RU2306401C1 - Tool for breaking rock - Google Patents

Abstract

FIELD: drilling engineering.

SUBSTANCE: tool comprises housing provided with operation member and thread and calibrator mounted on the pin of the housing between the operation member and thread. The operation member is made of drill bit with shifted axes. The pin is inclined to the axis of the housing and is stepped. The point of intersection of the axis of the pin with the axis of the housing is in coincidence with the axis of the drill bit. The axis of the pin is perpendicular to the line that connects the points of a contact of the rotary bit with the wall of the well. The calibrator is made of several rotary bits each of which is mounted on the individual step of the pin and is spring-loaded in the axial direction. The spring is mounted from the side of the top face of the rotary bits.

EFFECT: enhanced reliability.

2 dwg

Description

The invention relates to the field of drilling for various types of minerals, namely, rock cutting tool.

A rock cutting tool is known that contains a housing with a flushing channel and an inclined pin, on which a cone is mounted by means of bearings, and an eccentric stabilizer installed above the cone (see Zubarev A.V., Matveev G.I. et al. Single-cone bits, M .: Nedra , 1971, p.12, fig. 9).

The disadvantages of this rock cutting tool include a rapid loss of diameter due to the weak armament of the calibrating part of the cone.

Closest to the proposed technical essence and the achieved result is a rock cutting tool containing a housing with a working body and connecting thread and a roller calibrator located on the trunnion of the housing located between the working body and connecting thread (see ed. St. USSR No. 1819969, class E21B 10/26, 1993).

This rock cutting tool, due to the use of a calibrator, has a higher penetration. However, this design of the tool is also not without some drawbacks. The main one is the insufficient alignment of the rock cutting body, which on the one hand eliminates the drilling of directional wells, and on the other hand reduces the technical and economic performance of the rock cutting tool.

In accordance with the stated technical objective of the invention is to improve the technical and economic indicators of the tool and ensure high-quality alignment when drilling directional wells.

The stated technical problem is solved in that in a rock cutting tool containing a housing with a working body and connecting thread and a roller calibrator placed on a housing pin between the working body and the connecting thread, according to the invention, the working body is made in the form of a two-cone bit with parallel displaced axes, a pin under the calibrator is made inclined to the axis of the housing and has a stepped shape, while the point of intersection of the axis of the journal with the axis of the housing coincides with the axis of the bit, and the axis of the journal is located lies in the plan perpendicular to the line connecting the contact points of the cones with the walls of the well.

The solution of the problem also contributes to the fact that:

- the calibrator is made in the form of several cones, each of which is located on a separate pin of the pin;

- cone calibrator mounted for movement along the trunnion and axially spring loaded, and the springs are installed on the side of the upper end of the cones.

The implementation of the working body in the form of a double-cone bit with parallel displaced axes allows you to increase the overall armament and power support rock cutting tool. The proposed implementation of the calibrator pin and its arrangement relative to the bit cone provides high-quality alignment of the rock cutting tool and drilling of wells in a given direction. The stepped shape of the trunnion and the use of calibrator cones according to the number of steps makes it possible to simplify the design of the tool, and the use of calibrator cone springs increases the efficiency of processing the walls of the well and eliminates the possibility of jamming of cones when lifting from the well.

The invention is illustrated by drawings, figure 1 depicts a General view of the rock cutting tool; figure 2 is a view of a rock cutting tool along arrow A in figure 1.

The rock-breaking tool includes a housing 7 with a flushing channel 13, a working body and a connecting thread 12 and a cone calibrator placed on the pins 5 and 9 of the housing 7 between a working body and a connecting thread 12. The working body of the tool is made in the form of a two-cone chisel, cones 1 and 2 of which by means of the locking elements 3 are fixed on the pins 4 of the housing 7. The cones 1 and 2 are located with a parallel offset "C" of their axes (see figure 2), which ensures that the cones 1 and 2 are in contact with the walls of the well only at one point L ₁ and L ₂ , p By the way, the line connecting the points L ₁ and L ₂ is located in the plan perpendicular to the axis of the pins 5 and 9 of the calibrator. The cutters 6 and 8 of the calibrator in the plan are also installed with a parallel offset "K" relative to the longitudinal axis of the casing 7 and are in contact with the walls of the well only at one point L ₃ and L ₄ , while the line connecting these points L ₃ and L ₄ is perpendicular lines L ₁ -L ₂ . This ensures reliable alignment of the rock cutting tool, and, consequently, the drilling of directional wells. The pins 5 and 9 for the calibrator are made inclined to the axis 14 of the housing 7 at an acute equal angle α and have a stepped shape, while the point of intersection of the axis of the pins 5 and 9 with the axis of the housing 7 coincides with the axis of the bit (see figure 2). The calibrator is made in the form of several cones 6 and 8 of different diameters, each of which is located on a separate step of the pins 5 and 9, having different diameters D ₁ and D ₂ . Roller cones 6 and 8 of the calibrator are mounted for movement along the trunnions 5 and 9 and axially spring with Belleville springs 10, and springs 10 are mounted from the upper end of the cones 6 and 8. The body 7 of the rock cutting tool can be made integral and further include a sleeve 11, which rigidly connects the upper stage of the pin 9 with the connecting thread 12. This embodiment of the tool allows to simplify the technology of its manufacture.

Installation of rock cutting tools is as follows. After assembly of the working body of the tool, the trunnions 5 and 9 are final processed. Then, the cutters 6 and 8 are installed on the trunnions 5 and 9 together with the disk springs 10, and the trunnion 9 is rigidly connected through a sleeve 11 with a threaded nipple 12, through which the tool is connected to the drill shaft and goes down into the well.

The principle of the rock cutting tool is as follows. Under the action of the axial load and torque, the cones 1 and 2 destroy the rock, which is brought to the surface through the gaps between the walls of the borehole and the outer surface of the casing 7 by flushing fluid pumped through the axial channel 13 in the casing 7. Moreover, by setting the cones 1, 2 bits and roller cutters 6, 8 of the calibrator according to the proposed scheme, when the rock cutting tool contacts at the same time at 4 points with the walls of the well, reliable alignment of the tool in the well and preservation of the specified drill direction are ensured Nia. The use of spring-loaded cones 6 and 8 of the calibrator guarantees reliable calibration of the walls of the well during the entire drilling process due to the constant pressing of cones 6 and 8 to the walls of the well. When lifting the tool from the well in the presence of narrowed sections, cones 6 and 8 are pressed down and provide free passage of the tool through the narrowed sections. At the same time, the proposed installation scheme for bit cutters and calibrator creates permanent channels for the exit of the drilling fluid enriched in sludge from the bottom of the well, which improves the cleaning of the bottom from sludge. All this increases the efficiency of the proposed tool, especially when drilling directional wells.

Claims (1)

A rock cutting tool comprising a housing with a working body and connecting thread and a roller calibrator located on a housing trunnion between a working body and a connecting thread, characterized in that the working body is made in the form of a double-cutter bit with parallel displaced axes, the trunnion for the calibrator is made inclined to the axis of the housing and has a stepped shape, while the point of intersection of the axis of the journal with the axis of the body coincides with the axis of the bit, the axis of the journal is located in the plan perpendicular to the line connecting the points to ntact of the cones with the walls of the well, the calibrator is made in the form of several cones, each of which is located on a separate step of the axle, and the cones of the calibrator are mounted to move along the axle and spring-loaded in the axial direction, and the springs are installed on the side of the upper end of the cones.

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