Cutting tool and a cutting holder for a cutting tool

专利摘要:

公开号:SE0900587A1
申请号:SE0900587
申请日:2009-04-30
公开日:2010-10-31
发明作者:Emilio Scandroglio
申请人:Seco Tools Ab；
IPC主号:

专利说明:

The cutting edge used in the machining operation has been worn out or otherwise fails, as has been broken, whereupon said fastening means is released to move the insert with respect to the holder to set it in a new position in the holder, the that is, indexed, for fixing the insert in such a new fixed relative position with respect to the holder for utilizing another part of the cutting edge of the insert.
Important properties of such a cutting tool are good stability of the insert seat in the holding member in a said fixed relative position, i.e. firmly clamping of the insert to the holder in this position, efficient heat dissipation from the insert and ease of performing the indexing operation, especially finding a new said fixed relative position. The first two properties are of particular importance when the work tool is intended for machining workpieces which for some reason are difficult to machine, which means that considerable forces will be applied to the insert and the heat generation will be at a high level.
A cutting tool of the type defined in the introduction is known from, for example, US 5,346,336. The standing holding wall of a holding member of this cutting tool is formed by two flat sides or parts which form an obtuse angle with each other, and these two flat sides cooperate with two spaced apart flat lower portions in the lower part of the clearance surface of the insert for defining said fixed relative position when the insert is fixed in the holding member by tightening a screw.
Thus, contact is established between the insert and the holding member mainly only through said flat lower cutting portions which abut on said flat holding wall sides. Although this cutting tool provides a stability of the seat of the insert in the holding member and an ability to dissipate heat from the insert which may be acceptable for certain types of machining, it may be desirable to improve these properties as well as the property of simplicity. and reliability in indexing. SUMMARY OF THE INVENTION The object of the present invention is to provide a cutting tool of the initially defined type, which is improved with respect to at least one of the above-mentioned features compared to already known such cutting tools.
This object is achieved according to the invention by providing such a cutting tool, which is further characterized in that an upper part of the standing holding wall forms substantially the same angle with said bottom surface of the holding member as an angle formed by an upper part of the cutting release surface with said bottom surface. of the insert for tightly abutting said upper part of the insert against said upper part of the holding member over the entire circumferential extent of the standing holding wall when the insert is attached to the holder.
By designing the holding member of the holder to have an upper part corresponding to the upper part of a cutting insert to be held therein in order to achieve said dense abutment of these upper parts over the entire circumferential extent of the standing holding wall, a perfect mutual contact between cutting edges is achieved. the release surface and the standing retaining wall without any possibility for chips or other dirt to penetrate between them and disturb this contact. This means that the heat dissipation from the insert to the holder will be very efficient. In addition, this dense abutment over the entire circumferential extent of the standing retaining wall contributes to a good stability of the seat of the insert in the holding member.
According to an embodiment of the invention, a lower part of said standing retaining wall, which follows said upper part seen in the direction of said bottom surface of the holding member, has at least one lower portion, a lower part of said cutting clearance surface following said upper part of the cutting clearing surface seen in the direction towards said bottom surface of the insert has at least one lower portion, the holding means is adapted to receive said insert 10 with said at least one lower portion of the standing retaining wall facing said at least one lower portion of the insert clearing surface in each said fixed relative position, said at least one lower portion of the standing retaining wall and said at least one lower portion of the cutting surface are designed to have a gap between them over the entire extent of these lower portions when said upper part of the cutting surface abuts closely on the upper part of the standing retaining wall and these lower portions are directed towards each other in each mentioned fixed relative position. This means that when the insert is fixed in a said fixed relative position with its bottom surface resting on the bottom surface of the holding member, there will be a gap between the lower portion of the standing retaining wall and the corresponding lower portion of the insert facing the first-mentioned lower portion. This means that larger tolerances can be tolerated in the manufacture of the insert and the holding member and a perfect fit of these with respect to each other can be achieved, than if there were no such gap between said lower portions. This also means that it becomes easier to achieve a truly perfect close abutment of said upper parts, since there is no need for a perfect matching of said lower parts with respect to each other.
According to another embodiment of the invention, said at least one lower portion of the standing retaining wall forms a less obtuse angle with respect to the bottom surface of the holding member than the obtuse angle formed by said at least one lower portion of the cutting surface for defining said gap, and the difference between the obtuse angles formed by said at least one lower portion of the standing retaining wall with the bottom surface of the holder and said at least one lower portion of the cutting clearance surface with the bottom surface of the insert is 1 ° -20 °, especially 1.5 ° -5 °. This is a suitable possible way of achieving said preferred gap which results in no mutual contact between the lower portion of the standing retaining wall and the corresponding lower portion of the insert directed towards the first-mentioned lower portion, but other favorable ways of achieving this is also possible, such as making a local recess in the standing retaining wall below said lower part thereof and then having the lower portion of this retaining wall extending at a substantially constant distance to the lower part. the portion of the insert. When choosing different said obtuse angles, the size of the angular difference can be chosen so as to ensure that there is no risk of abutment, while this difference is preferably kept as small as possible to facilitate well-defining said fixed relative positions.
According to another embodiment of the invention, said at least one lower portion of the standing retaining wall extends over a limited part of the circumferential extent of the standing retaining wall, and the insert has a plurality of said lower portions, which are arranged at a mutual distance over each other. the circumferential extent of the cutting surface and each extending over a corresponding limited portion of the circumferential extent of the cutting surface to define said fixed relative positions when directed towards said at least one lower portion of the standing retaining wall for indexing between such positions. This constitutes a preferred and effective way of defining said fixed relative positions for indexing the insert.
According to another embodiment of the invention, said at least one lower portion of the standing retaining wall forms a larger obtuse angle, such as 3 ° -15 ° or 5 ° -10 ° greater, with said bottom surface of the retainer than that formed by said upper part of said standing retaining wall with this bottom surface. By this it can be achieved by simple means that only said upper part of the standing retaining wall abuts on the cutting clearance surface where said lower part is located.
According to another embodiment of the invention, said standing retaining wall has more than said lower portion, and the mutual angular distance between these lower portions is the same as a mutual angular distance of the corresponding lower portions in the lower portion. part of the cutting clearance surface. By having more than one said lower portion of the standing retaining wall, said fixed relative positions can be very reliably defined and easily achieved.
According to another embodiment of the invention, said lower portions of the standing retaining wall are separated by lower standing retaining wall portions forming a less obtuse angle, such as 3 ° - 15 ° or 5 ° -10 ° less, with the bottom surface of the retaining member than the obtuse angle formed by said lower portions of the wall with said bottom surface, and the lower portions of the insert are separated by a lower notch surface portion forming a less obtuse angle with said bottom surface of the insert than formed by said lower portions of the insert with this bottom surface. The presence of these lower standing retaining wall portions separating the lower portions of the standing retaining wall makes indexing very easy to perform, since it will be impossible to place the insert in a position other than a said fixed relative position with respect to the retaining member, since it will only to fit with the bottom surface on the bottom surface of the holding member with the lower portions thereof facing the lower portions of the standing retaining wall. These features make it impossible to adjust the insert and secure it other than in a said fixed relative position in the holding member.
According to another embodiment of the invention, said lower portions of the standing retaining wall and of the cutting clearance surface are flat.
According to another embodiment of the invention, the standing retaining wall has two said lower portions, and said inserts suitably have 2, 3, 4, 5, 6, 7 or 8 said lower portions of the insert clearance surface. The number of such lower portions may depend on the type of machining the cutting tool is intended for, which determines the number of preferred possible fixed relative positions for indexing, and 4 is a typical such number. According to another embodiment of the invention, said upper part of the standing retaining wall extends over 10-50% of the vertical extent of the standing retaining wall from its top to said bottom surface and preferably over 10-30% of its extent. This results in a suitable size of area for perfect contact between the insert and the holding member.
According to another embodiment of the invention, said standing retaining wall has a circumferential extent of 90 ° -270 °, preferably 120 ° -200 °. An increase in the said circumferential extent can increase the stability of the seat of the insert in the holding member and also the heat dissipation capacity.
According to another embodiment of the invention, the cutting tool comprises a plurality of said inserts and holding means distributed on the holder around an intended axis of rotation of the holder, which may be preferred when the cutting tool is used for milling.
The invention also relates to a cutting holder for holding at least one insert in a cutting tool, and this cutting holder is designed as the holder defined in one of the above-described embodiments of a cutting tool according to the present invention.
The advantages and advantageous features of such a holder are clear from the above discussion of the cutting tool according to the present invention.
Additional advantages and advantageous features of the invention appear from the following description.
BRIEF DESCRIPTION OF THE DRAWINGS With reference to the accompanying drawings, the following is a specific description of cutting tools and cutting plates according to embodiments of the invention. In the drawings: Fig. 1 Fig. 2 Fig. 3 Fig. 4 Fig. Fig. Fig. 7 Fig. 8 is a perspective view of a cutting tool for a cutting tool according to an embodiment of the present invention, Fig. 1, is a simplified partially cut-away view illustrating how the insert of Fig. 1 is fixed in a holding member and a cutting tool according to the invention, is a perspective view illustrating a holding member in a cutting holder of a cutting tool according to the invention, is a view similar to Fig. 4 with an insert according to Fig. 1 received in and attached to the holding member, is a cross-sectional view of the holding member and the insert shown in Fig. 5. is a cross-sectional view illustrating how the insert is attached to the holding member, and is a simplified perspective view showing the general structure of a cutting tool according to the present invention.
DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION Fig. 1 shows an indexable insert 1 to be used in a cutting tool according to the present invention. The insert has a chip-breaking top surface 2, a bottom surface 3 for mounting and a clearance surface 4 which extends between the top and bottom surfaces and cuts said top surface 2 to thereby form a cutting edge 5 with a substantially circular extent. This cutting edge can be used for various types of chip removal processing, such as turning or milling.
The insert has a butt shape with an angle of 90 ° + A (see Fig. 3) formed by the upper part 6 thereof and also partly 21 in the lower part of the clearance surface thereof with the bottom surface 3. A is in the shown embodiment 11 °. However, the lower part of the cutting clearance surface following said upper part thereof seen in the direction of the bottom surface 3 has four lower portions 7 spaced apart over the circumferential extent of the cutting clearance surface and each of these extends over a corresponding limited part of the circumferential surface. the extent of the cutting clearance surface. These lower portions 7 are uniformly distributed around the cutting clearance surface and each of them extends over about 71-79% of the vertical extent of the clearing surface. Each lower portion 7 is flat and forms a larger angle of 90 ° + B with the bottom surface 3 than the angle 90 ° + A formed by said upper part of the clearance surface. B in the present case is about 18 °. The insert also has a central through hole 8 for receiving a screw for attaching the insert to a cutting holder of the cutting tool in a manner which will be described below.
The insert can be made of any material with the mechanical properties required for the operation of such an insert.
It may be made of a hard, abrasion resistant material, preferably sintered carbide, but may alternatively be of ceramic or cubic boron nitride (CBN). The most common hard material in sintered carbide is tungsten carbide, WC, and a binder metal. Alternative carbides may be of the metals titanium (TiC), tantalum (TaC) and niobium (NbC).
The most common binder metal is cobalt (Co), but nickel (Ni) is also possible. Sinter carbide is a powder mixture made up of carbide particles with a grain size of 0.5-10 μm and a binder metal.
The volume percentage of binder metal is 5-40% and the volume percentage of the carbides is 95-60%. The insert may be coated with a layer of, for example, Al 2 O 3, TiN and / or TiCN. The cutting tool has a holder with several holding means to which inserts according to Fig. 1 are to be attached, and the general construction of such a holding means will now be described with reference to Figs. 3-5. The holding member 20 has a bottom surface 9 which forms a seat, a so-called pocket seat, for supporting the bottom surface 3 of the insert and a standing wall 10 designed to form a lateral support for the insert. The standing retaining wall 10 may have a circumferential extent of 90 ° -270 ° and in the present case have a circumferential extent of about 150 °. The upper part 11 of the standing holding wall 10 forms substantially the same angle 90 ° + A with the bottom surface 9 of the holding member as the angle formed by the upper part 6 of the cutting clearance surface with the bottom surface 3 of the insert. This means that a close abutment of the upper part 6 of the insert against the upper part 11 of the holding member can be achieved over the entire circumferential extent of the standing holding wall 10 when the insert is attached to the holder.
In addition, the standing retaining wall 10 has in its lower part two flat lower portions 12 arranged at the same circumferential mutual distance as the lower portions 7 of the insert. These lower portions 12 extend over about 71-79% of the vertical extent of the standing retaining wall 10 and form substantially the same obtuse angle 90 ° + B with respect to the bottom surface 9 of the retaining member as the obtuse angle 90 ° + B formed by the lower portions 7 of the insert with its bottom surface 3. However, a recess 23 is made in the standing retaining wall between each said lower portion 12 and the upper portion 11, so that a gap 16 is formed between these lower portions . This can, for example, be in the order of 0.03 mm. However, the lower portions 12 of the standing retaining wall are separated by lower standing retaining wall portions 13 which form a less obtuse angle with the bottom surface 9 of the retaining member than the obtuse angle formed by the lower portions of the wall with this bottom surface, and the angle formed by the parts 13 is here the same as the angle formed by the upper part 11 with the bottom surface 9, i.e. 90 ° + A. The design of the insert and holding means described above means that the insert can only be attached to the holder in a finite number, namely four, fixed relative positions, since it is impossible to insert a screw 14 into the central hole 8. of the insert and into a threaded bore 15 in the bottom surface of the holding member if the lower portions 7 of the insert are not directed towards the lower portions 12 of the standing retaining wall. If an attempt is made to achieve a relative position other than these four fixed relative positions, the lower portions 21 of the clearance surface separating the lower portions 7 will be at least partially directed towards the lower portions 12 of the standing retaining wall forming a larger obtuse angle. with said bottom surface than said lower part of the insert, so that the central hole 8 of the insert cannot be covering aligned with the borehole. Consequently, it is impossible to clamp the insert in another than the said four positions in the holding member during indexing, which makes such indexing very easy to perform.
In addition, said small gap 16 with no contact (see Fig. 3) between the insert and the holding member between these lower portions in each said fixed position means that larger tolerances can be tolerated in the manufacture of the insert and the holding member and still a perfect fit of these with respect to each other is achieved. than if there were no such gap between these lower parties.
The presence of this gap also means that it becomes easier to achieve a truly perfect close abutment of the upper parts 6 and 11, since there is no need for a perfect mating of said lower parts with respect to each other. This perfect fit with a contact area between these upper parts extending over the entire circumferential extent of the standing holding wall effectively prevents chips or dirt from penetrating between the standing holding wall and the insert, so that the heat dissipation from the insert to the holding member through these upper parts can be very effective. Such heat is of course also effectively drained to the holding member by a perfect contact of the bottom surfaces 3 and 9 with each other. 12 15 20 25 12 When the portion of the circular cutting edge 5 of the insert has been worn out, indexing is performed by unscrewing the screw 14 so much that the insert can be lifted with its bottom surface 3 above the upper limit of the lower portions 12 of the standing holder wall. , whereupon the insert is rotated 90 ° and then lowered into a new mentioned fixed relative position on the bottom surface 9 of the holding member. The screw 14 is then tightened to efficiently clamp the insert, which is now indexed by 90 ° to use another part of the cutting edge 5 for machining.
Fig. 8 illustrates a cutting tool according to the invention to be used for milling and has a plurality, in fact four, of cutting and holding means 20 distributed on the holder 17 around an intended axis of rotation 18 of the holder. However, the inserts are not shown in this figure.
The invention is of course not in any way limited to the embodiments described above, but many possibilities for modifications thereof should be obvious to a person skilled in the art, without this departing from the scope of the invention as defined in the appended claims.
The circumferential extent of the standing retaining wall of the cutting member may be different from that shown, and the number of the lower portion of the retaining wall may be different from two, such as one or even more than two.

权利要求:
Claims (15)
[1]
A cutting tool comprising: ~ at least one indexable insert (1) having a chip-breaking top surface (2), a bottom surface (3) for mounting and a clearing surface (4) extending between said top and bottom surfaces and cutting said top surface for thereby forming a cutting edge (5) with a substantially circular extent, a holder (17) comprising at least one holding member (20) having a bottom surface (9) forming a seat for supporting said bottom surface of the insert and a standing wall (10) designed to form a lateral support for the insert, and means (8, 14, 15) for attaching the insert to the holder, said standing retaining wall and said cutting release surface being designed to enable attachment of the insert to the holder in a finite number of fixed relative positions, characterized in that an upper part (11) of the standing holding wall (10) forms substantially the same angle (90 ° + A) with said bottom surface (9) of the holding member as an angle formed by an upper part ( 6) of the cutting clearance surface (4) with said bottom surface (3) of the insert for tightly abutting said upper part of the insert against said upper part of the holding member over the entire circumferential extent of the standing holding wall when the insert is attached to the holder.
[2]
Cutting tool according to claim 1, characterized in that a lower part of the standing holding wall (10) following on said upper part (11) seen in the direction of said bottom surface of the holding member has at least one lower portion (12), that a lower part of said cutting clearance surface (4) following said upper part (6) of the cutting clearing surface seen in the direction of said bottom surface of the insert has at least one lower portion (7), that the holding means is formed to receive said insert with said at least one lower portion (12) of the standing retaining wall facing said at least one lower portion (7) of the cutting clearance surface in each said fixed relative position, and that said at least one lower portion (12) of the standing retaining wall and said at least one lower portion (12) of the standing retaining wall and said one lower portion (7) of the cutting clearance surface is formed to have a gap between them over the entire extent of these lower portions when said upper part of the cutting clearance surface abuts closely on the upper part of the stand the retaining wall and these lower portions are directed towards each other in each said fixed relative position.
[3]
Cutting tool according to claim 2, characterized in that said at least one lower portion (12) of the standing retaining wall forms a less obtuse angle with respect to the bottom surface (9) of the retaining member than the obtuse angle formed by said at least one lower portion ( 7) of the cutting clearance surface to define said gap, and that the difference between the obtuse angles formed by said at least one lower portion (12) of the standing retaining wall (10) with the bottom surface of the retainer and said at least one lower portion (7) of the cutting clearance surface (4) with the bottom surface of the insert being 1 ° -20 °, especially 1.5 ° -5 °.
[4]
Cutting tool according to claim 2 or 3, characterized in that said at least one lower portion (12) of the standing retaining wall extends over a limited part of the circumferential extent of the standing retaining wall (10) and that the insert (1) has a plurality of said lower portions (7), which are spaced apart over the circumferential extent of the cutting clearance surface and which each extend over a corresponding limited part of the circumferential extent of the cutting clearance surface (4) to define said fixed relative positions when directed towards said at least one lower portion (12) of the standing retaining wall for indexing between such positions.
[5]
Cutting tool according to any one of claims 2-4, characterized in that said at least one portion (12) of the standing retaining wall (10) forms a larger obtuse angle (90 ° + B), such as 3 ° -15 ° or 5 ° -10 ° larger, with said bottom surface of the holder than formed (90 ° + A) by said upper part (11) of the standing holder wall with said bottom surface. 10 15 20 25 30 35 15
[6]
Cutting tool according to any one of claims 2-5, characterized in that said standing retaining wall (10) has more than said lower portion (12), and that the mutual angular distance of these lower portions is the same as a mutual angular distance of corresponding lower portions (7) in the lower part of said cutting clearance surface (4).
[7]
Cutting tool according to claim 6, characterized in that said lower portions (12) of the standing retaining wall are separated by lower standing retaining wall portions forming a less obtuse angle (90 ° + A), such as 3 ° -15 ° or 5 ° - 10 ° smaller, with said bottom surface (9) of the holding member than the obtuse angle (90 ° + B) formed by said lower portions of that wall with said bottom surface, and that said lower portions (7) of the insert are separated by a lower cutting surface (21) which forms a less obtuse angle (90 ° + A) with said bottom surface of the insert than formed (90 ° + B) by said lower portions of said insert with this bottom surface.
[8]
Cutting tool according to any one of claims 2-7, characterized in that said lower portions (7) of the insert are separated by a lower cutting clearance surface portion (21) which forms a less obtuse angle (90 ° + A), such as 2 ° -15 ° or 3 ° -10 ° less, with the bottom surface (3) of the insert than an obtuse angle (90 ° + B) formed by said at least one lower portion (12) of the standing retaining wall (10) with the bottom surface ( 9) at the holding member.
[9]
Cutting tool according to any one of claims 2-8, characterized in that said lower portions (7, 12) of the standing retaining wall and of the cutting clearance surface are flat.
[10]
Cutting tool according to one of Claims 2 to 9, characterized in that the standing retaining wall (10) has two said lower portions (12). 10 15 20 16
[11]
Cutting tool according to any one of claims 2-10, characterized in that said insert (1) has 2, 3, 4, 5, 6, 7 or 8 said lower portions (7) of the insert opening surface (4).
[12]
Cutting tool according to any one of the preceding claims, characterized in that said upper part (11) of the standing retaining wall extends over 10-50% of the vertical extent of the standing retaining wall from the top (22) thereof to said bottom surface (9). ) and preferably over 10-30% of this extent.
[13]
Cutting tool according to any one of the preceding claims, characterized in that said standing retaining wall (10) has a circumferential extent of 90 ° -270 °, preferably 120 ° -200 °.
[14]
Cutting tool according to any one of the preceding claims, characterized in that it comprises a plurality of said inserts (1) and holding means (20) distributed on the holder (17) around an intended axis of rotation (18) of the holder.
[15]
Notch holder for holding at least one insert in a cutting tool, characterized in that it is designed as the holder (17) defined in any one of claims 1-14.

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US9649700B2|2013-03-18|2017-05-16|Kennametal Inc.|Method for manufacturing an insert-receiving pocket wall with a compound radius|

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JP6217355B2|2013-11-29|2017-10-25|三菱マテリアル株式会社|Cutting edge replaceable cutting tool set and mounting method of cutting insert|

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KR101524540B1|2013-12-30|2015-06-01|한국야금 주식회사|Insert and tool holder for mounting the same|

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CN105825025B|2016-03-30|2019-01-15|清华大学|Plate part machining deformation simulated prediction method|

法律状态:
2015-02-24| NUG| Patent has lapsed|

优先权:

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申请号 | 申请日 | 专利标题

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SE0900587A|SE534506C2|2009-04-30|2009-04-30|Cutting tool and a cutting holder for a cutting tool|SE0900587A| SE534506C2|2009-04-30|2009-04-30|Cutting tool and a cutting holder for a cutting tool|

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RU2011148513/02A| RU2537056C2|2009-04-30|2010-04-21|Cutting tool|

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US13/266,464| US9095909B2|2009-04-30|2010-04-21|Cutting tool and an insert holder for a cutting tool|

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BRPI1013910A| BRPI1013910A2|2009-04-30|2010-04-21|cutting tool and insert holder for cutting tool|

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KR1020117028353A| KR20120026070A|2009-04-30|2010-04-21|A cutting tool and an insert holder for a cutting tool|

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CN201080028096.2A| CN102458743B|2009-04-30|2010-04-21|A cutting tool and an insert holder for a cutting tool|

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PCT/SE2010/050437| WO2010126430A1|2009-04-30|2010-04-21|A cutting tool and an insert holder for a cutting tool|

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EP10770022.1A| EP2424700B1|2009-04-30|2010-04-21|Cutting tool|