RU2462582C1 - Rock-destructing insertion (versions) - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: rock-destructing insertion includes shank, working head with reaming lug, protruding in plane of shank outer diameter, and sleeve forming reaming lug by its side surface. Sleeve is rigidly attached to upper part of working head designed stepped. As per the first version of design, upper step of working head is located off-centred relative to shank, and as per the second version, sleeve is designed with off-centred channel.

EFFECT: improving insertion operating efficiency.

2 cl, 2 dwg

Description

The invention relates to drill bits, namely, rock cutting inserts for drill bits intended for the destruction of alternating hardness rocks.

Known rock cutting insert, including a working head with a cutting edge and a shank with side cutting edges, while the front part of the clove is formed by a cylindrical surface, the radius of which is greater than the radius of the cylindrical surface of the back of the clove (see ed. USSR No. 794158, CL E21B 10/16 , 1981).

The disadvantage of this insert is the complexity of manufacture and a small service life due to frequent chipping of the cutting edges during the destruction of hard rock layers, especially when used as a calibrating element.

Closest to the proposed technical essence and the achieved result is a rock cutting insert, which includes a shank and a working head with a tide, which in terms of the outer diameter of the shank (see ed. St. USSR No. 1446267, class E21B 10/16, 1988).

This rock-cutting insert due to the implementation of the working head with the tide expands the scope of its application both for equipping the calibrating surfaces of the drilling tool (roller cone bits and crowns), and for equipping the intermediate crowns. Its disadvantages include relatively low efficiency, especially when drilling on abrasive rocks. This is due to the fact that when using inserts as calibrating elements, the tide of the inserts fails much faster than the rest of the working head, because the calibrating part of any insert works in much more difficult conditions due to its participation at the same time in the destruction of the bottom and calibration of the walls of the well or core.

In connection with the stated technical result of the invention is to increase the efficiency of the insert, primarily when using it as a calibrating element.

The specified technical result according to the first embodiment is achieved by the fact that in the rock cutting insert, including a shank and a working head with a tide protruding in plan for the outer diameter of the shank, according to the invention, the working head of the insert is made in a stepped form, with the upper stage being eccentric relative to the shank, and the working tide the head is formed by a sleeve rigidly connected to the eccentric stage of the working head, with which the insert is provided, while the side surface of the sleeve is reinforced by the mother scrap, whose wear resistance is higher than that of the working head insert material.

According to the second embodiment, the technical result is achieved in that in a rock cutting insert including a shank and a working head with a tide protruding in plan for the outer diameter of the shank, according to the invention it is provided with a sleeve, the working head of the insert is stepwise shaped, and the tide of the working head is formed by a sleeve, made with an eccentric channel, the diameter of which corresponds to the outer diameter of the upper stage of the working head, which is rigidly connected to the sleeve, while the side surface of the sleeve a It is framed by a material whose wear resistance is higher than that of the material of the working head of the insert.

The invention is illustrated by the drawing, where in Fig.1 and 2 presents a General view of the insert in two versions.

The proposed insert according to the first embodiment includes a shank 1 and a working head 2 with a tide 3 protruding in plan for the outer diameter of the shank 1. The working head 2 of the insert is stepped in shape, and its upper stage 4 is eccentric relative to the shank 1. The insert is provided with a sleeve 5, rigidly connected to the eccentric step 4 and forming a tide 3 of the working head 2. In this case, the side surface of the sleeve 5 is reinforced with a material whose wear resistance is higher than that of the material of the working head 2 of the insert. So, if the working head 2 of the insert is made of hard alloy, then the sleeve 5 should be reinforced with a diamond layer. If the working head 2 is reinforced with diamonds, then better diamonds should be used for reinforcing the sleeve 2, for example, diamonds of the XX group for the working head 2 and diamonds of the XU group for reinforcing the sleeve 5.

The rock-breaking insert according to the second embodiment includes a shank 1 and a working head 2 with a tide 3 protruding in plan for the outer diameter of the shank 1. As in the first embodiment, the insert is equipped with a sleeve 5, the working head 2 of the insert is made in steps, and the tide 3 of the working head 2 formed by a sleeve 5 made with an eccentric channel 6, the diameter of which corresponds to the outer diameter of the upper stage 4 of the working head 2. The sleeve 5 is rigidly connected to the upper stage 4 of the working head 2, while its side surface is reinforced with a mat ialom whose wear resistance is higher than that of the material of the working head 2 is inserted.

When reinforcing the drill bit or crown, the proposed inserts are placed on the calibrating part, orienting the tide 3 in the direction of the walls of the well or core. Such an arrangement of inserts can significantly enhance the calibrating ability of the drilling tool and vary widely with the pattern of damage to the face both in drill bits and when using them to equip cone bits.

The proposed insert allows you to increase the efficiency of the rock-cutting tools using them, primarily when using it as a calibrating element.

Claims (2)

1. Rock-breaking insert, including a shank and a working head with a tide protruding in plan for the outer diameter of the shank, characterized in that the working head of the insert is made in a stepped form, the upper stage being eccentric relative to the shank, and the tide of the working head is rigidly connected to the eccentric stage the working head of the sleeve, which is equipped with the insert, while the side surface of the sleeve is reinforced with a material whose wear resistance is higher than that of the material of the working head of the insert ki. 2. A rock-breaking insert, including a shank and a working head with a tide protruding in plan for the outer diameter of the shank, characterized in that it is provided with a sleeve, and the working head of the insert is stepped in shape, while the tide of the working head is formed by a sleeve made with an eccentric channel, the diameter of which corresponds to the outer diameter of the upper stage of the working head, which is rigidly connected to the sleeve, while the side surface of the sleeve is reinforced with a material whose wear resistance is higher than that of mater ala working head insert.

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