WO2019039926A1

WO2019039926A1 - Combined drill/mill boring tool

Info

Publication number: WO2019039926A1
Application number: PCT/KZ2018/000010
Authority: WO
Inventors: Давлатбек Турганбекович ХОДЖИБЕРГЕНОВ; Жумахан Ушкемпирулы Мырхалыков; Андрей Вячеславович ПОРОШИН
Priority date: 2017-08-22
Filing date: 2018-05-15
Publication date: 2019-02-28

Abstract

The invention relates to the mining industry, in particular to mechanical rotary boring tools, and can be used for boring wells in the ore-mining, oil and gas industries. A combined drill/mill boring tool comprises cutting elements which are arranged in parallel and are fastened via rings, are in the form of discs with an angle of inclination of ω=22–25° and are provided with two cutting edges having identical back clearance angles equal to α=15–20° and front clearance angles with values of γ=15–20°; γ= ‐(15–20°), and the tip of the lower part of the body is in the form of a drill. The design of a cutting element in the form of a disc allows continuous operation of the tool, and prevents vibration, which makes it possible to significantly improve boring performance indices and to reduce deviations from the vertical and from the uniformity of a wall. The use of the proposed technical solution will make it possible to increase the service life of a tool and the productivity thereof, and to reduce the energy consumption of the boring process.

Description

Combined boring tool drill bit

The invention relates to the mining industry, in particular to mechanical rotary drilling tools and can be used for drilling wells in the mining, oil and gas industry.

Known blade bit (RF patent for PM No 120129), consisting of a housing with a system of channels for supplying washing fluid to the bottom of a well and discharging it into the annular space, blades reinforced with rock-breaking elements, in auxiliary supply channels connected to the main supply channel and located between the blades, hydraulic jet pumps are mounted, and the main inlet channel is isolated from the suction channel by an interchannel jumper and in it is a flow divider rigidly connected to the interchannel jumper, while the suction channel is connected with ejection and auxiliary discharge channels.

A disadvantage of the known blade bits is the alternation of the working and idle cycles of the tooth (cyclical discontinuity of the drilling process); the variability of the thickness of the cut layer in each tooth of the cutter, as well as the variability of the number of teeth in operation, which causes a variable value of forces, moments and power required for chip formation, and complicates the milling process.

The formation of sticking in the drilling process, sticking the cut soil to the cutting edges of the bit worsens the process of processing, increases the complexity.

According to the drilling scheme, the blade bit shifts the cut layer of soil not upward, but in the direction of the drilling speed, which creates conditions for the cut layer to stick to the teeth of the bit.

Closest to the proposed design is auger drill (RF patent for PM J k? 120995), consisting of a body with flanges, connecting nipple, rock-cutting incisors mounted on the flanges, and the pilot bit, on the rear edges of the incisors there are hinges in which limiters of mechanical speed of drilling are movably installed, the free ends of which are rigidly connected to spring elements, and the opposite ends of spring elements are rigidly connected to ribs.

When penetrating into the ground of a known device, the loosened soil remains at the cutting site, i.e. in the upper part of the drill, which is a disadvantage of this auger drill design.

The objective of the invention is to design a drilling tool drill bit (hereinafter the Federation Council), providing in the drilling process continuous contact of the cutting edge of the Federation Council with the ground, reducing friction, as well as increasing the resistance of the Federation Council and improving the drilling process.

The task is achieved by the fact that the combined drilling tool drill-mill, consisting of a body and cutting elements, according to this invention, has parallel cutting elements arranged in a form of disks with inclination angle ω = 22-25 ° and provided with two cutting edges having the same back angles equal to a = 15 + 20 ° and front corners with values of γ = 15 20 °; γ = - (15 + 20 °), and the tip of the lower part of the body is designed as a drill.

The proposed design is illustrated in the drawing. FIG. 1 is a schematic representation of a combined drilling tool a drill cutter, which comprises:

1 - case; 2 - cutting tooth SF; 3 - sleeve; 4 - hole for supplying drilling mud for removal of the cut layer of soil; 5 - the Central hole of the supply of drilling mud; 6 - hole supply solution in the drilling zone; 7.8 - cutting edge of the tooth; 9 - groove for the passage of cut soil; 10 - tip in the form of drill SF for plunging into a pound; 11 - supply of fluid to the drilling zone.

Combined boring tool drill cutter includes a housing 1 (Fig. 1), mounted on it through the ring 3 parallel located cutting elements 2 in the form of discs with cutting edges 7, 8 (Fig. 1, the I). The cutting edges have the same rear angles, equal to a = 10 + 15 ° and front corners with values of γ = 15 + 20 °, γ = - (15 20 °). In the construction of the Federation Council the cutting elements 2, 10 for soft soils are made of high-speed steels.

The tool case of the Federation Council is provided with a tip in the form of a drill 10 (Fig. 1, section A-A). In the process of drilling for cutting edges 7 and 8, it is provided the supply of coolant (coolant) 1 1 to the cutting zone with a high-pressure jet from the holes 4,6,11. The central coolant supply is carried out by the hole 5. In the reverse movement, the liquid carries the drilled soil. For the reverse movement of the drilled soil, grooves are provided for the passage of cut soil 10 in the cutting disks 2. ^!

Combined drilling tool SF works as follows.

SF (Fig. 1) are driven by the engine. The tip of the drill 10 cuts into the ground. Next, the cutting edge 7 of the cutting element of the Federation Council, in contact with the cutting layer of soil, enters it at point A (Fig. 2, a), easily shifts it in the direction tangent to the course of the drill h, to point O, leads the shifted layer from the working zone to as loose soil.

At point O, the cutting edge comes out of contact with the cutting layer of soil, cutting and leveling the treated surface to C, and from this point smoothly enters the work, continuing the continuous path. The width of the cutting layer should not exceed the height of the amplitude h of the sinusoidal spiral (Fig. 2, a), taking into account the thickness of the cutting element (Fig. 1, the offset I).

The cutting edge 9 of the SF, having a leading angle γ = - (15 + 20 °), cuts off the irregularities from the machined surface, aligning and improving the quality of the wall of the hole.

SF contains cutting elements 2 with an angle of inclination ω = 22 + 25 ° and cutting edges ⁸ 7 and 8.

A cutting element with an inclination angle ω, with which the SF describes the trajectory of a sinusoidal spiral: point M (Fig. 1, extension I) of the cutting edge 7, curve I, and point M ^{7 of the} cutting edge 8, curve 2 (Fig. 2, a). Curve I consists of from the arc A0 "for the first half of the turnover of the Federation Council and the OS for the second half of the revolution. Curve II is similar to curve I with the arcs A 0 / and O / C /.

On the second revolution of the point M, M ^{7 of the} cutting edges of the cutting element SF describe the curves (Fig. 2, b), opposite to the curves I, II obtained in the first turn (Fig. 2, a). If we consider the trajectory of the point of the cutting edge of the cutting element of the Federation Council in two turns, then we obtain the trajectory of the Bernoulli lemniscate (Fig. 2, c), which has a closed contour. A closed loop ensures that the cutting edge of the cutting element of the Federation Council is continuous.

Replacement friction sliding friction between the rolling elements cut the ground and the front surface of the cutting edge of the cutting element SF, and also having adjustable angle values α = 15- 25 ^0, minimize sticking and adhesion of soil on the cutting ^"edge excluding slip between the ground and the SF, which leads to increase tool life and drilling performance. ^{'' 1} At the same time, all the cutting edges of the cutting elements of the tool are found, so that the drilling process will occur evenly.

The performance of the cutting element in the form of a disk ensures the continuity of the tool, eliminates vibration, which allows to significantly improve the quality indicators of drilling, reducing deviations from the vertical and uniformity of the wall.

The application of the proposed technical solution will allow to increase the service life of the tool, its performance and reduce the energy intensity of the drilling process.

Claims

CLAIM

Combined boring tool drill-mill, consisting of a body and cutting elements, characterized in that it contains parallel cutting and fixed through the rings cutting elements in the form of discs with an angle of inclination ω = 22-25 °, provided with two cutting edges, having the same rear angles, equal a = 15–20 ° and front angles with γ = 15–20 °; γ = - (15 + 20 °), and the tip of the lower part of the body is designed as a drill.