Drill

摘要

Twist drill for short hole drilling with two chip flutes opening in a clearance surface of a front tip to form, with the clearance surface, two cutting edges. Chip flutes have three different part surfaces having different curvatures—a bottom surface with arc radius less than 10 mm and two other ones with radius of curvature approaching infinity. Boundary line between concave bottom surface and heading frontal surface meets a main edge that is included in the individual cutting edge and divided into two edge segments imparting a J-like shape to the main edge. The chip flute is extraordinary deep with the diameter (DC) of the core reduced to a minimum and the opening angle (α) smaller than the angle of divergence (β) of two bars, between which the flutes are countersunk. The drill improves-formation and evacuation of chips, is easy-cutting and requires a minimum of energy.

主权项

1. A drill, comprising:
front and rear ends; a centre axis (C) extending between the front and rear ends and peripheral envelope surface that is concentric with the centre axis, wherein the front end is formed as a tip having an obtuse nose angle (ε); two chip flutes countersunk in the peripheral envelope surface, which flutes are situated between a pair of bars and run helicoidally at a certain pitch angle (φ) around a central core, and individually are delimited by a chute-shaped flute wall situated between a pair of parallel border edges, a first border edge heading in the direction of rotation of the drill and a second border edge trailing, wherein: a) a cutting edge extends from the centre axis (C) to the periphery and includes a main edge formed by an intersection between the individual chip flute and a clearance surface included in the tip and a center cutting edge oriented at the nose angle (ε), b) the flute wall includes a frontal surface that is situated closest to the first border edge and extends axially rearward from the main edge included in the cutting edge, and a trailing surface situated closest to the second border edge, which trailing surface transforms into the frontal surface via a concavely arched bottom surface and extends rearward from a web thinning formed in the tip and located adjacent to the centre cutting edge, which transforms into the main edge at a knee, wherein the centre cutting edge is shorter than the main edge and wherein, in a view perpendicular to the centre axis (C), a projection of an imaginary line extending from the centre cutting edge intersects the centre axis (C) at a first axial position and a projection of an imaginary line extending from the main edge intersects the centre axis (C) at a second axial position that is axially rearward from the first axial position, c) a radial angle (δ) between the frontal surface and a radial reference line (RL1) between the centre axis (C) and the first border edge is positive so far that the frontal surface is situated rotationally behind the reference line, d) the individual chip flute has an opening angle (α)—counted as the angle between the first reference line (RL1) and a second reference line (RL2) between the centre axis (C) and the second border edge, with which an angle of divergence (β) of the individual bar forms the supplementary angle, e) the core has a diameter (DC) that amounts to at most 22% of the drill diameter (D), f) the angle of divergence (β) of the bar is greater than the opening angle (a) of the chip flute, g) the frontal and trailing surfaces of the individual flute wall are delimited from the bottom surface via helicoidal boundary lines located at a change in radii of curvature between the frontal and trailing surfaces and the bottom surface, and the frontal and trailing surfaces have radii of curvature (r1, r2) as viewed in a plane perpendicular to the centre axis that are at least three times greater than the radius (r3) of the bottom surface, and h) a first boundary line, positioned closest to the first border edge, meeting the main edge in a meeting point that divides the same into two edge segments, an inner edge segment positioned closest to the centre cutting edge has a smaller radius of curvature than an outer edge segment positioned furthest from centre cutting edge.