SU1760075A1 - Combined crown bit - Google Patents

Abstract

Use: drilling of wells in a rotational way for hard rocks. SUMMARY OF THE INVENTION: The crown comprises a body and a diamond-containing matrix, divided by washing slots into sectors. The front edge of each sector is covered with a solid blade. The diamonds at the end of the sectors are arranged in radial rows with a pitch between the rows equal to the distance from the first one in the course of the rotation of the row of diamonds to the blade. 9 il.

Description

The invention relates to the mining industry, and in particular to a rock cutting tool with diamond arms for rotary drilling.

The well-known crown with moving and stationary sectors, equipped with podostruktivnymi elements of different hardness. The disadvantage of this crown is the difficulty in manufacturing, uneven distribution of tangential loads on diamonds, which is caused by the fact that the first row of diamonds removes a thicker layer of rock than subsequent diamonds.

A known combined chisel, provided on its face with notches and two blades directed in the direction of rotation. The disadvantage of this bit is the uneven loading of the front and subsequent notches of the bit. Due to the fact that the cutters are installed independently of the pitch of the notches along the line of their cutting, the thickness of the layer of rock removed by the front notches is different. Therefore, when the first rows of notches remove a thicker layer, they are more quickly destroyed and the next rows of notches are destroyed after them. And when the incisors are set closer to the first row of notches than the step between the next notches, the first rows of notches are underloaded, and the speed of drilling decreases. Thus, with these bits, the durability and speed of drilling will be very unstable and will differ significantly from each other, rather than with bits that have a regulated connection between the notch pitch and the installation distance of the cutter blades from the first notch. .

The closest in its technical essence and the effect achieved is a drill bit, where cutting tools with a solid blade are installed ahead of the diamond sector, while the distance between the cutter and the first row of diamonds is 4-5.5 times greater than between diamonds. In this we see a significant drawback. The fact is that if the release of diamonds allows, the thickness of the rock layer removed first in the course of the crown rotation by a series of diamonds is greater than the thickness of the rock layer,

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Therefore, the first rows of diamonds will experience the greatest cutting and overloading forces. If the thickness of the layer arriving on the first rows of diamonds exceeds the diamond output, i.e. their cutting ability, then the crown sits on a section of rock that corresponds to the distance from the first row to the cutting edge of the blade. All this leads to limited susceptibility of diamond bits to axial loads and reduces the efficiency of subsequent diamonds in the sector. In general, this reduces the efficiency of the bit, reduces the mechanical speed of drilling and decreases the penetration of the bit.

The purpose of the invention is to increase the durability of the crown by ensuring uniform loading of diamond arms.

The goal is achieved by the fact that the diamonds at the end of the sectors are arranged in radial rows, with the step between the rows being chosen equal to the distance from the first one along the rotation of the row of diamonds to the blade.

FIG. 1 shows a diagram of the operation of a crown with moving and fixed sectors; in fig. 2 is a diagram of the location of the incisor blades on the bit at a distance greater than the notch pitch; in fig. 3 is a diagram of the location of the incisor blades at a distance equal to the pitch of the trains; in fig. 4 is a diagram of the location of the cutter blades at a distance smaller than the notch pitch; in fig. 5 - a general view of the proposed crown; in fig. 6 is a bottom view of the crown; in fig. 7 is a diagram of the rock-breaking elements of the proposed crown; in fig. 8 is a sectional view of FIG. 7 on A-A; in fig. 9 is a sectional view of FIG. 7 by BB.

The proposed crown consists of body 1, diamond sectors 2 containing diamonds 3, cutters 4 with a solid blade. The blades are installed from the first along the rotation of the crown of diamonds in the distance I, equal to t - the step between rows of diamonds.

The crown works as follows. When setting the projectile on the face, the cutter 4 and the diamonds 3 crush the asperities of the face and penetrate the rock, and then with the rotation of the projectile under the action of axial force, the grooves 5 penetrate, fig. 8. Moreover, during the drilling of hard rocks, the depth of these grooves is much greater than the magnitude of the introduction of diamonds, which greatly facilitates the introduction of cutters 4 into the rock.

When the crown rotates, the diamonds form scallops b, fig. 8. The cutter 4 removes these scallops and thus facilitates the work of the front diamonds, FIG. 9. This work and the cutting force of the front diamonds are comparable to the work and cutting force of subsequent diamonds, since the thickness of the chips removed by these diamonds is the same,. The latter circumstance is the result of the fact that the cutters with a solid blade are installed from the front diamonds at a distance of I, equal to the t-step between rows of diamonds. Due to this, tangential loads on diamonds are leveled, and the service life of the front diamonds is increased compared with the prototype. The essential point in the operation of the proposed crown is that the scallops are not crushed by the butt of the crown, as usual, but are cut off by the cutter.

Therefore, in the proposed crown, less sludge is formed under the end of the diamond sector, the cleaning conditions are improved, and the heat load of the diamonds is reduced.

Claims (1)

Invention Formula Combined drill bit, including body and diamond-containing matrix, divided by washing slots into sectors, the front face of which is covered with a blade, characterized in that, in order to increase the durability of the crown by ensuring uniform loading of diamond weapons, diamonds at the sector end are radially radial , at the same time the step between the rows is chosen equal to the distance from the first one along the rotation of the row of diamonds to the blade. H FIG. one FIG. 2 Fig.z ( "T lt t Phage. BUT FIG. five FIG. 6 i 3 4 FIG. f Zw U 5-6 9