RU2452840C1 - Drilling bit rolling cutter - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: drilling bit rolling cutter includes housing with support surfaces and rims the peripheral one of which is equipped with hard-alloy inserts with cylindrical shank and working head. Working head of insert of peripheral rim is made in the form of wedge-type prism located parallel to shank axis provided at least with one groove oriented parallel to shank axis. Each peripheral insert on the side of rolling cutter periphery is equipped with transverse part with projections on outer side, the longitudinal axis of which is located in front plane parallel or at an angle to cutter radius; at that, rims of cutter are provided with longitudinal cylindrical channels interconnected with outer surface of rim by means of slots congruent to outer surface of inserts.

EFFECT: use of the proposed technical solution allows increasing rock destruction efficiency, and thus reducing the cost of drilling operations.

3 cl, 7 dwg

Description

The invention relates to a rock cutting tool, namely, to the design of cone drill bits.

Known cone drill bit, including crowns, reinforced with teeth with a blunt pad at the end sections, equipped with carbide inserts (see ed. St. USSR No. 1789007, CL ЕВВ 10/16, 1993).

The disadvantages of this cone should be attributed to the limited scope of its application, as well as the fact that in some cases the end reinforcement of the teeth leads to a complication of design and unjustified cost overrun of expensive material. So, for example, the reinforcement of the teeth of the peripheral crown from the side of the axis of the bit is not justified, because these sections, even with conventional reinforcement, have armaments that are several times higher than the armaments of the main cone crowns, which are the first to fail.

Closest to the proposed technical essence and the achieved result is the drill bit cone, which includes a housing with supporting surfaces and crowns, the peripheral of which is armed with carbide inserts with a cylindrical shank and a working head (see RF patent No. 2185490, class Е21В 10/16, 2002).

The disadvantages of this cone drill bit should include a relatively low efficiency of its work and the complexity of the design. These disadvantages are associated with a special arrangement of calibrating teeth on the peripheral crown and not the same loading of the crowns.

In connection with the stated technical result of the invention is to simplify the design and increase the efficiency of the bit by ensuring uniform loading of the cones of the roller cutter along the radius of the bit.

The technical result is achieved in that in the cone of the drill bit, comprising a housing with supporting surfaces and crowns, the peripheral of which is armed with carbide inserts with a cylindrical shank and a working head, according to the invention, the working head of the peripheral crown insert is made in the form of a wedge-shaped prism between which and a cylindrical a shank parallel to the cutting edge has at least one recess oriented parallel to the axis of the shank, the insert with the torons of the walls of the well are provided with a transverse part with protrusions on the outer surface, the longitudinal axis of which is located in the frontal plane parallel to or at an angle to the radius of the cone, while the peripheral crown of the cone is made with longitudinal cylindrical channels communicated with the outer surface of the crown with grooves congruent to the outer surface of the inserts.

The achievement of the specified technical result also contributes to the fact that:

- carbide inserts are made with a cone-shaped section located between its transverse and longitudinal parts;

- the protrusions on the outer surface of the insert in cross section have a wedge-shaped, or trapezoidal, or rectangular, or hemispherical shape.

The invention is illustrated by the drawing, in which Fig. 1 is a perspective view of a rock cutting insert in an enlarged scale, in Fig. 2 is a view A in Fig. 1, in Fig. 3 is a view B in Fig. 2, in Figs. 4, 5 and 6 - embodiments of the protrusions, Fig.7 shows a fragment of the cone in cross section.

The cutter of the drill bit contains a housing 1 with supporting elements 2 in the form of bearings and crowns 3, equipped with wear-resistant rock cutting inserts 4 with a cylindrical shank 5 and a working head 6. The working head 6 of the peripheral crown 3 is made in the form of a wedge-shaped prism and is parallel to the axis of the cylindrical shank 5. Moreover, at least on one side of the rock cutting insert 4 there is a recess 7 oriented parallel to the axis of the cylindrical surface of the shank 5. It is preferable to use a insert 4 for double-sided arrangement of the recesses 7, which guarantees a symmetrical load on the connection node 4 inserts the housing 1. Bce peripheral insert 4 from the borehole wall provided with the transverse part 8 with projections 9 on the external surface. The longitudinal axis of the protrusions 9 is located in the frontal plane parallel to or at an angle α to the radius of the cone, while the peripheral crowns 3 of the cone are made with longitudinal cylindrical channels 10 communicated with the outer surface of the crown 3 grooves 11. Channels 10 and grooves 11 in the cone body 1 are shaped congruent to the outer surface of the inserts 4. Carbide inserts 4 are made with a conical section 12 located between its transverse 8 and the longitudinal parts. The protrusions 9 on the end surface of the insert 4 in cross section may have a wedge-shaped (see figure 2), trapezoidal (see figure 5), rectangular (see figure 4), hemispherical (see figure 6) or other shape. The inclination angle α of the protrusions 9 and the shape of their cross section are selected depending on the physicomechanical properties of the drilled rocks. When drilling on hard and abrasive rocks, it is preferable to use protrusions 9 with a rectangular and trapezoidal cross-section, and when drilling on plastic rocks - protrusions 9 with a triangular and hemispherical section.

The principle of operation of the device is as follows. Under the action of axial load and torque, rock-cutting elements 4 of the crowns 3 carry out the destruction of the bottom and calibration of the walls of the well. Moreover, due to the implementation of the working head 6 of the peripheral crown 3 in the form of a wedge-shaped prism and its location parallel to the axis of the cylindrical shank 5, the peripheral part of the face is completely overlapped by the blade of the peripheral insert 4 of the cone, which greatly simplifies the design of the cone, its manufacturing and reinforcement technology compared to multi-row weapons for peripheral crowns. The proposed arrangement of the shank 5 guarantees a reliable connection of the inserts 4 with the housing 1 even in the presence of significant shock-vibration loads, which eliminates the loss of the inserts 4 and thereby increases the technical and economic performance of the bit as a whole. The presence of the transverse part 8 allows you to increase the calibrating ability of the cones, which is of particular importance when drilling on hard and abrasive rocks. The same contributes to the implementation of the transverse part 8 of the insert 4 with the protrusions 9, the inclined location of which in the presence of a large amount of sludge can improve the efficiency of removing it from the bottom of the well. The implementation of the insert 4 with a tapered section 12 eliminates the cleavage of the transverse part 8 under the action of radial loads directed from the side of the walls of the well towards the center, because with this embodiment, most of the radial load is perceived precisely by the cone-shaped section 12.

The above allows us to conclude that the use of bits with the proposed design of the cone allows you to increase the technical and economic performance of drilling operations and thereby reduce their cost.

Claims (3)

1. The cone of the drill bit, comprising a housing with supporting surfaces and crowns, the peripheral of which is armed with carbide inserts with a cylindrical shank and a working head, characterized in that the working head of the peripheral crown insert is made in the form of a wedge-shaped prism between which and a cylindrical shank located in parallel the cutting edge, at least one recess is made, oriented parallel to the axis of the liner, and the insert on the side of the walls of the well is provided with a transverse part with a protrusion ups on the outer surface, the longitudinal axis of which is located in the frontal plane parallel to or at an angle to the radius of the cone, while the peripheral crown of the cone is made with longitudinal cylindrical channels communicated with the outer surface of the crown with grooves congruent to the outer surface of the inserts. 2. The cutter of the drill bit according to claim 1, characterized in that the carbide inserts are made with a conical section located between its transverse and longitudinal parts. 3. The cutter of the drill bit according to claim 1, characterized in that the protrusions on the outer surface of the insert in cross section have a wedge-shaped, or trapezoidal, or rectangular, or hemispherical shape.

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