Patent ID: 7147411
Filing Date: 2006-12-12
Classification: B23B,Y10S,Y10T

Abstract:
1. A gundrill for forming deep holes in a body of material as the gundrill is rotated, axially advanced and supplied with drilling fluid, the gundrill comprising: an elongate tubular shank having a driven end, a distal end and a tubular central region extending axially therebetween, the tubular shank having a non-circular fluted cross-section extending from the distal end for at least a substantial portion of the length of the central region providing an elongate flow path between the hole being drilled and the periphery of the tubular shank for drilling fluid, which is pumped into an internal passage formed through the tubular shank's central region to exit the hole being drilled and remove chips; and a cutting member affixed to the distal end of the tubular shank, the cutting member having an internal fluid passageway which is coupled to the tubular shank internal passage and terminates in an orifice formed in a tip end surface, and a flute extending axially from the tip end surface toward and generally aligned with the fluted cross-section of the tubular shank, the flute defined in part by a secondary flank surface and a generally radially extending primary rake surface having a peripheral rake edge lying on a cylindrical surface coaxial with the central axis, and a generally radially extending cutting edge at the tip end which defines a radially offset point; wherein the tip end surface of the cutting member cooperates with the hole being drilled to define a bottom space area therebetween which receives drilling fluid through the tip end surface orifice and discharges drilling fluid through an outlet passage which is generally bounded by the distal edge of the secondary flank surface and the bottom of the hole being drilled, wherein the drilling fluid flows through the outlet passage into the elongate fluid return path initially forming a maximum angle β, relative to the hole axis when viewed radially, which is greater than sixty-six degrees in order to effectively cool the tip cutting edge with minimal drilling fluid stagnation.