RU2208120C1 - Hole reamer - Google Patents

Abstract

FIELD: drilling technique. SUBSTANCE: invention refers to facilities ensuring expansion of hole shaft in specified interval. Hole reamer has pilot bit, stabilizer, body with hollow piston and upper and lower rods, rock-breaking members installed in side grooves of body. Reamer is fitted with relief valve placed inside body and is linked to stabilizer by means of rods. Mobile stabilizer is equipped with rock-breaking members. Lower rod has upper and lower longitudinal relief , side and upper and lower central jet-type water courses. Lower rod is mounted for movement on relief valve. EFFECT: raised efficiency and widened application field of hole reamer. 3 cl, 1 dwg

Description

 The invention relates to the field of drilling equipment, in particular to devices for expanding a wellbore in a predetermined interval.

 Known extender [1], comprising a housing, a plunger - a spindle with rock cutting organs, a travel stop with cut pins, and also stabilizers.

 The disadvantage of such a reamer is the presence of shear elements indicating one-time operation, in addition, the reamer can only be used to expand a drilled well.

 Also known is an extender [2], comprising a housing with longitudinal grooves in which blades with rock cutting bodies are placed, the blades are driven through grooves in the housing by a spring-loaded piston, and the longitudinal grooves are made at an angle to the axis of the housing, and the blades are rigidly connected by radial axes.

 The known extender can be used only with small diameters of expansion and only in already drilled wells.

 In addition, a reamer [3] is known, including a rod, a hollow body, rock cutting bodies pivotally mounted in the side grooves of the body and a spring-loaded rod with a piston connected to the rock cutting bodies, the rod having an upper arrangement relative to the piston.

 The disadvantage of this extender is the limited scope.

 The closest is a borehole reamer [4], which includes a hollow body with lateral grooves and rock cutting bodies, a pilot bit, hollow piston and rod.

 The design of the expander makes it possible to simplify the processes of opening and expanding the borehole in the zone of the reservoir with the exception of tripping operations for preliminary drilling of the pilot well, however, the well-known borehole expander does not provide simultaneous drilling with the expansion of the borehole, in addition, the transmission of torque and axial pressure on the pilot bit through the rod leads to increased dynamic loads and reduced reliability of the expander.

 The objective of the present invention is to increase the efficiency and expand the field of use of the downhole expander.

 The problem is solved by the described downhole expander, including a pilot bit, a body with a hollow piston and a lower rod connected with drill pipes, rock cutting bodies with guides placed in the side grooves of the housing, communication means of the rock cutting bodies with a rod, according to the invention, the hollow piston is made with the upper hollow rod connected with drill pipes and connected with rock cutting bodies, it is also equipped with a stabilizer made movable and equipped with rock cutting bodies , a bypass valve installed inside the housing under the hollow piston and connected by pushers installed in the slots of the housing with a stabilizer, and the lower stem is mounted movably in the bypass valve and is made with upper and lower longitudinal bypass and side channels, the central upper and lower flushing channels communicated through the lateral, upper and lower longitudinal bypass channels and the internal bypass cavity and is equipped with a stop in the lower part. Moreover, the bypass valve is made in the form of two annular pistons with an internal bypass cavity and is spring-loaded on both sides, under the piston and above the rod stop. In addition, guides and supports of rock cutting bodies are made along a radius curve. Also, the means of communication of rock-breaking organs with the upper hollow rod is made in the form of pushers mounted on it with sliders that are pivotally connected to supports placed in the guides.

 The invention is illustrated in the drawing. The downhole expander includes a pilot bit 1, a stabilizer 2, a casing of the expander 3 with side grooves 4 and rock-cutting bodies placed in them 5. In the casing 3, a hollow piston 6 with upper 7 and lower 8 hollow rods is installed.

 The upper hollow stem 7 is in communication with the drill pipe.

 In the housing 3, a bypass valve 9 is installed on the lower hollow stem 8, connected by pushers 10 located in the side slots of the housing 3 with the clutch 11 of the stabilizer 2. The stabilizer 2 is equipped with rock cutting bodies 12. The bypass valve 9 is made in the form of two annular pistons 13 with an internal bypass cavity 14. The guides 15 and supports 16 of the rock cutting bodies 5 are made along a radius curve. The lower hollow rod 8 is made with the upper 17 and lower 18 longitudinal bypass, lower 19 and upper 20 central flushing and side channels 21 and is equipped with a stop 22. The bypass valve 9 is spring-loaded on both sides of the upper and lower springs 23. The means of communication between the rock-cutting organs and the upper hollow the rod 7 is made in the form of pushers 24 mounted on it with sliders 25 pivotally connected to the supports 16. The diameter of the borehole extension is limited by the stops 26. The rock cutting bodies 5 and 12 are selected depending t fort rock drill.

 The operation of the downhole expander is as follows.

 When drilling a well with interval-wide expansion of the wellbore, turn on the drilling tool and drill the reamer, in which the stabilizer 2 with the sleeve 11, due to the support on the bottom of the rock cutting bodies 12, moves to the upper position and raises the pushers 10 to the upper position with the pushers 10, while the upper central washing channel 20 through the lateral 21 and upper 17 and lower 18 longitudinal channels and the internal bypass cavity 14 communicates with the lower central washing channel 19. After drilled They turn on the supply of flushing fluid and drill the borehole of the main diameter up to the expansion interval.

 To carry out the expansion of the wellbore, flushing is turned off and the expander is lifted from the bottom, while the bypass valve 9 is moved to the lower position due to the weight of the stabilizer 2 when the washing channels are closed.

 In this position, flushing and rotation of the drilling tool without feeding to the bottom are turned on.

 The flushing fluid through the side channels 21 is supplied under the hollow piston 6, which moves to the upper position. In this case, the upper hollow rod 7 by the pushers 24 and sliders 25 moves the supports 16 in the guides 15 and the rock cutting organs 5 are gradually extended from the side grooves 4 of the housing 3.

 The rotation of the drilling tool without axial feed continues until the circulation of the flushing fluid is partially or completely restored when the piston with the upper 7 and lower 8 hollow rods takes up a position in which the lower longitudinal channels 18 are above the bypass valve 9.

 Further expansion of the wellbore due to the extension of the rock cutting bodies 5 to the required diameter is also possible with simultaneous axial feed of the drilling tool to the bottom and further drilling with simultaneous expansion of the wellbore, while the bypass valve 9 on the lower hollow stem 8 will occupy the upper position in the housing 3 due to the lower spring 23 and moving the stabilizer 2 to the upper position without disturbing the circulation of the flushing fluid.

 If necessary, drilling without expansion turns off the flow of flushing fluid, and the drilling tool is lifted from the bottom.

 At this time, the rock cutting organs 5, due to the lower springs 23 and the weight of all raised parts. It will take the initial position pushed into the grooves 4. Further drilling of the main diameter well is continued by feeding the tool to the bottom and turning on the flushing, as described above. To change the diameter of the extension, retractable stops 26 are used.

 The practical range of expansion of the wellbore depending on the area of use is possible ranging from expansion diameters for calibration to full expansion during the construction of wells with gravel filters or repair, reconstruction of wells with the installation of gravel filters in productive formations in various rocks, including strong ones.

 When deep drilling in solid rocks with interlayers of clayey heaving rocks, the use of the present invention for drilling while expanding the trunk with clay interlayers will reduce the number of casing strings.

Sources of information
1. RF patent 2070956, MKI 6 E 21 V, 7/28, 12/27/1996.

 2. RF patent 2164285, MKI 7 E 21 17/10, 7/28, 03.20.2001.

 3. Copyright certificate of the USSR 1500752, MKI 4 E 21 B 7/28, 08/15/89.

 4. Copyright certificate of the USSR 1808957, MKI 5 E 21 B 7/28, 04/15/93.

Claims (4)

 1. A downhole extender, comprising a pilot bit, a housing with a hollow piston and a lower rod in communication with drill pipes, rock cutting bodies with guides located in the side grooves of the housing, communication means between the rock cutting bodies and the rod, characterized in that the hollow piston is made with the upper hollow the rod in communication with the drill pipe and connected to the rock cutting bodies, it is also equipped with a stabilizer made movable and equipped with rock cutting bodies, a bypass valve installed inside When the casing is under a hollow piston and connected by pushers installed in the slots of the casing with a stabilizer, and the lower stem is mounted movably in the bypass valve and is made with upper and lower longitudinal bypass and side channels, central upper and lower flushing channels communicated through the side, upper and lower longitudinal bypass channels and the internal bypass cavity and is equipped with a stop in the lower part.  2. The downhole expander according to claim 1, characterized in that the bypass valve is made in the form of two annular pistons with an internal bypass cavity and is spring loaded on both sides under the piston and above the rod stop.  3. The downhole expander according to claim 1, characterized in that the guide and supports of rock cutting bodies are made along a radius curve.  4. The downhole expander according to claim 1, characterized in that the means of communication of the rock cutting bodies with the upper hollow rod is made in the form of pushers mounted on it with sliders that are pivotally connected to supports placed in the guides.