SU596709A1 - Diamond bit - Google Patents

Description

(54) DIAMOND CROWN

Claims (2)

The invention relates to a rock cutting tool for core drilling, namely diamond core bits. Diamond crowns are known for drilling low-phase mountain pfod V-VII of drillability category, including a housing and a matrix with flushing grooves and cutting elements EI. Their disadvantage is low efficiency in operation. The closest in technical essence and the achieved result is a diamond crown, which includes a housing, a matrix H, and jagged cushioning elements with an acute cross-section 2. However, these crowns are not sufficiently affective, especially with ruptured and low-abrasive rocks of the type of thick schists. This is accomplished by the fact that radially located incisors move in front of them a broken rock, which, with a tendency to sticking, prevents further incisal of incisors. At the same time, the radial location of the tool bits reduces the efficiency of sludge removal by the flushing fluid flow. The aim of the invention is to increase the efficiency of the diamond crown when drilling low-abrasive rocks by improving the cleaning of the sludge from the bottom. The goal is achieved by the fact that the jagged semi-destructive elements are divided into borehole and core cutting cutters, set at an angle to the crown radius and directed from the caliphs of the matrix surfaces in the direction opposite to the warping, while the inner ends of the borehole and core cutting mixes; the other with the passage between them channel for the passage of sludge. This transverse cutting face of the borehole and core-forming cutters in longitudinal section of the sharp angle with the side gage face, and the front face of the cutters made in the form of a curvilinear surface, with an atom radius of curvature 1 of core-forming cutters greater than the radius of curvature of the borehole cutting tools. Fig. 1 shows a diamond crown; (section A-A of Fig. 2); Fig. 2nd, plan view; Fig. 3 is a diagram of the location of the incisors (node 1 of Fig. 2); in fig. 4 - section BB of FIG. 2; in fig. 5 is a sectional view of FIG. 3 ..: The crown includes a body 1, a carbide matrix with borehole and core-forming cutters 2 and 3 of the gear type. The incisors 2 and 3 have an acute angular shape in cross section (Fig. 5) and are reinforced with one or several rows of diamonds 4 depending on the drilling conditions and their location on the cutter. The transverse cutting edges 5 and 6, forming the bottom of the borehole, form an acute angle Oi with calibrating faces, and an angle jb at the face 1 of the housing 1. The gaps 2 and 3, which ensure the complete overlap of the xronka face, are set at an angle to pa. crowns and directed away from the matrix's calibrating surfaces to the side, counter-counter-rotating | at the same time, the inner edges 7 and 8 of the borehole and core cutting cutters 2 and 3 are swept away relative to each other and out of the channel for the passage of the slime. The front edge of the incisors 2 and 3 is made in the form of a 1Fivoline surface, while the radius of the curvature of the core-forming incisors 3 is larger than the radius of the curvature of the borehole pick-up incisors 2. The crown works as follows. impact on the bottom hole bore holes 2 and 3 are efficiently introduced into the rock, especially in the zone of the outer and inner diameter of the annular bottom, forming it in the form of a wedge, which, while rotating, does not gradually cut off, but also collapses from the crown injection and the washing fluid .. The incisors 2 and 3, due to the angular position of the crown radius and the curvilinearity of their front face, ensure effective removal of the destroyed surface from the bottom of the well. The rock cut by the wellbore reecem 2 is advanced along its front face, then picked up and flushed out with a wash flow, kotfa washes the front face of the core-forming cutter 3 and, thanks to the larger radius of curvature of its front face, it is filled into the outer annular gap. P |) the name of the proposed crown will increase the penetration by 45% and increase. mechanical drilling at ZO%. Claim 1 Diamond crown, comprising a housing, a matrix and toothed PS one-destructive elements with an acute-angled cross-section, characterized in that, in order to increase its efficiency when drilling low-grade rocks, by improving the cleaning of the sludge, the jagged elements are divided into a well - and the core cutting cutters, which are installed at an angle to the radius and directed from the radiating surfaces of the matrix in the direction opposite to the rotation, while the inner faces of the borehole and rnoofazuyushih cutters are shifted relative to one another with ofazovaniom channel between them for the passage of slurry. 2. The crown of claim 1, of t & c & w & so that the transverse cutting edge of the borehole and core-cutting incisors in the vertical plane extends an acute angle with the lateral calcining face. 3, the crown according to claim 1, so that the front edge of the incisors is made in the form of a curved surface, while the radius of curvature of the core-cutting incisors is larger than the radius of curvature of the downhole tools. Sources of information, pr-inte in the introduction during the examination: 1. Blinov G. A. and others. Porodha Ushayushiy and diamond drilling tools, L. Nedra, 1964, p. 71-72, 2. Technique and equipment. Intelligence, No. 100, L., BNTY VITR, 19Y5, p. 11-12 ,: