Title of Invention

CUTTING INSERT AND CUTTING TOOL

Abstract The present invention provides a cutting insert an indexable cutting insert (10). For use is a cutting tool (46) for milling operations, The cutting insert (10) is generally rhomboidal in share having a peripheral side surface.(14) extending between and perpendicular to the two opposing end surfaces (12). A cutting edge section is associated with each end surface (12) end com prises first (12) and second (34) cutting edges merging a corner cutting edge (36). The two first cutting edges (32,34) associated with each end surface form a non-zero first angle with respect in a median plane (m) of the cutting insert (10), The peripheral side surface (12) comprises four generally that major side surfaces (26) two diamertically opposing rediused corner side surface (28) and two diamertically opposing generally flat minor side surfaces (30). Each end surface is provided with a flat end region (24 ). The flat end regions are parallel and from axially outermost protruding regions of the cutting insert (10).
Full Text


cutting operations in general and for cutting small radius internal corners in. particular and also for ramp down cutting operations.
5
BACKGROUND OF THE INVENTION
Such cutting tools, generally in the form of end mills and shell mills are
used in metal working applications in the manufacture of dies and molds and other
structures having complex geometrical surfaces and extended shoulders. In these
10 applications it is often required, to produce internal corners of small radius
sometimes smaller than 0.5 mm. Generally, complex geometrical surfaces are
produced in metal workpieces using ball nose end mills, or end mills with round
cutting inserts. There are no ball nose end mills having replaceable cutting inserts
that can produce internal corners having a radius as small as 0.5 mm, Also, there
15 are no round cutting inserts having radii as small as 0.5mm.
When working a large surface of a workpiece, the most economical
approach is to use cutting tools having large radii cutting inserts in order to produce
the main, large seals features of the surface and then to use tools having small
radius cutting capability for producing small scale features and for reducing the


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radii of internal corners where needed.
Cutting inserts having small radius cutting capability are usually
rhomboidal in shape, having a cutting nose (or comer) with the required small
radius. An example of such a. cutting insert and associated cutting tool is disclosed
5 in EP 1 157 768 Al. The cutting insert has a positive geometry and therefore only
two cutting corners.
It is an object of the present invention to provide a cutting insert having
four cutting comers capable of cutting small radii internal comers in a workpiece.
It is also an object of the present invention to provide a cutting tool such as an end
10 mill capable of seating such a cutting inserts
It is a further object of the present invention to provide a cutting insert
and a cutting tool, of the aforementioned kind, that is also capable of carrying out
ramp down cutting operations.
15 SUMMARY OF THE INVENTION
The cutting insert and cutting tool of the present invention are designed
for cutting metals and composites. Typically, the cutting insert is manufactured by
form-pressing and sintering carbide powders. However, Injection-molding techniques can also be used,
20 In accordance with the present invention there is provided an indexable
cutting insert, for use in a cutting tool for milling operations, comprising
two identical generally rhomboidal opposing end surfaces;
a peripheral side surface extending between the two opposing end surfaces,
the peripheral side surface being perpendicular to a median plane (M) of the cutting
25 insert:
two first cutting edges associated with each end surface the two first cutting
edges associated with a given end surface being parallel to each other, each first
cutting edge forming a non-zero first angle with respect to the median plane M; and
two corner cutting edges associated with each end surface, each corner cutting


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edge merging with one first cutting edge.
Preferably, there are further associated with each end surface two
second cutting edges, the two second cutting edges associated with a given end
surface being parallel to each other, each second cutting edge forming a non-zero
5 second angle with respect to the median plane M, each corner cutting edge merging
with one second cutting edge.
If desired, the first angle is different from the second angle-
Further if desired, the first angle is equal to the second angle
In accordance with the present invention, a continuous cutting edge
10 section is associated with each corner cutting edge, a given cutting edge section
comprising a given corner cutting edge and the first and second cutting edges
merging with the given corner cutting edge.
Generally the peripheral side surface comprises six component side
surfaces, four of the component side surfaces being generally flat major side
15 surfaces and two of the component side surfaces being diametrically opposing
radiused corner side surfaces, each corner side surface being located between and
merging with the two major side surfaces.
If desired, the peripheral side surface comprises two further component
side surfaces in the form of two diametrically opposing generally flat minor side
20 surfaces, each minor side surface being located between and merging with the two major side surfaces.
In accordance with the present invention, each end surface comprises a
rake surface associated with each cutting edge section, the rake surface, extending from the cutting edge section inwards towards the median plane M.
25 Typically, the rake surface merges along a join with a rise that slopes
upwardly from the join away from the median plane M.
Further typically, the rise associated with a given end surface extends
from the join to the flat end region of the given end surface.
In accordance with the present invention, each flat end region is parallel

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to the median plane M.
If desired, the cutting insert is provided with a through bone passing
through the flat end regions.
Quite generally, the cutting insert has 180° rotational symmetry about
5 each of first, second and third axes of rotational symmetry R1, R2, R3, the first
axis R1 being perpendicular to the flat end regions, the second axis R2 passing
through the minor side surfaces and the third axis R3 passing through the corner
side surface.
Also in accordance with the present invention there is provided a cutting
10 tool for milling operations, the cutting tool having an axis of rotation A and comprising:
a plurality of indexable cutting inserts in accordance with the present
invention, each cutting insert being seated in an insert, pocket with an operative first
cutting edge positioned at a given axial rake angle ().
15 Typically, the axial rake angle (g) lies in the range of 00 to 50.
BRIEF DESCRIPTION OF THE DRAWINGS
For a better understanding the invention will now be described, by way
of example only, with reference to the accompanying drawings in which:
20 Fig. 1 is a perspective view of a cutting insert in accordance with the present
invention;
Fig. 2 is an end view of the cutting insert shown in Fig. I;
Fig, 3 is a side view of the cutting insert shown in Fig. 1;
Fig. 4 is another side view of the cutting insert shown in Fig. 1;
25 Fig. 5A is a partial cross-sectional view of the cutting insert shown in Fig. 2
taken along the line VA-VA;
Fig, 5B is a partial cross-sectional view of the cutting insert shown in Fig. 2 taken along the line VB-VB;
Fig. 5C is a partial cross-sectional view of the cutting insert shown in Fig. 2


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taken along the line VC- VC;
Fig. 5D is a partial cross-sectional view of the cutting insert shown in Fig. 2
taken along the line VD-VD; and
Fig, 6 is a side view of a cutting tool in accordance with the present invention.
5
DETAILED DESCRIPTION OF THE INVENTION
Attention is first drawn to Figs. 1 to 4 showing an indexable cutting
insert 10 in accordance with the present invention. The editing insert 10 has two
identical generally rhornboidal opposing end surfaces 12 with a peripheral side
10 surface 14 extending therebetween. Each end surface 12 is bounded by a
peripheral edge 16 at which the end surface 12 and the peripheral side surface 14 merge. Each peripheral edge 16 comprises two continuous cutting edge sections 18 separated by two non- cutting edge sections 20. Adjacent each cutting edge section
18 is a groove 22 which borders a generally flat end region 24 of the end surface
15 12, Therefore the cutting insert 10 has two opposing fiat end regions 24. The two
opposing flat end regions 24 are parallel to each other and to a median plane M of
the cutting insert 10 which is located midway between the flat end regions 24.
The peripheral side surface 14 is perpendicular to the median plane M
and comprises eight component side surfaces, namely, four generally flat major
20 side surfaces 26, two diametrically opposing radiused corner side surfaces 28 and
two diametrically opposing generally flat minor side surfaces 30. Each minor side
surface 30 is located between and merges with the two major side surfaces 26
Similarly, each corner side surface 28 is located between and merges with the two
major side surfaces 26.
25 Each outting edge section 18 comprises a first cutting edge 32, a second
cutting edge 34 and a corner cutting edge 36 at which the first and second cutting
edges 32, 34 marge. Bach first cutting edge 32 extends away from the coprner
cutting edgs 36 with which it merges to an adjacent non-cutting edge section. 20
and towards the median plane M. The first cutting edge 32 is preferably straight


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and is inclined at a non-zero first angle 1 with respect to the median plane M.
Similarly, each second cutting edge 34 extends away from the corner cutting edge
36 with which it merges to an adjacent non-cutting edge section 20 and towards the
median plane M. The second cutting edge 34 is preferably straight and is inclined
5 at a non-zero second angle 62 with respect to the median plane M The first and
second angles 01, 82 can be equal or non-equal to each other. The two first cutting
edges 32 associated with a given end surface 12 are parallel to each other, and the
two second cutting edges 54 associated with a given end surface 12 are parallel to
each other. The flat minor side surfaces 30 from a pair of diametrically opposed
10 flat corners of the cutting insert 10,
Each end surface 12 comprises a rake surface 38 adjacent each cutting
edge section 18. The rake surface 38 extends from the cutting edge section 18
inwards towards the median plane M to a join 40 where it merges with a rise 42
that slopes from the join 40 away from the median plane M to the flat end region
15 24 As can be seen in Figs. 2 and 5A to 5D, the rake surface 38 adjacent the first
cutting edge 32 has a variable length (measured perpendicular to the first cutting
edge 52.) along the cutting edge. It has a first length L1 (at cross-section VA-VA)
near to an adjacent non-cutting edge 20 and 3 second length 1-2 (at cross-section
VB-VB) near to an adjacent corner cutting edge 36, where the second length L2 is
20 greater than the first length L1 and continuously varies between these two values
along the cutting edge. On the other hand, the rake surface 33 adjacent with the
second cutting edge 34 has a third length L3 which is approximately constant along
the length of the second cutting edge 34. For the sake of clarity it is pointed out
that the line shown as the join 40 in Figs, 1 and 2 is only illustrative. It will be
25 apparent from Figs. 5A to 5D that the join 40 is actually a curved region of finite
width -forming part of the groove 22.
The cutting insert 10 has 1800 rotational symmetry about first, second
and third axes of rotational symmetry R1, R2, H3, The first axis R1 is
perpendicular to the flat end tegions 24, the second axis R2 passes through the


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minor side surfaces 30 and the third axis R3 passes through the corner side surfaces
28. The second and third axes R2, R3 lie in the median plane M and the first axis
Rl is perpendicular to the second and third axes R2, R3. The cutting insert 10 is
provided with a through bore 44 having as axis the first axis of rotational symmetry
5 R1. The through bore 44 extends between the flat end regions 24 and defines an
axial direction of the cutting insert. It should he noted from the side views of the
cutting insert 10 in Figs, 3 and 4 that the cutting insert 10 is widest in the axial
direction of the cutting insert 10 at regions where the flat end regions 24 are
directly opposite each other. In other words, the flat end regions 24 form axially
10 outermost protruding regions of the cutting insert 10. Typically, the radius R of the
corner cutting edges 36 is in the range 0.2 to 6.35 mm.
Attention, is now drawn to Fig. 6 showing a cutting tool 46 in
accordance with the present invention. The cutting tool 46 is an end mill capable
of cutting small radii internal corners in a workpiece 48 in accordance with the
15 value of the radius R of the corner cutting edges 36. The cutting tool 46 is also
capable performing ramp down cutting operations by means of the second cutting
edge 34, The cutting tool 46 has an axis of rotation A and comprises a culler body
50 with the indexable cutting inserts 10 in accordance with the present invention
seated in insert pockets 52 of the cutter body 30. Each, cutting insert 10 has two
20 effective operative cutting edges, one operative first cutting edge 32' and one
operative second cutting edge 34', and one operative corner cutting edge 36', The
insert pockets 52 are so designed that the operative first cutting edge 32' is
positioned with and axial rate angle of typically close to 00 but generally no
larger that 50, Since the operative first cutting edge 32' makes a first angle 01 with
25 respect to the median plane M of the cutting insert 10 an inherent back clearance a
typically close to  but generally no less than 1 -50 is obtained between the
cutting insert 10 and portions of the surface of the workpiece 48 adjacent the
operative second cuitting edge 34',
The operative first cutting edge 32' can be divided into a leading portion


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adjacent the operative cutting comer 36', a trailing portion distal the operative
catting corner 36' and an intermediate portion therebetween. In cutting operations
involving the production of internal small radius corners in a workpiece, such as in
the manufacture of dies and molds, it is mainly the operative cutting corner 36' that
5 is involved in the cutting operation. It will be appreciated that even if the leading
portion of the operative first cutting edge 32' also participates in such cutting
operations, the groove 22 should extend adjacent the whole length of the operative
first cutting edge 32' from the leading portion to trailing portion, in order to provide
clearance between the end surface 12 adjacent the trailing portion of the operative
10 first cutting edge 32' and the workpiece 48. It will also be appreciated that if
instead of the flat minor side surfaces 30 the cutting insert were to have comers
protruding beyond the flat minor side surfaces 30, then that part of the cutting insert
protruding beyond the flat minor side surfaces 30 associated with the operative first
cutting edge 32' would disadvantageously enter the cutting circle defined by the
15 operative first cutting edge 32', This is especially important when working in the
region of extended shoulders and also in ramp up cutting operations.
Although the present invention has been described to a certain degree of
particularity, it should be understood that various alterations and modifications can
be made without departing from the spirit or scope of the invention as hereinafter
20 claimed

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CLAlMS:
1. An indexable cutting insert (10), for use in a cutting tool (44) for milling
operations, comprising:
two identical generally rhomboidal opposing end surfaces (12);
5 a peripheral side surface (14) extending between the two opposing end
surfaces (12), the peripheral side surface (14) being perpendicular to a median
plane (M) of the cutting insert (10);
two first cutting edges (32) associated with each end surface (12): the two
first cutting edges (32) associated with, a given end surface (12) being parallel to
10 each other, each first cutting edge (32) forming a non-zero first angle with respect
to the median plane (M); and
two corner cutting edges (36) associated with each end surface (12), each
corner cutting edge (36) merging with one first cutting edge (32).
2. An indexable cutting, insert according to claim 1, further comprisnig two
15 second cutting edges (34), associated with each end surface (12), the two second
cutting edges (34) associated with a given end surface (12) being parallel to each
other, each second cutting edge (34) forming a non-zero second angle with respect
to the median plane (M), each corner cutting edge (36) merging with one second
cutting edge (34).
20 3. An indexable cutting insert according to claim 2, wherein the first angle
is different from the second angle,
4. An indexable cutting insert according to claim 3, wherein a continuous
cutting edge section (18) is associated with each corner cutting edge (36), a given
cutting edge section (18) comprising a given corner cutting edge (36) and the first
25 and second cutting edges (34) merging with the given corner cutting edge (36),
5. An indexable cutting insert according to claim 4, wherein the peripheral
side surface (14) comprises six component side surfaces, four of the component
side surfaces being generally flat major side surfaces (26) and two of the
component side surfaces being diametrically opposing radiused corner side surfaces
30 (28), each corner side surface (28) being located between and merging with the two


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major aide surfaces (26).
6. An indexable cutting insert according to claim 5, further comprising two
diametrically opposing generally flat minor side surfaces (30), each minor side
surface (30) being located between two major side surfaces (26).
5 7. An indexable cutting insert according to claim 6, wherein each end
surface (12) comprises a rake surface (38) associated with each cutting edge section
(18}, the rake surface (38) extending from the cutting edge section (18) inwards
towards the median plane (M).
8. An indexable cutting insert according to claim 7, wherein the rake
10 surface (38) merges along a join (40) with a rise (42) that slopes upwardly from the
join (40) away from the median plane (M).
9. An indexable cutting insert according to claim 8, wherein the rise (42)
associated with a given end surface (12) extends from the join (40) to the flat end
region (24) of the given end surface (12).
15 10. An indexable cutting insert according lo claim 9, wherein each, flat end
region (24) is parallel to the median plane (M).
11. An indexable cutting insert according to claim 10, wherein the cutting
insert (10) is provided with a through bore passing through the flat end regions
(24).
20 12. An indexable cutting insert according to claim 11, wherein the cutting
insert (10) has 180° rotational symmetry about each of first, second, and third axes
of rotational symmetry (R1, R2, R3), the first axis (R1) being perpendicular to the
flat end regions (24), the second axis (R2) passing through the minor side surfaces
(30) and the third axis (R3) passing through the corner side surfaces (28),
25 13. A cutting rool (44) for milling operations, the cutting tool having an axis
of rotation (A) and comprising;
a plurality of indexable cutting inserts (10) in accordance with claim 12, each
cutting insert (10) being seated in an insert pocket with an operative first cutting
edge (32') positioned at a given axial raks angle (g)

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14. A cutting tool according to claim 13, wherein the axial rake angle (g)
lies in the range of 0° to 5°.


The present invention provides a cutting insert an indexable cutting insert (10). For use is a cutting tool (46) for
milling operations, The cutting insert (10) is generally rhomboidal in share having a peripheral side surface.(14) extending between
and perpendicular to the two opposing end surfaces (12). A cutting edge section is associated with each end surface (12) end com
prises first (12) and second (34) cutting edges merging a corner cutting edge (36). The two first cutting edges (32,34) associated
with each end surface form a non-zero first angle with respect in a median plane (m) of the cutting insert (10), The peripheral side
surface (12) comprises four generally that major side surfaces (26) two diamertically opposing rediused corner side surface (28)
and two diamertically opposing generally flat minor side surfaces (30). Each end surface is provided with a flat end region (24 ). The
flat end regions are parallel and from axially outermost protruding regions of the cutting insert (10).

Documents:


Patent Number 214246
Indian Patent Application Number 00983/KOLNP/2005
PG Journal Number 06/2008
Publication Date 08-Feb-2008
Grant Date 07-Feb-2008
Date of Filing 26-May-2005
Name of Patentee ISCAR LTD.
Applicant Address P.O.BOX 11,24959TEFEN, ISRAEL.
Inventors:
# Inventor's Name Inventor's Address
1 SATRAN, AMIR 6 MORAN STREET, 25147 KFAR VRADIRN, ISRAEL
PCT International Classification Number B23C 5/20
PCT International Application Number PCT/IL03/000909
PCT International Filing date 2003-11-03
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 153093 2002-11-26 Israel