Title of Invention

AN IMPROVED ROTARY CUTTING END MILL TOOL.

Abstract

This invention relates to an improved rotary cutting end mill tool (10) having a shank portion (14) and a cutting portion (12), the end cutting edges (20, 22, 24) each end e cutting portion (12) comprising a plurality of cutting edges (32, 34, 36) on the circumference thereof and terminating in a tip (18) having a plurality of end cutting edges (20, 22, 24), each end cutting edge radiating to the periphery of the tip (18) and there at intersecting one of said plurality of said cutting edges (32, 34, 36), and a peripheral end edge portion (70) and an interior edge portion (72), the peripheral end edge portion (70) sloping relatively shallowly from the tip periphery towards the shank portion (14), and the interior edge portion (72) sloping relatively steeply from peripheral edge portion (70) towards the shank portion (14), wherein the tip (18) additionally comprises a plurality of primary lands (46, 48, 50), each primary land adjoining a respective end cutting edge (20) and having a peripheral end land portion adjoining the peripheral end edge portion (70), and an interior land portion adjoining the interior edge portion (72).

Full Text

Background of the Invention I. Field of the Invention This invention relates to rotating cutting tools. In particular, this invention relates to end milling tools, and most particularly to end milling tools providing improved performance for cutting while being advanced simultaneously in the direction of the tool longitudinal axis (infeed), and in a direction transverse to the tool longitudinal (translational feed), such simultaneous feed known as tamp feed". II. Description of Related Art End mills are generally cylindrically shaped cutting tools comprising a body portion and shank portion, the body portion including cutting edges and the shank portion typically comprising surfaces for retention by a tool rotating device. Typically, the body portion comprises a tip or end comprising end cutting edges, and a cutting length comprising a plurality of flutes defining side cutting edges terminating at the tip. Known end mills may have straight or helical flutes, and may have two, three, four or more flutes and two, three, four, or more end cutting edges. It is known to arrange end cutting edges to iie along radii at the tip and to provide channels or gashes in the tip inter-spaced with end cutting edges and continuous between the tip circumference and the interior of the tip proximate the tip center. Further, it is known to have end cutting edges lie in planes oblique to the tool longitude and sloping at relatively shallow angles from the tool periphery toward the tip center. US Patent No. 2,129,417 discloses an end mill having an arcuate depression in the tip end interiorly of the end cutting edges such that the end cutting edges are of relatively short effective length and are well supported by the sloping sides of the arcuate depression. The end mill disclosed is described as having improved resistance to chipping of the end cutting edges. US Patent No. 5,049,009 discloses an end mill wherein end cutting edge portions, lying parallel to radii at the tip, slope shallowly inwardly from the tip periphery toward the shank end and intersect at the tip center. A primary land (referred to as a "first back-off surface") lies between each end cutting edge portion and a relief surface intersecting trailing side non-cutting surfaces. -2- US Patent No. 5,779,399 discloses an end mill wherein only one end cutting edge lies along a radius at the tip and extends from the periphery through the tip center. As shown in this reference, relief is provided in the tip end behind the end cutting edge and between the end cutting edge and a sidewall of a gash. The end cutting edge of this reference lies in a plane perpendicular to the tool longitude. EP 0352224 discloses a cutting tool and method for cutting multidirectional cuts in a workpiece. The cutting tool (10) has a body portion (12) having a generally cylindrical outer wall (13) and inner periphery (11). A plurality of cutting teeth (22, 36,50) are spaced circumferentiatly around the lower end and a plurality of flutes (14) extend upwardly around the outer periphery (13) from the tower end. The cutting teeth (22,36,50) include a plurality of generally radially extending cutting edges (36) positioned about the face of the cutting tool (10), a plurality of inside diameter cutting edges (50) formed at the line of intersection of the radially extending cutting edges (36) and the inner periphery (11) of the cylindrical wall, and a plurality of outside diameter cutting edges (22) formed at the line of intersection of the radially extending cutting edges (36) and the outer periphery (13) of the cylindrical wall. The method includes the ability to move the cutting tool (10) in a direction coincident to the axis of rotation of the cutting tool (10) and at angles to the rotational axis of the cutting tool (10), either sequentially or simultaneously to obtain cuts with complex contours with each of the directions of cutting having generally the same cutting capacity. Known end milts tend to chatter during ramp feeding at nominal feed rates because of the relatively high forces acting on the trailing side of the tip end. To avoid tool chatter, it is conventional to reduce feed rates below nominal values -2a- during ramp feeding. Consequently, there is a need for an end mill providing improved cutting performance during ramp feeding, particularly exhibiting reduced chatter inducing forces and allowing feed at nominal feed rates. Summary of the Invention It is an object of the present invention to provide an end mill exhibiting free cutting in ramp feeding whereby forces are reduced. It is a further object of the present invention to provide an end mill providing improved delivery of coolant to the end cutting edge. Further objects and advantages of the invention shall be made apparent from the accompanying drawings and the following description thereof. In accordance with the aforesaid objects, the present invention provides an end mill wherein end cutting edges parallel radii of the tip and lie along primary and secondary slopes from the tool periphery inwardly. The primary slope is relatively shallow and over a relatively short portion of the cutting edge, the secondary slope is relatively steep and extends over the greater portion of the end cutting edge. The tip includes a land adjacent each end cutting edge and the primary slope provides relief in this land behind the peripheral edge of the land. The secondary slope promotes delivery of coolant proximate the primary slope and evacuation of chips from the cutting zone. Brief Description of the Drawings Fig, 1 is a side view of an end mill in accordance with the invention. Fig. 2 is a top view of the tip end of the end mill of Fig. 1. -3- Fig. 3 is a partial section of a cutting portion of the cutting too! taken along lines A-A of Fig. 2. Figs. 4-7 are graphs of measured forces from cutting tests of tools in accordance with the invention and tools in accordance with the prior art. Detailed Description of the Preferred Embodiment Referring to Fig. 1, tool 10 comprises a cutting portion 12 and a shank portion 14. Shank portion 14 may include surface features such as flat 16 for securing the shank portion in a device for rotating tool 10. Cutting portion 12 terminates in a tip end 18 comprising end cutting edges 20, 22, and 24 (Fig. 2). Cutting portion 12 includes helical flutes 26, 28 and 30 in the circumference thereof. While three helical flutes are depicted in Fig, 1, cutting tools in accordance with the invention may include two or more flutes. Flutes 26, 28 and 30 define side cutting edges 32, 34, and 36, the flutes and side cutting edges shown being helical. Contours of flutes 26, 28 and 30 undercut the periphery of cutting portion 12 to produce positive cutting geometry at the cutting edges 32, 34 and 36. Referring to Fig. 2, inter-spaced with end cutting edges 20, 22, and 24 are channels, or gashes 40, 42 and 44. Gashes 40, 42 and 44 intersect the periphery of tool 10 and continue inwardly toward the center of tip, 18. The bottom contour of each of gashes 40, 42 and 44 slopes from the periphery of tool 10 away from shank portion 14 toward the tip center. Typically, gashes 40, 42 and 44 undercut, respectively, end cutting edges 20, 22, and 24 to produce positive cutting geometry at the cutting edges 20, 22, and 24. Adjoining cutting edges 20, 22 and 24 are primary lands 46, 48, and 50. Between, respectively, lands 46, 48 and 50 and gashes 40, 42 and 44, are relief surfaces 52, 54, and 56, Relief surfaces 52, 54, and 56 are planar, sloping towards the shank end from, respectively, lands 46t 48 and 50 to non-cutting segments 58, 60, and 62 of cutting portion 12. A side view of cutting edge 32 and end cutting edge 20 are shown in Fig. 3. As seen in Fig. 3, end cutting edge 20 intersects helical cutting edge 32 at the periphery of tip portion 18. Likewise, end cutting edges 22 and 24 intersect helical cutting edges 36 and 34, respectively. As shown in Fig. 3, each end cutting edge comprises two portions, a peripheral end edge portion, and interior edge portion, in the case of end cutting edge 20, peripheral end edge -4- portion 70 and interior edge portion 72. Peripheral end edge portion 70 slopes relatively shallowfy toward shank portion 14 from the tool periphery to interior edge portion 72. Angle 74, defining the slope of peripheral end edge portion 70, is typically 2-5 degrees, preferably greater than 2 and less than 4.5, most preferably between 3 and 4 degrees, interior edge portion 72 slopes relatively steeply toward shank portion 14 from end edge portion 70 to intersection with gash 46, Angle 76, defining the slope of interior portion 72 is in the range of 5-25 degrees, preferably 10-20 degrees. Preferred slopes include 12-18 degrees. Land 46, adjoining cutting edge 20, also comprises two portions, peripheral end land portion SO, and interior land portion 82 (Fig. 2). The combination of shailowly sloped end cutting edges and gashes of conventional end mills leaves substantial central portions where forces tend to push the tip center off the axis of rotation of the tool. The combination of gashes and relatively steep sloping interior end edge portions of end milling tools according to the invention provides relief proximate the center of tip 18, reducing forces tending to drive the tip center off the axis of rotation of the tool. Due to the reduction in forces, the feed rate can be increased, allowing faster cutting. Further, the steep sloping interior end edge portions allow heat to escape from the cutting edge workpiece interface and allow coolant to contact this interface for lubrication and cooling. Cutting tests were made comparing performance of tools in accordance with the invention and like tools wherein'tfce end cutting edges were singly sloped from the tool periphery to their interior terminations. The tools tested were three fluted, carbide end mills, 0.50 inch cutting diameter, with three end cutting edges. Cutting tests were performed on a workpiece of 6061T85 aluminum, the tool being rotated at 3500 rpm, and driven aiong ramps of selected angles at a depth of cut of 0.50 inches, and a width of cut of 0.25 inches. Feedrates were varied to vary the feed per tooth of the tip cutting edges from 0.003 inches to 0.01 inches (workpieces were pre-machined with the appropriate ramp angle to produce constant depth of cut). During the cutting tests, forces along three orthogonal axes were measured using a three axis strain gauge dynamometer and the measured forces plotted to produce the test results illustrated in the graphs of Figs. 4-7 (negative values reflect the direction of the measured force along the identified axis). Cutting associated with measurements appearing in Fig. 4 was performed at a ramp angle of zero degrees. Cutting associated with measurements appearing in Fig. 5 was performed at a ramp angle of fifteen degrees. Cutting associated with -5- measurements appearing in Fig. 6 was performed at a ramp angle of 30 degrees. Cutting associated with measurements appearing in Fig. 7 was performed at a ramp angle of 45 degrees. Referring to Figs. 4 - 7, it is seen that tools in accordance with the invention exhibited reduced force in ail directions as compared to forces associated with cutters in accordance with the prior art, i.e., lacking the relatively steeply inclined interior portion of the end cutting edges. With increased ramp angle, the reduction of forces exhibited by cutters according to the invention increased. While the invention has been illustrated with reference to a preferred embodiment, and the preferred embodiment has been described in considerable detail, it is not the intention of the inventors to limit the invention to such details. Rather, it is intended that the invention be defined by the appended claims and all equivalents thereof. 6 WE CLAIM 1. An improved rotary cutting end mill tool (10) having a shank portion (14) and a cutting portion (12), the end cutting edges (20, 22, 24) each end e cutting portion (12) comprising a plurality of cutting edges (32, 34, 36) on the circumference thereof and terminating in a tip (18) having a plurality of end cutting edges (20, 22, 24), each end cutting edge radiating to the periphery of the tip (18) and there at intersecting one of said plurality of said cutting edges (32, 34, 36), and a peripheral end edge portion (70) and an interior edge portion (72), the peripheral end edge portion (70) sloping relatively shallowly from the tip periphery towards the shank portion (14), and the interior edge portion (72) sloping relatively steeply from peripheral edge portion (70) towards the shank portion (14), characterized in that the tip (18) additionally comprises a plurality of primary lands (46, 48, 50), each primary land adjoining a respective end cutting edge (20) and having a peripheral end land portion adjoining the peripheral end edge portion (70), and an interior land portion adjoining the interior edge portion (72). 2. The improved rotary cutting end mill tool (10) as claimed in claim 1, wherein the tip (18) comprises a plurality of relief surfaces (52, 54, 56), each relief surface adjoining a respective primary land (46) and sloping therefrom towards the shank portion (14) for intersection with a non- cutting segment (58, 60, 62) of the cutting portion (12) circumference. 7 3. The improved rotary cutting end mill tool (10) as claimed in claim 1, wherein the tip (18) comprises a plurality of channels, each channel (40, 42, 44) being continuous from a non-cutting segment (58, 60, 62) of the cutting portion (12) to a terminus proximate the tip (18) center and adjoining a respective relief surface (52) and intersecting a respective interior edge portion (72). 4. The improved rotary cutting end mill tool (10) as claimed in claim 1, wherein the peripheral end edge portion (70) slopes at an angle in the range of 2-5 degrees. 5. The improved rotary cutting end mill tool (10) as claimed in claim 4, wherein the interior edge portion This invention relates to an improved rotary cutting end mill tool (10) having a shank portion (14) and a cutting portion (12), the end cutting edges (20, 22, 24) each end e cutting portion (12) comprising a plurality of cutting edges (32, 34, 36) on the circumference thereof and terminating in a tip (18) having a plurality of end cutting edges (20, 22, 24), each end cutting edge radiating to the periphery of the tip (18) and there at intersecting one of said plurality of said cutting edges (32, 34, 36), and a peripheral end edge portion (70) and an interior edge portion (72), the peripheral end edge portion (70) sloping relatively shallowly from the tip periphery towards the shank portion (14), and the interior edge portion (72) sloping relatively steeply from peripheral edge portion (70) towards the shank portion (14), wherein the tip (18) additionally comprises a plurality of primary lands (46, 48, 50), each primary land adjoining a respective end cutting edge (20) and having a peripheral end land portion adjoining the peripheral end edge portion (70), and an interior land portion adjoining the interior edge portion (72).

Documents:

in-pct-2002-00304-kol abstract.pdf

in-pct-2002-00304-kol assignment.pdf

in-pct-2002-00304-kol claims.pdf

in-pct-2002-00304-kol correspondence.pdf

in-pct-2002-00304-kol description(complete).pdf

in-pct-2002-00304-kol drawings.pdf

in-pct-2002-00304-kol form-1.pdf

in-pct-2002-00304-kol form-18.pdf

in-pct-2002-00304-kol form-2.pdf

in-pct-2002-00304-kol form-26.pdf

in-pct-2002-00304-kol form-3.pdf

in-pct-2002-00304-kol form-5.pdf

in-pct-2002-00304-kol form-6.pdf

in-pct-2002-00304-kol letter patent.pdf

in-pct-2002-00304-kol priority document.pdf

in-pct-2002-00304-kol reply f.e.r.pdf

in-pct-2002-304-kol-granted-abstract.pdf

in-pct-2002-304-kol-granted-assignment.pdf

in-pct-2002-304-kol-granted-claims.pdf

in-pct-2002-304-kol-granted-correspondence.pdf

in-pct-2002-304-kol-granted-description (complete).pdf

in-pct-2002-304-kol-granted-drawings.pdf

in-pct-2002-304-kol-granted-form 1.pdf

in-pct-2002-304-kol-granted-form 18.pdf

in-pct-2002-304-kol-granted-form 2.pdf

in-pct-2002-304-kol-granted-form 26.pdf

in-pct-2002-304-kol-granted-form 3.pdf

in-pct-2002-304-kol-granted-form 5.pdf

in-pct-2002-304-kol-granted-form 6.pdf

in-pct-2002-304-kol-granted-gpa.pdf

in-pct-2002-304-kol-granted-letter patent.pdf

in-pct-2002-304-kol-granted-reply to examination report.pdf

in-pct-2002-304-kol-granted-specification.pdf

in-pct-2002-304-kol-granted-translated copy of priority document.pdf