SU1573132A1 - Drilling funnel - Google Patents

Abstract

The invention relates to the drilling of exploration wells. The goal is to increase the mechanical speed of drilling and crown resource. It consists of a body 1, a diamond-containing matrix 2, washing slots 3, small diamonds 4 and large working elements 5. When a rock is destroyed, small diamonds 4 work in the mode of surface abrasion. By increasing the mode of cleaving of the rock between large working elements protruding in the working face of the crown, the destruction of the rock is increased. This helps to reduce the energy intensity of the process of rock destruction with an increase in the mechanical drilling rate and wear resistance. 1 hp f-ly, 1 ill.

Description

The invention relates to the drilling of exploration wells, namely | rock-cutting tool for drilling with selection of roll in hard rocks. ⁴ '

The aim of the invention is to increase the mechanical drilling speed and the resource of the core.

The drawing shows the working end face of the drill bit, fragment.

The drill bit consists of a body1, a diamond-containing matrix 2, divided into sectors, a flushing call 3, small diamonds 4 and large barrel elements 5.

The crown works as follows.

When drilling, the axial load and 'Torque are transmitted to the diamond-containing sectors of the crown matrix 2. In this case, the destruction of the rock at the bottom is carried out by small diamonds 4, which are in contact with the rock during the outstripping wear of the bulk layer of the matrix located between the large workers coming to the surface of the matrix and in contact with the rock. elements 5 along a system of parallel lines, which are formed by the intersection of the diametrical plane and perpendicular to it and form structure-forming lines. When the wear of the bulk layer of the matrix reinforced with small diamonds 4 is anticipated, ridges are formed at the apex of which large work elements 5 are located. This leads to the fact that the destruction efficiency of the rock at the bottom increases, since the comb-like surface of the crown end promotes cleavage of the rock located between the tops of the ridges. In addition, small diamonds 4 crumbled out from the bulk layer of the matrix 2 enter the contact zone of large working elements 5- with the rock and contribute to improving the cutting properties of these elements, eliminating their polishing.

This geometry of the working end face of the crown helps to reduce the energy intensity of the process of destruction of the rock and increase the mechanical drilling speed while increasing the wear resistance of the crown and the whole. The location of large working elements 5 with structure-forming lines with their intersection in adjacent sectors leads to an increase in the shearing effect of the rock on the face of these elements, which helps to increase the mechanical drilling speed and wear resistance of the crown.

Claims (2)

Claim 1. A drill bit, comprising a body, a diamond-containing matrix with different sized work elements in the bulk layer, small of which are evenly distributed over the volume of the matrix, divided by flushing, grooves into sectors, characterized in that, in order to increase the mechanical drilling speed and the resource of the crown, large working elements are placed in sectors along parallel lines formed by the intersection of the longitudinal diametrical plane and perpendicular to it, located at an acute angle to the axis of rotation of the crown, and form structure-forming lines. 2. Crown pop. 1, characterized in that the structure-forming lines with large work elements in one sector intersect with the structure-forming lines in the 'adjacent sectors.