SU1222810A1 - Grown bit for rotary-percussive drilling - Google Patents

Description

one

The invention relates to a rock drilling tool for drilling wells, namely to crown lengths. impact - rotary drilling in rocks of various categories of strength by drillability.

The aim of the invention is to reduce crown wear by the outer diameter in the drilling process.

FIG. 1 shows the working end of a drill bit for percussion drilling, bottom view; in fig. 2 is a view A of FIG. 1 (crown sector for percussion drilling from its inner surface).

The crown for impact-rotational drilling includes a housing 1, the working end of which is divided by pairs 2 for a cleaning agent into sectors 3 reinforced with peripheral 4, core-forming 5 and main rock-forming pins 6, the latter of which are installed in the rear part of sectors 3. the main rock-forming pins 6 are placed on the centerline 7 of the working end of the crown, and the main rock-forming pins 8 are shifted along the crown radius to its periphery.

Moreover, the diameter of the main rocks of the demolishing pins 6 and 8 is 1.5-2.0 times larger than the diameter of the peripheral 4 and core-forming 5 rock-destroying pins. The main rock destroying pins 6 and 8 by 1.5–5.0 mm protrude in a crown above the peripheral 4 and core-forming rock destructive shtyry.

Crown for percussion rotary drilling works as follows.

At the moment of transfer of the shock load to the crown during drilling, the pore-breaking pins 4,5,6 and 8 are embedded in the rock. At the same time, the main pores of the destructive pins 6 and 8 are introduced

into the rock more deeply than the periphery-45 to protect the crowns from abrasive wear 4 and core-forming 5 rocks over its outer diameter.

destroying the pins, since at the initial moment of their introduction into the rock they receive all the impact energy. In the process of drilling, between the peripheral 4 and core-forming 5 rock-breaking pins, there remain intact rocks, the dimensions of which depend on the parameters of the impact load on the crown and the physical and mechanical properties of the drilled rocks. The main rock-destroying pins 6 and 8 in the intervals between the transfer of shock loads to the crown, as it were, run into rock portions protruding at the bottom

wells, and at the same time raise the peripheral 4 and core-forming 5 rock-breaking pins from the holes formed by them in the rock above it, excluding due to this their friction against the rock. The next blow occurs when the main rock-breaking pins 6 and 8 are on the crest of the non-destructive section of the bottom hole rock. Axial load on the bottom of the well at this

is increased by raising the crown above the bottom hole and squeezing the elements of the drill string, which favorably affects the destruction of the bottom hole rock

rock-breaking pins 6 and 8. The efficiency of destruction of these sections of the rock bottom hole increases, in addition, due to the formation of additional outcrop planes and rock microcracks from previous shock loads transmitted to the bottom hole.

In the process of drilling, core-forming pins 5, participating in rock destruction, form a core and protect the inner diameter of the abrasive crown, and peripheral 4 and 8 main rock-breaking pins participate in the calibration of the borehole wall and reliable

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Circulation 548

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Branch PPP Patent,

Uzhgorod, st. Project, 4

Claims (1)

CROWN FOR A DRILLING ROTATOR OF KNOB DRILLING., Which includes a housing, ra for a cleaning agent for sectors reinforced with peripheral, core-forming and main rock-crushing brushes, the last of which are installed in the rear of the sectors, have a diameter of 1.5-2.0 times the diameter peripheral and core-forming pins and placed on one group of sectors on the axial line of the working end, characterized in that, in order to reduce the wear of the crown on the outer diameter during drilling, the main rock-breaking pins on another group of sect ditch mounted with offset Figure 1 with > J222810