SU1182147A1 - Earth-drilling bit - Google Patents

Abstract

The drill bit, including the case and rock-breaking elements, the bases of which are fixed in the case, is different from the fact that, in order to ensure optimal load on the rock-breaking elements and intensive cooling of the most heated of them, the bases of the rock-breaking elements are made of a material having an effect shape memory during thermal cycling.

Description

The invention relates to drilling • wells and can be used when passing wells with a core method using diamond and carbide rock cutting tips.

The aim of the invention is to provide optimal load on the "destructive elements and intensive cooling of the most loaded" of them.

In FIG. 1 shows a crown in the frontal projection, section; in FIG. 2. - the same in horizontal projection.

The crown contains the base 1 of the rock cutting elements - sectors of diamond-containing matrices 2. The base 1 is mounted in the body of the crown 3. The body of the crown is attached to the core projectile by means of a thread.

Preliminarily, in the manufacture, the base 1 is annealed in a closed die in an anevil state at 500 ° C for 1 hour. Then, the base 1 is cooled below 40 ° C and subjected to; plastic deformation, stretching it in the axial direction by a value of 1-2 mm or more. As a material for the manufacture, for example, a titanium-nickel alloy (54-:

56% nickel, the rest is titanium), tensile strength 87 kgf / mm ² , endurance based on 10 ⁷ cycles 49 kgf / mm ² phase transition interval (martensitic transformation) 40-60 ° C, density 6.41 g / cm ³ , the voltage generated during a phase transition under a load of 30-60 kgf / cm ² , the degree of plastic deformation of 8-15% while providing 100% shape return. .

Thus, in a cooled state (before heating the sweater at 40 ° C and after cooling below 40 ° C), the base 1. of the rock-breaking elements has the form shown in FIG. 1, and at temperatures above 60 ° C there is a reduction in the length of the base by a value of 1-2 mm or more.

After these operations, the base 1 is mounted in the grooves of the rock cutting elements 2 at one end and in the grooves of the housing 3 at the other end.

When working at the bottom of the well, rock cutting elements are heated from friction against the rock, and more loaded cutters are heated more intensively. After heating the base 1 of the most loaded rock-cutting elements above 4O-6O ° С, the base reduces its linear dimensions in the axial direction, as a result of which the crushing and damaging element rises above the bottom of the well. In this case, the axial load is redistributed to the underloaded rock-cutting elements, and the heated rock-breaking element is intensively cooled by the flushing fluid entering the gap between the working end surface of the rock-cutting element and the bottom '. Rock-breaking elements operate cyclically: elements overheated from intensive work are switched off from contact with the face and cooled by washing liquid, and the axial load is distributed between the rock-breaking elements.

ВНИИПИ Order 6077/29 Circulation 539 Subscription

Branch of the PPP Patent, Uzhgorod, Project 4,

Claims (1)

DRILLING CORE, including the body and rock cutting elements, the bases of which are fixed in the housing, distinguished by the fact that, in order to ensure optimal load on the rock cutting elements and intensive cooling of the most loaded of them, the bases of the rock cutting elements are made of a material with a shape memory effect during thermal cycling. figure 1 1 1182147