurry plug and capturing the loosened sludge; or with a guiding funnel 3 of a hollow design for combining the axes of the device and the extracted pipes; or by means of a receiving hollow extension with a guiding funnel 3 having a receiving valve of a reed circular shape 7 or another shape for trapping downhole sludge; or by means of a receiving hollow extension with a bearing sub 8 having a receiving valve of a reed circular shape 7 or another shape and a guiding funnel 3 for capturing the bottomhole sludge; or with a hollow extension 15 having elastic gripping elements 16 for gripping a retrievable object under a protruding ring element on the body of its body; or with a bearing body including a spiral tape or sleeve gripping element with an external spiral conical surface for gripping the pipes to be removed; or with a bearing body having an inner conical surface with a downward narrowing, in which a gripping sleeve for gripping the pipes to be removed is axially mounted; or with another device disclosed in the description; or with another arrangement of devices disclosed in the description; or with another device; or with a different arrangement of devices.

The receiving hollow extension for cleaning and placement inside its lengthy upper part of the extracted pipes can be made integral or detachable (prefabricated) design.

The upper part of the guide funnel 3 can be connected with the lower part of the hollow rod 5 or the supporting sub 8 by means of a threaded connection for transmitting axial force and torque to the guide funnel 3; or by means of a receiving hollow extension cord of an integral or detachable design of appropriate length for cleaning and placing a lengthy upper part of the pipes to be removed; or by means of, for example, fitting a washing pipe (washer) of an integral or detachable structure for thawing hydratoparaffin deposits or hydratoparaffin plugs in a well; or through an adapter with the ability to pass large-sized captured objects through itself; or through an adapter and a receiving hollow extension with the ability to pass through the captured objects; or through another device; or through other devices. The receiving hollow extension cord or washer for cleaning and placement inside its lengthy upper part of the extracted pipes can be made integral or detachable design, including the appropriate number of pipes of the corresponding length.

To transmit the axial load and torque from the hollow rod 5 or from the supporting sub 8 to the guide funnel 3 by means of a receiving extension or a wash pipe of an integral or detachable design, the upper part of the guide funnel 3 can be rigidly connected to the lower part of the receiving extension or washing pipe or by means of a threaded connecting the upper part of the guide funnel 3 with the lower part of the receiving extension; or by means of a welded joint, for example, of two longitudinal protrusions of a U-shaped or other shape, made in the upper part of the funnel 3, placed in the corresponding longitudinal grooves, made in the lower part of the receiving hollow extension cord or washing pipe of an integral or detachable design, with the ability to pass through itself a ring element of large diameter protruding on the pipe body; or through another compound.

To increase the reliability of capture of downhole sludge and large foreign objects near the upper end of the extracted pipes, a receiving valve, for example, a reed circular shape 7, a bearing sub 8, the upper part of which can be fixedly connected to the lower integral or detachable part of the sub 1 or the supporting valve 2 connected by means of a threaded connection to the lower part of the sub 1 or to the receiving hollow extension cord or washing pipe of an integral or detachable design with the possibility of passing to pass through capture objects, or with an adapter with the ability to pass large objects to capture through itself, or with an adapter that is connected to a receiving hollow extension (washer) of an integral or detachable design with the ability to pass large objects to be captured through it, or with another device .

Bearing valve 2, in which a longitudinal bypass channel is made, connected with side bypass holes made in the end part of the carrier valve 2, which is installed in the initial position in the passage channel of the sub 1 with the possibility of limited longitudinal movement, opening and closing of the side bypass holes, increases the cleaning efficiency of extractable pipes, provides for the capture of bottomhole sludge, striking with the weight of the column of the fishing tool, or striking up or down with a percussion mechanism about stuck pipes, unscrewing the pipes to be removed without simultaneously lifting the tool, which increases the reliability of the device during a full working cycle for one tripping of the fishing tool.

To increase the duration of the operation of the air chamber above the hollow extension of the annular milling cutter 17 or higher of the receiving valve of the reed circular shape 7 or other shape installed in the appropriate location of the device for picking up sludge, a fitting sub can be installed in any appropriate location of the device, for example above the receiving hollow extension . Inside the fitting sub, it can be motionless and hermetic, for example, by means of a seal, a fitting made of carbide or other material used to increase the wear resistance of the fitting is installed.

To improve the cleaning efficiency of the extracted pipes, the lower integral or detachable part of the sub 1 with the supporting valve 2 or the supporting valve 2 can be fixedly connected with the upper integral or detachable part of the supporting sub 8 or the annular milling cutter 17, or the hollow extension 15 with elastic gripping elements 16, or a funnel guide 3, or a bearing body 9, or another device, or another arrangement of interconnected devices. In this case, the upper integral or detachable part of the supporting sub 8 or the annular milling cutter 17, or the hollow extension 15 with elastic gripping elements 16, or the guide funnel 3, or the supporting body 9 can be rigidly connected with the lower integral or detachable part of the adapter 1 with the supporting valve 2 either a carrier valve 2 or by means of a threaded connection for transmitting axial force and torque; either by means of a receiving hollow extension cord of an appropriate length for cleaning and placement of the lengthy upper part of the pipes to be removed, or by means of a washing pipe (washer) of an integral or detachable design with the ability to pass captured objects through itself; or through an adapter with the ability to pass large-sized captured objects through itself; or by means of an adapter connected with a receiving hollow extension cord of an integral or detachable design with the ability to pass captured objects and accommodate removable pipes; or by means of another device of an integral or detachable design with the ability to pass large-sized captured objects through itself, to place recoverable pipes, to capture downhole sludge and captured objects; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or by other means of an integral or detachable structure; or by arranging interconnected other devices.

To prevent overflowing of the wellbore fluid at the wellhead when the fishing tool string is raised in its passage channel in an appropriate place above the sub 1 with the supporting valve 2, for example, a finger-shaped knock-off valve with the possibility of its destruction by an object of the corresponding weight can be installed using an adapter with a receiving pipe, discharged from the wellhead.

To improve the reliability of the device by providing the possibility of repeated cleaning of the well during the working cycle of downhole operations, for example, milling dense bottomhole cuttings, it is possible (can be performed) another embodiment of the device for cleaning wells, containing a sub with an internal passage channel, in which the source a movable valve is installed (see Figs. 30-31).

In the framework of the invention, to improve the reliability of the device’s operation, a device for cleaning wells can be made, comprising a sub with an internal passage channel in which a movable valve is installed in the initial position, and to ensure that the well can be repeatedly cleaned during a working cycle of downhole operations, for example, milling dense bottomhole sludge, the movable valve is made in the form of a movable supporting valve 2, in which a longitudinal bypass channel associated with lateral bypass holes (cutouts) made in the end of the carrier valve 2, in the passage channel of the sub 1 is placed with the possibility of limited longitudinal movement of the carrier valve 2, connected to the sub 1 with the possibility of transmitting torque (torque) to the sub 1, repeatedly opening, closing side bypass holes of the carrier valve 2 and capture bottomhole sludge (see Fig.30-31).

To increase the reliability of the device by providing repeated cleaning of the remaining pipes and the wellbore during the downhole work cycle, for example, milling (drilling) sludge, or sand, or hydrate-paraffin downhole plugs, or plugs from compacted proppant remaining in the well, movable valve 2 made in the form of a movable carrier valve 2. In the carrier valve 2 is a longitudinal bypass channel associated with the side bypass holes and (cutouts) that are made at the end of the longitudinal bypass channel in the end part of the carrier valve 2 with the possibility of capturing the bottomhole slurry by the movement of the fluid flow under the pressure of the annular hydrostatic column of fluid under the carrier valve 2.

Through the hole of the supporting annular stop fixedly installed in the integral or detachable part of the sub 1, the integral or detachable bearing part of the supporting valve 2 with the possibility of limited longitudinal movement is passed.

To capture the bottomhole sludge, the bearing part of the bearing valve 2 can be passed through the hole of the bearing ring stop or through the hole of the bearing ring protrusion made on the inner surface of the integral part of the sub 1 to increase the bearing capacity (load capacity) of the sub 1.

On the outer surface of the end part of the supporting valve 2 with side bypass holes, an annular protrusion can be made at right angles or at a different angle with a guaranteed gap between the surface of the protrusion and the end surface of the sub 1 or with the possibility of interaction of the surface of the annular protrusion with the counter surface of the sub 1. The end part one-way valve 2 with side bypass holes can be made one-piece or detachable in the form of a guide tip with a guaranteed gap ohms between the projection surface and the end surface of the sub 1 or capable of interacting with the surface of the annular projection mating surface of sub 1.

The carrier valve 2 can be connected with the sub 1 of an integral or detachable structure with the possibility of transmitting axial lifting force and torque (torque) from the carrier valve 2 to the sub 1 or from sub 1 to the carrier valve 2 and capture downhole cuttings.

To capture the bottom slurry, side bypass openings (cutouts) associated with the longitudinal bypass channel can be made in the lower one-piece or detachable part of the carrier valve 2. The carrier valve 2 with side bypass holes in its lower part can be installed in the passage channel of the sub 1 in the initial extreme upper position with the possibility of limited longitudinal movement down and capture downhole sludge. In this case, the carrier valve 2 can be connected with the sub 1 with the possibility of transmitting torque (torque) from the carrier valve 2 to the sub 1. With the longitudinal movement of the carrier valve 2 down the side bypass holes (cutouts) located in the lower integral or detachable part of the carrier valve 2, they are pulled out of the sub 1, as a result, under the lower end of the sub 1, the side bypass openings of the longitudinal bypass channel of the carrier valve 2 are opened and the passage channel of the sub 1 opens. m moving the carrier valve 2 up, the side bypass openings of the carrier valve 2 are closed by the inner surface of the sub 1, as a result of the passage channel of the sub 1 is blocked by the carrier valve 2 and the bottomhole sludge is captured.

To capture the bottom slurry, the lateral bypass holes (cutouts) associated with the longitudinal bypass channel can be made in the upper one-piece or detachable part of the carrier valve 2. The carrier valve 2 with side bypass holes in its upper part can be installed in the passage channel of the sub 1 in the initial extreme lower position with the possibility of limited longitudinal movement up and capture downhole sludge. In this case, the carrier valve 2 can be connected with the sub 1 with the possibility of transmitting torque (torque) from the sub 1 to the carrier valve 2. With the longitudinal movement of the carrier valve 2 up the side bypass holes (cutouts) located in the upper one-piece or detachable part of the carrier valve 2, they are pulled out from the sub 1, as a result, above the upper end of the sub 1, the side bypass openings of the longitudinal bypass channel of the supporting valve 2 open and the passage channel of the sub 1 opens. moving the carrier valve 2 downward, the side bypass openings of the carrier valve 2 are closed by the inner surface of the sub 1, as a result, the passage channel of the sub 1 is blocked by the carrier valve 2 and the bottomhole sludge is captured.

To transmit torque, the middle part of the carrier valve 2 can be made detachable with limited longitudinal movement in sub 1 or integral with its carrier part to increase the bearing capacity (load capacity) of the carrier valve 2.

The carrier valve 2 can be connected to the sub 1 with the possibility of transmitting torque (torque) from the carrier valve 2 to the sub 1 through the middle part of the carrier valve 2 to increase the rigidity of the transmission of torque from the carrier valve 2 to the sub 1 or from the sub 1 to the carrier valve 2.

For milling tightly packed bottomhole sludge, the carrier valve 2 can be connected to the sub 1 with the possibility of transmitting torque (torque) from the carrier valve 2 to the sub 1 or from the sub 1 to the carrier valve 2 through the carrier part of the carrier valve 2 and through the carrier ring stop.

The supporting valve 2 can be connected by a longitudinally movable connection with the sub 1 through the supporting part of the supporting valve 2 and through the supporting annular protrusion made on the inner surface of the sub 1 to increase the rigidity of the transmission of torque (torque).

For milling tightly packed bottom slurry, the middle part or the bearing part of the bearing valve 2 and the bearing annular stop fixedly installed in the end part of the sub 1 can be interconnected with the possibility of transmitting torque from the bearing valve 2 to the sub 1 or from the sub 1 to the bearing valve 2.

The outer surface of the middle part of the bearing valve 2 of the longitudinally movable connection and the reciprocal contacting inner surface of the hole of the bearing ring stop fixedly installed in the end part of the sub 1 can be made in cross section or octagonal to transmit torque from the bearing valve 2 to sub 1; or with slotted longitudinal grooves to increase the rigidity of the transmission of torque from the supporting valve 2 to the sub 1; or a cylindrical shape (round in cross section) with the possibility of limited longitudinal movement of the carrier valve 2 inside the sub 1; or other form.

For milling tightly packed bottomhole sludge, the carrier valve 2 can be connected to the sub 1 with a longitudinally movable connection of the carrier part of the carrier valve 2 with a supporting ring protrusion made on the inner surface of the sub 1 to increase the rigidity of the transmission of torque (torque).

The outer surface of the bearing part of the bearing valve 2 of the longitudinally movable connection and the reciprocal contacting inner surface of the hole of the bearing annular protrusion made on the inner surface of the sub 1 can be made in cross section or octagonal to transmit torque from the bearing valve 2 to the sub one; or with slotted longitudinal grooves to increase the rigidity of the transmission of torque from the supporting valve 2 to the sub 1; or a cylindrical shape (round in cross section) with the possibility of limited longitudinal movement of the carrier valve 2 inside the sub 1; or other form.

The carrier valve 2 is placed in the passage channel of the sub 1 with the possibility of limited longitudinal movement of repeated opening, closing the side bypass holes (cutouts) of the longitudinal bypass channel of the carrier valve 2 and the passage channel of the adapter 1, repeatedly cleaning the extracted pipes and trapping the bottom slurry.

The support valve 2 is hermetically installed, for example, concentrically inside the sub 1 in the initial position with the possibility of repeatedly opening, closing the passage channel of the sub 1, repeatedly cleaning the extracted pipes and the wellbore during milling of the dense bottom hole, without removing the device from the well after each cleaning of the remaining pipes and wellbore.

The carrier valve 2 is placed in the passage channel of the sub 1 with the possibility of limited longitudinal movement, the transmission of torque from the carrier valve 2 to the sub 1 or from the sub 1 to the carrier valve 2 with the possibility of releasing the device with a spiral grip using torque (torque) without simultaneously lifting columns of fishing tool.

The carrier valve 2 is connected to the sub 1 with the possibility of limited longitudinal movement, the transfer of torque from the carrier valve 2 to the sub 1 or from the sub 1 to the carrier valve 2, striking the stuck pipes with the weight of the fishing tool column or by churning off the torque.

The supporting valve 2 is installed inside the sub 1 with the possibility of repeatedly opening, closing the side bypass openings of the longitudinal bypass channel of the supporting valve 2, ensuring cleaning of the remaining pipes and the wellbore during the working cycle of downhole operations and after each working cycle of downhole operations.

Between the outer cylindrical surface of the integral or detachable part of the supporting valve 2 and the inner cylindrical surface of the integral or detachable part of the sub 1 contacting with it below and above or above or below the side bypass openings (cutouts) of the bearing valve 2, sealing elements (seals) can be placed. Between the outer surface of the upper or lower one-piece or detachable part of the bearing valve 2 and the inner surface of the bearing annular contact in contact with it, sealing elements (seals) can be placed. Sealing elements (seals) can be made, for example, in the form of a sealing ring of a round or other shape in cross section for sealing the internal cavity of the device. In connection of the carrier valve 2 with the connecting element (connecting sub), a sealing element can be placed, which can be made, for example, in the form of a round or other sealing ring in cross section for sealing the internal cavity of the device.

The carrier valve 2 can be spring-loaded with a compression spring to prevent premature opening of the side bypass holes (cutouts) of the carrier valve 2 when grazing the lower end of the device over the ledges in the joints of the threaded joints of the casing string.

To prevent premature opening of the side bypass openings of the bearing valve 2, a compression spring can be installed on the outer surface of the bearing part of the bearing valve 2, for example, between the annular end surface of the bearing annular stop and the end annular surface of the coupling or ring protrusion made on the outer surface of the bearing end detachable or integral part of the supporting valve 2. In the bearing part of the supporting valve 2, an internal thread for connecting neniya connecting sub.

To prevent premature opening of the side bypass openings of the carrier valve 2, a compression spring can be installed either on the outer surface of the carrier valve 2 between the end of the carrier annular stop and the end of the connecting element associated with the carrier valve 2; or between the ledge of the middle one-piece or detachable part of the carrier valve 2 and the reciprocal annular protrusion inside the sub 1 between its inner surface and the outer surface of the carrier valve 2 to increase the stability of the compression spring.

A compression spring can be installed inside the sub 1 between the inner surface of the sub 1 and the outer surface of the supporting valve 2 between the annular step of the integral or detachable part of the supporting valve 2 and the annular return protrusion of the integral or detachable part of the sub 1 to increase the stability of the compression spring.

To prevent premature opening of the side bypass openings of the carrier valve 2, the carrier valve 2 can be fixed in the initial position from longitudinal movement inside the sub 1, for example. shear pins (screws, bolts, other elements) or one pin (one screw, one bolt, another one element). One lower end of, for example, shear screws can be installed in holes located, for example, around the circumference of an integral or detachable cylindrical or middle or supporting part of a supporting valve 2 or in annular grooves made on the outer surface of an integral or detachable cylindrical or average, or bearing parts of the main valve 2. The other upper opposite end, for example, shear screws can be fixedly mounted by means of a threaded connection in the holes, respectively placed, for example p, at 1 sub circle or one-piece design or the split bearing ring abutment, or other connecting member 1 to the top sub.

In the end part of the carrier valve 2 with side bypass holes and sub 1 on their end surfaces can be made integral or detachable end ring protrusions with the possibility of interaction of the outer surface of the end ring protrusion of the bearing sub 2 with the inner surface of the end ring protrusion of the sub 1. The bearing valve 2 may be fixed in the initial position from longitudinal movement inside the sub 1, for example, shear pins (screws, bolts, other elements ) or with one pin (one screw, one bolt, another one element). Shear pins, or screws, or bolts, or one pin, or one screw, or one bolt can be installed in holes located, for example, around the circumference of the annular protrusions on the end surfaces of the integral or detachable part of the sub 1 and the supporting valve 2.

The shear pins located in the holes of the annular protrusions on the end surfaces of the integral or detachable part of the sub 1 and the supporting valve 2 can be fixed from falling out by the sleeve and tip. The shear pins from falling out of the holes of the annular protrusion on the end face of the sub 1 can be fixed by a sleeve fixed by means of a threaded connection on the outer surface of the annular protrusion on the end of the sub 1. The shear pins from falling out of the holes of the annular protrusion on the lower end of the supporting valve 2 can be fixed to the outer the surface of the tip fixedly mounted in a blind hole made under the pins at the end of the supporting valve 2. Shear pins in the holes of the sub 1 carrier valve 2 prevents premature opening or eliminate lateral bearing orificed valve 2 at the lower end tripping device for the annular shoulders in the joints of threaded connections of the casing and provide the permissible value of the column weight unloading picker tool for downhole respective works. The diameter, material and number of shear pins (screws, bolts, other elements) or one pin (one screw, one bolt, another one element) are determined by the value of the axial load acting on the movable valve 2, which is due to the value of the permissible axial unloading of the weight of the fishing tool string taking into account the safety factor for shear.

A thread is made in the lower integral or detachable part of the sub 1 to attach the guide funnel 3, or the device disclosed in the description, or the arrangement of the devices disclosed in the description, or another device, or other arrangement of devices.

The lower integral or detachable part of the sub 1 or the supporting valve 2 may be connected by means of the device (arrangement of devices) disclosed in the description, or by means of an extension of an integral or detachable design with an annular milling cutter 17 for milling the slurry plug and capturing the loosened sludge; or with a guiding funnel 3 of a hollow design for combining the axes of the device and the extracted pipes; or by means of a receiving extension with a guiding funnel 3 having a receiving valve of a reed circular shape 7 or another shape for trapping downhole sludge; or by means of a receiving hollow extension with a bearing sub 8 having a receiving valve of a reed circular shape 7 or another shape and a guiding funnel 3 for capturing the bottomhole sludge; or with a hollow extension 15 having elastic gripping elements 16 for gripping a retrievable object under a protruding ring element on the body of its body; or with a bearing body including a spiral tape or sleeve gripping element with an external spiral conical surface for gripping the pipes to be removed; or with a bearing body having an inner conical surface with a downward narrowing, in which a gripping sleeve for gripping the pipes to be removed is axially mounted; or with another device disclosed in the description; or with another arrangement of devices disclosed in the description; or with another device; or with a different arrangement of devices. The receiving hollow extension for cleaning and placement inside its lengthy upper part of the extracted pipes can be made integral or detachable (prefabricated) design.

The upper part of the guide funnel 3 can be connected with the lower part of the hollow rod 5 or the supporting sub 8 by means of a threaded connection for transmitting axial force and torque to the guide funnel 3; or by means of a receiving hollow extension cord of an integral or detachable design of appropriate length for cleaning and placing a lengthy upper part of the pipes to be removed; or by means of, for example, fitting a washing pipe (washer) of an integral or detachable structure for thawing hydratoparaffin deposits or hydratoparaffin plugs in a well; or through an adapter with the ability to pass large-sized captured objects through itself; or through an adapter and a receiving hollow extension with the ability to pass through the captured objects; or through another device; or through other devices. The receiving hollow extension cord or washer for cleaning and placement inside its lengthy upper part of the extracted pipes can be made integral or detachable design, including the appropriate number of pipes of the corresponding length.

To transmit the axial load and torque from the hollow rod 5 or from the supporting sub 8 to the guide funnel 3 by means of a receiving extension or a wash pipe of an integral or detachable design, the upper part of the guide funnel 3 can be rigidly connected to the lower part of the receiving extension or washing pipe or by means of a threaded connecting the upper part of the guide funnel 3 with the lower part of the receiving extension; or by means of a welded joint, for example, of two longitudinal protrusions of a U-shaped or other shape, made in the upper part of the funnel 3, placed in the corresponding longitudinal grooves, made in the lower part of the receiving hollow extension cord or washing pipe of an integral or detachable design, with the ability to pass through itself a ring element of large diameter protruding on the pipe body; or through another compound.

To increase the reliability of capture of downhole sludge and large foreign objects near the upper end of the extracted pipes, the receiving valve of a reed circular shape 7 or another shape can be fixedly connected to the lower end of the releasable 1 or supporting valve 2, the upper part of which can be connected by means of a threaded connection to the lower part of the sub 1 or to the receiving hollow extension cord or washing pipe of an integral or detachable design with the possibility of pass through yourself capture objects, or with an adapter with the ability to pass large objects to capture through yourself, or with an adapter that is connected to a receiving hollow extension (washer) of an integral or detachable design with the ability to pass large objects to capture through yourself, or with another fixture.

Bearing valve 2, in which a longitudinal bypass channel is made, connected with lateral bypass holes made in the end part of the bearing valve 2, which is installed in the initial position in the passage channel of the sub 1 with the possibility of limited longitudinal movement, opening and closing of the side bypass holes, increases the cleaning efficiency recoverable pipes, provides for the capture of bottomhole sludge, striking with the weight of the fishing tool column or striking up or down with a percussion mechanism of stuck pipe, unscrewing recoverable tubing without simultaneous lifting tool, which improves the reliability of works (work) of the device during a complete working cycle for one spuskopodem fishing tool.

To clean the extracted pipes by the movement of the fluid flow, the movable valve 2 can be either in the form of a destructive valve with the possibility of its destruction by the additional pressure of the pumped wash liquid; or in the form of a whipping valve with the possibility of its destruction by an object of the corresponding weight of a cylindrical or other shape. To clean the extracted pipes in the passage channel of the sub 1 can be installed or a movable valve 2 with the ability to move up; or a collapsing collapsing valve with the possibility of its destruction by additional pressure of the injected flushing fluid or by an object of the corresponding weight of a cylindrical or other shape discharged from the wellhead. The collapsing collapsible valve can be made round, cylindrical or of another shape, or flat, or plate-shaped, or of another shape and installed in the passage channel of the sub 1, for example, between the ends of the lower or upper detachable part of the sub 1 with the possibility of breaking the collapsing valve breaking, opening the passage channel sub 1 and cleaning recoverable pipes. A collapsing collapsing valve can be fixed in its initial position in the passage channel of the sub 1 with the possibility of overlapping the passage channel of the sub 1 by means of an annular protrusion made on the outer surface of the valve, the upper and lower end surfaces of which are hermetically installed between the ends of the lower or upper detachable part of the sub 1.

The end surfaces of the annular protrusion of the whipping valve can be hermetically seated between the annular ledge of the passage channel of the sub 1 and the end surface of the receiving pipe installed in the lower or upper integral or detachable part of the sub 1 or between the ends of another threaded connection of the well cleaning device. In the lower part of the receiving pipe, a plug can be installed with the possibility of restricting the downward movement of the downing object and placing it inside the receiving pipe. In the cylindrical wall of the receiving pipe and plugs, including the end wall of the plugs, corresponding bypass holes or cutouts of any shape can be made in any suitable place for bypassing the wellbore fluid and bottomhole cuttings. The height or thickness of the annular protrusion of the destructive knocking valve can be configured to destroy the annular protrusion by a knocker discharged into the fishing tool string from the wellhead or by additional pressure of the pumping flushing fluid, taking into account the shear safety factor to prevent premature destruction of the annular protrusion of the valve’s outer cylindrical surface .

In order to increase the reliability of knocking down the valve with a whipping object, the corresponding weight of the flushing fluid with an additional pressure of the pumping washer fluid discharged from the wellhead, the upper or lower or upper and lower end surfaces of the whipped cylindrical valve of a flat or other shape can be weakened by a groove or grooves made in the corresponding place or places, or ring groove or groove, or undercut, or ring grooves or grooves, or undercut, or REPRESENTATIONS rectangular or triangular, or other shape in cross section.

To ensure cleaning of the extracted pipes uncoupling valve can be made either in the form of a movable valve 2 (figure 1); or to ensure repeated cleaning of the extracted pipes in the form of a supporting valve 2 (see Fig.30-31); or in the form of a finger-shaped knock-off valve, which serves to facilitate its destruction by a discarded object from the wellhead; or in the form of another valve.

To clean the extracted pipes in the passage channel of the sub 1 can be installed or a movable valve 2 with the ability to move up; or a knock-off valve with the possibility of its destruction by an object of appropriate weight, shape, and opening of the side bypass hole (s) made in the wall of the lower or middle part of the sub 1 by being thrown off the wellhead.

Moreover, to improve the reliability of the device by providing the ability to clean the remaining pipes without pumping an additional excess fluid pressure in front of the knockdown valve, another embodiment of the device for cleaning wells can be made in the framework of the invention. To clean the extracted pipes with the possibility of immersion or insertion of the lower end of the device into a tightly packed bottomhole sludge (sand or proppant, or other compacted bottom) inside the passage in the side bypass hole or holes made in the wall, the sub 1 of an integral or detachable design can be hermetically sealed knock valve (knock valve) placed. One free end of the knock valve (knock valves) is placed in the passage channel of the sub 1, and the other fixed end of the knock valve (knock valves) is fixedly installed in the side bypass hole (s) made (placed) in the wall of the adapter 1 of an integral or detachable design with the ability to clean recoverable pipes. The knock-off valve (knock-off valves) is made in the form of a finger-shaped valve with an end hole through and through (blind) at the end of the free part of the knuckle-type valve with the possibility of breaking the knock-off valve or knock-off valves with a discarded object from the wellhead, opening the side bypass hole (s) of the passage channel sub 1 and capture bottom mud.

The knock-off valve (knock-off valves) can be made in the form of a finger-shaped valve with end-to-end opposite openings (blind) in the middle part of the knock-down valve of a finger-shaped form with the possibility of breaking the knock-off valve or knock-off valves with a discarded object from the wellhead, opening the side bypass openings of the sub channel 1 and capture bottom mud. To clean the extracted pipes, the opposite ends with opposite opposite openings (blind) in the middle part of the knock valve (knock valves) can be fixedly and tightly installed (placed) in the side bypass holes made (placed) in the wall, sub 1 of an integral or detachable design with the possibility of opening its passage channel and capture bottomhole sludge.

In the framework of the invention, to improve the reliability of the device’s operation, a device for cleaning wells can be made comprising a sub with an internal passage channel in which a disconnecting valve is installed, while to prevent premature opening of the passage channel of the sub, the disconnection valve is made in the form of a disconnecting knock-off valve or in the form of disconnecting knock valves, one free end of knock valve (knock valves) is located in the passage channel of the sub 1, and the other fixed end is knocked down th valve (knockdown valves) is fixedly and tightly installed in the side bypass hole (s) made (placed) in the wall, sub 1 of an integral or detachable design with the ability to clean the pipes to be removed, the knockdown valve (knockdown valves) is made in the form of a finger-shaped valve with end-hole non-through (blind) at the end of the free part of the finger-shaped knock-down valve with the possibility of breaking the knock-down valve or knock-off valves with a discarded object from the wellhead, opening the side about the bypass hole (s) of the passage channel of the sub 1 and capture downhole sludge.

The knock-off valve (knock-off valves) can be made in the form of a finger-shaped valve with end-to-end opposite openings (blind) in the middle part of the knock-down valve of a finger-shaped form with the possibility of breaking the knock-off valve or knock-off valves with a discarded object from the wellhead, opening the side bypass openings of the sub channel 1 and capture bottom mud. To clean the extracted pipes, the opposite ends with opposite opposite openings (blind) in the middle part of the knockdown valve (s) can be fixedly and hermetically installed (placed) in the side bypass holes made (placed) in the wall, sub 1 of an integral or detachable design with the ability to open its passage channel and capture bottomhole sludge.

In order to facilitate the destruction of the injected flushing fluid by additional pressure or to facilitate the knocking down of the valve (s) of a finger-shaped form with a whipping object discharged from the wellhead, for example, an annular groove (s) or groove (grooves) or other form of incision is made on the outer surface of the finger-shaped valve (cuts) of a rectangular or triangular, or other shape in cross section. The diameter, width, material of the annular grooves (annular grooves) of a rectangular or trapezoidal, or other shape in cross section, for example, the outer surface of a finger-shaped valve, is determined by the magnitude of the axial and radial loads acting on the walls inside the relief valve, which are caused by the pressure of the annular hydrostatic column of liquid inside the valve, taking into account the safety factor for tensile strength.

An annular groove (annular grooves) of a rectangular, or U-shaped, or triangular, or other shape in cross section can be performed, for example, on the outer surface of a finger-shaped valve, for example, near the inner wall of a sub 1 with the possibility of opening a side bypass hole (holes) ) the passage channel of the sub 1 and capture bottom mud.

The passage channel of the sub 1 can be made in the form, for example, of a longitudinal bypass non-through (deaf) channel at the lower end of the sub 1 or in the form of, for example, a longitudinal through passage of the bypass channel muffled by the corresponding plug on the lower end of the lower integral or detachable part of the sub 1 with the possibility of longitudinal downward movement of the shooting object. The longitudinal bypass channel of the sub 1 integral or detachable design is connected, for example, with a side bypass hole (s) made, for example, in the wall below the external thread of the upper or middle, or the lower integral or detachable part of the sub 1 having the upper integral or detachable part. A knock-off valve (knock-off valves) can be installed inside the passage channel of the sub 1 with the possibility of its destruction, for example, with a knock-down object to prevent premature valve destruction, without reaching the column of the fishing tool to the "head" of the pipes to be removed or to the current emergency bottom hole.

The free collapsing part of the finger-shaped knock-down valve (s) with a lateral through hole can be installed in the passage channel of the sub 1, and the fixed part - in the side bypass hole (s) made in the wall of the sub 1 with the possibility of breaking the knock-down valve, opening the side bypass hole (holes) sub 1, cleaning recoverable pipes. To clean the extracted pipes sub 1 can be performed or integral integral design; or a detachable (prefabricated) structure in the form of interconnected parts, each of which includes a knocked uncoupling valve (s) to increase the volume or flow of the borehole fluid under pressure from the annular hydrostatic column of fluid. The passage channel of the sub 1 integral or detachable structure can be made in the form of a longitudinal bypass non-through (blind) channel at the lower end of the lower integral or detachable part of the sub 1 or in the form of a longitudinal bypass through channel, muffled by the corresponding plug on the lower end of the lower integral or detachable part 1. In the bypass hole of each sub 1 integral or detachable design can be installed one knockdown valve or can be installed knocking down valves in the bypass holes located around the circumference and length of the sub 1. In the lower part of the sub 1 of an integral structure with a relief valve (with relief valves) or sub 1 of a prefabricated design with relief valves, a receiving pipe can be installed. A plug may be installed in the lower part of the receiving pipe with the possibility of restricting the downward movement of the knockdown valve and the knocking object, discharged from the mouth into the well into the fishing tool string, and placement of the knockdown valve and knocking object inside the receiving nozzle. To enable capture of the extracted pipes by screwing the upper threaded part with the lower part of the sub 1 lower or higher than the side bypass hole (s) with the relief valve of the lower integral or detachable part of the sub 1, for example, a fishing thread, for example, similar or reciprocal the thread of the upper threaded portion of the extracted pipes. To increase the reliability of the capture of the extracted pipes in the lower integral or detachable part with the knocking valve (s) of the sub 1, a fishing sub or fishing clutch, for example, with a similar fishing thread or with a mating thread of the upper threaded part of the extracted pipes with the ability to capture recoverable pipes. To increase the cleaning efficiency of the extracted pipes above the lateral bypass hole (s) on the outer surface in the middle of the sub 1, a thread can be made to connect the receiving pipe demountable extension (shank) or the corresponding device disclosed in the description or the corresponding arrangement of the devices disclosed in the description .

The lower or middle part of the sub 1 by means of a threaded connection can be connected by a receiving pipe one-piece or detachable extension (shank) with the ability to pass through the bottomhole sludge with a bearing sub 8, including a receiving valve reed circular shape 7 or another shape and a guide funnel 3 to capture the bottomhole sludge; or with a guiding funnel 3, including a receiving valve of a reed circular shape 7 or another shape for trapping downhole sludge; or with a hollow extension 15 including elastic gripping elements 16 for gripping a retrievable object under a protruding ring element on the body of its body; or with an annular milling cutter 17 for milling downhole sludge; or with a device comprising a spiral gripping element 10 or a sleeve gripping element 10 for gripping retrievable pipes; or with another device; or with an appropriate arrangement of devices disclosed in the description.

To seal the internal cavity of the device for cleaning wells, in the connection of the knockdown valve or in the joints of finger-shaped knock-off valves with an integral or detachable sub 1, in the connections of the sub 1 of the detachable structure, sealing elements are placed in the connections of the sub 1 with the device or with the devices. To increase the sealing of the internal cavity of the device for cleaning wells, sealing elements can be placed in each threaded connection of the device for cleaning wells and between the contacting surfaces of each connection of the device for cleaning wells.

To transmit torque from the sub 1 to the guide funnel 3 or to the annular milling cutter 17 by means of a receiving extension cord or washing pipe of an integral or detachable design, the upper part of the annular milling cutter 17 or guide funnel 3 can be rigidly connected to the lower part of the receiving extension (washing pipe) or by threaded connection; or a welded connection of two or another amount of a U-shaped or other shape of the protrusions of the upper end surface of the annular milling cutter 17 or funnel 3, placed in reciprocal longitudinal grooves of the receiving hollow extension (washing pipe) of one-piece or detachable design to allow large objects to be captured through them ; or through another compound.

To improve the cleaning efficiency of the extracted pipes, the middle or lower integral or detachable part of the sub 1 with the relief valve or with the relief valves can be fixedly connected with the upper integral or detachable part of the bearing sub 8 or the ring mill 17, or the hollow extension 15 with elastic gripping elements 16, or a guiding funnel 3, or a supporting body 9, or another device, or another arrangement of interconnected devices. In this case, the upper integral or detachable part of the carrier sub 8 or the annular milling cutter 17, or the hollow extension 15 with elastic gripping elements 16, or the guide funnel 3, or the carrier body 9 can be rigidly connected with the middle or lower integral or detachable part of the adapter 1 with a valve, either with knock-off valves or through a threaded connection to transmit axial force and torque; either by means of a receiving hollow extension cord of an appropriate length for cleaning and placement of the lengthy upper part of the pipes to be removed, or by means of a washing pipe (washer) of an integral or detachable design with the ability to pass captured objects through itself; or through an adapter with the ability to pass large-sized captured objects through itself; or by means of an adapter connected with a receiving hollow extension cord of an integral or detachable design with the ability to pass captured objects and accommodate removable pipes; or by means of another device of an integral or detachable design with the ability to pass large-sized captured objects through itself, to place recoverable pipes, to capture downhole sludge and captured objects; or by arranging interconnected other devices with the ability to accommodate a lengthy portion of the extracted pipes, capture downhole sludge and trapped objects; or by other means of an integral or detachable structure; or by arranging interconnected other devices.

The reed valve can be made up or convex upward in the initial, for example, horizontal position and round in projection onto the horizontal plane and placed in the passage channel of the carrier sub 8 with the possibility of its overlapping and deviation upward from the initial position to the extreme, for example, vertical position for placing the dangling part of the pipe; or flat in shape and placed in the initial position inside the receiving extension cord of an integral or detachable structure, or inside the washing pipe of an integral or detachable structure, or inside a guide funnel 3 with the possibility of tilting upward from the initial position to its highest position, overlapping the passage channel of the device and trapping downhole cuttings ; or other form. To clean the pipes to be removed, the reed valve of circular shape 7 or another shape can be installed in the initial position with the possibility of tilting upward from the initial position to the extreme position, blocking the device passage channel and trapping downhole cuttings, or inside the receiving extension cord of an integral or detachable design to accommodate long objects ; or inside a wash pipe of an integral or detachable structure for thawing hydrate-paraffin plugs; or inside the carrier sub 8 with the ability to pass through the captured large objects; or in another appropriate place for each relevant device. To clean the pipes to be removed, a reed valve of a flat shape or other shape can be installed in its initial position with the possibility of tilting upward from its original position to its highest position, blocking the device’s passage channel and trapping downhole cuttings, or an integral or detachable structure inside the receiving extension to accommodate long objects; or inside a washing pipe, one-piece or one-piece construction for thawing hydrate-paraffin plugs; or inside the carrier sub 8 with the ability to pass through the captured large objects; or in another appropriate place for each relevant device. The reed valve of a flat shape can be made, for example, in the form of a cross section of the inner surface of the passage channel, for example, a receiving hollow extension cord with a plane aligned, for example, with the flat lower surface of the reed valve in its open extreme upper position with the possibility of overlapping the inner passage channel of the device by the reed valve . A flat-shaped reed valve can be connected, for example, to a wall of either a receiving hollow extension, or a washing pipe, or a supporting sub, or a funnel guide 3 with a swivel joint with the possibility of upwardly pulling the reed valve, blocking the device passage channel and trapping downhole cuttings; or other movable connection. The swivel may include a support sleeve fixedly mounted, for example, on the edge of the reed valve, and a swivel support, the body of which is passed through the hole of the support sleeve, while the ends of the swivel support are motionless connected to the wall, for example, of a receiving hollow extension with the possibility of upward movement of the reed valve , overlapping the channel of the device and capture downhole sludge. The swivel may include a support sleeve fixedly mounted on the inner surface of the passage channel, for example, a receiving extension, and a swivel support, the body of which is passed through the hole of the support sleeve, while the ends of the swivel support are motionlessly connected to the reed valve so that it can deflect upward over the passage channel device and capture of bottom mud, proppant.

To ensure cleaning of the “head” of the pipes to be removed and to restrict the entry of the pipes to be removed inside the device, for example, below the receiving valve of the reed circular shape 7 at any appropriate location on the device or inside the passage channel of the lower or upper part of the receiving extension cord of an integral or detachable design, a corresponding restrictive can be rigidly installed emphasis.

To ensure the capture of small foreign objects and to increase the duration of the air chamber, the limit stop can be made in the form of an annular stop with the possibility of fitting the movement of the flow of well fluid. An annular stop can be rigidly and hermetically mounted inside, for example, a saddle made between the ends of the corresponding joint of a threaded connection of a device located, for example, below a receiving valve, made, for example, in the form of a circular reed valve 7.

To ensure cleaning of the “head” of the extracted pipes and to restrict the entry of the extracted pipes into the device, an annular stop can be made in the form of an annular protrusion on the inner surface of the thrust sub located in the lower detachable part, for example, a receiving hollow extension, for example, below a receiving valve made for example, in the form of a circular reed valve 7.

To ensure cleaning of the "head" of the extracted pipes and to restrict the entry of the extracted pipes into the device, for example, below the receiving valve, made, for example, in the form of a circular reed valve 7, inside the passageway, for example, the lower part of the receiving extension cord of an integral or detachable design, can be the corresponding limit stop (stops) is rigidly installed. To ensure capture, or bottomhole sludge, or sand, or proppant, or other downhole elements, the limit stop can be made in the form of a transverse stop (stops), for example, in the form of a rod of a cylindrical or other shape. The opposite ends of the transverse stop or stops can be placed and fixedly mounted, for example, diametrically opposite in the holes made in the body (wall) of the lower or upper part, for example, a receiving hollow extension cord of a detachable or integral structure. The opposite ends of the transverse stop (stops) can be rigidly fixed in the holes of the wall, for example, a receiving hollow extension, for example, by means of a welded joint.

An appropriate restrictive stop to ensure cleaning of the “head” of the pipes to be removed and to restrict the entry of the pipes to be removed inside the device can be rigidly mounted, for example, below the inlet valve, inside the passageway, for example, the bottom or the extension cord, or the washing pipe, or the supporting sub, or funnel guide 3, or other appropriate place of each respective device.

To increase the duration of operation of the air chamber above the hollow extension of the annular milling cutter 17 or higher of the receiving valve, made, for example, in the form of a receiving valve of a reed circular shape 7 and installed in a suitable place for a device for capturing downhole sludge, a fitting can be fixedly mounted, for example, by means of a connecting sub anywhere in the device. To increase the wear resistance, the fitting can be made of carbide or other material, while it is fixed and sealed, for example, inside the connecting sub and sealed, for example, by means of a suitable seal made, for example, in the form of an o-ring, for example, of a round shape in cross section.

To transmit axial force and torque from the fishing tool string to the extracted pipes, the thread in each individual rigid connection of the device can be either cylindrical, i.e. cylindrical (threaded surface is parallel to the axis of the thread); or conical shape to increase the density of the threaded connection by providing the possibility of deformation of the turns; or other form. To transmit axial force and torque from the column of the fishing tool to the extracted pipes, the thread of each individual rigid connection of the device in the turn section of a plane passing through the axis of the thread can be made of a triangular profile; or in the form of an inch thread profile to increase the density of the threaded connection; or other thread profile. To transmit axial force and torque from the fishing tool string to the extracted pipes, the thread in each individual rigid threaded connection of the device can be made either in the form of a thread of tubing to increase the density of the threaded connection; or in the form of a locking thread to increase the rigidity of the threaded connection and torque transmission; or as casing threads to increase the density and strength of the threaded joint; or in the form of another thread. To transmit axial force and torque from the fishing tool string to the pipes to be removed, the threaded surface in each individual rigid threaded connection of the device can be either cylindrical; or to increase the strength of a thin-walled threaded connection of a two-stage (two-level) cylindrical shape, the threaded surface of the smallest external diameter of which is located in the lower part of the nipple thread, and the threaded surface of the largest external diameter is in its upper part; or other form. A two-stage cylindrical thread of the device can be made or a rectangular profile to increase the strength of the threaded connection; or trapezoidal profile to increase the density of the threaded connection; or other thread profile.

To eliminate the accident, a device for cleaning wells is lowered into the well on a fishing tool string having a tubing or process pipe string at the bottom. A well-prepared device for cleaning wells, including a sub 1 with fishing thread, a movable valve 2 and a guiding funnel 3, is connected to the lower pipe, for example, tubing and lowered into the well. When lowering the fishing tool into the well, the movable valve 2 of the device provides filling of the internal cavity of the tubing string with air at atmospheric pressure. The required length of the tubing string of the corresponding diameter is determined by the planned volume of cleaning of the “head” of the emergency pipes with liquid located in the annular annular space under the pressure of the hydrostatic column of liquid in the well, providing a margin of safety for casing pipes to collapse. An adapter is attached to the fishing tool column at the upper end of the upper pipe of the tubing string with an upper valve that can be opened, for example, upwards, for example, in the annular seat of the passage channel of the adapter, for example, having an appropriate bypass hole in the wall or corresponding Bypass hole located above the top valve. The presence of bypass holes or a bypass hole (cut-out) located in the adapter above an upper, for example, cylindrical valve, provides filling of the internal cavity of the pipes of the upper part of the fishing tool column when lowering the device into the well with liquid from the annular annular space of the well. The upper valve of the adapter hermetically divides the internal cavity of the column of the fishing tool into an area filled with liquid above the valve and into an area filled with air under the valve. To enable reverse circulation of the washing liquid, the wall of the adapter can be made in the form of a whole cylindrical wall without a hole or other shape. The filling of the internal cavity of the column of the fishing tool with washing liquid above the adapter, which does not have a bypass hole in the wall, is done by adding liquid. An adapter with an upper valve is attached to the fishing tool string at the upper end of the upper pipe string of the tubing to prevent hydraulic shock of the liquid under the movable valve 2 under the pressure of the annular hydrostatic column of liquid in the well; or install an appropriate plug to fill the air chamber of the tubing with air at atmospheric pressure.

To increase the cleaning volume of the upper part of the extracted pipes with the borehole fluid under pressure of the hydrostatic column of liquid in the borehole, and to increase the duration of the air chamber of the fishing tool column, the length of the air chamber, for example, technological pipes of the corresponding diameter, can be made over the entire length of the pipe pipe of the fishing tool or to the wellhead. In this case, the length (height) of the air chamber, for example, technological pipes of the corresponding diameter, can be made for the entire length of the pipe string of the fishing tool or up to the wellhead with a margin of safety of the pipe casing for collapse. With a close approach to the "head" of the emergency pipes, they slowly lower the device. The mobile valve 2 of the device hermetically divides the internal cavity of the device under the pressure of the annular hydrostatic column of fluid in the well, corresponding to the depth of the device into the well and the closed air chamber of the tubing filled with air at atmospheric pressure. If the device has risen to the bottomhole cuttings, densely filling the internal cavity of the wellbore on the head of the emergency pipes, the lowering of the device is stopped. Then, flushing fluid begins to be pumped either into the annular annular space of the well or into the passage channel of the fishing tool string, forcing the pressure of the flushing fluid in the annular annular space between the inner surface of the well wall and the outer surface of the device and tubing, as well as in the closed cavity of the device under movable valve 2. At the same time, the column of the fishing tool is slowly raised to ensure a corresponding axial clearance between the upper surface bottomhole sludge and the lower end surface of the lower part of the device to enable the movement of flushing fluid, pumped into the annular annular space of the well. A movable valve 2, which creates a pressure difference between the pressure of the annular hydrostatic column of liquid in the inner cavity of the device closed from above and the atmospheric pressure of the air in the closed air chamber of the tubing, rinses upward with the pressure of the flushing fluid injected into the annular annular space of the well, opening the internal passage channel devices. In this case, the pins of the movable valve 2 are cut off by the outer surface of the movable valve 2 relative to the inner surface of the annular seat in the passage channel of the device sub 1. Flushing fluid pressure drops. The injection of flushing fluid into the annular annular space of the well is stopped. A column of liquid located in the annular annular space of the well rushes through the axial passage channel of the device into the air intake chamber of the tubing with atmospheric pressure, trapping downhole mud and other elements in its path by the movement of the fluid flow. Under the pressure of the annular hydrostatic column of fluid in the well, the column of fluid in the annular annular space of the well, sweeping, picking up and catching everything in its path, cleans the head of the emergency pipes by moving the fluid flow through the axial passage channel of the device. The movement of the fluid flow through the passage channel of the device raises the bottomhole sludge and other elements together with the fluid into the air chamber of the tubing. The corresponding rarefaction created in this case in the air chamber with the atmospheric pressure of the fishing tool column above the seat of the movable valve 2 of the device, picking up and dragging everything that is in the way of the fluid flow through the device passage channel, also cleans the "head" of the emergency pipes from the bottom slurry and others in the borehole elements. The movement of the fluid flow through the passageway of the device under the pressure of the annular hydrostatic column of liquid in the well also eliminates bottomhole sludge and other elements from the annular annular space between the inner surface of the well and the outer surface of the device, under the device and below the head of the emergency pipes. This ensures reliable cross-country ability of the device in the wellbore until the entire length of the external threaded surface of the lower part of the device interacts with the internal threaded surface of the emergency pipe coupling. In this case, the device freely enters the emergency "head". Guide funnel 3 combines the axis of the device with the axis of the column of emergency pipes. The "head" of the emergency pipes goes inside the device, while the device slowly moves down. Then, with small unloading, the columns of the fishing tool begin to slowly rotate it in the corresponding direction, for example, to the right. The result is a reliable capture of the extracted pipe string by screwing the lower threaded part of the device with the upper threaded part of the extracted pipe string, which ensures its extraction from the well.

If the “head” of the emergency pipes at the upper end is represented by a dangling part of the pipe, then when moving down another device with a passage channel made in a sub 1 with a diameter larger than the diameter of the dangling pipe, the guiding funnel 3 directs the upper end of the dangling pipe into the device. The dangling part of the pipe, depending on its length, passes into the passage channel of the sub 1 or higher of the device into the tubing located in the fishing tool string, while the device moves down. As a result, the “head” of the emergency pipes is completely cleaned from bottomhole sludge, sand, clay particles, silt, small and foreign objects, solid sludge after washing the well with lift pipes, as well as from saline build-up, tarry and other well deposits deposited from the well wall the outer surface of the column of the fishing tool when lowering the device into the well. With further lifting of the fishing tool string, the movable valve 2, blocking the passage channel of the sub 1, holds the bottomhole cuttings and other elements in the fishing tool string.

Prepared for operation, another embodiment of a device for cleaning wells, including a reed valve 7, a bearing body 9 with a spiral tape gripping element 10 and a guiding funnel 12, is attached to the lower pipe, for example, tubing and lowered into the well. When lowering the fishing tool into the well, the movable valve 2 of the device provides filling of the internal cavity of the tubing string with air at atmospheric pressure. The required length of the tubing string of the corresponding diameter is determined by the planned volume of cleaning of the “head” of the emergency pipes with liquid located in the annular annular space under the pressure of the hydrostatic column of liquid in the well, providing a margin of safety for casing pipes to collapse. An adapter is attached to the fishing tool string at the upper end of the upper pipe of the tubing string with an upper valve that can be opened, for example, upward, for example, in the annular seat of the passage channel of the adapter, for example, having a corresponding orifice in the wall or corresponding bypass holes hole (cutout) located above the upper valve. The bypass hole located in the adapter above the upper, for example, a cylindrical valve, provides the filling of the internal cavity of the pipes of the upper part of the column of the fishing tool when lowering the device into the well with liquid from the annular annular space of the well. The upper valve of the adapter hermetically divides the internal cavity of the column of the fishing tool into an area filled with liquid above the valve and into an area filled with air under the valve.

To increase the cleaning efficiency of the extracted pipes, a movable upper valve can be installed in the passageway of the adapter, fixed in its original position with the possibility of forming an air cavity above the upper valve in the pipes of the upper part of the fishing tool string. The movable top valve can be fixed in the initial position with the possibility of connecting the air cavity of the tubing with the air cavity of the upper part of the column of the fishing tool with subsequent corresponding unloading. Moreover, the movable top valve can be fixed in the initial position with the possibility of longitudinal movement up and opening the air cavity of the tubing or fixed in the initial position with the possibility of longitudinal movement down and opening the air cavity of the tubing with subsequent corresponding unloading of the upper part of the fishing tool string . At the same time, to ensure the possibility of displacing air from the air cavity of the tubing and filling it with bottomhole sludge with bottomhole liquid under pressure from the annular hydrostatic column of liquid in the borehole, a bypass can be performed over the movable top valve in the wall of the connecting element of the upper part of the column of the fishing tool, for example, hole (cutout) or holes. The bypass hole also serves to fill the inner cavity of the pipes of the upper part of the column of the fishing tool when lowering the device into the well with liquid from the annular annular space of the well. To ensure an increase in the volume of movement of the device and the flow rate of the cleaning well fluid under pressure from the hydrostatic column of fluid in the well, and the duration of the air chamber, the fishing tool string, the length of the air chamber, for example, process pipes of the corresponding diameter, can be made over the entire length of the fishing pipe string tool or to the wellhead. In this case, the length of the air chamber, for example, technological pipes of the corresponding diameter, can be made for the entire length of the pipe string of the fishing tool or to the wellhead with a margin of safety of the casing string for collapse. With a close approach to the "head" of the emergency pipes, they slowly lower the device. The mobile valve 2 of the device hermetically divides the internal cavity of the device, which is under the action of the pressure of the annular hydrostatic column of liquid in the well, corresponding to the depth of the device into the well, and the closed air chamber of the tubing filled with air at atmospheric pressure.

If the device has risen to the bottom slurry, densely filling the internal cavity of the device on the head of the emergency pipes under the influence of the weight of the fishing tool, then the leading body 4 together with the sub 1 moves downward with respect to the bearing body 9 until the lower end of the movable valve 2 abuts against the upper end of the cylindrical heel 6. With the appropriate unloading of the weight of the fishing tool, a cylindrical heel 6 of the hollow rod 5 moves the movable valve 2 upward with respect to the annular seat in the sub 1 of the device. In this case, the pins of the movable valve 2 are cut off by the outer surface of the movable valve 2 relative to the inner surface of the annular seat in the passage channel of the device sub 1. With appropriate unloading of the weight of the fishing tool string, the bottom end of the device is introduced into the dense bottomhole sludge, destroying it. The movable valve 2, which creates a pressure differential between the pressure of the annular hydrostatic column of liquid in the internal cavity of the device closed from above by the movable valve 2 and the atmospheric air pressure in the closed air chamber of the tubing, rushes upward, opening the internal passage channel of the device. A column of liquid located in the annular annular space of the well rushes through the axial passage channel of the device into the air intake chamber of the tubing with atmospheric pressure, trapping downhole mud and other elements in its path by the movement of the fluid flow. The movement of the fluid flow increases the efficiency of the destruction of the dense bottomhole sludge by the lower end of the device, which is introduced into the dense bottomhole sludge, and destroys the dense bottomhole sludge. The erosive destructive force of a liquid jet by the movement of a liquid stream destroys the dense bottomhole sludge. In this case, the circular reed valve 7 by the movement of the fluid flow upward fully opens the bore of the landing ring, occupying a vertical position in the passage channel of the cylindrical heel 6 of the hollow rod 5. Under pressure of the annular hydrostatic column of fluid in the borehole, the liquid column in the annular annular space of the borehole, picking up and catching everything that is in its path, cleans by moving the fluid flow through the axial passage channel of the device "head" of the emergency pipes. The movement of the fluid flow through the passage channel of the device raises the bottomhole sludge and other elements together with the fluid into the air chamber of the tubing. The corresponding rarefaction created in this case in the air chamber with the atmospheric pressure of the fishing tool column above the seat of the movable valve 2 of the device, picking up and dragging everything that is in the way of the fluid flow through the device passage channel, also cleans the "head" of the emergency pipes from the bottom slurry and others in the borehole elements. The movement of the fluid flow through the channel of the device under the pressure of the annular hydrostatic column of liquid in the well also cleans the bottom of the device, the annular annular space between the inside surface of the well and the outside of the device, below the device and below the head of the emergency pipes. The movement of the fluid flow through the device under the pressure of the annular hydrostatic column of liquid in the well when the "head" of the emergency pipes passes inside the device prevents clogging of the internal cavity of the device with bottomhole sludge and other elements located in the well. As a result, the “head” of the emergency pipes is completely cleaned from bottomhole sludge, sand, clay particles, silt, small and foreign objects, solid sludge after washing the well with lift pipes, as well as from saline build-up, tarry and other well deposits deposited from the well wall the outer surface of the column of the fishing tool when lowering the device into the well. This increases the efficiency of cleaning the extracted pipes from bottomhole cuttings and ensures reliable throughput of the device in the wellbore until full interaction along the entire length of the inner surface of the spiral tape gripping element 10 with the outer surface of the emergency coupling. In this case, the device freely enters the emergency "head". Guide funnel 12 aligns the axis of the device with the axis of the column of emergency pipes. The "head" of the emergency pipes goes inside the device. If the “head” of the emergency pipes at the upper end is represented by a dangling part of the pipe, then when the device moves downward, a guide funnel 12, a guide ring 11 and a drive flag guide the upper end of the torn pipe into the device. Depending on its length, the dangling part of the pipe extends either inside the passage channel of the hollow rod 5, or inside the passage channel of the sub 1, or above the device into the tubing located in the fishing tool string, while the device moves downward. Under the influence of the weight of the fishing tool with its corresponding unloading, the lower end surface of the drive housing 4 abuts against the upper end surface of the bearing housing 9. The emergency clutch freely enters the device. Under the influence of the weight of the fishing tool, a spiral tape gripping element 10, the inner diameter of which is less than the outer diameter of the emergency coupling, when in contact with it is elastically deformed, is expanded in the radial direction and pushed onto the coupling. Under the action of elastic forces, the spiral tape gripping element 10 is pressed against the outer surface of the coupling and rises up to the stop of its upper screw end in the screw ledge of the bearing housing 9. The interaction, for example, of the helical conical surfaces of the screw ledge in the bearing housing 9 and the threaded screw part of the gripping element 10 converts axial force to radial force. The radial force combines the axis of the emergency coupling and the device, centers it on the outer surface of the coupling, increasing the stability and reliability of the contact of the gripping element 10 with the outer surface of the coupling. In this case, for example, the lower end surface of the hollow rod 5, which serves as an annular stop in the bearing housing 9, moves down to the working position until it stops in the upper end surface of the coupling, and the spiral tape gripping element 10 occupies the working position, completely located on the outer surface of the coupling . The upper end of the dangling pipe occupies a position above the lower end surface of the hollow rod 5 either in the passage channel of the device or in the passage channel of the tubing of the fishing tool string. By subsequent tension of the fishing tool string, the bearing body 9 moves upward, jamming the spiral tape gripping element 10 under the action of friction between the outer surface of the coupling and the spiral conical surface of the bearing body 9. As a result, the bottomhole cuttings, other elements located in the well and the emergency pipe string are reliably captured beyond the outer surface of the coupling of the extracted pipes, the “head” of which is represented by the torn pipe body and the coupling at its lower end. When the "head" of the emergency pipes at their upper end is represented by a sleeve without a dangling part of the pipe, the reed valve 7 of the device blocks the passage channel of the fishing tool string, preventing the bottom hole from entering the working cavity of the device. The circular reed valve 7 closes the bore of the landing ring of the cylindrical heel 6 of the hollow rod 5 by means of a spring, under the influence of its weight and the weight of the bottom slurry, blocking as a result the passage channel of the device. The circular reed valve 7, completely blocking the device passage channel above the emergency pipe coupling, keeps the bottomhole cuttings from falling out of the fishing tool string after equalizing the pressures in the annular annular space of the well and in the air chamber of the tubing string located above the device. The circular reed valve 7 provides for the capture and retention of bottomhole sludge and other elements from falling out of the upper part of the device and getting inside the exciting part of the bearing body 9 with a spiral tape gripping element 10 when capturing emergency pipes, the “head” of which is represented by a sleeve. Subsequent tension of the fishing column, the bearing body 9 moves upward, jamming the spiral tape gripping element 10 under the action of friction between the outer surface of the coupling and the spiral conical surface of the bearing housing 9. As a result, the bottomhole cuttings, other elements located in the well and the emergency pipe string are reliably captured a clutch whose “head” is represented by a clutch. As a result of the further lifting of the fishing tool string, the circular reed valve 7, blocking the device through passage, eliminates the sticking of the emergency pipes, ensuring the extraction of bottomhole cuttings and other elements from the well while removing the emergency pipes from the well, the “head” of which is represented by a sleeve.

If necessary, to free the device from stuck pipes, the fishing tool is first unloaded, i.e. create an axial force of sufficient weight to wedge the bearing body 9 and the spiral tape gripping element 10 to ensure a guaranteed gap between their spiral conical surfaces of the body 9 and the gripping element 10. The bearing body 9 moves down to the stop of its helical ledge in the helical conical surface thrust screw part of the gripping element 10. The interaction of the helical conical surfaces of the screw ledge of the bearing housing 9 and the thrust screw part of the gripping element 10 converts axial force into radial force. The radial force combines the axis of the emergency coupling and the device, centers it on the outer surface of the coupling, increasing the stability and reliability of the contact of the gripping element 10 with the outer surface of the coupling. The spiral tape gripping element 10, the inner surface of which is pressed by elastic forces to the outer surface of the pipe or sleeve, occupies the extreme upper position in the bearing housing 9. Then, by pulling up, the full weight of the fishing column is removed (removed) from the upper end surface of the bearing housing 9 by tensioning the fishing tool and lift it together with the lead body 4 and the adapter 1 of the device to the height of the working stroke of the hollow rod 5. The lead body 4 thus rises up to the stop of its inner front landing ledge in the annular ledge at the lower end of the cylindrical heel 6 of the hollow rod 5. Then slowly rotate (rotate) the tool to the right. The driving housing 4 and the hollow rod 5 transmit torque from the device sub 1 to the bearing housing 9. The lower end of the spiral band gripping element 10 and the side surface of the upper part of the driver flag abut against the longitudinal side surface of the driver finger of the guide ring mounted in the longitudinal groove of the spiral conical surface load-bearing housing 9. The circumferential force acting on the lateral surface of the leader flag and the longitudinal end face of the lower end of the spiral tape gripping element ment 10, begins to unscrew on the outer surface of the coupling a spiral band gripping element 10 by means of its screw fishing thread. A longitudinally movable connection of the hollow rod 5 with the driving housing 4 informs the gripping element 10, together with the supporting body 9 and the hollow rod 5, of a synchronous upward movement corresponding to the pitch of the screw fishing cut of the spiral tape gripping element 10, increasing its stability and reliability of contact with the outer surface couplings. In this case, the bearing housing 9 moves upward relative to the sub 1 and the leading housing 4, providing unhindered synchronous screw movement upward of the spiral tape picking element 10 along the outer surface of the coupling, due to the continuous uniform contact of the screw fishing cut on the inner surface of the picking element 10 along its entire length with the outer coupling surface. The cylindrical heel 6 of the hollow rod 5, moving upward in the drive housing 4, constantly provides a guaranteed radial clearance between the spiral conical surfaces of the bearing housing 9 and the gripping element 10. The constant presence of a radial clearance between the spiral conical surfaces of the bearing housing 9 and the spiral tape gripping element prevents distortion, deformation, bending, destruction of the driving finger of the guide ring 11 and the spiral tape gripping element 10, as well as scrolling His knowledge in one place. Spiral tape gripping element 10, not being able to rotate relative to the bearing housing 9, rotating with the device, is reliably unscrewed on the outer surface of the undeformed coupling. Continuing to slowly rotate the fishing tool, reliably free the device from the emergency pipe string by “screwing up” without lifting the tool at the same time.

If it is necessary to free the device from the extracted pipes near the wellhead, when the weight of the fishing tool string under static load or dynamic load is much less than the axial force required for the spiral conical surface of the bearing body 9 to come out of contact with the spiral conical surface of the spiral tape of the picking element 10, then the full weight of the fishing column should be removed from the upper end surface of the supporting body 9 by tensioning the fishing tool and raise it together with the lead body 4 and the adapter 1 of the device to an incomplete height, for example, to a height of 2/3 of the working part of the hollow rod 5. The lead body 4 rises upward, and the cylindrical heel 8 of the hollow rod 5 occupies the corresponding position in the lead case 4, informing the bearing case 9 while being able to freely move either down or up with respect to the sub 1 of the device. Then apply torque to the right. The axial force created by the torque through the left spiral conical surface of the bearing housing 9 will allow the spiral conical surface of the bearing housing 9 to be withdrawn from the spiral conical surface of the gripping element 10. As a result, the bearing housing 9 moves down to the stop of its inner screw ledge in the upper end surface of the spiral tape capturing element 10, providing a guaranteed gap between the spiral conical surfaces of the bearing housing 9 and the spiral about the tape capturing element 10. The spiral tape capturing element 10, not being able to rotate relative to the bearing body 9, rotating with the device, starts to be unscrewed on the outer surface of the coupling by means of a screw fishing cut. Continuing to rotate the device, reliably release it from the emergency pipe string by screwing up without simultaneously lifting the tool.

The application of the proposed device can reduce the time spent on the elimination of accidents by improving the reliability of the device, due to the increased efficiency of cleaning the extracted pipes, the internal cavity of the device from bottomhole sludge and other elements, providing the ability to capture downhole sludge and other elements, increasing the reliability of capture of recoverable pipes by increasing the cross-country ability of the device in the well, increasing the reliability of the release of the device and at the same time simplifying work with them during the cycle.

Claims (37)

1. A device for cleaning wells, comprising a sub with an internal passage channel, in which a movable valve fixed in the initial position is installed in the initial position and can be moved up, characterized in that the guide funnel is fixedly connected to the lower one-piece or detachable part of the sub, the upper part which is connected by means of a threaded connection to the lower part of the sub or to the receiving hollow extension, or to the washing pipe of an integral or detachable design with the possibility of To pass captured objects through itself or connected with an adapter with the ability to pass large captured objects through itself, the lower end of the guide funnel is made with a notch along the helical line forming a ledge and with a conical chamfer on the inner surface or with annular conical chamfer on the inner surface, or in the form of a “feather” and with a conical chamfer on the inner surface, or with a wide U-shaped longitudinal cut and with a conical on the inner surface, or in case of deviation of the upper end of the extracted pipe string from the center of the well with a cut in a spiral line passing into a lateral curly groove with a retracting hook, or in the form of an annular milling cutter with cutting teeth welded with an alloy containing brass and cutting with the corresponding grit carbide inclusions, or reinforced cutting carbide elements, or in the form of an annular milling cutter with cutting teeth of various shapes for each type of milling work that reinforces They are either cut with carbide elements or welded with an alloy containing brass and carbide inclusions cutting with appropriate grit, or in the form of an annular milling cutter, which inside is made conical and with shoe teeth on a conical surface, which are welded with an alloy containing brass and carbide inclusions cutting with corresponding grit, or with thread, while the outer diameter of the lower part of the guide funnel has a diameter corresponding to the diameter of the borehole with appropriate clearance for passing the device in the well. 2. A device for cleaning wells, comprising a sub with an internal feedthrough channel, in which a movable valve fixed in the initial position is installed in the initial position, moving in an initial position, characterized in that the sub is detachable, while a leading housing is installed on the lower detachable part of the sub , in which a hollow rod with a cylindrical heel made with the possibility of interaction with the slide By means of a flap valve, the lower part of the drive housing and the middle part of the hollow rod are interconnected by an axially movable joint, in which the outer surface of the hollow rod and the mating inner surface of the hole in the lower part of the lead housing are made in an octagonal cross-section. 3. The device according to claim 2, characterized in that to increase the reliability of the device by providing the possibility of combining the axes of the device and the extracted pipe string with the lower part of the hollow rod, the guide funnel is fixedly connected, the upper part of which is connected by a threaded connection to the lower part of the hollow rod or with a receiving hollow extension, or with a wash pipe of an integral or detachable design with the ability to pass captured objects through itself or connected to an adapter with the ability to pass large objects are captured through them, the lower end of the funnel guide to increase the cleaning efficiency of the extractable pipe string is cut with a helical line forming a ledge and with a conical chamfer on the inner surface or with an annular conical chamfer on the inner surface, or in the form of a “pen” and with a conical chamfer on the inner surface, or with a wide U-shaped longitudinal cut and with a conical chamfer on the inner surface, or in case of deviation of the upper end of the pipe string to be removed from ntra of a well with a cut in a spiral line, turning into a side curly groove with a retracting hook, or in the form of an annular milling cutter with welded alloys containing brass and carbide cutters of the corresponding grain size, or reinforced with carbide cutting elements, or in the form of an annular milling cutter with cutting teeth of various shapes for each type of milling work, which are reinforced with cutting carbide elements or welded with an alloy containing brass and cutting respectively carbide inclusions, or in the form of an annular milling cutter, which inside is made conical and with shoe teeth on a conical surface, which are fused with an alloy containing brass and carbide inclusions cutting with corresponding grit, or with a thread, while the outer diameter of the lower part of the guide funnel has a diameter corresponding to the diameter of the well with the provision of an appropriate clearance for the passage of the device in the well. 4. The device according to claim 2, characterized in that to increase the reliability of the device by providing the ability to capture removable pipes on the outer surface of the protruding annular element on the pipe body with the lower part of the hollow rod, the bearing body is fixedly connected to the inner spiral conical surface, the upper part the bearing housing is connected via a threaded connection to the lower part of the hollow rod or to the receiving hollow extension cord of an integral or detachable design with the ability to pass through grasping objects or connected with an adapter with the ability to pass large diameter gripping objects through itself, a spiral tape gripping element is mounted with axial movement in the main body, a spiral conical surface is made on the outer surface of the spiral tape gripping element, and a screw fishing cut is made on the inside. 5. The device according to claim 2, characterized in that to increase the reliability of the device by providing the ability to capture the extracted pipes by the pipe body and increase the reliability of the transmission of torque to the extracted pipes, the bearing body is fixedly connected to the inner spiral conical surface with the lower part of the hollow rod, moreover, the upper part of the bearing housing is connected via a threaded connection to the lower part of the hollow rod or to the receiving hollow extension cord of an integral or detachable design with the possibility of passing l through itself large-sized captured objects, a gripping sleeve is mounted with axial movement with the possibility of axial movement, a conical spiral surface is made on the outer surface of the gripping sleeve, and a fishing thread is made on the inner surface. 6. The device according to claim 5, characterized in that to increase the reliability of the device by increasing the reliability of the transmission of torque to the extracted pipes, allowing capture of the extracted pipes by the pipe body near the protruding ring element on the pipe body on the inner surface of the lower end of the bearing housing under its spiral conical surface is made with the possibility of axial movement of the gripping sleeve guide ring conical chamfer, which serves to enable the capture of pipes near the protruding annular element on the pipe body of the extracted pipes. 7. The device according to claim 5, characterized in that to increase the reliability of the device by providing the ability to capture retrievable pipes by the pipe body near the protruding ring element on the pipe body, increase the reliability of torque transmission to the retrievable pipes, and increase the reliability of pipe capture by eliminating the possibility of deformation of the gripping sleeve or its destruction when combining the axes of the device and the extracted pipe string using torque on the inner surface under a spiral conical by the surface of the bearing body, under the lower end surface of the gripping sleeve, an annular protrusion is axially movable and a guiding annular conical chamfer is made on the inner surface of the lower end of the bearing housing, which serves to ensure alignment of the axes of the device and the retrievable pipe string and to enable pipe gripping near the protruding ring element on the pipe body. 8. The device according to claim 2, characterized in that to increase the reliability of the device with pipes or rods of different diameters during rotation, when unscrewing, when gripping pipes or rods by the body under the protruding ring element on the body of the pipe or rod with the lower part of the hollow the rod is fixedly connected to the supporting body, the upper part of which is connected by means of a threaded connection to the lower part of the hollow rod or to the receiving hollow extension cord of an integral or detachable structure with the ability to pass captured objects You are large, segmented liners are fixedly mounted in the bearing housing, longitudinal grooves with inclined supporting surfaces are made on the inner surface of the segmented inserts, gripping elements are placed in the longitudinal grooves, inclined supporting surfaces of the grooves and gripping elements are made with the possibility of gripping pipes or rods of different diameters for the body under the protruding annular element on the body of the pipe or rod, while the inner surface of the gripping elements is made tangent to the outer the surface of the pipe or rod, the gripping elements are connected with the liners with the possibility of longitudinal movement along the surfaces of the grooves and are located in the lowermost position on the annular ledge made on the surface of the passage channel of the guide ring mounted in the extreme lower position of the gripping elements. 9. The device according to claim 2, characterized in that in order to increase the reliability of the device by providing the ability to capture removable pipes under the protruding ring element on the pipe body, the hollow extension is fixedly connected to the lower part of the hollow rod, the upper part of which is connected by a threaded connection to the lower part hollow traction or with a receiving hollow extension cord of an integral or detachable design with the ability to pass captured objects through itself or connected to an adapter with the ability to pass through large objects to be captured, elastic gripping elements are placed inside the hollow extension, while the elastic gripping elements and the internal diameter of the extension are adapted to capture the retrievable pipes under the protruding ring element on the pipe body, and the outer diameter of the lower part of the hollow extension with elastic gripping elements corresponds to the diameter of the well providing adequate clearance for the passage of the device in the well. 10. The device according to claim 2, characterized in that to increase the reliability of the device by increasing the efficiency of cleaning the extracted pipes by ensuring the possibility of drilling the extracted pipes and milling in the well, the annular milling cutter is fixedly connected to the lower part of the hollow rod, the upper part of which is connected by means of a threaded connection with the lower part of the hollow rod or with the receiving hollow extension cord of an integral or detachable design with the ability to pass captured objects or and with an adapter with the ability to pass large-sized captured objects through itself, an annular milling cutter on its working surfaces is fused with an alloy containing brass and carbide cutting with appropriate grain size, or is made with cutting teeth or with cutting teeth fused with an alloy containing brass and cutting with appropriate grain size carbide inclusions, or with reinforced cutting carbide elements, or with cutting teeth of various shapes for each type of milling those that are welded with an alloy containing brass and carbide cutting inclusions of the corresponding grit, or reinforced with cutting carbide elements, or with shoe teeth on the inner conical surface or the inner conical and outer surfaces, which are welded with an alloy containing brass and cutting the corresponding grit carbide inclusions, grooves are made on the working surfaces of the annular milling cutter, which serve to increase the efficiency of cleaning the extracted pipes I have the possibility of circulating flushing fluid, cutouts are made in the lower part of the annular milling cutter, which serve to increase the cleaning efficiency of the extracted pipes by allowing circulating flushing fluid, while the outer diameter of the lower part of the annular milling cutter has a diameter corresponding to the diameter of the borehole with an appropriate clearance for the device to pass through well. 11. A device for cleaning wells, comprising a sub with an internal passage channel, in which a movable valve fixed in the initial position is installed in the initial position, which is characterized in that a leading housing is connected to the lower one-piece or split part of the sub, in which with the possibility of limited longitudinal movement, a hollow rod, in the upper part of which a cylindrical heel is made, installed in the drive housing with the possibility of interaction with a movable cl a pan, a supporting sub is connected to the lower part of the hollow rod, the upper part of which is connected via a threaded connection to the lower part of the hollow rod or to the receiving hollow extension cord or washing pipe of an integral or detachable design with the ability to pass captured objects through it or connected to an adapter with the ability to pass through large objects are captured, in the passage channel of the supporting sub is installed in the initial position a reed circular valve with the possibility of upward movement from the initial position to the vertical position and capture of the bottomhole sludge, the lower part of the drive body and the middle part of the hollow rod are connected by an axially movable joint in which the outer surface of the hollow rod and the mating inner surface of the hole in contact with it in the lower part of the lead body made in cross section of an octagonal shape. 12. The device according to claim 11, characterized in that to increase the reliability of the device by allowing the axes of the device and the extracted pipe string to be combined with the lower part of the supporting sub, the guide funnel is fixedly connected, the upper part of which is connected by a threaded connection to the lower part of the supporting sub or with a receiving hollow extension cord or with a washing pipe of an integral or detachable design with the ability to pass captured objects through itself or connected to an adapter with with the ability to pass large-sized captured objects through itself, the lower end of the guide funnel to increase the cleaning efficiency of the extracted pipe string is made either with a notch along a helical line forming a ledge and with a conical chamfer on the inner surface, or in the form of a “pen” and with a conical chamfer on the inner surface, or with a wide U-shaped longitudinal cut and with a tapered chamfer on the inner surface, or in case of deviation of the upper end of the extracted pipe string from the center of the well with a spiral cut line, turning into a side curly groove with a retractable hook, or in the form of an annular milling cutter with cutting teeth welded with an alloy containing brass and carbide cutters of the corresponding grain size, or reinforced with carbide cutting elements, or in the form of an annular milling cutter with cutting teeth of various shapes for of each type of milling work, which are reinforced with cutting carbide elements or welded with an alloy containing brass and carbide cutting of the corresponding grain size inclusions, or in the form of an annular milling cutter, which inside is made conical and with shoe teeth on a conical surface, which are fused with an alloy containing brass and carbide inclusions cutting with the corresponding grain size, or with a thread, while the outer diameter of the lower part of the funnel guide has a diameter corresponding to the diameter wells providing adequate clearance for the passage of the device in the well. 13. The device according to claim 11, characterized in that to increase the reliability of the device by providing the ability to capture removable pipes on the outer surface of the protruding ring element on the pipe body with the lower part of the bearing sub fixedly connected to the bearing body with an internal spiral conical surface, the upper part the bearing housing is connected by means of a threaded connection with the lower part of the bearing sub or with the receiving hollow extension cord of an integral or detachable design with the possibility of to dissipate captured objects through itself or connected to an adapter with the ability to pass large captured objects through itself, a spiral tape gripping element is mounted with axial movement in the main body, a spiral conical surface is made on the outer surface of the spiral tape gripping element, and a screw fishing one is made on the inner surface cutting. 14. The device according to claim 11, characterized in that to increase the reliability of the device by providing the ability to capture the extracted pipes by the pipe body and increase the reliability of the transmission of torque to the extracted pipes, the supporting body is fixedly connected to the bottom spiral bearing cone, moreover, the upper part of the bearing housing is connected via a threaded connection to the lower part of the bearing sub or to the receiving hollow extension cord of an integral or detachable structure with POSSIBILITY pass through a grippable objects or connected to the adapter with the ability to pass through itself captured large objects, the supporting frame is mounted for axial movement gripping sleeve, on the outer surface of the gripping sleeve is made spiral conical surface, but on the inside - the picker slicing. 15. The device according to p. 14, characterized in that to increase the reliability of the device by increasing the reliability of the transmission of torque to the extracted pipes, allowing capture of the extracted pipes by the pipe body near the protruding ring element on the pipe body on the inner surface of the lower end of the bearing housing under its spiral conical surface is made with the possibility of axial movement of the gripping sleeve guide ring conical bevel, which serves to provide the possibility of gripping the pipe b close to the protruding annular element on the pipe body of the extracted pipes. 16. The device according to 14, characterized in that to increase the reliability of the device by providing the ability to capture for the pipe body of the extracted pipes near the protruding ring element on the pipe body, to increase the reliability of the transmission of torque to the extracted pipes and to increase the reliability of the pipe capture by eliminating the possibility of deformation of the gripping sleeve or its destruction when combining the axes of the device and the extracted pipe string using torque on the inner surface under a spiral conical the annular protrusion is axially movable with the surface of the bearing housing, under the lower end surface of the gripping sleeve, and a guiding annular conical chamfer is made on the inner surface of the lower end of the bearing housing, which serves to ensure alignment of the device axes and the removable pipe string and to enable the pipe to be gripped near the protruding ring element on the pipe body. 17. The device according to claim 11, characterized in that to increase the reliability of the device with pipes or rods of different diameters during rotation, when unscrewing, when gripping pipes or rods by the body under the protruding ring element on the pipe or rod body with the lower part of the carrier the bearing housing is fixedly connected, the upper part of which is connected by a threaded connection to the lower part of the bearing sub or to the receiving hollow extension cord of an integral or detachable structure with the ability to pass through itself seized objects or connected with an adapter with the ability to pass large captured objects through itself, segmented inserts are fixedly mounted in the bearing body, longitudinal grooves with inclined supporting surfaces are made on the inner surface of the segmented inserts, gripping elements, inclined grooving supporting surfaces of the grooves and exciting are placed in the longitudinal grooves elements are made with the possibility of gripping pipes or rods of different diameters for the body under the protruding ring element on the body s or rods, while the inner surface of the gripping elements is tangent to the outer surface of the pipe or rod, the gripping elements are connected with the liners with the possibility of longitudinal movement along the surfaces of the grooves and are located in the lowest position on the annular ledge made on the surface of the passage channel of the guide ring, installed in the lowest position of the gripping elements. 18. The device according to claim 11, characterized in that to increase the reliability of the device by providing the ability to capture removable pipes under the protruding ring element on the pipe body, a hollow extension cord is fixedly connected to the lower part of the supporting sub, the upper part of which is connected by a threaded connection to the lower part a bearing sub or with a receiving hollow extension cord of an integral or detachable design with the ability to pass captured objects through itself or connected with an adapter with pass large capture objects through itself, elastic gripping elements are placed inside the hollow extension cord, while the elastic gripping elements and the inner diameter of the extension cord are adapted to capture the retrievable pipes under the protruding ring element on the pipe body, and the outer diameter of the lower part of the hollow extension cord with elastic capturing elements has a diameter corresponding to the diameter of the well with the provision of an appropriate clearance for the passage of the device in the well. 19. The device according to claim 11, characterized in that to increase the reliability of the device by increasing the efficiency of cleaning the extracted pipes by providing the possibility of drilling the extracted pipes and milling in the well, the annular milling cutter is fixedly connected with the lower part, the upper part of which is connected by means of a threaded connection with the lower part of the supporting sub or with the receiving hollow extension cord of an integral or detachable design with the ability to pass through items or is connected with an adapter with the ability to pass large-sized captured objects through itself, the ring milling cutter on its working surfaces is fused with an alloy containing brass and carbide inclusions cutting with appropriate grain size, or is made with cutting teeth or with cutting teeth fused with an alloy containing brass and carbide cutting inclusions corresponding to grain size, either with reinforced carbide cutting elements, or with cutting teeth of various shapes for each type carrying out milling operations which are welded with an alloy containing brass and carbide inclusions cutting with corresponding grit or reinforced with cutting carbide elements or with shoe teeth on an inner conical surface or on an inner conical and outer surface that are welded with an alloy containing brass and carbide cutting with corresponding grit inclusions, grooves are made on the working surfaces of the annular milling cutter, which serve to increase the cleaning efficiency pipes by allowing washing fluid to circulate, cutouts are made in the lower part of the annular milling cutter to increase the cleaning efficiency of the extracted pipes by allowing the washing fluid to circulate, while the outer diameter of the lower part of the annular milling cutter has a diameter corresponding to the diameter of the borehole with an appropriate clearance for passage devices in the well. 20. A device for cleaning wells, comprising a sub with an internal feedthrough channel, in which a movable valve fixed in the initial position is installed in the initial position, movable in the initial position, characterized in that the sub is detachable, a leading housing is installed in the lower detachable part of the sub, which is placed with the possibility of limited longitudinal movement of the hollow rod, in the upper part of which is made a cylindrical heel, installed with the possibility of interaction with the movable valve anyway, in the passage channel of the cylindrical heel, a reed circular valve is installed in the initial position, configured to deflect upward from the initial position to the vertical position and capture the downhole slurry, the lower part of the drive housing and the middle part of the hollow rod are connected together by an axially movable connection, in which the outer surface of the hollow rod and the mating inner surface of the hole in the lower part of the drive housing in contact with it are made in cross section of an octagonal shape we. 21. The device according to claim 20, characterized in that to increase the reliability of the device by allowing the axes of the device and the extracted pipe string to be combined with the lower part of the hollow rod, the guide funnel is fixedly connected, the upper part of which is connected by a threaded connection to the lower part of the hollow rod with a receiving hollow extension, or with a washing pipe of an integral or detachable design with the ability to pass captured objects through itself or connected to an adapter with the ability to pass large objects are captured through them, the lower end of the funnel guide to increase the cleaning efficiency of the extracted pipe string is made either with a notch along a helical line forming a ledge, or with a conical chamfer on the inner surface, or with an annular conical chamfer on the inner surface, or in the form pen ”and with a conical chamfer on the inner surface, or with a wide U-shaped longitudinal notch and with a conical chamfer on the inner surface, or in case of deviation of the upper end of the extracted column t ub from the center of the borehole with a notch in a spiral line that passes into a lateral longitudinal groove with a retracting hook, or in the form of an annular milling cutter with cutting teeth deposited with an alloy containing brass and carbide cutting cutting of the corresponding grain size, or reinforced with carbide cutting elements, or in the form of a ring a milling cutter with cutting teeth of various shapes for each type of milling work, which are reinforced with cutting carbide elements or welded with an alloy containing brass and cutting The corresponding grain size is carbide inclusions, or in the form of an annular milling cutter, which is made inside with a bevel and with shoe teeth on a conical surface, which are fused with an alloy containing brass and carbide inclusions cutting with the corresponding grain size, or with a thread, while the outer diameter of the lower part of the guide funnel has a diameter corresponding to the diameter of the well with the provision of an appropriate clearance for the passage of the device in the well. 22. The device according to claim 20, characterized in that to increase the reliability of the device by providing the ability to capture removable pipes on the outer surface of the protruding annular element on the pipe body with the lower part of the hollow rod, the bearing body is fixedly connected to the inner spiral conical surface, the upper part the bearing housing is connected by means of a threaded connection to the lower part of the hollow rod or to the receiving hollow extension cord of an integral or detachable structure with the ability to pass through itself captured objects or connected with an adapter with the ability to pass large captured objects through itself, a spiral tape gripping element is mounted with axial movement in the main body, a spiral conical surface is made on the outer surface of the spiral tape gripping element, and a screw fishing cut is made on the inside. 23. The device according to claim 20, characterized in that to increase the reliability of the device by providing the ability to capture the extracted pipes by the pipe body and increase the reliability of the transmission of torque to the extracted pipes, the bearing body is fixedly connected to the inner spiral conical surface with the lower part of the hollow rod, moreover, the upper part of the bearing housing is connected via a threaded connection with the lower part of the hollow rod or with the receiving hollow extension cord of a detachable or integral design with the possibility of skipping to capture captured objects through itself or connected to an adapter with the ability to pass large captured objects through itself, a gripping sleeve is mounted with the possibility of axial movement of the gripping sleeve, a spiral conical surface is made on the outer surface of the gripping sleeve, and a fishing thread is made on the inside. 24. The device according to p. 23, characterized in that to increase the reliability of the device by increasing the reliability of the transmission of torque to the extracted pipes, allowing capture of the extracted pipes by the pipe body near the protruding ring element on the pipe body on the inner surface of the lower end of the bearing housing under its spiral conical surface is made with the possibility of axial movement of the gripping sleeve guide ring conical bevel, which serves to provide the possibility of gripping the pipe b close to the protruding annular element on the pipe body of the extracted pipes. 25. The device according to p. 23, characterized in that to increase the reliability of the device by enabling capture of extracted pipes by the pipe body near the protruding ring element on the pipe body, increasing the reliability of torque transmission to the pipes to be extracted, and increasing the reliability of pipe capture by eliminating the possibility of deformation of the gripping sleeve or its destruction when combining the axes of the device and the extracted pipe string using torque on the inner surface under a spiral conical an annular protrusion is made axially movable by the surface of the bearing housing, under the lower end surface of the gripping sleeve, and a guiding annular conical chamfer is made on the inner surface of the lower end of the bearing housing, which serves to ensure alignment of the axes of the device and the removable pipe string and to enable the pipe to be gripped close to protruding annular element on the body of the pipe. 26. The device according to claim 20, characterized in that to increase the reliability of the device with pipes or rods of different diameters during rotation, when unscrewing, when gripping pipes or rods by the body under the protruding ring element on the body of the pipe or rod with the lower part of the hollow the support housing is fixedly connected, the upper part of which is connected by means of a threaded connection to the lower part of the hollow rod or to the receiving hollow extension cord of an integral or detachable structure with the ability to pass captured objects s or is connected with an adapter with the ability to pass large-sized captured objects through itself, segmented inserts are fixedly mounted in the bearing housing, longitudinal grooves with inclined supporting surfaces are made on the inner surface of the segmented inserts, gripping elements, inclined grooving supporting surfaces of the grooves and exciting elements are placed in the longitudinal grooves made with the possibility of gripping pipes or rods of different diameters for the body under the protruding ring element on the body of the pipe or rod, while the inner surface of the gripping elements is tangent to the outer surface of the pipe or rod, the gripping elements are connected with the liners with the possibility of longitudinal movement along the surfaces of the grooves and are located in the lowest position on the annular ledge made on the surface of the passage channel of the guide ring mounted in the extreme lower position of the gripping elements. 27. The device according to claim 20, characterized in that to increase the reliability of the device by providing the ability to capture removable pipes under the protruding ring element on the pipe body, the hollow extension is fixedly connected to the lower part of the hollow rod, the upper part of which is connected by a threaded connection to the lower part hollow traction or with a receiving hollow extension cord of an integral or detachable design with the ability to pass captured objects through itself or connected to an adapter with the ability to pass through I am a large-sized capture object, elastic gripping elements are placed inside the hollow extension, the elastic locking elements and the extension diameter of the extension are made to capture the retrievable pipes under the protruding ring element on the pipe body, and the outer diameter of the lower part of the hollow extension with elastic locking elements has a diameter corresponding to the diameter of the well with the provision of an appropriate clearance for the passage of the device in the well. 28. The device according to claim 20, characterized in that to increase the reliability of the device by increasing the efficiency of cleaning the extracted pipes by providing the possibility of drilling the extracted pipes and milling in the well, the annular milling cutter is fixedly connected to the lower part of the hollow rod, the upper part of which is connected by means of a threaded connection with the lower part of the hollow rod or with the receiving hollow extension cord of an integral or detachable design with the ability to pass captured objects or on with an adapter with the ability to pass large-sized captured objects through itself, the annular milling cutter on its working surfaces is fused with an alloy containing brass and carbide cutting with the corresponding grit, or is made with cutting teeth or with cutting teeth fused with an alloy containing brass and cutting with the corresponding grit carbide inclusions, or with reinforced cutting carbide elements, or with cutting teeth of various shapes for each type of milling works that are fused with an alloy containing brass and carbide inclusions cutting of the corresponding grit, or reinforced with cutting carbide elements, or with shoe teeth on the inner conical surface or the inner conical and outer surfaces, which are fused with an alloy containing brass and carbide cutting of the corresponding grit, grooves are made on the working surfaces of the annular milling cutter, which serve to increase the efficiency of cleaning the extracted pipes by providing In order to circulate the flushing liquid, cutouts are made in the lower part of the annular milling cutter, which serve to increase the efficiency of cleaning the extracted pipes by allowing circulating flushing fluid, while the outer diameter of the lower part of the annular milling cutter has a diameter corresponding to the diameter of the borehole with an appropriate clearance for the device to pass through well. 29. The device according to claim 20, characterized in that to increase the reliability of the device by allowing the capture and extraction of bottomhole sludge, large foreign objects near the protruding annular element on the pipe body, preventing the formation of bottomhole sludge and improving the efficiency of cleaning the extracted pipes from the bottom part of the hollow rod is connected to a supporting sub, the upper part of which is connected by means of a threaded connection to the lower part of the hollow rod or to the receiving hollow extension cord or to the washing a one-piece or one-piece split structure with the ability to pass captured objects through itself or connected to an adapter with the ability to pass large-sized captured objects through itself, in the passage channel of the supporting sub there is a reed circular shape valve in the initial position with the ability to deflect upward from the initial position to a vertical position and capture of foreign objects of large sizes. 30. The device according to clause 29, characterized in that to increase the reliability of the device by allowing the axes of the device and the extracted pipe string to be combined with the lower part of the supporting sub, the guide funnel is fixedly connected, the upper part of which is connected via a threaded connection to the lower part of the supporting sub connected with a receiving hollow extension cord or with a wash pipe of an integral or detachable design with the ability to pass captured objects through itself or connected to an adapter com with the ability to pass large-sized captured objects through itself, the lower end of the guide funnel to increase the cleaning efficiency of the extracted pipe string is made either with a notch along a helical line forming a ledge, or with a tapered chamfer on the inner surface, or with an annular conical chamfer on the inner surface, either in the form of a “feather” and with a conical chamfer on the inner surface, or with a wide U-shaped longitudinal cut and with a conical chamfer on the inner surface, or in case of deviation of the upper the end of the pipe string to be removed from the center of the well with a cut in a spiral line that passes into a lateral longitudinal groove with a retracting hook, or in the form of an annular milling cutter with welded alloys containing brass and carbide cuttings of the corresponding grain size, or reinforced with carbide cutting elements, or in the form of an annular milling cutter with cutting teeth of various shapes for each type of milling work, which are reinforced with cutting carbide elements or welded alloy containing brass and carbide cutting inclusions of the corresponding grain size, or in the form of an annular milling cutter, which inside is made conical and with shoe teeth on a conical surface, which are fused with an alloy containing brass and carbide cutting cutting of the corresponding grain size, or with a thread, while the outer diameter of the lower part of the guide funnel has a diameter corresponding to the diameter of the well with the provision of an appropriate clearance for the passage of the device in the well. 31. The device according to clause 29, characterized in that to increase the reliability of the device by providing the ability to capture removable pipes on the outer surface of the protruding ring element on the pipe body with the lower part of the carrier sub fixedly connected to the carrier body with an internal spiral conical surface, the upper part the bearing housing is connected via a threaded connection to the lower part of the bearing sub or to the receiving hollow extension cord of an integral or detachable design with the possibility of to dissipate captured objects through itself or connected to an adapter with the ability to pass large captured objects through itself, a spiral tape gripping element is mounted with axial movement in the main body, a spiral conical surface is made on the outer surface of the spiral tape gripping element, and a screw fishing one is made on the inner surface cutting. 32. The device according to clause 29, characterized in that to increase the reliability of the device by providing the ability to capture the extracted pipes by the body of the pipe and increase the reliability of the transmission of torque to the extracted pipes with the lower part of the supporting sub fixed bearing body with an internal spiral conical surface, moreover, the upper part of the bearing housing is connected via a threaded connection to the lower part of the bearing sub or to the receiving hollow extension cord of an integral or detachable structure with POSSIBILITY pass through a grippable objects or connected to the adapter with the ability to pass through itself captured large objects, the supporting frame is mounted for axial movement gripping sleeve, on the outer surface of the gripping sleeve is made spiral conical surface, but on the inside - the picker slicing. 33. The device according to p. 32, characterized in that to increase the reliability of the device by increasing the reliability of the transmission of torque to the extracted pipes, allowing capture of the extracted pipes by the pipe body near the protruding ring element on the pipe body on the inner surface of the lower end of the bearing housing under its spiral conical surface is made with the possibility of axial movement of the gripping sleeve guide ring conical bevel, which serves to provide the possibility of gripping the pipe b close to the protruding annular element on the pipe body of the extracted pipes. 34. The device according to p. 32, characterized in that to increase the reliability of the device by providing the ability to capture for the pipe body of the extracted pipes near the protruding ring element on the pipe body, to increase the reliability of the transmission of torque to the extracted pipes and to increase the reliability of the pipe capture by eliminating the possibility of deformation of the gripping sleeve or its destruction when combining the axes of the device and the extracted pipe string using torque on the inner surface under a spiral conical an annular protrusion is made axially movable by the surface of the bearing housing, under the lower end surface of the gripping sleeve, and a guiding annular conical chamfer is made on the inner surface of the lower end of the bearing housing, which serves to ensure alignment of the axes of the device and the removable pipe string and to enable the pipe to be gripped close to protruding annular element on the body of the pipe. 35. The device according to clause 29, characterized in that to increase the reliability of the device with pipes or rods of different diameters during rotation, when unscrewing, when gripping pipes or rods by the body under the protruding ring element on the body of the pipe or rod with the lower part of the carrier the sub is fixedly connected to the bearing housing, the upper part of which is connected by means of a threaded connection to the lower part of the bearing sub or to the receiving hollow extension cord of an integral or detachable structure with the ability to pass through itself seized objects or connected with an adapter with the ability to pass large captured objects through itself, segmented inserts are fixedly mounted in the bearing body, longitudinal grooves with inclined supporting surfaces are made on the inner surface of the segmented inserts, gripping elements, inclined grooving supporting surfaces of the grooves and exciting are placed in the longitudinal grooves elements are made with the possibility of gripping pipes or rods of different diameters for the body under the protruding ring element on the body s or rods, while the inner surface of the gripping elements is tangent to the outer surface of the pipe or rod, the gripping elements are connected with the liners with the possibility of longitudinal movement along the surfaces of the grooves and are located in the lowest position on the annular ledge made on the surface of the passage channel of the guide ring, installed in the lowest position of the gripping elements. 36. The device according to clause 29, characterized in that to increase the reliability of the device by providing the ability to capture removable pipes under the protruding ring element on the pipe body, the hollow extension cord is fixedly connected to the lower part of the supporting sub, the upper part of which is connected via a threaded connection to the lower part a bearing sub or with a receiving hollow extension cord of an integral or detachable design with the ability to pass captured objects through itself or connected with an adapter with pass large capture objects through itself, elastic gripping elements are placed inside the hollow extension cord, while the elastic gripping elements and the inner diameter of the extension cord are capable of gripping the retrievable pipes under the protruding ring element on the pipe body, and the outer diameter of the lower part of the hollow extension cord with elastic capturing elements has a diameter corresponding to the diameter of the well with the provision of an appropriate clearance for the passage of the device in the well. 37. The device according to clause 29, characterized in that to increase the reliability of the device by increasing the efficiency of cleaning the extracted pipes by ensuring the possibility of drilling the extracted pipes and milling in the well, the ring milling cutter is fixedly connected to the lower part of the supporting sub, the upper part of which is connected by means of a threaded connection with the lower part of the supporting sub or with the receiving hollow extension cord of an integral or detachable design with the ability to pass through objects or is connected with an adapter with the ability to pass large objects through it, the annular milling cutter on its working surfaces is fused with an alloy containing brass and carbide cuttings of the corresponding grain size, or made with cutting teeth or with cutting teeth fused with an alloy containing brass and cutting corresponding grit carbide inclusions, or reinforced cutting carbide elements, or with cutting teeth of various shapes for each type of holding grain works, which are deposited with an alloy containing brass and carbide inclusions cutting of the corresponding grit, or reinforced with cutting carbide elements, or with shoe teeth on the inner conical surface or the inner conical and external surfaces, which are welded with an alloy containing brass and carbide inclusions cutting of the corresponding grit , grooves are made on the working surfaces of the annular milling cutter, which serve to increase the efficiency of cleaning the extracted pipes by sintering of the possibility of circulating flushing fluid, cutouts are made in the lower part of the annular milling cutter, which serve to increase the efficiency of cleaning the extracted pipes by allowing circulating flushing fluid, while the outer diameter of the lower part of the annular milling cutter has a diameter corresponding to the diameter of the borehole with an appropriate clearance for the well.

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