巴西专利BR112013018432B1 tangential cutting insert and cutter

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专利摘要:
TANGENTIAL CUTTING INSERT, AND, MILLING. A tangential cutting insert (10) has two opposite side surfaces (12) and a peripheral surface (14) extending between the side surfaces. The peripheral surface (14) has four identical end surfaces (18). The intersections of the end and side surfaces include larger cutting edges (20). The intersection of end surfaces and adjacent end surfaces includes smaller cutting edges (24). Each of the major (20) and minor (24) cutting edges has a sloping surface (34) extending in a direction into the cutting insert (10). In a side view of the cutting insert, the larger cutting edges (22) are concave.
公开号:BR112013018432B1
申请号:R112013018432-9
申请日:2012-01-05
公开日:2020-12-08
发明作者:Amir Satran；Alexander Zibenberg；Danny Chen
申请人:Iscar Ltd.；
IPC主号:

专利说明:

Field of the Invention
[001] The present invention relates to a tangential cutting insert for use in milling operations and a cutter for the tangential cutting insert. Background of the Invention
[002] Tangential cutting inserts are oriented in an insert holder in such a way that, during a cutting operation on a work piece, the cutting forces are directed along a larger (thicker) dimension of the insert. cut. An advantage of such an arrangement is that the cutting insert can withstand greater cutting forces than when oriented in such a way that the cutting forces are directed along a smaller (thinner) dimension of the cutting insert.
[003] In EP 0 769 341 a disk mill is exposed employing an indexable tangential cutting insert on both sides having a prismatic shape with two opposite rectangular inclination surfaces, connected by lateral surfaces. The cutting insert has a basic “negative” geometry and, therefore, in order to provide the necessary clearance between the cutting insert and the workpiece, when mounted on a disc mill, the cutting insert is oriented with a negative axial inclination angle.
[004] A tangential cutting insert indexable on both sides for a drilling tool head is exposed in US 5,333,972. The insert is provided at each end with a protruding flat island. Each long cutting edge is tilted at an angle of 3 ° to the protruding flat island, defining an “axial insert tilt angle”. Behind each cutting edge is a surface of descending area that merges with a surface of increasing incident angle to form a chipbreaker groove. Each rising incident angle surface extends from its associated descending area surface to an adjacent island, either at the top or bottom of the cutting insert. The cutting insert is either left or right. It is made to be on the right and, when inverted, it is on the left. It will be appreciated that the magnitude of the axial tilt angle of the insert is limited for practical reasons. Any increase in the axial tilt angle of the insert will result in an increase in the “vertical” extension of the increasing incident angle surface (see Fig. 3 of US 5,333,972) which will have an adverse effect on chip development and evacuation.
[005] US 6,238,146 exposes a tangential cutting insert having front and rear surfaces of a generally concave shape. Opposite upper and lower surfaces and a pair of opposite side surfaces extend between the front and rear surfaces. There are four main cutting edges that are concave in a side view of the cutting insert. Each main cutting edge extends between two corner cutting edges. Each larger cutting edge merges with an associated auxiliary cutting edge via a corner cutting edge. All cutting edges are associated with the front and rear surfaces that have sloping surfaces formed on them, along which chips cut from a workpiece flow during a cutting operation. The upper, lower and side surfaces have no inclination surfaces formed on them and there are no cutting edges associated with the upper, lower and side surfaces.
[006] Although the cutting inserts shown in the various embodiments in US 6,238,146 have eight cutting corners, it is only possible to use all eight cutting corners if only half the length of the main cutting edges is used. Cutting edges wear out during use. In addition, in US 6,238,146, each main cutting edge has two cutting edges associated with it, one at each end. Consequently, if more than half the length of the main cutting edges is used, namely, when milling a shoulder into a workpiece, then when using a second cutting edge of a main cutting edge, for which the first corner has already been used, only a small portion of the main cutting edge adjacent to the second cutting corner will be new, the rest of the main cutting edge will be used and worn.
[007] It is an objective of the present invention to provide an indexable tangential cutting insert that substantially overcomes the problems mentioned above.
[008] It is another objective of the present invention to provide an indexable tangential cutting insert having eight main cutting edges, each main cutting edge having a single cutting edge associated with it.
[009] It is yet another objective of the present invention to provide an indexable tangential cutting insert capable of milling a square shoulder in a work piece.
[0010] Another object of the present invention is to provide a cutting insert that is balanced with respect to the cutting forces operating on it. Summary of the Invention
[0011] According to the present invention, a tangential cutting insert is provided comprising two opposite side surfaces and a peripheral surface extending between them. The peripheral surface comprises four identical end surfaces, each end surface extending between two adjacent end surfaces. each end surface and each side surface intersect at a larger edge. at least a portion of the larger edge is a larger cutting edge.
[0012] Each end surface and each adjacent end surface intersect at a smaller edge. at least a portion of the smaller edge is a smaller cutting edge. The larger cutting edges are longer than the smaller cutting edges.
[0013] Each of the major and minor cutting edges of a respective end surface has an inclination surface associated with it on the respective end surface. The slope surface extends in a direction into the cutting insert.
[0014] In a side view of the cutting insert the larger cutting edges are concave.
[0015] According to some modalities, the cutting insert has a through hole extending between the lateral surfaces. The through hole has a hole axis B around which the cutting insert has 90 ° rotational symmetry.
[0016] According to some modalities, adjacent major and minor cutting edges merge into a corner cutting edge.
[0017] In one embodiment, the tilt surface extends to an inner end surface of the end surface
[0018] According to some modalities, a given larger cutting edge is formed at the intersection of the slope surface and a larger relief surface and a given smaller cutting edge is formed at the intersection of the sloping surface and a smaller relief surface , where the major relief surface is located on a side surface, the minor relief surface is located on an end surface.
[0019] According to some modalities, each minor cutting edge is formed at the intersection of a minor slope surface and a minor relief surface, the minor slope surface being located on the slope surface of an end surface and the surface minor relief being located on an adjacent end surface, where the minor relief surface forms a support region for the smaller cutting edge. The support region is elevated relative to an adjacent minor slope surface located on the adjacent end surface.
[0020] According to some modalities, adjacent major and minor cutting edges merge into a corner cutting edge and each major cutting edge is located between a corner cutting edge and a corner non-cutting edge.
[0021] Typically, each end surface comprises exactly two diagonally opposite corner cutting edges and exactly two diagonally opposite corner non-cutting edges.
[0022] According to the present invention, there is also provided a cutter comprising: at least one tangential cutting insert according to the modalities of the invention; and at least one insert cavity in which the tangential cutting insert is retained.
[0023] The insert cavity comprises adjoining upper and rear walls generally convex, oriented transversely to a base wall. The upper wall comprises two protruding axial locating surfaces, located on each side of an upper central region of the upper wall, a rear axial locating surface adjacent to the rear cavity wall and a front axial locating surface distal to the rear cavity wall. The rear wall comprises two protruding tangential location surfaces, located on each side of a central rear region of the rear wall, an upper tangential location surface adjacent to the upper cavity wall and a lower tangential location surface distal to the upper cavity wall; wherein the rear wall faces a first end surface having a first inner end surface and the upper wall faces a second end surface having a second inner end surface which is adjacent to the first end surface.
[0024] When the cutting insert is secured in the insert cavity, the rear wall engages the first inner end surface, the upper wall engages the second inner end surface and the base wall engages a radially inner side surface of the insert. cut. The upper tangential location surface abuts the first inner end surface on an upper tangential contact surface and the lower tangential location surface abuts the first internal end surface on a lower tangential contact surface; wherein: the cutting insert is movable from a first position obtained by tightening a fixing screw by rotating screw clockwise to a second position created by cutting forces operating on the cutting insert during a cutting operation; where: the first position, the front axial locating surface abuts the second inner end surface on a front axial contact surface and an interstice is formed between the rear axial locating surface and a rear axial contact surface of the second surface internal end; and in the second position, the rear axial locating surface abuts the rear axial contact surface and an interstice is formed between the front axial locating surface and the front axial contact surface. Brief Description of the Figures
[0025] The invention will be described below with reference to the figures in the attached drawings, where: Fig. 1 is a perspective view of a cutting insert according to the modalities of the present invention; Fig. 2 is a side view of a cutting insert according to the modalities of the present invention; Fig. 3 is an end view of a cutting insert according to the modalities of the present invention; Fig. 4 is a side view of a cutter according to the modalities of the present invention; Fig. 5 is a perspective view of an insert cavity according to the modalities of the present invention; and Fig. 6 is a perspective view of a cutting insert according to the modalities of the present invention, showing the end surfaces that engage the insert cavity for a given indexed position of the cutting insert. Detailed Description of the Invention
[0026] In the following description, various aspects of the present invention will be described. For purposes of explanation, specific configurations and details are set out in order to provide a complete understanding of the present invention. However, it will also be apparent to a person skilled in the art that the present invention can be accomplished without the specific details presented here. In addition, well-known features can be omitted or simplified so as not to obscure the present invention.
[0027] Reference is first made to Figs. 1 to 3 showing a tangential cutting insert 10 according to the embodiments of the invention. The cutting insert 10 has two opposite side surfaces 12 and a peripheral surface 14 extending between them. The cutting insert 10 has a through hole 16 extending between the side surfaces 12. The through hole 16 has a bore axis B around which the cutting insert 10 has 90 ° rotational symmetry. The peripheral surface 14 has four identical end surfaces 18. each end surface 18 extends between two adjacent end surfaces 18 so that there are no intervening surfaces between adjacent end surfaces 18. each end surface 18 and each side surface 12 intersect at a major edge 20. Each end surface 18 has two major edges 20 and the cutting insert 10 has a total of eight major edges 20. at least a portion of each major edge 20 forms a major cutting edge 22 Each major cutting edge 22 extends over more than half the length of the largest edge 20 on which it is formed.
[0028] Adjacent end surfaces 18 intersect at a minor edge 24. The minor edge 24 includes exactly two minor cutting edges 26. One of the two minor cutting edges 26 belongs to one of the adjacent end surfaces 18 and the other one of the two smaller cutting edges 26 belongs to the other of the adjacent end surfaces 18. The larger cutting edges 22 are longer than the smaller cutting edges 26. Each smaller cutting edge 26 has an adjacent larger cutting edge 22. Adjacent larger and smaller cutting edges 22, 26 have an associated corner cutting edge 28 that extends between adjacent larger and smaller cutting edges 22, 26. In other words, adjacent larger and smaller cutting edges 22, 26 if merge into a corner cutting edge 28. According to some embodiments, the corner cutting edge 28 can be curved. According to some embodiments, the corner cutting edge 28 can have a given radius of curvature. The corner cutting edge 28 is located at a corner 29 of the cutting insert 10. Each group of three adjacent and larger cutting edges 22, 26 and associated corner cutting edge 28 forms an insert cutting edge 30 Each of the end surfaces 18 has two insert cutting edges 30 and the cutting insert 10 has a total of eight insert cutting edges 30. each end surface 18 has exactly two diagonally opposite corner cutting edges 28 and exactly two diagonally opposite corner non-cutting edges 32. The cutting insert 10 has a total of eight corner cutting edges 28. each major edge 20 is located between a corner cutting edge 28 and a corner non cutting edge 32. Each major cutting edge 22 merges with a single corner cutting edge 28.
[0029] Each insert cutting edge 30 is formed at the intersection of an incline surface 34 and a relief surface 36. The relief surface 36 associated with an insert cutting edge 30 can be divided into three portions: a surface minor relief 38, a corner relief surface 40 and a major relief surface 42 associated respectively with a minor cutting edge 26, a corner cutting edge 28 and a major cutting edge 22. For each end surface 18 , the insert cutting edges 30 have an associated slope surface 34 on the end surface 18. The slope surface 34 extends from each insert cutting edge 30 in a direction into the cutting insert 10. Accordingly with some embodiments, the tilt surface 34 extends towards an inner end surface 43 of the end surface 18. According to some embodiments, the tilt surface 34 is located end to the inner end surface 43 of the end surface 18. The slope surface 34 of an insert cutting edge 30 can be divided into three portions: a smaller slope surface 44, a corner slope surface 46 and a greater slope surface 48 associated respectively with a smaller cutting edge 26, a corner cutting edge 28 and a larger cutting edge 22.
[0030] The major relief surface 42 is located on the side surface 12, the minor relief surface 38 is located on an end surface 18 and the corner relief surface 40 extends between the major and minor relief surfaces 38. The minor relief surface 38 forms a support region 50 on the end surface 18, to provide support for the minor cutting edge 26 against cutting forces operating on the minor cutting edge 26 during a cutting operation. On any end surface 18, the support region 50 is raised relative to an adjacent minor slope surface 44 on this end surface 18.
[0031] With reference to Fig. 2, it can be seen that, in a side view of the cutting insert 10, the larger cutting edges 22 are concave. The major cutting edges 22 have two sections, a first major cutting edge section 22a and a second major cutting edge section 22b. A transition edge 22c connects between the first and second major cutting edge sections 22a, 22b. According to some modalities, the transition edge 22c is concave in a side view of the cutting insert 10.
[0032] The orientation of the cutting insert 10 in the side view shown in Fig. 2 is the orientation of the cutting insert 10 seen in a side view when mounted on a cutter 52, as shown in Fig. 4, according to a specific application. of the invention. The cutter 52 has a rotation axis A defining a vertical direction. During operation, the cutter 52 rotates about the axis of rotation A in a direction of rotation R. A plane P perpendicular to the axis of rotation A defines specific directions. The specific application can be, for example, the milling of a shoulder having a vertical wall and a horizontal surface in a workpiece W. The plane P coincides with the horizontal surface of the workpiece W. The cutting insert 10 has a corner operative 29 'in contact with the workpiece W. Operative corner 29' has associated cutting edges that participate in the milling process. The operating corner 29 'is a front corner of the cutting insert 10 in the direction of rotation of the cutter 52. Associated with the operating corner 29' on the end surface 18 facing the workpiece W is a non-operating corner 29 ”. The 29 ”non-operating corner has no associated cutting edges that participate in the milling process. The non-operative corner 29 ”is a rear corner of the cutting insert 10 in the direction of rotation of the cutter 52.
[0033] The cutting insert 10 is inclined at an angle α with respect to the P plane so that the rear corner is relieved from the workpiece surface. Operating corner 29 'has an operating corner cutting edge 28 that extends between a larger operating cutting edge 22 and a smaller operating cutting edge 26. The larger operating cutting edge 22 has a first larger cutting edge section operative 22a and a second operative major cutting edge section 22b. When milling a shoulder on a workpiece, the operative major cutting edge 22 performs the vertical wall milling operation and the operative minor cutting edge 26 performs the finishing, or cleaning, operation of the surface formed on the workpiece . The operative minor cutting edge 26 is also referred to as a cleaner.
[0034] Due to the fact that the larger cutting edges 22 are concave in a side view of the cutting insert 10, the first operative larger cutting edge section 22a has a positive axial slope and the second larger cutting edge section operative 22b has a negative axial inclination when located on cutter 52. Thus, when milling a shoulder in a workpiece, the vertical component Fv of the cutting force F operating on the first largest operating cutting edge section 22a is in the direction opposite the vertical component Fv of the cutting force F operating on the second section of the operative major cutting edge 22b and consequently cancels the other so that the cutting insert 10 is balanced. According to some embodiments, the vertical components Fv of the cutting forces F operating on the largest operative cutting edge 22 approximately cancel each other out so that the cutting insert 10 is approximately balanced.
[0035] Each cutting insert 10 is secured in an insert cavity 54 of the cutter 52 by a fixing screw 56 which is threadedly secured in a threaded hole 58. Fig. 5 shows an insert cavity 54 according to the modalities of the invention. The insert cavity 54 has adjacent upper and rear walls 60, 62 which are oriented transversely to a base wall 64, in which the threaded hole 58 is formed. The rear wall 62 is generally convex and is provided with two projecting tangential location surfaces, an upper tangential location surface 66 adjacent to the upper cavity wall 60 and a lower tangential location surface 68 distal to the upper cavity wall 60. The two Tangential locating surfaces are located on each side of a rear central region 70 of the rear wall 62. The rear central region 70 serves to geometrically define the upper and lower tangential location surfaces 66, 68 as separate surfaces. The upper wall 60 is generally convex and is provided with two projecting axial locating surfaces, a rear axial locating surface 72 adjacent to the rear cavity wall 62 and a front axial locating surface 74 distal to the rear cavity wall 62. The two Axial locating surfaces are located on each side of an upper central region 76 of the upper wall 60. The upper central region 76 serves to geometrically define the rear and front axial location surfaces 72, 74 as separate surfaces.
[0036] Attention is now also given to Fig. 6 showing the end surfaces 18 that engage the upper and rear walls 60, 62 of the insert cavity 54 for a given indexed position of the cutting insert 10. When the cutting insert 10 it is mounted in the insert cavity 54, the rear wall 62 faces a first end surface 18 'having a first inner end surface 43' and the upper wall 60 faces a second end surface 18 ”having a second surface inner end 43 ”which is adjacent to the first end surface 18 '. When the fixing screw 56 is tightened by turning the screw clockwise, the rear wall 62 engages the first inner end surface 43 ', the upper wall 60 engages the second inner end surface 43 ”and the base wall 64 engages a radially internal side surface 12 of the cutting insert 10.
[0037] Specifically, the upper tangential location surface 66 abuts the first inner end surface 43 'on an upper tangential contact surface 78 and the lower tangential location surface 68 abuts the first inner end surface 43' on a lower tangential contact surface 80. The front axial locating surface 74 abuts the second inner end surface 43 ”on a front axial contact surface 82 and an interstice is formed between the rear axial locating surface 72 and a contact surface rear axial 84 of the second inner end surface 43 ”, that is, the rear axial locating surface 84 faces, but does not abut, the rear axial contact surface 84.
[0038] During a cutting operation, cutting forces operating on the cutting insert 10 tend to rotate the insert counterclockwise around the fixing screw 56 until the rear axial locating surface 84 abuts the axial locating surface rear 72 and an interstice is formed between the front axial locating surface 74 and the front axial contact surface 82, thus ensuring a stable three-point abutment today, abutment of three surfaces during cutting operations.
[0039] In principle, a thread on the left could be used. This would ensure that the initial three-point contact formed when the clamping screw is tightened by anti-rotation of the screw clockwise is maintained during cutting operations. However, screws on the left are inconvenient to use. Furthermore, since they are not common for attaching cutting inserts to insert cavities, it would be bad for human engineering to use them.
[0040] Although the present invention has been described to a certain degree of particularity, it should be understood that various changes and modifications could be made without departing from the scope of the invention as hereinafter claimed.

权利要求:
Claims (10)
[0001]
1. Tangential cutting insert (10) for mounting on a cutter comprising two opposite side surfaces (12) and a peripheral surface (14) extending between them, the peripheral surface (14) comprising four identical end surfaces (18) , each end surface (18) extending between two adjacent end surfaces (18); each end surface (18) and each side surface (12) intersect at a major edge (20), at least a portion of the major edge (20) being a major cutting edge (22); each end surface (18) and each adjacent end surface (18) intersect at a smaller edge (24), at least a portion of the smaller edge (24) being a smaller cutting edge (26), the cutting edges larger (22) being longer than the smaller cutting edges (26), the larger cutting edge (22) having first and second major cutting edge sections (22a, 22b); each of the major and minor cutting edges (26) of a respective end surface (18) has an inclination surface (34) associated with it on the respective end surface (18), the inclination surface (34) if extending in a direction into the cutting insert (10); characterized by the fact that in a side view of the cutting insert (10), the larger cutting edges (22) are concave, whereby when the cutting insert (10) is mounted on the cutter, one of the cutting edges (22 ) is a larger operative cutting edge having first and second operative cutting edge sections (22a, 22b), the first major cutting edge section (22a) having a positive axial slope and the second larger cutting edge section ( 22b) having a negative axial slope.
[0002]
2. Tangential cutting insert (10) according to claim 1, characterized in that the cutting insert (10) has a through hole (16) extending between the side surfaces (12), the through hole (16 ) having a bore axis (B) around which the cutting insert (10) has 90 ° rotational symmetry.
[0003]
3. Tangential cutting insert (10) according to claim 1, characterized by the fact that adjacent larger and smaller cutting edges (22, 26) merge into a corner cutting edge (28).
[0004]
Tangential cutting insert (10) according to claim 1, characterized in that the inclination surface (34) extends towards an inner end surface (43) of the end surface (18).
[0005]
5. Tangential cutting insert (10) according to claim 1, characterized by the fact that a given larger cutting edge (22) is formed at the intersection of the slope surface (34) and a larger relief surface (42) and a given minor cutting edge (26) is formed at the intersection of the slope surface (34) and a minor relief surface (38), where the major relief surface (42) is located on a side surface (12) and the minor relief surface (38) is located on an end surface (18).
[0006]
6. Tangential cutting insert (10) according to claim 1, characterized by the fact that each smaller cutting edge (26) is formed at the intersection of a lower slope surface (44) and a smaller relief surface (38) ), the minor slope surface (44) being located on the slope surface (34) of an end surface (18) and the minor relief surface (38) being located on an adjacent end surface (18), where the minor relief surface (38) forms a support region (50) for the minor cutting edge (26), the support region (50) being raised in relation to an adjacent minor slope surface (44) located on the surface adjacent end (18).
[0007]
7. Tangential cutting insert (10) according to claim 1, characterized by the fact that adjacent larger and smaller cutting edges (26) of each end surface (18) merge into a corner cutting edge (28 ) and the major cutting edge (22) is located between the corner cutting edge (28) and a corner non-cutting edge (32).
[0008]
Tangential cutting insert (10) according to claim 7, characterized in that each end surface (18) comprises exactly two diagonally opposite corner cutting edges (28) and exactly two corner non-cutting edges diagonally opposite (32).
[0009]
9. Milling cutter (52), characterized by the fact that it comprises: at least one tangential cutting insert (10) as defined in any one of claims 1 to 8; and at least one insert cavity (54) in which the tangential cutting insert (10) is retained.
[0010]
A cutter according to claim 9, characterized in that the cutting insert (10) comprises: a first end surface (18 ') having a first inner end surface (43') comprising a tangential contact surface upper (78) and a lower tangential contact surface (80); and a second end surface (18 ") adjacent to the first end surface (18 '), the second end surface (18") a second inner end surface (43 ") comprising a front axial contact surface (82) and a rear axial contact surface (84); the insert cavity (54) comprises: adjacent upper and rear walls generally convex (60, 62) oriented transversely to a base wall (64); an upper wall (60) comprises two protruding axial locating surfaces, located on each side of an upper central region (76) of the upper wall (60), including a rear axial locating surface (72) adjacent to the rear cavity wall ( 62) and a front axial locating surface (74) distal to the rear cavity wall (62); the rear wall (62) comprises two projecting tangential location surfaces, located on each side of a central rear region (70) of the rear wall (62), including an upper tangential location surface (66) adjacent to the upper cavity wall ( 60) and a surface of lower tangential location (68) distal to the upper cavity wall (60); when the cutting insert is stuck in the insert cavity: the rear wall (62) engages the first inner end surface (43 '), with the upper tangential location surface (66) of the rear wall touching the tangential contact surface upper (78) and the lower tangential location surface (68) of the rear wall leaning against the lower tangential contact surface (80); the upper wall (60) engages the second inner end surface (43 "); and the base wall (64) engages a radially internal side surface (12) of the cutting insert (10); and where: the cutting insert is movable from a first position obtained by tightening a fixing screw (56) by rotating the screw clockwise to a second position created by cutting forces operating on the cutting insert during an operation cutting; where in the first position, the front axial locating surface (74) abuts the second inner end surface (43 ") on the front axial contact surface (82) and an interstice is formed between the rear axial locating surface (72 ) and the rear axial contact surface (84) of the second inner end surface (43 "); and in the second position, the rear axial locating surface (72) abuts the rear axial contact surface (84) and an interstice is formed between the front axial locating surface (74) and the front axial contact surface (82) .

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US8702353B2|2014-04-22|

BR112013018432A2|2016-10-11|

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JP2014503375A|2014-02-13|

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WO2012104832A1|2012-08-09|

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US20120195700A1|2012-08-02|

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法律状态:
2018-12-18| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

2019-12-31| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

2020-06-09| B07A| Application suspended after technical examination (opinion) [chapter 7.1 patent gazette]|

2020-09-29| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

2020-12-08| 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 05/01/2012, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

IL210966A|IL210966A|2011-01-31|2011-01-31|Tangential cutting insert and milling cutter|

IL210966|2011-01-31|

PCT/IL2012/000002|WO2012104832A1|2011-01-31|2012-01-05|Tangential cutting insert and milling cutter|

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