RU2693082C1 - Rock cutting tool - Google Patents

Abstract

FIELD: oil, gas and coke-chemical industries.

SUBSTANCE: invention relates to the oil and gas industry. Rock cutting tool comprises annular hollow body with outer and end blades in which well and core-forming cutters are fixed, and central core-forming hole made in lower part of housing, flushing system for its cooling and cleaning face from slime with liquid flow. In the upper part of the body there is a thread for connection with a screw-type face-well engine or drill pipes. Inner part of the body is equipped with a non-axisymmetric surface inclined relative to the rock destruction tool axis, in which holes of the flushing system are made. Inner diameter of housing has grooves in axial direction for flushing liquid. Radial cutters are additionally installed between the holes of the flushing system.

EFFECT: higher efficiency and reliability of drilling wells in strong and very strong rocks, especially in directional drilling.

5 cl, 2 dwg

Description

The invention relates to the oil and gas industry in particular to a rock cutting tool for drilling rocks.

There is a method of drilling wells and a device for its implementation (US Pat. Of the Russian Federation No. 2237148, IPC Е21В 6/02; 7/00; 10/36, publ. 09/27/04). The method includes rotation of the drill rod by a surface-mounted, periodical the rise of the rod and its impact interaction through the rock-breaking tool with the bottom hole. In the process of lifting the drill rod, the elements of the rock cutting tool make a radial movement down the hole with destruction of the rock by chipping. The device comprises a body rigidly connected to the drill set and a rock-destroying tool, which is made up of several working parts and a shank having elements installed in the body with the possibility of rocking in the radial direction by placing the shanks of the rock-cutting tool elements in the profile slots of the body.

The disadvantages of the method: Used only in the operation of mines and quarries for drilling blastholes in rocks of soft and medium-strength rocks and cannot be used in strong and very strong rocks.

There is no face washing from the products of rock destruction, which requires a periodic tool separation from the bottom hole, which reduces the mechanical drilling speed. This method cannot be used for drilling oil and gas wells due to the presence in the working process of the impact tool interaction with the bottom of the well, which adversely affects the durability of the remaining elements of the drill string.

A known method of drilling wells and a device for its implementation (US Pat. RF No. p. 2315165 IPC E21B 7/00, publ. 01/20/08), in which the method of drilling rocks consists of drilling with a ring face, rotating rock cutting tool with its cooling and cleaning the bottom of the sludge gas flow. The device contains a core pipe mounted on a drill string with an adapter, with a core ring and a rock-destruction tool installed on it. The interior space of the core pipe is filled with solid state carbon dioxide. On the outer surfaces of the core tube, the body of the rock-cutting tool and the adapter made deaf, there is a spiral wound.

The disadvantages of these methods and devices: The limited amount of carbon dioxide in the solid state, which is necessary for cooling the tool and removal of products of rock destruction, does not allow to use the method for a long time.

The presence of carbon dioxide in the solid state does not allow to use the method for drilling oil and gas wells with flushing with washing liquid. In the presence of a washing liquid, carbon dioxide will evaporate without the effect of the removal of products of rock destruction even before the tool reaches the bottom hole.

Carbon dioxide core pipe should be of substantial length, which excludes the use of this tool when drilling with screw downhole motors, since the cutting edge of the tool is separated from the supports of the downhole motor for a long distance, which in turn increases the radial loads on the supports of the downhole motor and leads to a significant reduction in the service life of the supports and the entire engine.

The column pipe for carbon dioxide placement should have a substantial length, which excludes the use of a tool for recruiting a well’s curvature for directional drilling.

The prototype for the proposed device is the Rock cutting tool for rotary drilling (semi-mod. RF No. 39160, IPC Е21В 10/48, publ. 07/07/04), which consists of a body and inserts. Inserts are located in the grooves located around the ring, and alternate with grooves. The lower part of the body is equipped with a crown rigidly connected to it, the outer diameter of which exceeds the outer diameter of the body. Inserts and grooves are located on the crown. The inserts are made in the shape of a truncated pyramid, and the grooves are made radially directed. Radial samples were made on the outer surface of the crown in the area of grooves, and the upper part of the body is permanently connected to the shank using bottom and stiffeners.

The disadvantages of the device prototype: Limited use of the depth of the well, since there are no mechanisms for the removal of products of rock destruction from the bottom zone and methods of destruction of the resulting core column. In the very description of the utility model, the depth of the well is limited to "about 1 meter."

The invention solves the problem - the elimination of the shortcomings of the device of the prototype.

The problem is solved with the help of signs specified in paragraph 1 of the claims, in common with the prototype, such as rock cutting tool containing an annular hollow body with outer and end blades, in which the borehole and core-forming cutters and the central core-forming hole made in the bottom parts of the body, and distinctive essential features, such as a tool equipped with a flushing system for cooling it and cleaning the face from the slurry with a stream of liquid, in the upper part of the body a thread for connection with a downhole motor or drill pipes, and the inside of the body is provided with a non-axisymmetric surface inclined relative to the axis of the rock-cutting tool, in which the flushing system holes are made, and vertical flutes for the flushing liquid are made along the internal diameter of the fluid, and additionally between the holes of the flushing system radial cutters are installed.

According to Claim 2, the cutters are made of diamond RDS material and / or are provided with a hard alloy coating impregnated with diamond chips.

According to clause 3 of the claims, the non-axisymmetric surface is a plane inclined relative to the axis of the rock cutting tool, preferably at an angle of 5-30 °.

According to clause 4 of the claims, the outer blades are inclined to the tool axis, preferably at an angle of 5-30 °.

According to p. 5 of the claims, jetting nozzles of wear-resistant material are installed in the holes of the washing system.

The above set of essential features of the rock-cutting tool allows you to get the following technical result - improving the efficiency and reliability of drilling in strong and very strong rocks, especially during directional drilling.

The invention is illustrated by the following drawings: where shown in FIG. 1 - design of rock cutting tool, general view. FIG. 2 is a section along A-A of FIG. 1 bottom case.

The proposed device (Fig. 1) contains an annular hollow body 1 with external 2 and end 3 blades, in which well and core-forming cutters 4, 5 and a central core-forming hole 6, made in the lower part of the body 1, are fixed. The tool is equipped with a flushing system for it cooling and cleaning the bottom of the sludge with a stream of liquid. In the upper part of the body there is a thread 7 for connection with a downhole motor or drill pipe. The inner part of the body is provided with a non-axisymmetric surface 8, (Fig. 2) inclined relative to the axis of the rock-destructive tool at an angle of 5-30 ° (the angle is optimal, chosen experimentally), in which the holes 9 are made of the flushing system. The inner diameter of the housing 1 is grooved in the axial direction 10 for the washing liquid, and radial cutters 11 are additionally installed between the holes 9 of the washing system. The cutters 4, 5, 11 are made of diamond RDS material and / or are fitted with a hard-alloy coating impregnated with diamond chips 12. The outer blades 2 are made at an angle to the tool axis, preferably at an angle of 5-30 ° (the angle is optimal, chosen experimentally), and a jetting set is installed in the holes 91 of the flushing system and 13 of wear resistant material. The nozzles create a jetting effect (increase the speed of the jet of washing liquid, which contributes to the appearance of the erosion effect of the rock and increases the efficiency of removal of sludge from the cutting zone), and also reduces (eliminates) the erosion of the tool itself with the washing liquid.

Type destructive tool works as follows.

In the process of rotation with the supply of flushing fluid, the rock-destroying tool performs two-stage rock destruction, at the first stage a protruding butt part of the tool is drilled with an annular bottom and core cutting, and at the second - crushing the obtained core with simultaneous removal of sludge with flushing liquid from the bottom, cooling tool and calibrating the walls wells.

This description is considered as a material illustrating the invention, the essence of which and the scope of patent claims are defined in the following claims, a set of essential features and their equivalents.

Claims (5)

1. Rock-breaking tool, containing an annular hollow body (1) with external (2) and end (3) blades, in which borehole and core-forming cutters (4, 5) are fixed, and the central core-forming hole (6), made in the lower part housing (1), characterized in that the tool is equipped with a flushing system for cooling it and cleaning the face from sludge with a fluid flow, in the upper part of the housing there is a thread (7) for connection with a screw downhole motor or drill pipes, the inner part of the housing is equipped with a non-axisymmetrical surface (8), inclined relative to the axis of the rock-cutting tool, in which holes (9) of the flushing system are made, and along the internal diameter of the housing (1) grooves are made in the axial direction (10) for the flushing liquid, and additionally between the holes (9) of the flushing system radial cutters (11) are installed. 2. The tool under item 1, characterized in that the cutters (4, 5, 11) are made of diamond RDS material and / or are equipped with a hard alloy coating impregnated with diamond chips (12). 3. The tool under item 1, characterized in that the non-axisymmetric surface (8) is a plane inclined relative to the axis of the rock-destructive tool, preferably at an angle of 5-30 °. 4. The tool according to claim 1, characterized in that the outer blades (2) are inclined to the tool axis, preferably at an angle of 5-30 °. 5. The tool under item 1, characterized in that the jetting nozzles (13) of wear-resistant material are installed in the holes (9) of the washing system.

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