RU2726753C1 - Screw drill bit for frozen soils - Google Patents

Abstract

FIELD: excavation and moving of soil.SUBSTANCE: invention relates to excavation works, in particular, to devices for formation of wells. Screw drill comprises conical core with helical blade consisting of conical section with constant pitch of blade turns and cylindrical section with pitch of blade turns, which has constant increment relative to step pitch of conical section of blade. Helical blade has the same number of turns on the cylindrical and conical sections, equal to not more than two. Diameter of the turn of the blade on the cylindrical section is more than twice the diameter of the base of the cone described by the edge of the turns of the blade of the conic section. Angle of inclination of generatrix of upper surface of helical blade on cylindrical section of bore to axis of rotation varies from 42° to 90°.EFFECT: technical result is reduction of power consumption of well drilling in strong and frozen soils, including in frozen sand.1 cl, 1 dwg

Description

The invention relates to the production of earthworks, in particular to devices for the formation of wells.

Known design of the working body for the formation of wells, including a drill rod, having a conical and cylindrical sections, on which a continuous helical blade is located [1]. To facilitate the process of screwing the working body into the ground, the blade also has a conical thrust and cylindrical destruction sections. Moreover, the step of the destructive blade is greater than the step of the traction blade, and its diameter is equal to the base of the cone described by the edge of the traction blade.

Its disadvantage is the high energy consumption of the process of drilling solid frozen soils, and, in addition, the inability to screw into highly abrasive fragile soils, for example, frozen sands, due to the fact that when interacting with a blade, the geometry of which does not correspond to these soil conditions, their fragile destruction occurs, and the tapered section of the blade loses traction.

The closest to the proposed one is a screw drill for drilling wells in solid and frozen soils, which includes a core having a tapered core with a helical blade, consisting of a conical section with a constant pitch of turns and a cylindrical section with a pitch of turns, having a constant increment relative to the pitch of the turns of the conical section blade, characterized in that the diameter of the blade in the cylindrical section is more than the diameter of the base of the cone, described by the edge of the turns of the tapered section of the blade, more than twice [2].

The main disadvantage of the considered tool is the increased energy consumption of the soil destruction process due to the fact that the resulting shear force in the section starting from the transition from the traction to the destroying part to the section located at the end of the destroying part of the helical surface is directed at an angle, which leads to a loss of force, and it is in this case that the horizontal component of the force is spent on compaction of the well, and the vertical component of the force on soil shear.

The technical problem of the present invention is the need to reduce the energy consumption of drilling wells in frozen soils.

The technical result is the creation of a tool with a variable value of the angle of inclination of the generatrix of the upper surface of the helical blade to the axis of rotation, varying from 42 ° to 90 °, in the section starting from the transition from the traction to the destructive part to the section located at the end of the destructive part.

The problem posed is solved as follows. In a helical drill for frozen soils, containing a conical core with a helical blade, consisting of a conical section with a constant pitch of turns and a cylindrical section with a pitch of turns, having a constant increment relative to the pitch of turns of the conical section of the blade, the helical blade is made with the same number of turns on the cylindrical and conical in sections equal to not more than two, the blade diameter on the cylindrical section is more than the diameter of the base of the cone described by the edge of the turns of the conical section of the blade by more than two times, the angle of inclination of the generatrix of the upper surface of the helical blade has a variable value from an acute angle to a right angle.

In FIG. the proposed screw drill for frozen soils is presented, a general view, in which the following designations are adopted:

T ₁ is the resistance force applied to the upper surface of the helical blade in the section passing from the traction to the destructive part;

T ₂ - resistance force applied to the upper surface of the helical blade at the site at the end of the destructive part;

Т _1х - the horizontal component of the resistance force applied to the upper surface of the helical blade in the section passing from the traction to the destructive part;

T _1u - the vertical component of the resistance force applied to the upper surface of the helical blade in the section passing from the traction to the destructive part;

T _2x - horizontal component of the resistance force applied to the upper surface of the helical blade at the site at the end of the destructive part;

Т _2у - vertical component of the resistance force applied to the upper surface of the helical blade at the site at the end of the destructive part.

The proposed drill consists of a conical core 1 (Fig.), On which a continuous helical blade 2 is placed, including a conical traction and cylindrical breaking sections. The helical blade is made with the same number of turns on the cylindrical and conical sections, equal to no more than two. The conical traction part has constant pitch and radius of the helical blade. The cylindrical destruction part, in turn, has the shape of a helical surface with a constant increment of the radius by one turn relative to the pitch of the turns of the conical section of the blade. The blade turn diameter in the cylindrical section is more than twice the diameter of the cone base described by the edge of the blade turns of the conical section. This is followed by an increase in the pitch of the screw working body, relative to the conical traction part. The angle of inclination of the generatrix of the upper surface of the helical blade on the cylindrical section of the tip to the axis of rotation changes its value from 42 ° to 90 °. At the same time, 42 ° is the optimal value for the screw part obtained during long-term studies. The angle of inclination of the generatrix of the upper surface of the helical blade on the cylindrical section of the tip to the axis of rotation starts from the obtained value. And in the final position, the angle between the generatrix of the upper surface and the axis of rotation must be 90 ° in order for the complete process of soil spalling to occur. At lower values, the process will not be fully implemented and this will increase the energy consumption for the process of drilling with a screw working body. And with a larger deviation of the angle, the breakaway soil mass will fall into the inter-turn space.

The proposed screw drill works as follows.

The drill is brought into contact with the ground, after which the axial crushing force and torque is imparted to it by means of the drilling equipment. The drill is immersed in the ground. In this case, the latter is moved apart by the conical core 1 and the traction part of the helical blade 2 of constant pitch that penetrate into it and is compacted in the directions normal to the surfaces forming them. As a result of compaction, the soil in the turn-to-turn space is hardened and makes it possible for the conical part of the blade to develop traction without being destroyed under its influence.

Following the traction part of the blade, the destructive part of the blade comes into contact with the ground, which works like a helical wedge. Due to its significant overhang, due to an increase in the radius, and a change in the angle of inclination (α) of the generatrix of the upper surface of the helical blade to the axis of rotation, relative to the last turn of the traction part of the blade, the edge of the destroying part of the blade, the destruction of the soil occurs, prevailing to a greater extent by shear deformation. This process arises due to the fact that when the angle of inclination of the generatrix of the upper surface of the helical blade to the axis of rotation changes, the direction of the shear force changes. More precisely, in the section, starting from the transition from the traction to the destructive part, the shear force T ₁ changes direction and goes to the position T ₂ , the components of the force also change their direction, vertical T _1y in T _2y , horizontal T _1x in T _2x . Namely, in the final position, the resistance force and its components are directed vertically upward, thereby there are no losses that go to soil compaction, such as in the position where the angle of inclination of the generatrix of the upper surface of the helical blade to the axis of rotation is equal to α = 42 °.

As a result, the force of resistance to soil shear increases almost twice, which means that the energy consumption of soil destruction decreases, due to a change in the angle of inclination of the generatrix of the upper surface of the helical blade to the axis of rotation from 42 ° to 90 °.

Thus, a screw drill was developed for frozen soils with a variable angle of inclination of the generatrix of the upper surface and an axis of rotation from 42 ° to 90 °. The diameter of the breaking part is 300 mm, while the diameter of the traction part corresponds to 150 mm. The pitch of the destructive part is 120 mm, and for the traction part, the pitch of the helical blade will be 60 mm.

As a result, we got a screw drill with the ability to reduce the energy consumption of drilling wells in frozen soils, which confirmed the previously announced technical result.

Sources of information

1.A.S. No. 975924 (USSR), MKI ³ E02F 5/20. Working body for the formation of wells / M.I. Artemiev, V.F. Mironov // B.I. - 1982. - No. 43.

2. Patent for a useful model of the Russian Federation 49844 RU, IPC E02F 5/20. Screw drill for drilling wells in solid and frozen soils: 06/29/2005 / published: 12/10/2005 / I.G. Martyuchenko, R.V. Yuzhakov, V.V. Borisov (prototype).

Claims (1)

A screw drill for frozen soils, containing a conical core with a helical blade, consisting of a conical section with a constant pitch of the blade turns and a cylindrical section with a pitch of the blade turns, having a constant increment relative to the pitch of the turns of the conical section of the blade; the helical blade is made with the same number of turns on the cylindrical and conical sections, equal to no more than two; the diameter of the blade turn on the cylindrical section is more than twice the diameter of the base of the cone described by the edge of the turns of the blade of the conical section, characterized in that the angle of inclination of the generatrix of the upper surface of the helical blade on the cylindrical section of the drill to the axis of rotation changes its value from 42 ° to 90 °.

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