• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    cutting insert and cutter. a cutting insert (10) has a cutting edge (54,56) formed at the intersection of a lateral surface (14) and an extreme surface (12). recesses (52) formed on the side surface (14) interrupt the cutting edge in portions of recessed cutting edges (54). each recessed cutting edge portion (54) has an extreme view of the cutting insert and a curved central section, located between two curved side sections. the center section has a first radius of curvature and each side section has a second radius of curvature, the first radius of curvature being greater than the second radius of curvature.
    公开号:BR112012015980B1
    申请号:R112012015980-1
    申请日:2010-12-14
    公开日:2020-02-27
    发明作者:Carol Smilovici;Osama Atar
    申请人:Iscar Ltd.;
    IPC主号:
    专利说明:

    CUTTING INSERT, E, MILLING FIELD OF THE INVENTION [001] The present invention relates to cutting inserts that have cutting edges with indented portions.
    BACKGROUND OF THE INVENTION [002] Cutting inserts that have cutting edges with recessed portions, such as notches or grooves, are generally used for machining by heavy milling of metal parts being worked on at high metal removal speeds.
    [003] There are several examples disclosed in the cutting insert technique that have cut edges with indented portions. Shaped triangular, square, round and rectangular shaped inserts are disclosed, respectively, in US 3574911; US 3636602; US 3,922,766 and US 4,936,719.
    [004] However, in such cutting inserts of the prior art, the shape of the recessed portions is generally not optimized for overall performance and, in several cases, the cutting inserts are subject to breakage at the cutting edges during milling operations. In addition, the generic geometry of the cutting inserts of the prior art which have cut edges with indented portions is, in many cases, limited to the shape of flat bricks with inclined surfaces and opposite flat parallel bases, or simple positive geometries, with this limiting the range of applications of the cutting inserts.
    SUMMARY OF THE INVENTION [005] According to the present invention, a cutting insert is provided which comprises opposite extreme surfaces and a peripheral lateral surface extending between them. The peripheral side surface includes a main side surface. A main cutting edge is formed at the intersection of the main side surface with one of the extreme surfaces. The extreme surface includes an inclined surface along which flow
    Petition 870190137157, of 12/20/2019, p. 5/46 / 10 chips cut from a workpiece during a machining operation.
    [006] According to the present invention, recesses formed in the main side surface interrupt the main cutting edge in recessed cutting edges. Each recessed cutting edge portion is located between two non-recessed cutting edge portions. In an extreme view of the cutting insert, when looking at the extreme surface with the main cutting edge, each recessed cutting edge portion comprises a curved central section located between two curved side sections.
    [007] This structure of the recessed cutting edge portions has proven to be advantageous in milling operations, especially heavy milling of metal parts being processed at high metal removal rates. On the one hand the interrupted cutting edge causes chip splitting and, on the other hand, the curved sections provide a robust interrupted cutting edge, which can also withstand greater cutting forces without breaking, compared to interrupted cutting edges on which the recessed cutting edge portions do not have this curved structure.
    [008] According to a preferred embodiment, the central section has a first radius of curvature and each side section has a second radius of curvature, the first radius of curvature being greater than the second radius of curvature. This particular structure provides additional reinforcement of the interrupted cutting edge.
    [009] According to certain specific applications, optimized for better performance, the first radius of curvature is in the range of 0.7 to 0.9 mm and the second radius of curvature is in the range of 0.3 to 0.5 mm .
    [0010] According to a particular application, the first radius of curvature is equal to 0.83 mm and the second radius of curvature is equal to 0.4 mm.
    [0011] Non-recessed cutting edge portions can have any of a number of suitable geometries. According to some
    Petition 870190137157, of 12/20/2019, p. 6/46 / 10 modalities, each portion of the non-recessed cutting edge can be a section from one selected from the group consisting of a straight line, an ellipse and a helix.
    [0012] The present invention finds particular application with double-sided (or double-ended) cutting inserts that have primary "inverted relief" relief surfaces. Such cutting inserts are disclosed in US 7241082.
    [0013] According to some embodiments of the present invention, the two opposite end surfaces are identical, and the peripheral side surface comprises two identical, opposite main side surfaces. There are four separate spaced main cutting edges. Each main cutting edge is formed at the intersection of each main side surface with each extreme surface. Each extreme surface includes associated inclined surfaces. Each associated sloping surface extends from a respective main cutting edge in a direction generally into the cutting insert, to an extreme interior surface. Each main side surface includes associated primary relief surfaces. Each associated primary relief surface extends from a respective main cutting edge towards a middle region of the main lateral surface in which it is included. In each cross-section of the cutting insert made in a plane generally perpendicular to the main lateral surfaces, a line tangent to each primary relief surface, in a non-recessed cutting edge portion of the main cutting edge, is inclined to a median plane of the cutting insert, at an acute interior angle (referred to here as a primary relief surface “inverted relief”). Each extreme surface has four corners, two diagonally opposite lowered corners and two diagonally opposite raised corners, the lowered fields being closer to the median plane than the raised corners.
    Petition 870190137157, of 12/20/2019, p. 7/46 / 10 [0014] The invention is also directed to a cutter that has at least two cutting inserts of the type described above.
    BRIEF DESCRIPTION OF THE DRAWINGS [0015] For a better understanding of the present invention, and to show how it can be carried out in practice, reference will now be made to the accompanying drawings, in which:
    Figure 1 is a perspective view of a cutting insert according to the present invention;
    Figure 2 is a minor side view of the cutting insert in Figure 1;
    Figure 3 is an extreme view of the cutting insert shown in Figure 1;
    Figure 4 is a main side view of the cutting insert shown in Figure 1;
    Figure 5 is a partial cross-section of the cutting insert shown in Figure 1, taken along line V-V in Figure 3;
    Figure 6 is an extreme view of the cutting insert, similar to that shown in figure 3, but with the cutting insert rotated around the main axis A;
    Figure 7 is a detail of the cutting edge of the cutting insert shown in Figure 6; and
    Figure 8 is a side view of a cutter that has cutting inserts according to the modalities of the present invention.
    DETAILED DESCRIPTION OF THE INVENTION [0016] Attention is first turned to figures 1 to 7 showing a cutting insert 10 in relation to which the present invention will be described and illustrated. However, the present invention relates to the cutting edge properties of cutting inserts and although it is certainly applicable to the cutting insert shown in the figures, it should not be restricted
    Petition 870190137157, of 12/20/2019, p. 8/46 / 10 in no way to this cutting insert, which is used here as a non-limiting example. The cutting edge 10 is indexable (can be rotated) and is preferably manufactured by means of pressure forming, or by means of injection molding and sintering of carbide powders. The cutting insert 10 comprises two identical opposite end surfaces 12 of a generally rectangular shape in an extreme view of the cutting insert 10. [0017] A peripheral side surface 14 extends between the two opposite extreme surfaces 12, and comprises two side surfaces opposite identical minors 16, two identical opposite main side surfaces 18 in a generally parallelogrammatic manner, and corner side surfaces 20 located between adjacent minor and main side surfaces 16, 18. The cutting insert 10 is provided with a hollow hole 22 which extends between, and which opens out from the extreme surfaces 12. The hollow hole 22 is to accommodate a fixing screw for securing a cutting insert 10 to a cutter 26 (figure 8).
    [0018] Each extreme surface 12 has four corners, two diagonally raised opposite corners 28, and two diagonally opposed lowered corners 30. The raised corners 28 of each extreme surface 12 are located on an extreme surface plane P. A median plane M of the cutting insert 10 is parallel to and is located halfway between the extreme surface planes P. The lowered corners 30 are closer to the median plane M than the raised corners 28. Each lateral corner surface 20 extends between a given corner raised 28 from one of the two opposite extreme surfaces 12 dares and a given lowered corner 30 from the other of one of the two opposite extreme surfaces 12.
    [0019] The cutting insert 10 has a central axis B that passes through the hollow hole 22 connecting the opposite extreme surfaces 12. The cutting insert 10 has a 180 ° rotation symmetry around the main axis A that passes through the two opposite identical smaller side surfaces 16,
    Petition 870190137157, of 12/20/2019, p. 9/46 / 10 is located in the median plane M and is perpendicular to the central axis B.
    [0020] A peripheral edge 32 is formed at the intersection of each end surface 12 and the peripheral side surface 14. For each extreme surface 12 the peripheral edge 32 comprises two main cutting edges 34 formed by the intersection of the main side surfaces 18 with the surface extreme 12; two smaller cutting edges 36 formed by the intersection of the smaller side surfaces 16 with the extreme surface 12; and four corner edges 38, two raised corner edges 40 (each formed in a respective raised corner 28) and two lowered corner edges 42 (each formed in a respective lowered corner 30) formed by the intersection of the side corner surfaces 20 with the extreme surface 12. The raised corner edges 40 are corner cutting edges. If desired, the lowered corner edges 42 can also be corner cutting edges. In the embodiment shown in the figures, each main cutting edge 34 extends between a given raised corner edge 40 and a given lowered corner edge 42. Similarly, each smaller cutting edge 36 extends between a given raised corner edge 40 and lowered corner edge 42. As best seen in Figure 2, a first portion of each minor cutting edge 36 extends along the extreme surface plane P away from the raised raised corner edge 40 at a given raised corner 28. The first portion connects to a second portion of the minor cutting edge 36 that extends away from the extreme surface plane P towards the given lowered cutting edge 42 at a given lowered corner 30.
    [0021] Inclined surfaces 44 are formed on each extreme surface 12 adjacent to the major and minor cutting edges 34, 36 and the corner cutting edges 40, 42. The inclined surfaces 44 extend from the major and minor cutting edges 34 and 36, and from the corner cutting edges 40, 42 in a direction into the cutting insert 10 to an inner extreme surface 46. If desired, the inner extreme surface 46 of
    Petition 870190137157, of 12/20/2019, p. 10/46 / 10 each end surface 12 is flat and the inner end surfaces 46 of each end surface 12 are parallel to each other. Preferably, in an extreme view of the cutting insert 10 the inner end surfaces 40 are in the form of a distorted parallelogram (see figure 3). During a metal cutting operation, chips cut from a workpiece flow from the part of the cutting edge that is in contact with the workpiece along the inclined surface 44, towards the inner extreme surface 46 and, in some applications continue to flow along at least part of the inner end surface 46. Therefore, the inclined surface 44 and the inner end surface 46 form a chip surface 48 of the cutting insert 10.
    [0022] Each main side surface 18 comprises a primary relief surface 50 adjacent to each main cutting edge 34, which extends from the main cutting edge 34 towards a middle region of the main lateral surface 18 and towards the plane median M. In each cross-section of the cutting insert 10 made in a plane generally perpendicular to the main lateral surfaces 18, a line L, tangent to the primary relief surface 50 at the main cutting edge 34, is inclined with the median plane M of the cutting insert 10 at an acute interior angle α (see figure 5). The interior angle α can be constant, or it can vary continuously along the main cutting edge 34.
    [0023] Recesses 52, formed on the main side surfaces 18, interrupt the main cutting edges 34 in recessed cutting edge portions 54. Each recessed cutting edge portion 54 is located between two non-recessed cutting edge portions 56. As can be seen seen in figures 3 and 6, and more clearly in the detailed view in figure 7, in an extreme view of the cutting insert, each recessed cutting edge portion 54 comprises a curved central section 58 located between two curved side sections 60. the central section 58 has a first radius of curvature R1 and each section
    Petition 870190137157, of 12/20/2019, p. 11/46 / 10 lateral 60 has a second radius of curvature R2. The first radius of curvature R1 is greater than the second radius of curvature R2. In some applications of the cutting insert 10 in milling machining operations, optimized performance of the cutting insert 10 was obtained with the first radius of curvature R1 in the range of 0.7 to 0.9 mm and the second radius of curvature R2 in the range from 0.3 to 0.5 mm. In a particular application, optimized performance was obtained with the first radius of curvature R1 equal to 0.83 mm and the second radius of curvature R2 equal to 0.40 mm.
    [0024] It will be appreciated that if the recessed cutting edge portions 54 are not present, then the non-recessed cutting edge portions 56 should comprise continuous unbroken main cutting edge joints 34. As is well known, in milling operations the edges main cutting edges 34 can have any suitable geometry required. For example, they can be straight, that is, straight line sections or sections of an ellipse or sections of a helix. Consequently, with the presence of the recessed cutting edge portions 54, the non-recessed cutting edge portions 56 can also have any of a number of suitable geometries. For example, each non-recessed cutting edge portion 56 can be a section of a straight line, an ellipse or a helix.
    [0025] According to a particular application, the two main cutting edges 34 associated with a given main lateral surface 18 have a different number of recessed cutting edge portions 54. For example, according to some modalities, one of the two edges main cutting edges 34 associated with a given main side surface 18 can have an even number of recessed cutting edge portions 54 and the other of the two main cutting edges 34 associated with the given main side surface 18, can have an odd number of portions indented cutting edges 54. According to some modalities, one of the two main cutting edges 34 associated with a given extreme surface 12 may have an even number of
    Petition 870190137157, of 12/20/2019, p. 12/46 / 10 recessed cutting edge portions 54 and the other of the two main cutting edges 34 associated with the given extreme surface 12 may have an odd number of recessed cutting edge portions 54. Due to the different numbers of cutting edge portions indented 54 associated with the main cutting edges 34 associated with a given extreme surface 12, the cutting insert 10 has no symmetry in 180 ° rotation around the central axis B. Also, as seen in figure 4, in a side view main part of the cutting insert 10 a maximum width between the recessed cutting edge portions 54 is less than a minimum width between the non-recessed cutting edge portions 56.
    [0026] Preferably the recessed cutting edge portions 54, at the two main cutting edges 34 associated with the given main side surface 18, are staggered with respect to each other. According to a specific non-limiting example shown in the figures, the number of recessed cutting edge portions 54 on one of the two main cutting edges 34 mentioned above is two, while the number on the other of the two main cutting edges 34 associated with the same extreme surface 12 is three.
    [0027] Attention is now brought to figure 8, in which two cutting inserts 10 attached to milling cutter 26 can be seen. One of the cutting inserts 10 has an operational main cutting edge 34 'with three recessed cutting edges 54 while another cutting insert has an operational main cutting edge 34' 'with two recessed cutting edges 54. The edge portions recessed cutting edges 54 of the two main operating cutting edges 34 ', 34' 'are staggered with respect to each other. Since the recessed cutting edge portions 54 of the operational main cutting edges 34 ', 34' 'of these two cutting inserts are staggered relative to each other, the two operational main cutting edges 34', 34 '' complement a to the other to make a complete cut in a workpiece that is being milled. It has been found that it is not necessary
    Petition 870190137157, of 12/20/2019, p. 13/46 / 10 arranging all the cutting inserts 10 around the cutter in pairs having operational main cutting edges 34 alternating with recessed and staggered cutting edge portions 54. Thus, according to some modalities, only two of the cutting inserts 10 are arranged to have operational leading cutting edges 34 with staggered recessed cutting edge portions 54.
    [0028] Although the present invention has been described to a certain degree of particularity, it should be understood that several changes and modifications could be made without departing from the spirit or scope of the invention as claimed hereinafter.
    权利要求:
    Claims (13)
    [1]
    1. Cutting insert (10), comprising:
    opposite extreme surfaces (12) and a peripheral lateral surface (14) extending between them, the peripheral lateral surface (14) comprising a larger lateral surface (18);
    a larger cutting edge (34) formed at the intersection of the larger lateral surface (18) with one of the extreme surfaces (12); on what:
    the larger side surface (18) has recesses (52) formed in it that interrupt the larger cutting edge (34) in recessed cutting edge portions (54), each recessed cutting edge portion (54) being located between two edge portions of cut not indented (56);
    each recessed cutting edge portion (54) comprising, in an extreme view of the cutting insert (10) which observes the extreme surface (12) with the largest cutting edge (34), a curved central section (58) located between two curved side sections (60), the central section (58) having a first radius of curvature (R1) and each side section having a second radius of curvature (R2), the first radius of curvature (R1) being greater than the second radius of curvature (R2), characterized by the fact that the first radius of curvature (R1) is in the range of 0.7 to 0.9 mm and the second radius of curvature (R2) is in the range of 0.3 to 0, 5 mm; and wherein the cutting insert (10) comprises a central axis (B) that passes through a hollow hole (22) that passes between the opposite extreme surfaces (12); and the extreme view is a view along the central axis (B).
    [2]
    2. Cutting insert (10) according to claim 1, characterized in that the first radius of curvature (R1) is equal to 0.83 mm and the second radius of curvature (R2) is equal to 0.40 mm .
    [3]
    3. Cutting insert (10) according to claim 1, characterized in that each non-recessed cutting edge portion (56) is
    Petition 870190137157, of 12/20/2019, p. 15/46
    2/5 a section from one selected from the group consisting of a straight line, an ellipse and a helix.
    [4]
    Cutting insert (10) according to claim 1, characterized in that in a larger side view of the cutting insert (10) a maximum width between the recessed cutting edge portions (54) is less than a width between the non-recessed cutting edge portions (56).
    [5]
    5. Cutting insert (10) according to claim 1, characterized by the fact that the cutting insert (10) has no 180 ° rotation symmetry around the central axis (B).
    [6]
    6. Cutting insert (10) according to claim 1, characterized by the fact that it comprises:
    two identical opposite extreme surfaces (12), each extreme surface (12) having four corners (28, 30) that include two diagonally opposite lowered corners (30), and two diagonally opposite raised corners (28), the lowered corners (30) being closer to a median plane (M) of the cutting insert (10) than the raised corners (28);
    two opposing larger side surfaces (18) that extend between the opposite extreme surfaces (12);
    four major cutting edges (34), each major cutting edge (34) being formed at the intersection of each major lateral surface (18) with each extreme surface (12);
    an inclined surface (44) associated with each major cutting edge (34), each inclined surface (44) extending on a respective extreme surface (12) from an associated major cutting edge (34) in a generally direction inside the cutting insert (10) to an extreme inner surface (46), and a primary relief surface (50) associated with each
    Petition 870190137157, of 12/20/2019, p. 16/46
    3/5 larger cutting edge (34), each primary relief surface (50) extending from an associated larger cutting edge (34) towards a middle region of the larger lateral surface (18) in which it is included; on what:
    in each cross-section of the cutting insert (10) made in a plane generally perpendicular to the larger lateral surfaces (18) a line (L) tangent to each primary relief surface (50) in a non-recessed cutting edge portion (56) of the larger cutting edge (18) is inclined to the median plane (M) of the cutting insert (10) at an acute interior angle α.
    [7]
    Cutting insert (10) according to claim 6, characterized in that the larger cutting edges (18) associated with a given extreme surface (12) are in a different number of recessed cutting edge portions (54) .
    [8]
    8. Cutting insert (10) according to claim 6, characterized by the fact that it still comprises:
    two faces opposite smaller side surfaces (16) that connect the two opposite larger side surfaces (18);
    four smaller cutting edges (36) each smaller cutting edge (36) being formed at the intersection of each smaller side surface (16) with each extreme surface (12); on what:
    the smaller side surfaces (16) are devoid of recesses formed in it that interrupt the smaller cutting edges (16) in recessed cutting edges.
    [9]
    9. Cutting insert (10) according to claim 8, characterized by the fact that it still comprises:
    a major axis (A) that passes through both minor side surfaces (16) and is perpendicular to the central axis (B); in which the cutting insert (10) has 180 ° rotation symmetry
    Petition 870190137157, of 12/20/2019, p. 17/46
    4/5 around the major axis (A); and the cutting insert (10) has no 180 ° rotation symmetry around the central axis (B).
    [10]
    10. Milling cutter (26), characterized by the fact that it has identical first and second cutting inserts (10), as defined in claim 1.
    [11]
    11. Milling cutter (26) according to claim 10, characterized in that each cutting insert (10) comprises:
    two identical opposite extreme surfaces (12), each extreme surface (12) I try four corners (28, 30) that include two diagonally opposite lowered corners (30) and two diagonally opposite raised corners (28), the lowered corners (30) being closer to a median plane (M) of the cutting insert (10) than the raised corners (28);
    two opposing larger side surfaces (18) that extend between the opposite extreme surfaces (12);
    four major cutting edges (34), each major cutting edge (34) being formed at the intersection of each major side surface (18) with each extreme surface (12).
    [12]
    12. Milling cutter (26) according to claim 11, characterized by the fact that:
    in each cutting insert (10), the larger cutting edges (34) associated with a given extreme surface (12) have a different number of recessed cutting edge portions (54);
    a larger operational cutting edge (34 ') of the first cutting insert (10) has a first number of recessed cutting edge portions (54);
    a larger operational cutting edge (34 '') of the second cutting insert (10) has a second number of recessed cutting edge portions (54) that differ from the first number;
    Petition 870190137157, of 12/20/2019, p. 18/46
    5/5 the recessed cutting edge portions (54) of the largest operational cutting edge (34 ') of the cutting insert (10) are staggered in relation to the recessed cutting edge portions (54) of the largest operational cutting edge (34) '') of the second cutting insert (10).
    [13]
    13. Milling cutter (26) according to claim 12, characterized in that each cutting insert (10) still comprises:
    two opposite smaller side surfaces (16) that connect the two opposite larger side surfaces (18);
    four smaller cutting edges (36), each smaller cutting edge (36) being formed at the intersection of each smaller side surface (16) with each extreme surface (12); on what:
    the smaller side surfaces (16) are free of recesses formed therein that interrupt the smaller cutting edges (36) in portions of the recessed cutting edges.
    类似技术:
    公开号 | 公开日 | 专利标题
    BR112012015980B1|2020-02-27|CUTTING INSERT AND MILLING
    JP6146924B2|2017-06-14|Cutting inserts and cutting tools
    BR112016015694B1|2020-11-24|DOUBLE-FACE INDEXABLE CUTTING INSERT, AND, CUTTING TOOL
    US8573905B2|2013-11-05|Triangular cutting insert and cutting tool
    KR101292441B1|2013-07-31|Tangential cutting insert
    BR112014033023B1|2020-09-15|REVERSIBLE ORIENTABLE CUTTING INSERT, AND, ROTATING CUTTING TOOL
    BRPI0916852B1|2019-07-30|Cutting Insert, and, Cutting Tool
    KR20100016472A|2010-02-12|Cutting insert cutting eight ways, and tool holder for same
    JP2007125669A|2007-05-24|Cutting edge replaceable tip and cutting edge replaceable corner grinding milling cutter
    BRPI0316491B1|2018-10-16|tangential cutting insert and cutter
    BR112017004438B1|2021-03-02|insert and cutting tool
    JP6587828B2|2019-10-09|Cutting tool insert and cutting tool insert holder
    JP2015500150A5|2015-11-26|
    BR0307612B1|2014-06-24|REMOVABLE CUTTING INSERT AND CUTTING TOOL
    BR112015032834A2|2020-04-28|A cutting insertion and a fraise cutter
    BR112012018014B1|2020-02-27|TOOL COUPLING
    BRPI0720414B1|2019-08-06|CUTTING INSERT AND CUTTING TOOL
    CN103140315A|2013-06-05|Pin miller inserts and a cutter using the same
    CN104785835A|2015-07-22|Cutting insert with finishing and roughing cutting edges
    BR112017025114B1|2021-08-31|ASSEMBLY, AND, REVERSIBLE CUTTING INSERT
    CN108472751B|2020-10-13|Cutting insert and indexable cutting tool
    EP0088505A1|1983-09-14|Drill and disposable inserts therefor
    US9623495B2|2017-04-18|Cutting insert with asymmetric cutting edge
    TW202015836A|2020-05-01|Turning insert having peninsula and island protrusions, and turning tool
    RU2537642C1|2015-01-10|Cutting plate
    同族专利:
    公开号 | 公开日
    JP5628343B2|2014-11-19|
    CN102712054A|2012-10-03|
    EP2523773A1|2012-11-21|
    RU2542037C2|2015-02-20|
    CA2786849A1|2011-07-21|
    PL2523773T3|2016-12-30|
    PT2523773T|2016-08-16|
    US8556546B2|2013-10-15|
    CN102712054B|2015-04-29|
    KR101705399B1|2017-02-09|
    JP2013517143A|2013-05-16|
    US20110170963A1|2011-07-14|
    BR112012015980A2|2018-05-29|
    KR20120115307A|2012-10-17|
    ES2592207T3|2016-11-28|
    EP2523773B1|2016-07-13|
    BR112012015980B8|2020-03-17|
    IL203283A|2014-02-27|
    RU2012134433A|2014-02-20|
    CA2786849C|2017-10-24|
    WO2011086544A1|2011-07-21|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3636602A|1969-07-11|1972-01-25|Frank Owen|Cutting tools|
    US3574911A|1969-12-17|1971-04-13|Milling Specialties Inc|Cutter and inserts therefor|
    US3922766A|1972-08-15|1975-12-02|Paul Malinchak|Inserts for metal cutters|
    US4936719A|1976-08-24|1990-06-26|Greenleaf Corporation|Cutter and indexable on edge inserts with aligned corners and staggered serrated edges|
    GB2054427B|1979-07-23|1983-04-20|Carboloy Ltd|Indexable insert blade|
    SE437228B|1982-05-17|1985-02-18|Santrade Ltd|HAPPENS FOR SPANISH PROCESSING|
    GB2179281B|1985-08-21|1989-12-06|Gen Electric|Cutting tool insert having cutting edges with recesses|
    IL81283A|1987-01-16|1990-11-05|Kidan Cutting Tools|Cutting inserts and tools including same|
    SU1537414A1|1987-12-21|1990-01-23|Всесоюзный Научно-Исследовательский Инструментальный Институт|End milling cutter|
    SU1725493A1|1988-02-15|1996-09-20|Ленинградское инструментальное производственное объединение им. С.П.Воскова|Cutting plate|
    DE3806833A1|1988-03-03|1989-09-14|Hilti Ag|POWDER POWERED BOLT SETTING DEVICE|
    JPH07299636A|1994-04-28|1995-11-14|Kyocera Corp|Throwaway tip for milling cutter tool|
    US6565296B2|2001-03-28|2003-05-20|Allied Machine & Engineering Corp.|Drill insert geometry having chip splitting groove|
    JP2003039228A|2001-07-25|2003-02-12|Mitsubishi Materials Corp|Throw away tip|
    DE10312922B4|2003-03-22|2006-02-16|Walter Ag|Cutting plate and milling tool|
    IL159157A|2003-12-02|2008-03-20|Amir Satran|Rotary slot milling cutter and cutting insert therefor|
    IL160223A|2004-02-04|2008-11-26|Carol Smilovici|Double-sided cutting insert and milling cutter|
    RU2279332C2|2004-08-12|2006-07-10|Дмитрий Валерьевич Попов|End milling cutter with cylindrical surface|
    US7154082B2|2004-08-20|2006-12-26|Pgs Americas, Inc.|Frequency division and/or wavelength division multiplexed recursive fiber optic telemetry scheme for an optical sensor array|
    US7802946B2|2004-09-29|2010-09-28|Kyocera Corporation|Throwaway insert and milling tool equipped with the same|
    US8210777B2|2005-10-28|2012-07-03|Kyocera Corporation|Cutting insert, milling tool and cutting method|
    WO2008038805A1|2006-09-29|2008-04-03|Kyocera Corporation|Cutting insert, cutting tool using the same, and cutting method|
    JP2009241212A|2008-03-31|2009-10-22|Sumitomo Electric Hardmetal Corp|Cutting edge replaceable type tip with nick|
    CA2727599A1|2008-06-13|2009-12-17|Taegutec Ltd.|Cutting insert|
    KR100985597B1|2008-08-20|2010-10-05|대구텍 유한회사|cutting Insert and Milling Cutter provided with the Same|
    WO2010098345A1|2009-02-26|2010-09-02|京セラ株式会社|Cutting insert, cutting tool and method of cutting using the same|
    DE102009002738A1|2009-03-07|2010-09-23|Gühring Ohg|End mills|
    JP2010240818A|2009-04-06|2010-10-28|Hitachi Tool Engineering Ltd|End mill with chip breaker|
    JP4892039B2|2009-06-17|2012-03-07|日立ツール株式会社|Cemented carbide end mill with nick|IL182343D0|2007-04-01|2007-07-24|Iscar Ltd|Cutting insert and tool for milling and ramping at high feed rates|
    US8757940B2|2009-01-29|2014-06-24|Kyocera Corporation|Cutting insert, cutting tool and cutting method for workpiece using the same|
    EP2412462B1|2009-03-27|2015-05-13|Kyocera Corporation|Cutting insert, cutting tool, and method of cutting material to be cut using the cutting tool|
    JP2013006221A|2009-10-13|2013-01-10|Mitsubishi Materials Corp|Cutting insert and rotating tool with replaceable blade edge|
    KR101154704B1|2010-02-19|2012-06-08|대구텍 유한회사|A cutting insert having cutting edges divided by recesses and a milling cutter provided with the same|
    CN103025462B|2010-08-11|2015-03-18|京瓷株式会社|Cutting insert, cutting tool, and method for producing cut article using cutting insert and cutting tool|
    JP5589244B2|2010-10-06|2014-09-17|大昭和精機株式会社|insert|
    IL214782A|2011-08-22|2016-02-29|Iscar Ltd|Cutting insert and milling tool|
    JP5938868B2|2011-10-04|2016-06-22|三菱マテリアル株式会社|Cutting insert and cutting edge changeable cutting tool|
    JP5906976B2|2011-10-04|2016-04-20|三菱マテリアル株式会社|Cutting insert and cutting edge changeable cutting tool|
    US9272342B2|2011-10-31|2016-03-01|Kyocera Corporation|Cutting insert, cutting tool, and method of producing machined product using the same|
    US10035198B2|2011-11-15|2018-07-31|Kennametal Inc.|Double-sided, indexable cutting insert with ramping capability and cutting tool therefor|
    JP5783922B2|2012-01-31|2015-09-24|京セラ株式会社|Cutting insert, cutting tool, and cutting method of work material using cutting tool|
    KR101380884B1|2012-06-14|2014-04-02|한국야금 주식회사|cutting insert|
    KR101407168B1|2012-08-07|2014-06-12|대구텍 유한회사|Cutting insert and cutting tool including the same|
    KR101440957B1|2012-12-28|2014-09-17|한국야금|Cutting insert|
    KR102100184B1|2013-02-18|2020-04-13|삼성전자주식회사|Display apparatus|
    CN105188999B|2013-03-19|2017-12-01|株式会社泰珂洛|Cutting tip and the replaceable cutting element of point of a knife|
    US20150104262A1|2013-04-01|2015-04-16|EIP Holdings, LLC|Round tooth cutters and method of design and use|
    AT13514U1|2013-04-04|2014-02-15|Ceratizit Luxembourg S A R L|Indexable double-sided milling cutting insert|
    US20150117969A1|2013-10-29|2015-04-30|Kennametal Inc.|Cutting insert and shim for heavy machining operations|
    USD738412S1|2013-12-25|2015-09-08|Taegutec Ltd.|Cutting insert|
    EP2893995B1|2014-01-08|2019-03-27|Sandvik Intellectual Property AB|A metal cutting insert and a milling tool|
    EP3175945B1|2014-07-31|2021-10-20|Tungaloy Corporation|Cutting insert and replaceable cutting edge cutting tool|
    US9468983B2|2014-09-22|2016-10-18|Iscar, Ltd.|Rotary cutting tool and reversible cutting insert having variable-width minor relief surfaces therefor|
    USD752664S1|2014-09-25|2016-03-29|Taegutec Ltd.|Cutting insert|
    KR101631675B1|2014-11-28|2016-06-17|한국야금 주식회사|Cutting insert and tool holder for coupling the same|
    USD778330S1|2015-07-16|2017-02-07|Kennametal Inc.|Double-sided tangential cutting insert|
    US9981323B2|2015-07-16|2018-05-29|Kennametal Inc.|Double-sided tangential cutting insert and cutting tool system using the same|
    USD777230S1|2015-07-16|2017-01-24|Kennametal Inc|Double-sided tangential cutting insert|
    JP6618746B2|2015-09-28|2019-12-11|京セラ株式会社|Cutting tool insert manufacturing method|
    EP3199284B1|2016-01-27|2018-12-12|Pramet Tools, S.R.O.|An indexable cutting insert for an end mill tool and an end mill tool provided with such an insert|
    JP1568740S|2016-09-09|2017-02-06|
    CN109715328B|2016-10-14|2020-09-29|住友电工硬质合金株式会社|Cutting tool|
    JP6562983B2|2017-08-10|2019-08-21|株式会社タンガロイ|Cutting insert and cutting tool|
    JP6338204B1|2017-08-29|2018-06-06|株式会社タンガロイ|Cutting insert and cutting tool|
    US10974327B1|2019-10-31|2021-04-13|Facet Precision Tool GmbH|Drills and drill bits with buttressed chip breakers|
    法律状态:
    2019-01-08| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|
    2019-10-01| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|
    2020-02-11| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|
    2020-02-27| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 14/12/2010, OBSERVADAS AS CONDICOES LEGAIS. |
    2020-03-17| B16C| Correction of notification of the grant [chapter 16.3 patent gazette]|Free format text: REF. RPI 2564 DE 27/02/2020 QUANTO AO ENDERECO. |
    优先权:
    申请号 | 申请日 | 专利标题
    IL203283|2010-01-13|
    IL203283A|IL203283A|2010-01-13|2010-01-13|Cutting insert|
    PCT/IL2010/001053|WO2011086544A1|2010-01-13|2010-12-14|Cutting insert having cutting edges with recessed portions|
    [返回顶部]