RU2182221C1 - Hydromechanical well perforator - Google Patents

Abstract

FIELD: drilling and operation of wells, particularly, devices for making perforation slots in casing string, cement stone and rocks. SUBSTANCE: hydromechanical well perforator has body, extensible cutting tool in form of rolling disk, jet nozzle and wedge recess with removable plates arranged at angle to device axis. Axle of rolling disk is stepped, with small diameter at ends and located in recesses parallel to wedge recess. Device has hollow rod-filter located in two hydraulic cylinders installed hermetically relative to each other. Lower hydraulic cylinder has spring-loaded piston-pusher having central and side hydraulic channels and connected with axle of rolling disk by means of two shaped plates. They come in contact with removable plates of wedge recess. Wedge recess is removable and installed on device body for sliding over casing string during operation of rolling disk. Ends of axle of rolling disk are located in guide recesses of side plates. They embrace wedge recess, shaped plates and rolling disk from both sides. EFFECT: provided convenient servicing, and simple in design and reliable in operation device with wide range of application. 3 cl, 2 dwg

Description

 The invention relates to the drilling and operation of wells, in particular to a device for creating perforations in casing strings, cement stone and rock.

 It is known "Device for slotted perforation of the casing string", comprising a housing with a retractable cutting tool made in the form of a knurled roller with one or more cutting discs, a spring-loaded console connected with the axis of the knurled roller and mounted with the possibility of axial movement, from the opposite side of the knurled roller support rollers are placed, the device has a hydraulic cylinder, the piston of which is spring-loaded and connected to the spring-loaded console, a hydromonitor nozzle is installed on it, which is hydraulically connects the cavity of the tubing string to the outside. The hydraulic nozzle is oriented to the working area of the forming surface of the rolling roller, the housing of the anti-rolling roller is made with a groove under the axis of the rolling roller (see RF patent 2039220, class E 21 B 43/114).

 A disadvantage of the known device is the unreliability in operation due to the rapid wear of the working parts of the punch and the difficulty of replacing them. So, when walking the column with a perforator, accelerated wear and destruction of the wings and the axis on which the wings and the rolling roller are mounted, and the axis that connects the console and the wings, are accelerated. they carry multi-ton loads. Replacing the axles and backstage requires complete disassembly of the device.

 Common features of the known device with the claimed is a housing with a retractable cutting tool made in the form of a knurled roller with a cutting disc, a hydraulic cylinder, the piston of which is spring-loaded, a hydraulic nozzle that hydraulically connects the cavity of the tubing string to the external space. The hydraulic nozzle is oriented to the working area of the forming surface of the rolling roller.

 Closest to the technical nature of the claimed invention is a "Device for crevice perforation of cased holes", comprising a housing, a sliding cutting tool in the form of a knurled disk, a spring-loaded console, a link, a rocker nozzle, support rollers, a heel that pivotally contacts the rocker and is placed between it and the console connected by an axis. A wedge groove is made in the device’s body at an angle to its axis, along the edges of which two removable plates are installed; they interact with sliders freely sitting on the axis of the rolling disk between the side cheeks. The disk axis is made stepwise with a smaller diameter at the ends and is placed in the side grooves of the case parallel to the wedge groove (see RF patent 2151858, class E 21 B 43/114).

 A disadvantage of the known device is the complexity of manufacturing the cutting unit and the complexity of the design, the limited range of use of the device (only on large diameters of casing strings), the difficulty of replacing worn parts and very high pressure in the cavity of the cutting device and pipe suspension during operation of the rolling disc.

 Common features of the known device with the proposed are: a housing, a retractable cutting tool in the form of a rolling disk, a hydraulic nozzle, a wedge groove with removable plates is made at an angle to the axis of the device, the axis of the rolling disk is made stepwise with a smaller diameter at the ends and placed in grooves, in parallel wedge groove.

 An object of the invention is to provide a convenient, simple in design, reliable device with a wide range of uses.

 The problem is solved by the proposed hydromechanical borehole drill, including a housing, a retractable cutting tool in the form of a rolling disk, a hydraulic nozzle, a wedge groove with removable plates, located at an angle to the axis of the device, the axis for the rolling disk, which is made stepwise with a smaller diameter at the ends and is placed in grooves parallel to the wedge groove.

 New in the device is that it is equipped with a hollow rod-filter located in two hydraulic cylinders installed hermetically relative to each other, while the lower hydraulic cylinder is equipped with a spring-loaded piston-pusher, which is made with a central and side hydraulic channels and connected to the axis of the rolling disk by two shaped plates in contact with removable plates of the wedge groove, and the wedge groove is removable and mounted on the housing with the possibility of sliding along the casing during operation of the rolling disks and, while the ends of the axis of the rolling disk are located in the guide grooves of the side plates, which cover the wedge groove, the rolling disk and curly plates on both sides, in addition, the device is equipped with a shear circulation valve, and the hydraulic monitor nozzle is made on the plunger piston and connected to the side hydraulic channel .

 The analysis of patent and scientific and technical literature did not reveal technical solutions with a similar set of essential features, which allows us to conclude that the criteria of "novelty" and "significant differences" of the proposed solution are met.

 In FIG. 1 schematically shows the proposed device in its original position, figure 2 is a cross section along aa.

 The device contains a housing assembled from four parts: pos. 1, 2, 3, 4. Position 1 is the upper hydraulic cylinder in which the spring-loaded hollow rod filter 6 with the piston 7 is located, the upper hydraulic cylinder 1 is connected to the lower hydraulic cylinder 2, which is equipped with a medium separator 8 and serves as a support for the spring 5 located on the rod filter 6 in the upper hydraulic cylinder 1 and seals the upper and lower hydraulic cylinders and the rod filter 6 with each other, the lower end of the rod filter 6 is connected to the piston-pusher 9 through a fastener 10 having a seat for a ball valve that overlaps the central industrial the washing channel 11 of the piston-pusher 9. The upper part of the piston-pusher 9 (piston) of circular cross section has a device for fixing the lower end of the spring 12, the upper end of which is fixed by a device 13 located in the upper part of the hydraulic cylinder 2 under the medium separator 8, and the lower part of the piston the pusher 9 has a rectangular cross section. Two hydraulic channels are made in the piston-pusher: the central one is a flushing 11 with a discharge hole 12 and a side 14, the lower end of which is equipped with a hydraulic nozzle 15. The central axis of the piston-pusher 9 has a hole for the axis 17, on which there are two shaped plates 19, which connected to the axis of the rolling disk 23, while they are in contact with two removable plates 25 of a removable wedge groove 26 located on the base 18 at an angle to the axis of the device in the housing 3. In the housing 3 there is a slot for accommodating the rolling disk. The ends of the smaller diameter of the axis 20 of the knob 23 are located in the guide grooves 24 of the side plates 21, while the guide grooves of the side plates are parallel to the direction of the removable wedge groove 26. The side plates 21 are mounted on the base 18 with pins 22 and cover the removable wedge groove on both sides. 26, curly plates 19 and a thumb wheel 23. The housing 3 is provided with a fixing nut 28 and a washer 27 for quick disassembly and replacement of the cutting unit of the device. The upper part of the device is equipped with a shear circulation valve 29, the body 4 of which is connected to the upper hydraulic cylinder 1, the valve 29 is fixed by the shear pins installed in the mount 30, the shear valve body 4 is a threaded sub used to suspend the device on drill or tubing in the well .

 The device operates as follows.

 On the tubing string, it sinks into the well to the perforation site. Having installed the device in the well, a direct washing of the pipe cavity and the device cavity is carried out from scale and mechanical impurities that enter the pipe cavity during geophysical work on binding the device to the perforation interval. Then, a small diameter ball is lowered into the pipe cavity, which, passing through the tubing suspension, the shear circulation valve 29 and the hollow rod filter 6, is lowered into the mounting seat 10 of the filter rod 6 and overlaps the central channel 11 of the piston-pusher 9, after which it is created Tubing working pressure. When creating excess pressure in the pipe cavity, the fluid acts on the piston 7, simultaneously passing through the holes in the filter 6 - acts on the cavity of the housing 2, translationally moving the piston 7 and the piston-pusher 9, simultaneously stretching the spring 12 and compressing the spring 5, moving translationally along the axis devices, the pusher 9, through the axis 17 pushes the knurled cutting disk 23, mounted between the curly plates 19 along the guide grooves 24 of the plates 21, which include the ends of the axis 20 of the knurled disk 23. Curly plates 19, between The rolling disk 23 is freely installed, interacting with the removable plates 25 of the wedge groove 26, push the rolling disk 23 all the way to the production casing, and the wedge groove with its back surface 18 abuts against the wall of the production casing opposite to the disk. Creating stepwise pressure in the tubing cavity from 10-20-40-60-80 at., Increase the force of pressing the rolling disk into the production casing. The slit is rolled by alternately moving the device under pressure up and down by the length of the slit. The gap in the production casing is formed due to the ductility of the metal in the production casing, which is rolled by a disk. After the formation of a gap in the production string, the pressure in the pipe cavity is raised and the jet monitor effect is realized. A stream of liquid exiting through the hydraulic nozzle 15, at high speed destroys the cement stone and the rock behind the production string with its pressure, and wash the cavity along the entire length of the gap. In this case, the distance between the jet nozzle and the axis of the rolling roller is constant. After washing the cavity, the pressure in the pipes is reduced to atmospheric.

 Under the action of the springs 5 and 12, the piston-pusher 9 is retracted into the housing 2 and returns to its original position the entire cutting unit.

 After that, a large-diameter ball is lowered into the tubing cavity, which sits in the slot of the shear circular valve 29. After increasing the pressure in the pipes, the pins 30 are fixed, fixing the movement of the valve 29 along the axis of the device, and the valve 29 moves downward, opening the flushing device in the housing.

 After that, development or killing of the production well or lifting of the device from it are carried out.

The technical and economic advantage of the proposal is as follows:
1. Due to the implementation of the cutting unit removable and collapsible, its component parts are simpler to manufacture and easily replaceable.

 2. Due to the implementation of a removable guide wedge groove with a large contact area with the sliding surface, a reliable reactive moment of the knurled disk during its operation is ensured, i.e. the production casing does not bend in the absence of cement stone behind it, which ensures increased reliability of the device during operation.

 3. Due to the multifunctional working parts of the device, the simplicity of the device and its reliability and manufacturability are ensured: the piston-pusher performs the function of both the piston and the pusher and, in addition, ensures the supply of working fluid to the hydraulic nozzle, which moves with it, due to which the distance between the thumb wheel and the nozzle is constant, which ensures the efficiency of erosion of the cavity behind the production casing.

 4. Due to the simplicity of the design of the device and the versatility of its parts, the range of use of the device expands, i.e. it can be used for perforation of cased wells of both small and large diameters.

 5. The equipment of the device with a shear circulation valve allows the device to be lifted from the well at normal speeds corresponding to the weight of the tool, i.e. the manufacturability of the device increases during the repair and development of the well.

 The device passed a trial test when drilling new wells. The use of the device reduces material costs for well development.

Sources of information
1. USSR copyright certificate 1337513, cl. E 21 B 43/114.

 2. RF patent 2161697, cl. E 21 B 43/114.

 3. Copyright certificate of the USSR 2039220, cl. E 21 B 43/114.

 4. RF patent 2151858, cl. E 21 B 43/114.

Claims (3)

 1. Hydro-mechanical downhole perforator, comprising a housing, a retractable cutting tool in the form of a rolling disk, a hydraulic nozzle, a wedge groove with removable plates, located at an angle to the axis of the device, the axis of the rolling disk, which is made stepped with a smaller diameter at the ends and placed in the grooves, parallel to the wedge groove, characterized in that the device is equipped with a hollow rod-filter located in two hydraulic cylinders that are installed tightly relative to each other, while the lower hydraulic cylinder is equipped with a spring-loaded piston-pusher, which is made with a central and lateral hydraulic channels and connected to the axis of the rolling disk by means of two figured plates in contact with the removable plates of the wedge groove, and the wedge groove is removable and mounted on the device with the possibility of sliding along the casing, during operation a rolling disk, wherein the ends of the axis of the rolling disk are located in the guide grooves of the side plates, which cover the wedge groove, curly plates and the rolling disk on both sides.  2. The device according to p. 1, characterized in that it is equipped with a shear circulation valve.  3. The device according to p. 1, characterized in that the hydraulic nozzle is made on a plunger piston and connected to a side hydraulic channel.

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