RU185906U1 - Auger drill for drilling holes in a steel billet - Google Patents

Abstract

The utility model relates to the field of metalworking, in particular, metal cutting, and can be used for drilling deep holes in a steel billet. Auger drill for drilling holes in a steel billet, including a cutting part and a shank, the diameter of the core of the cutting part does not change along the length of the drill , chip grooves having in axial section a rectilinear triangular profile having a rounding in the cavity, the generatrix of the working side of the chip groove being perpendicular to the axis of the drill, the groove of the drill smoothly passes into the back of the tooth, going at an angle of inclination of the helical groove of 60 ° to the axis, forming a ribbon of a given size, while the cutting part and shank are made whole of 9XC steel, with the main rear corner of the drill α = 15-17 °, the rake angle at the top of the drill γ = 19-21 °, the rake angle on the peripheral edge γ = 29-31 °, the angle of inclination of the transition area γ = 17-19 °, the angle at the apex 2ϕ = 117-119 °, the width of the first transition area C = 2-3 mm, the width of the second transition pad C = 2-3 mm, the radius of the groove R = l, 5-3.5 mm over the entire length of the cutting part, width and ribbons f = l, 3-1.7 mm, the angle of inclination of the transverse edge ψ = 63-67 °, the length of the transverse edge f = 2.3-2.7 mm, the inverse taper of 0.3 ÷ 0.5 mm. the result is an increase in the resistance of a screw drill and an improvement in chip crushing, a decrease in the number of drill leads from a steel billet during drilling.

Description

The utility model relates to the field of metalworking, in particular, metal cutting, and can be used to drill a deep hole in a steel billet.

A known design of a twist drill for processing steel with a geometry of 2ϕ = 90 °, ϕ = 60 °, α = 14-15 °, γ = 14-15 °, f = 0.6 [Poduraev V.N. Cutting hard materials. Publisher: Higher School 1974 - 587 p.].

The disadvantage of this design of the drill is the low resistance of the drill, because it is composite (the cutting part of high-speed steel is welded to the shank), low productivity, because it is necessary to repeatedly remove the drill from the hole, and it is difficult to remove chips.

Known auger drill of special design [Fig. 92, Dragun A.P. Cutting tool. 1986] with a large angle of inclination of the chip grooves (ω = 60 °), which allows you to drill holes with a depth of more than 30 diameters, in one pass without periodic outlets from the hole for removing chips. The screw drill has a special sharpening of the front and rear surfaces with a chip breaking groove on the front surface. For drilling, the following sharpening parameters are recommended for the front and rear surfaces of the drill: rake angle γ = 15 °, trailing angle α = 12 °, plan angle 2ϕ = 118 °, angle of inclination of the transition area γ ₁ = 15 °, width of the front surface C = 2 , 4-3.0 mm for diameters of 8.6-14 mm.

The disadvantage is that the screw drill is not suitable for drilling a steel billet due to unsatisfactory crushing of the chips and its withdrawal is difficult due to its packing in grooves.

Known auger drill for processing holes with a depth of 30-40 diameters in cast iron [Rodin P.R. Metal cutting tools. 1986]. The screw drill has an inclination angle of helical grooves of ω = 60 ° and an increased core thickness equal to 0.3-0.35 of the diameter of the drill. The diameter of the core does not change along the length of the drill. The chip grooves of the auger drill have an axial, cross-section, a rectilinear triangular profile having a rounding in the cavity. The generatrix of the working side of the groove is perpendicular to the axis of the drill. The drill groove smoothly passes into the back of the tooth, going at an angle β beta to the axis, forming a ribbon of a given size. When processing cast iron, the geometric parameters of the screw drill take equal: static rake angle γ = 12 ÷ 18 °, trailing angle α = 12 ÷ 15 ° y angle at the tip of the drill 2ϕ = 120 ÷ 130 °. Material of the cutting part is P9 quick cutting steel. F6M5. The tail part is made of carbon steel 45. The cutting part of the drill with the tail part is connected by welding.

The disadvantage of a screw drill is that it is designed to process holes in cast iron, not suitable for drilling holes in a steel billet; the drill is composite, which is why low resistance is observed, unsatisfactory crushing of the chips is carried out and the withdrawal is difficult due to its packing in the grooves.

Thus, with deep hole drilling in a steel billet, it is difficult to simultaneously ensure the strength of the drill and the reliable removal of chips from the cutting zone.

The objective of the utility model is to improve the design of the screw drill, which provides increased productivity during deep hole drilling in the steel billet and reliable removal of chips from the cutting zone.

The technical result is an increase in the resistance of a screw drill, an improvement in chip crushing, a reduction in the number of drill leads from a steel workpiece during drilling.

Auger drill for drilling holes in a steel billet, including a cutting part and a shank, the diameter of the core of the cutting part does not change along the length of the drill, chip grooves having an axial section with a rectilinear triangular profile having a rounding in the depression, and the generatrix of the working side of the groove is perpendicular to the axis of the drill , the groove of the drill smoothly passes into the back of the tooth, going at an angle of inclination of the helical groove of 60 ° to the axis, forming a ribbon of a given size, while the cutting part and shank are made integral steel 9HS, drill main clearance angle α = 15 ° -17 °, the rake angle at the tip of the drill _Versh γ = 19-21 °, the rake angle at the peripheral edge _Periph γ ⁼ 29-31 °, transition platform angle γ ₁ = 17 -19 °, the angle at the apex 2ϕ = 117-119 °, the width of the first transition pad C = 2-3mm, the width of the second transition pad C ₁ = 2-3mm, the radius of the groove R = l, 5-3.5 mm over the entire length cutting part, ribbon width f ₁ = 1.3-1.7 mm, the angle of inclination of the transverse edge ψ = 63-67 °, the length of the transverse edge f ₂ = 2.3-2.7 mm, the inverse taper of 0.3 ÷ 0 5 mm.

Increasing the resistance of the screw drill is achieved due to the optimal design features of the drill. The increased angle of inclination of the helical grooves, their profile and the shape of the grind of the front and rear surfaces provide improved chip crushing and its reliable removal from the cutting zone without removing the drill from the hole.

In FIG. 1 shows a screw drill with a tapered shank for processing a deep hole in a steel billet. In FIG. 2 shows a cross section of a screw drill with a cylindrical shank. It consists of a cutting part 1 and a conical shank 2 of FIG. 1 or cylindrical 3 of FIG. 2, the core of the cutting part 4, the chip grooves 5, the radius of the groove 6, the back of the tooth 7 with the inclination of the helical groove 8 to the axis, ribbon 9.

The screw drill is made integral of tool steel grade 9XC, where the angle of inclination from the helical groove 8, the main rear angle α 10, the front angle γ of the _vertices at the top of the drill 11, the front angle γ of the _periphery on the peripheral edge 12, the angle of inclination γ _{1 of the} transition area 13, the angle at the top of the drill 2ϕ 14, the width of the first adapter pad C 15, the width of the second adapter pad C ₁ 16, the radius of the groove 6 along the entire length of the cutting part, the inverse taper 17, the angle of inclination of the transverse edge 18, the length of the transverse edge 19.

The drill is installed in the spindle of the machine through adapter sleeves.

Examples of specific manufacturing. Auger drills were made, in which the cutting part and shank are made whole of 9XC tool steel, having the following design features (Table 1).

Samples of the advanced screw drill and prototype were subjected to experimental tests. It was experimentally proved that a screw drill, adopted as a prototype, was drilled before breaking 15 deep holes with multiple drill leads, unsatisfactory crushing of chips was carried out. Drill breakages also occurred at the junction of the cutting part and the shank.

When testing an improved auger drill for drilling holes in a steel billet, a drill resistance of 43 holes was achieved, and no breakage of the drill was observed. The drill bit ensured reliable chip removal from the cutting zone without drill leads from the hole.

The best result was shown by a screw drill according to example 2.

The number of holes machined with a screw drill to drill holes in the steel billet of the structure before failure compared to butt drills increased 2.5-3 times.

Claims (2)

1. Auger drill for drilling holes in a steel billet containing a cutting part and a shank, while the diameter of the core of the cutting part does not change along the length of the drill, chip grooves having an axial section of a rectilinear triangular profile with a rounding in the cavity, and forming the working side of the chip groove located perpendicular to the axis of the drill, and the chip groove of the drill smoothly passes into the back of the tooth, located at an angle of inclination of the helical groove 60 ° to the axis of the drill with the formation of a ribbon of a given size and, wherein the cutting portion and the shank are made in one piece of steel 9HS, wherein the main clearance angle of the drill amounts to α = 15-17 °, the rake angle at the tip of the drill is _Versh γ = 19-21 °, the rake angle at the peripheral edge of γ _perip = 29-31 °, the angle of inclination of the transition pad is γ ₁ = 17-19 °, the angle at the apex is 2ϕ = 117-119 °, while the width of the first transition pad is C = 2-3 mm, the width of the second transition pad is C ₁ = 2-3 mm, the radius of the groove along the entire length of the cutting part is R = 1.5-3.5 mm, the width of the ribbon is f ₁ = 1, 3-1.7 mm, the angle of inclination of the transverse edge is ψ = 63-67 °, the length of the transverse edge is f ₂ = 2.3-2.7 mm, and the inverse taper of the drill is 0.3 ÷ 0.5 mm. 2. Auger drill according to claim 1, characterized in that the shank is cylindrical.

Images