The present invention is directed to a cutting insert and a cutting tool for such an insert. The invention is particularly directed to a chamfering and counterboring or countersinking insert for drills or milling cutters.
In the art, single-sided cutting inserts for cutting metal and particularly chamfering and counterboring insert for drills and respective tools are known. For example, referring to
DE-A-3610016 relates to a drill with chip disposal flutes, at least one first cutting edge provided at the tip, and a ring which is arranged on the drill and is provided with at least one second cutting edge which is arranged at a certain distance from the first cutting edge in order to chamfer, countersink or counterbore the hole drilled by the first cutting edge. The ring is provided with recesses which are arranged opposite the flutes and form chip passages with the latter.
The prior art single-sided cutting inserts are indexable in one plane only, and have at most two cutting edges per direction of rotation of the drill. Moreover, the transition edge at which the major side surface sections meet prevents clearance between the insert and the workpiece, thereby limiting the depth of cut. Furthermore, clamping relies on the fixation screw and two abutment surfaces only.
The present invention provides a cutting tool comprising an insert holder for releasably retaining a double-sided cutting insert, particularly a chamfering and counterboring or countersinking insert for drills. The cutting insert comprises opposing top and bottom surfaces, and a peripheral side surface extending therebetween. The peripheral side surface preferably comprises two opposing major side surfaces, wherein each major side surface comprises two distinct sections joined via a transition surface extending between the top and bottom surfaces. Preferably each of the distinct sections defines a relief surface. More preferably, each of the two relief surfaces of each of the two major side surfaces defines one major cutting edge with the top or the bottom surface of the insert. Preferably one of the two distinct relief surfaces defines a major cutting edge with the top surface of the insert wherein the second relief surface defines a major cutting edge with the bottom surface of the insert. The peripheral side surface further comprises two opposing minor side surfaces, wherein the two opposing major side surfaces are joined via the two opposing minor side surfaces. The insert preferably has a generally rhomboid form.
The insert according to the present invention is preferably indexable and has a 180° rotational symmetry about a first axis extending substantially perpendicular through the opposing top and bottom surfaces and a 180° rotational symmetry about a second axis extending substantially perpendicular to said first axis. The cutting insert also has 180° rotational symmetry about a third axis which is substantially perpendicular to the first axis and passes through opposing minor side surfaces.
Preferably, the transition surface via which the two relief surfaces of one major side surface merge is generally cylindrical, preferably generally circularly cylindrical or elliptically cylindrical. In other words, the part of the major side surface constituting the transition surface generally forms a segment of a cylinder. Preferably, the transition surface is generally vertical and more preferably its vertical tangent is generally parallel to the first axis extending substantially perpendicular through the opposing top and bottom surfaces.
According to a further preferred embodiment, the transition surface has at least one section which defines a top transition cutting edge with the top surface and one section which defines a bottom transition cutting edge with the bottom surface. Preferably, the major cutting edge provided between one of the two relief surfaces and the top or bottom surface of the insert is tangent to the transition surface. Thus, the major cutting edge preferably smoothly'merges with the respective top or bottom transition cutting edge provided between the transition surface and the top or bottom surface of the insert. The major non-cutting edges defined between the top or bottom surface and the relief surface which do not constitute cutting edges, do not smoothly merge with the respective transition cutting edge provided between the transition surface and the respective top or bottom surface of the insert since these major non-cutting edges are not tangent to the transition surface.
The relief surfaces adjacent a common minor side surface converge at a convergent angle α in a plane of the top or bottom surface. Said angle α preferably is in the range from about 25° to 65°, more preferably from about 30° to 60°, even more preferably from about 40° to 50°, and further preferably about 45°.
Furthermore, to provide clearance, each relief surface is preferably inclined with respect to the first axis at a clearance angle μ, in a cross-sectional view of that relief surface. Preferably, the two relief surfaces of one major side surface are inclined in different directions but at same angle to provide the same clearance with regard to the respective major cutting edges provided on the opposing top and bottom surfaces of the insert. Preferably, each relief surface is inclined at the clearance angle μ from about ±1° to ±25° and even more preferably from about ±5° to ±15° to the first axis.
Preferably, each minor side surface is inclined at an angle γ which varies with respect to the first axis, as seen in a side view of the cutting insert.
According to a further preferred embodiment, the peripheral side surface further comprises at least six distinct abutment sections, two of which are provided on each major side surface and one of which is provided on each one of the opposing minor side surfaces. The six distinct abutment sections constitute four abutment sets, each abutment set including at least three abutment sections, and each abutment section belonging to at least two abutment sets. Each abutment set includes first and second abutment sections located on corresponding first and second relief surfaces of a given major side surface and a third abutment section located on one of the minor side surfaces. The peripheral side surface is configured to have only one abutment set operative at a given time.
In a top view of the insert, a major cutting edge associated with a first relief surface and the top surface forms a first internal obtuse angle δ with the major non-cutting edge associated with the adjacent second relief surface and the top surface of the insert. In the top view, that same major cutting edge forms a second internal obtuse angle ε with the major cutting edge associated with the adjacent second relief surface; the second internal obtuse angle ε is greater than the first internal obtuse angle δ.
Furthermore, the insert holder provided in the cutting tool has an insert pocket that comprises a base and a securing surface, the securing surface including first, second and third support sections. Preferably, the first support section abuts the first abutment section, the second support section abuts the second abutment section and the third support section abuts the third abutment section. The third support section provides support against axial forces. Furthermore, the second support section is adjacent to the third support section, to maintain the contact with both support sections while positioning the cutting insert in its final position during mounting and securing of the cutting insert in the insert pocket.
According to a further preferred embodiment, the first support section is inclined at an angle β1, which is greater (or equal to) than the clearance angle μ. The third support section is inclined at an angle β2, which is greater than (or equal to) the inclination angle γ of the minor side surface at a region of contact between the third section and the third abutment section.
The inclination of the support sections secures the insert to the insert holder firmly and allows better clamping. The pocket of the tool for receiving said inserts has rounded recesses for accommodating the corners of the insert to allow a proper seat of the insert in the pocket.
The present invention has the preferred advantage over the prior art that a cutting insert as well as a tool holder for such inserts is provided which overcome or reduce deficiencies of the prior art and preferably have advantages as to durability, service life or life time, accuracy, effectiveness and efficiency. Even preferably the preciseness of a cutting process can be increased by providing a more precise and longer lasting secure and reproducible position of the major cutting edge of the cutting insert in a tool holder and by preferably alternatively or more preferably additionally improving resistance to forces applied to the cutting insert or the tool holder, e.g. during a cutting operation. Further or additional preferred advantages of the present invention are obvious from the general discussion above as well as the detailed discussion of preferred embodiments as provided below. In particular, the cutting insert of the present invention allows the provision of four indexable major cutting edges thereby improving lifetime and effectiveness of the insert. Also, by provision of an additionally abutment surface, better clamping and positioning of the insert becomes possible. This preferably allows the insert to be used for tougher cutting conditions. Furthermore, the third support or abutment section in the discussed orientation to the other section preferably allows the insert to rotate to its final position in the insert holder while maintaining a contact with both support sections at the same time. Moreover, the transition surface allows a deeper cut.
For a better understanding of the present invention and to show how the same may be carried out in practice, reference will now be made to the accompanying drawings, in which:
Attention is first drawn to
The peripheral side surface 36 has two identical opposed major side surfaces 38 and two identical opposed minor side surfaces 40. The two opposed major side surfaces 38 are joined via the two opposed minor side surfaces 40. Each major side surface 38 has two distinct relief surfaces 42 joined via a transition surface 44 which differs in appearance from the minor side surfaces 40.
A first of the two relief surfaces 42 on each major side surface 38 defines a major cutting edge 46 with the top surface 32 of the insert and a major non-cutting edge 48, which does not constitute a cutting edge, with the bottom surface 34 of the insert. Meanwhile, an adjacent, second of the two relief surfaces 42 defines a major cutting edge 46 with the bottom surface 34 of the insert and a major non-cutting edge 48 with the top surface 32 of the insert. The minor side surfaces 40 form minor non-cutting edges 41 with both the top and bottom surfaces 32, 34, respectively.
As seen in
The cutting insert 24 according to the present invention preferably comprises a first axis A extending substantially perpendicular through the opposed top and bottom surfaces 32, 34 and a second axis B extending substantially perpendicular to the first axis A and passing through the opposing transition surfaces 44. These axes are preferably axes of symmetry. The insert is indexable as specified and has a 180° rotational symmetry about the first axis A and a 180° rotational symmetry about the second axis B. As seen in
Furthermore, the insert preferably comprises a through-bore 50 extending between the top and bottom surfaces 32, 34 for fixing the insert in the insert holder 22 by a fixation screw 52, said first axis A preferably corresponds to the axis of the through-bore 50. The top and bottom surfaces 32, 34 each have rake surfaces 54 extending from the major cutting edge 46 towards the through-bore 50.
In general, the relief surfaces 42 associated with a common major side surface 38 are inclined in opposite directions relative to the first axis (A), but merge at the transition surface 44 which accommodates their differences in inclination. In accordance with some embodiments, the transition surface 44 may be described as a segment of a cylinder. The cylinder may have any desired cross sectional shape. In some embodiments the transition surface 44 may be a segment of a circular cylinder. In some embodiments the transition surface 44 may be a segment of an elliptical cylinder. The transition surface 44 is generally vertically extending and substantially perpendicular to the opposed top and bottom surfaces 32, 34 and preferably its vertical tangent 58 is generally parallel to the first axis A (see also
In a side view of the cutting insert 24, each point on each minor side surface 40 is inclined at an angle γ to the first axis A, or equivalently, to a vertical line 56 parallel to the first axis A. The angle γ may vary along each minor side surface 40 from the top surface 32 to the bottom surface 34 as seen from a side view.
The relief surfaces 42 adjacent a common minor side surface 40 converge at a convergent angle α in a plane of the top or bottom surface 32, 34. Said angle α preferably is in the range from about 25° to 65°, more preferably from about 30° to 60°, even more preferably from about 40° to 50°, and further preferably about 45°.
Each relief surface 42 is preferably inclined at an angle μ to the first axis A (i.e., to the vertical line 56), in a cross-sectional view of that relief surface. During cutting operations, the inclination provides clearance between a major cutting edge 46 associated with that relief surface 42 and a workpiece. The two relief surfaces 42 of one major side surface 38 are inclined at the same angle in different or opposing directions to maintain the features of the indexable insert. The inclination can be seen well in
Attention is now drawn to
As seen in
The present invention provides a new cutting tool 20 with a new double-sided cutting insert 24 which may be used in conjunction with a drill for chamfering and counter boring or countersinking with the advantage of four major cutting edges 46, as opposed to two major cutting edges in the prior art single-sided cutting inserts, to improve the life time of the cutting insert 24, a cylindrical transition surface 44 to allow a deeper cut, clearance with the workpiece and accurate clamping which can withstand tougher cutting conditions. The accurate clamping provided due to the addition of a third support section 78, the fact that the second and third support sections 76, 78 are close to each other and by the inclination of the support sections 74, 78.
Although the present invention has been described to a certain degree of particularity, it should be understood that various alterations and modifications could be made without departing from the scope of the invention as hereinafter claimed.
Number | Date | Country | Kind |
---|---|---|---|
196724 | Jan 2009 | IL | national |
Number | Name | Date | Kind |
---|---|---|---|
5593255 | Satran et al. | Jan 1997 | A |
5921721 | Hintze et al. | Jul 1999 | A |
6171031 | LaFlamme | Jan 2001 | B1 |
6241430 | Norstrom | Jun 2001 | B1 |
6257807 | Heinloth | Jul 2001 | B1 |
6599062 | Oles et al. | Jul 2003 | B1 |
7014395 | Daiguji et al. | Mar 2006 | B2 |
7553112 | Hecht et al. | Jun 2009 | B1 |
7934891 | Jonsson et al. | May 2011 | B2 |
20070003384 | Smilovici et al. | Jan 2007 | A1 |
Number | Date | Country |
---|---|---|
36 10 016 | Oct 1987 | DE |
Entry |
---|
International Search Report in PCT/IL2009/001228, dated Apr. 27, 2010. |
Number | Date | Country | |
---|---|---|---|
20100189521 A1 | Jul 2010 | US |