Cutters – for shaping – Rotary cutting tool – Having peripherally spaced teeth
Reexamination Certificate
2001-10-15
2004-04-13
Howell, Daniel W. (Department: 3722)
Cutters, for shaping
Rotary cutting tool
Having peripherally spaced teeth
C407S119000
Reexamination Certificate
active
06719501
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a cemented carbide end mill with three or more cutting edges that can perform drilling, grooving and side-surface cutting with high efficiency in milling operations.
The cemented carbide end mill comprises peripheral cutting edges and end cutting edges. A conventional three-flute cemented carbide end mill, when viewed in across section perpendicular to an axis of the end mill as shown in
FIG. 3
b
, has a ratio of about 1 to 6 between a land width L
1
of a flank
14
of a peripheral cutting edge
3
and a width L
2
of a flute
15
. According to the definition given by The Japanese Industrial Standard (JIS), “land width” is defined as “the width of land” and “land” is defined as “The part having bank state width from cutting edge to heel of milling cutter having slots (flutes). Further, “flute” is defined as “The dent part between the neighboring cutting edge and the heel. Therefore, “the land width L
1
” is the width from a cutting edge
3
to heel
19
, and this width is measured as shown in the
FIG. 3
b
, the radial width between a line passing both a cutting edge
3
and an axis 0 of the end mill, and a parallel line thereto passing through heel
19
. And “the flute width L
2
” is drawn as the distance between the neighboring cutting edge
3
and heel
19
from the definition of the “flute”. A core diameter d
1
is about 60%-70% of an outer diameter
17
. The flute
15
has a 60%-70% slant portion
15
a
in a shape bulging radially outwardly.
FIGS. 3
a
and
3
c
illustrates a conventional two-flute end mill and four-flute end mill, respectively.
JP-2000-52127A discloses an end mill of a different shape. This end mill, when viewed in a cross section perpendicular to the peripheral cutting edges, has its flute surfaces assuming a continuous concave shape, its core diameter of about 60%-75% of the outer diameter and its helix angle of about 30°-50°.
In conventional cemented carbide end mills, a two-flute end mill is mainly used for hole drilling and groove cutting. In side surface machining, three- and four-flute end mills are more advantageous than the two-flute end mills in terms of machining efficiency and precision. In hole drilling and groove cutting, on the other hand, the three- and four-flute end mills are not good at chip discharging capability, and have a problem that cut grooves are inclined or their corners are severely worn out.
BRIEF SUMMARY OF THE INVENTION
An object of the present invention is to solve the above-described problem of the conventional art and provide a cemented carbide end mill with three or more cutting edges, which has a good chip discharging capability even in the hole drilling and groove cutting and which minimizes the tilting of cut grooves and the corner wear of the end mill.
The invention solves the above-described problem by the cemented carbide-coated end mill constructed as follows. The cemented carbide end mill has three or more cutting edges formed on its periphery and a plurality of flutes each provided between adjacent cutting edges. Each of the cutting edges has a base material of ultra-fine cemented carbide allow containing 10%-14% cobalt and is coated with a titanium-aluminum nitride hard film. Each flute has a helix angle of 35°-60° and, when viewed in a cross section perpendicular to the end mill axis, is in a shape generally concave radially inwardly. The cutting edges and the flutes are so formed that the ratio of the land width to the flute width is 1:1.5 to 1:4, and that the core diameter is 62%-68% of the diameter of the end mill, wherein the land width is the width from the cutting edge to heel, and the flute width is the distance between the neighboring cutting edge and heel.
With this construction, the cutting edges are greatly improved in tenacity because of the base material of ultra-fine cemented carbide alloy containing 10%-14% cobalt, and are improved in wear resistance because of the titanium-aluminum nitride hard film coated thereon. In addition, the ratio of the land width to the flute width, when viewed in a cross section perpendicular to the axis of the cutting edges, is set at 1:1.5 to 1:4 so as to increase the land width. This increases the rigidity of the end mill and thus can reduce the inclination of cut grooves and the corner wear of the end mill. The flutes, because of the generally concave bottom shape, facilitate the curling of chips and forcibly discharge them. Further, setting the flute helix angle at 35°-60° intends to both reduce the cutting resistance and increase the end mill strength against fracture.
Between the heel and a flute bottom, the flute may comprise two generally concave portions and be in a shape in which these two portions are intersected such that the intersecting point protrudes radially outwardly.
Each of the cutting edges preferably has a first flank following the cutting edge and a second flank connecting the first flank and the flute, and the second flank is in a shape generally concave radially inwardly. With this structure, a stepped portion in a conventional end mill that follows the flank of a cutting edge is replaced with the smooth curved surface to enable further enhancement of the rigidity of the end mill.
In the case of a three-flute end mill, it is preferable that the land width-to-flute width ratio is 1:2 to 1:4 and the flute helix angle is 40°-60°.
In the case of a four-flute end mill, it is preferable that the land width-to-flute width ratio is 1:1.5 to 1:3 and the flute helix angle is 35°-45°.
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patent: A-2000-52127 (2000-02-01), None
Goshima Yasushi
Kagiya Yuu
Sekiguchi Toru
Howell Daniel W.
Nachi-Fujikoshi Corp.
Venable LLP
Voorhees Catherine M.
Walsh Brian D.
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