JP2020011380A - Cutting insert and cutting tool - Google Patents

Abstract

To provide a cutting insert and a cutting tool which can achieve both machinability and cutting edge strength.SOLUTION: A cutting insert includes a body which has a first face 2, a second face, and a third face. The second face is connected to the first face 2 and extends in a direction crossing the first face 2. The third face is connected to the first face 2 and the second face 4. In the first face 2, a fixing hole 32 is formed. The second face includes a rake face. A boundary section with the first face 2 of an outer peripheral side of the second face is a main cutting edge 6. The main cutting edge 6 viewed from the first face 2 side includes a first straight line section 6a, a second straight line section 6d, and a curved section. The first straight line section 6a is located on the side of a reference side 11. The second straight line section 6d is arranged with a space from the first straight line section 6a. The curved section connects the first straight line 6a and the second straight line 6d. A first crossing angle θ1 of the first straight line 6a with the reference side 11 is different from a second crossing angle θ2 of the second straight line 6d with the reference side 11.SELECTED DRAWING: Figure 5

Description

  The present invention relates to a cutting insert and a cutting tool, and more particularly to a cutting insert and a cutting tool for corner cutting.

  2. Description of the Related Art Conventionally, a cutting insert and a cutting tool for corner cutting are known (for example, refer to Japanese Patent Application Laid-Open No. 2013-121636). A main cutting edge is formed at a boundary between the first surface on which the fixing hole of the cutting insert is formed and the second surface adjacent to the first surface. The shape of the main cutting edge viewed from the first surface side may be an arc shape or a straight line shape.

JP 2013-121636 A

  In the cutting insert as described above, a boundary between the third surface connected to the first surface and the second surface and the first surface is considered as a reference side. In this case, if the intersection angle of the main cutting edge with the reference side is relatively increased, the strength of the cutting edge of the main cutting edge can be increased. However, in this case, the inclination angle of the cutting edge may become relatively small, or the inclination angle may become negative. In such a case, the cutting performance (sharpness) of the cutting insert may be reduced.

  On the other hand, when the intersection angle is relatively small, the inclination angle of the cutting edge can be relatively large, so that the cutting performance of the cutting insert can be improved. However, in this case, the strength of the cutting edge of the main cutting edge may decrease. Thus, it has been difficult for the conventional cutting insert to achieve both good cutting properties and high edge strength.

  Therefore, it is an object of the present invention to provide a cutting insert and a cutting tool that can achieve both cutting performance and edge strength.

  A cutting insert according to one aspect of the present invention includes a main body having a first surface, a second surface, and a third surface. The second surface is continuous with the first surface and extends in a direction intersecting the first surface. The third surface is continuous with the first surface and the second surface. A fixing hole is formed on the first surface. The second surface includes a rake surface. The boundary between the outer periphery of the second surface and the first surface is the main cutting edge. The main cutting edge viewed from the first surface side includes a first straight portion, a second straight portion, and a curved portion. The first straight line portion is located on the reference side which is a boundary between the first surface and the third surface. The second straight portion is arranged at a distance from the first straight portion. The curved part connects the first straight part and the second straight part. The first intersection angle of the first straight line portion with respect to the reference side is different from the second intersection angle of the second straight line portion with respect to the reference side.

  According to the above, it is possible to provide a cutting insert and a cutting tool that can achieve both cutting performance and cutting edge strength.

FIG. 2 is a schematic front view of the cutting insert according to the first embodiment. FIG. 2 is a schematic side view of the cutting insert shown in FIG. 1. FIG. 2 is a schematic bottom view of the cutting insert shown in FIG. 1. FIG. 4 is a schematic sectional view taken along line IV-IV in FIG. 1. It is a schematic diagram for demonstrating the structure of the main cutting edge of the cutting insert shown in FIG. It is a schematic diagram for demonstrating the structure of the main cutting edge of the cutting insert shown in FIG. It is a front schematic diagram of the cutting insert which concerns on Embodiment 2. FIG. 8 is a schematic side view of the cutting insert shown in FIG. 7. FIG. 8 is a schematic bottom view of the cutting insert shown in FIG. 7. FIG. 8 is a schematic cross-sectional view taken along line XX of FIG. 7. It is a schematic diagram for explaining the configuration of the main cutting edge of the cutting insert according to Embodiment 3. FIG. 2 is a schematic diagram for explaining a configuration of a cutting tool.

[Description of Embodiment of the Present Invention]
First, embodiments of the present invention will be listed and described.

The cutting insert according to one embodiment of the present invention,
(1) The cutting insert 1 including a main body having a first surface 2, a second surface 4, and a third surface 8. The second surface 4 is continuous with the first surface 2 and extends in a direction intersecting with the first surface 2. The third surface 8 is continuous with the first surface 2 and the second surface 4. A fixing hole 32 is formed in the first surface 2. The second surface 4 includes a rake face. A main cutting edge 6 is a boundary portion between the outer periphery of the second surface 4 and the first surface 2. The main cutting edge 6 viewed from the first surface 2 side includes a first straight portion 6a, a second straight portion 6d, and a curved portion. The first straight portion 6a is located on the reference side 11 side which is a boundary between the first surface 2 and the third surface. The second straight portion 6d is arranged at an interval from the first straight portion 6a. The curved portion connects the first straight portion 6a and the second straight portion 6d. The first intersection angle θ1 of the first linear portion 6a with respect to the reference side 11 is different from the second intersection angle θ2 of the second linear portion 6d with respect to the reference side 11.

  With this configuration, the shape of the main cutting edge 6 as viewed from the first surface 2 side is not the same for the entire width such as a straight line, but the first cutting edges 6 having different intersection angles θ1 and θ2 with the reference side 11 are different. And the second linear portions 6a and 6d. As a result, the degree of freedom in adjusting the shape of the main cutting edge 6 so as to improve both the machinability and the edge strength can be increased. Therefore, by adjusting the shape of the main cutting edge 6, it is possible to obtain the cutting insert 1 in which the cutting property and the edge strength are improved. In addition, since the entire main cutting edge can have a smooth shape without corners, it is possible to suppress the occurrence of a problem that the cut surface of the workpiece is roughened due to the presence of the corners.

  (2) In the cutting insert 1, the curved portion has a first curved portion 6 b that is convex in a direction away from the fixing hole 32 when viewed from the first surface 2 side, and a convex portion that is convex on the fixing hole 32 side. And a second curved portion 6c.

  In this case, the shape of the connecting portion between the first straight portion 6a and the second straight portion 6d can be a smooth curve. For this reason, stress concentration at the connection portion can be suppressed more than when the connection portion includes a corner portion, and as a result, the durability of the connection portion can be improved.

  (3) In the cutting insert 1, when viewed from the first surface 2, the radius of curvature of the first curved portion 6b and the radius of curvature of the second curved portion 6c may be different.

  In this case, the positions of both ends of the curved portion can be set arbitrarily by appropriately adjusting the two radii of curvature. For this reason, even if the extending directions of the first straight portion and the second straight portion are individually changed, the first straight portion and the second straight portion can be easily connected by the curved portion. it can.

  (4) In the cutting insert 1, the first surface 2 may include a flank 31 continuous with the main cutting edge 6. In the flank 31, the first width W4 in the direction along the reference side 11 of the portion adjacent to the first linear portion 6 a is in the direction along the reference side 11 of the portion adjacent to the second linear portion 6 d. It may be different from the second width W5.

  In this case, even if the cutting conditions are different due to the different extending directions of the first straight portion 6a and the second straight portion 6d, the width of the flank 31 can be adjusted according to each cutting condition. it can. Therefore, high machinability can be obtained.

  (5) In the cutting insert 1, as shown in FIG. 6, the main cutting edge 6 viewed from the second surface 4 may be curved. The center C of the radius of curvature of the main cutting edge 6 as viewed from the second surface 4 side may be located closer to the third surface 8 than the fixing hole 32. Also in this case, high machinability can be obtained.

  (6) In the cutting insert 1, the difference between the first intersection angle θ1 and the second intersection angle θ2 may be 1 ° or more and 5 ° or less. In this case, the radius of curvature in the curved portion can be increased to some extent, and as a result, the first straight portion 6a and the second straight portion 6d can be smoothly connected. As a result, it is possible to prevent the cut surface of the workpiece from being roughened.

  (7) In the cutting insert 1, the first intersection angle θ1 may be not less than 80 ° and not more than 85 °. In this case, the strength of the cutting edge in the region of the main cutting edge 6 located on the boundary side between the first linear portion 6a and the reference side 11 can be sufficiently increased. Further, the first intersection angle θ1 may be larger than the second intersection angle θ2. In this case, the edge strength of the region located on the boundary side between the first straight line portion 6a and the reference side 11 is sufficiently increased, and the inclination angle of the cutting edge in the second straight line portion 6d is set to the first straight line. The inclination angle of the cutting edge at the portion 6a can be made larger. As a result, the machinability can be improved. Here, the inclination angle means an angle formed by a perpendicular and a cutting edge of the workpiece with respect to the surface to be processed when the workpiece is cut by the cutting insert 1.

The cutting tool 20 according to one embodiment of the present invention includes:
(8) A cutter body 21 having an outer peripheral surface and the cutting insert 1 according to any one of the above (1) to (7) are provided. The cutting insert 1 is fixed to the outer peripheral surface. With this configuration, it is possible to obtain the cutting tool 20 capable of performing a high-efficiency cutting by increasing the depth of cut at the time of cutting by using the cutting insert 1 having both excellent edge strength and machinability. it can.

[Details of Embodiment of the Present Invention]
Hereinafter, one embodiment of the present disclosure (hereinafter, also referred to as “the present embodiment”) will be described. However, the present embodiment is not limited to these.

(Embodiment 1)
<Configuration of cutting insert>
The configuration of the cutting insert according to the present embodiment will be described with reference to FIGS.

  The cutting insert 1 shown in FIGS. 1 to 6 is a cutting insert 1 including a main body having a first surface 2, a second surface 4, and a third surface 8. As shown in FIG. 1, the planar shape of the first surface 2 as the upper surface is substantially a parallelogram. The shape of the lower surface 3 located on the opposite side to the first surface 2 is basically the same as that of the first surface 2.

  The second surface 4 as a side surface is continuous with the first surface 2 and extends in a direction crossing the first surface 2. As shown in FIG. 2, the planar shape of the second surface 4 is substantially rectangular. The third surface 8 is continuous with the first surface 2 and the second surface 4. As shown in FIG. 3, the planar shape of the third surface 8 is substantially a parallelogram. In addition, as can be seen from FIGS. 1 to 3, the third surface 8 is configured by two inclined surfaces arranged so that the central portion protrudes.

  A fixing hole 32 is formed in the first surface 2. The fixing hole 32 is formed substantially at the center of the first surface 2. As shown in FIG. 4, the fixing hole 32 is formed so as to penetrate the main body from the first surface 2 to the lower surface 3. When the cutting insert 1 is fixed to the cutter body of the cutting tool as described later, a mounting screw is inserted into the fixing hole 32.

  A main cutting edge 6 is a boundary portion between the outer periphery of the second surface 4 and the first surface 2. Two opposing long sides of the first surface 2 are main cutting edges 6, respectively. As shown in FIG. 2, the boundary between the outer periphery of the second surface 4 and the lower surface 3 is another main cutting edge 6. In the outer periphery of the second surface 4, the main cutting edge 6 at the boundary with the first surface 2 and the other main cutting edge 6 at the boundary with the lower surface 3, as shown in FIG. It is formed to extend. The cutting insert 1 has four main cutting edges 6.

  As shown in FIG. 5, the main cutting edge 6 viewed from the first surface 2 side includes a first straight portion 6a, a second straight portion 6d, and a curved portion. The first straight line portion 6a is located on the reference side 11 side, which is a boundary between the first surface 2 and the third surface 8. In the outer periphery of the second surface 4, a portion (short side) connected to the first linear portion 6 a is the sub cutting edge 7. The main cutting edge 6 and the sub cutting edge 7 are connected by a curved connecting portion (nose portion). The second surface 4 includes a rake face in a portion adjacent to the main cutting edge 6 or the sub cutting edge 7. When cutting the workpiece with the cutting insert 1, the first straight portion 6a side of the main cutting edge 6 is first cut into the surface of the workpiece. The second straight portion 6d is arranged at an interval from the first straight portion 6a. That is, the second straight portion 6d is arranged at a position farther than the first straight portion 6a when viewed from the reference side 11. The curved portion connects the first straight portion 6a and the second straight portion 6d.

  The curved portion includes a first curved portion 6b that is convex in a direction away from the fixing hole 32 when viewed from the first surface 2 side, and a second curved portion 6c that is convex toward the fixing hole 32 side. In. That is, the curved portion includes two first curved portions 6b and second curved portions 6c that are convex in opposite directions. Here, the above-described curved portion includes two curved portion portions, but may include three or more, or four or more, and a plurality of curved portions. Further, when viewed from the first surface 2 side, the curvature radius R1 of the first curved portion 6b and the curvature radius R2 of the second curved portion 6c may be different, but these curvature radii R1, R2 are mutually different. It may be the same. Further, even when the curved portion includes three or more curved portions, the radius of curvature of each curved portion may be different or the same.

  As shown in FIGS. 1 and 5, the first intersection angle θ1 of the first linear portion 6a with respect to the reference side 11 is different from the second intersection angle θ2 of the second linear portion 6d with respect to the reference side 11. Specifically, the difference between the first intersection angle θ1 and the second intersection angle θ2 is 1 ° or more and 5 ° or less. Further, the difference may be 4 ° or less, or 3 ° or less. Further, the difference may be 2 ° or more. The first intersection angle θ1 is not less than 80 ° and not more than 85 °. Further, the first intersection angle θ1 may be 84 ° or less, or 83 ° or less. Further, the first intersection angle θ1 may be 81 ° or more, or 82 ° or more.

  As shown in FIG. 1, the first surface 2 includes a flank 31 continuous with the main cutting edge 6. In the flank 31, the first width W4 in the direction along the reference side 11 of the portion adjacent to the first linear portion 6 a is in the direction along the reference side 11 of the portion adjacent to the second linear portion 6 d. It is different from the second width W5. In the cutting insert 1 shown in FIG. 1, the flank 31 may be formed such that the second width W5 is larger than the first width W4, but the second width W5 is smaller than the first width W4. . Further, the flank 31 may be formed so that the first width W4 and the second width W5 are the same.

  As shown in FIG. 3, the extending direction of the flank 31 intersects the extending direction of the central portion of the first surface 2 where the fixing hole 32 is formed. The intersection angle θ3 between the extending direction of the flank 31 and the extending direction of the central portion of the first surface 2 is, for example, 5 °. Here, the intersection angle θ3 may be, for example, 1 ° or more and 10 ° or less. The lower limit of the intersection angle θ3 may be 2 ° or 3 °. The upper limit of the intersection angle θ3 may be 9 ° or 8 °.

  In the cutting insert 1, as shown in FIG. 6, the main cutting edge 6 viewed from the second surface 4 side may be curved. The center C of the radius of curvature of the main cutting edge 6 as viewed from the second surface 4 side may be located closer to the third surface 8 than the fixing hole 32. More specifically, the center C of the radius of curvature is located in a region closer to the first straight portion 6a than the second straight portion 6d of the main cutting edge 6.

  In the cutting insert 1 shown in FIG. 1, the width W1 is the maximum width of the cutting insert 1 in a direction along the reference side when viewed from the first surface 2 side. The width W1 can be, for example, not less than 10 mm and not more than 20 mm. The width W2 shown in FIG. 1 is the flank 31 at the center of the main cutting edge 6 from the connection between the main cutting edge 6 and the sub cutting edge 7 in the direction along the reference side as viewed from the first surface side. And a boundary between the first surface 2 and the center. The width W2 can be, for example, not less than 8 mm and not more than 18 mm. The width W3 shown in FIG. 1 is the width of the center of the first surface 2 in the direction along the reference side at the center of the first surface 2. The width W3 can be, for example, not less than 7 mm and not more than 17 mm. The length L in FIG. 1 is a length in a direction perpendicular to the reference side of the cutting insert 1. The length L can be, for example, not less than 10 mm and not more than 20 mm.

  Further, as shown in FIG. 5, the width L1 of the first linear portion 6a in a direction perpendicular to the reference side 11 can be, for example, not less than 1 mm and not more than 3 mm. Further, width L2 of first curved portion 6b in a direction perpendicular to reference side 11 can be, for example, 1 mm or more and 5 mm or less. The width L3 of the second curved portion 6c in a direction perpendicular to the reference side 11 can be, for example, 1 mm or more and 7 mm or less. The width L4 of the second straight portion 6d in a direction perpendicular to the reference side 11 can be, for example, 5 mm or more and 17 mm or less.

  Further, the radius of curvature R1 of the first curved portion 6b shown in FIG. 5 can be, for example, 10 mm or more and 30 mm or less, and the radius of curvature R2 of the second curved portion 6c can be, for example, 20 mm or more and 60 mm or less. .

<Effects of cutting inserts>
In the cutting insert 1 shown in FIGS. 1 to 6, the main cutting edge 6 as viewed from the first surface 2 side is formed by first and second linear portions 6 a and 6 d having different intersection angles θ1 and θ2 with the reference side 11. Is formed. As a result, the degree of freedom in adjusting the shape of the main cutting edge 6 so as to improve both the machinability and the edge strength can be increased. Specifically, as shown in FIG. 5, the first intersection angle θ1 of the first straight line portion 6a on the side closer to the reference side is larger than the second intersection angle θ2 of the second straight line portion 6d. I have. For this reason, the edge strength at the end of the first straight portion 6a can be higher than when the entire main cutting edge 6 is a straight line parallel to the second straight portion 6d.

  In addition, since the second intersection angle θ2 of the second linear portion 6d is smaller than the first grass angle θ1 of the first linear portion 6a, for example, a decrease in the machinability when the cutting amount is large is reduced. Can be suppressed. That is, even in cutting under severe conditions such as an increase in the depth of cut, the durability of the cutting insert 1 and the high cutting performance can be ensured.

  In addition, as shown in FIG. 5, the first straight portion 6a and the second straight portion 6d are connected by a curved portion, so that the entire main cutting edge can have a smooth shape without corners. For this reason, it is possible to suppress the occurrence of the problem that the cut surface of the workpiece is roughened due to the presence of the corner.

  In addition, as shown in FIG. 5, the curved portion includes a first curved portion 6b and a second curved portion 6c that are convex in the opposite directions. Therefore, the shape of the connecting portion between the first straight portion 6a and the second straight portion 6d can be a smooth curve. For this reason, stress concentration at the connection portion can be suppressed more than when the connection portion includes a corner portion, and as a result, the durability of the connection portion can be improved.

  The radius of curvature R1 of the first curved portion 6b and the radius of curvature R2 of the second curved portion 6c can be set to be different from each other. In this case, the positions of both ends of the curved portion can be arbitrarily set by appropriately adjusting the two radii of curvature R1 and R2. For this reason, even if the extending directions of the first straight portion 6a and the second straight portion 6d are individually changed, the first straight portion 6a and the second straight portion 6d can be easily formed by the curved portion. Can be connected.

  Further, the first surface 2 of the cutting insert 1 includes a flank 31 continuous with the main cutting edge 6 as shown in FIG. In the flank 31, a first width W4 of a portion adjacent to the first linear portion 6a can be set to be different from a second width W5 of a portion adjacent to the second linear portion 6d. Therefore, the widths W4 and W5 of the flank 31 can be adjusted in accordance with the respective cutting conditions of the first straight portion 6a and the second straight portion 6d. For this reason, high machinability can be obtained as the whole main cutting edge 6.

  As shown in FIG. 6, the center C of the radius of curvature of the main cutting edge 6 as viewed from the second surface 4 is located closer to the third surface 8 than the fixing hole 32. Also in this case, high machinability can be obtained.

  The difference between the first intersection angle θ1 and the second intersection angle θ2 is 1 ° or more and 5 ° or less. In this case, the amount of deviation between the first straight portion 6a and the second straight portion 6d can be made relatively small. For this reason, the amount of deviation that needs to be adjusted in the curved portion is reduced, and the radius of curvature of the curved portion can be increased to some extent. Therefore, the first straight portion 6a and the second straight portion 6d can be smoothly connected by a curve having a large radius of curvature. As a result, it is possible to prevent the cut surface of the workpiece from being roughened.

  The first intersection angle θ1 is not less than 80 ° and not more than 85 °. In this case, the strength of the cutting edge in the region of the main cutting edge 6 located on the boundary side between the first linear portion 6a and the reference side 11 can be sufficiently increased. Further, the first intersection angle θ1 is larger than the second intersection angle θ2. For this reason, the inclination angle of the cutting edge in the second linear portion 6d can be larger than the inclination angle of the cutting edge in the first linear portion 6a. As a result, the machinability can be improved.

(Embodiment 2)
As shown in FIGS. 7 to 10, the cutting insert 1 according to the present embodiment basically has the same configuration as the cutting insert 1 shown in FIGS. 1 to 6, but the first surface 2 has a central portion. The cutting insert 1 shown in FIGS. 1 to 6 differs from the cutting insert 1 shown in FIGS. 1 to 6 in that it does not have another flank 31 (see FIG. 1) and that the third surface is a flat surface. The main cutting edge 6 of the cutting insert 1 shown in FIGS. 7 to 10 includes a first straight portion 6a, a curved portion, and a second straight portion 6d as shown in FIG. As can be seen from FIGS. 7 and 8, the first surface 2 is entirely flat.

  With such a configuration, the same effects as those of the cutting insert 1 shown in FIGS. 1 to 6 can be obtained.

<Configuration and Operation and Effect of Modification>
FIG. 11 is a schematic diagram for explaining a modified example of the cutting insert according to the present embodiment. FIG. 11 corresponds to FIG.

  The cutting insert shown in FIG. 11 basically has the same configuration as the cutting insert shown in FIGS. 7 to 10, but the first intersection angle θ1 of the first straight portion 6 a of the main cutting edge 6 is 90. The cutting insert 1 shown in FIGS. 7 to 10 is different from the cutting insert 1 shown in FIGS. In this case, the first intersection angle θ1 can be, for example, more than 90 ° and 100 ° or less. In this way, the same effects as those of the cutting insert 1 shown in FIGS. 7 to 10 can be obtained, and the edge strength in the vicinity of the first straight portion 6a of the main cutting edge 6 can be further increased. Note that such a configuration in which the first intersection angle θ1 is equal to or greater than 90 ° or greater than 90 ° may be applied to the cutting insert 1 illustrated in FIGS. 1 to 6.

<Configuration and effects of cutting tool>
FIG. 12 shows a cutting tool 20 using the cutting insert 1 shown in FIGS. The cutting tool 20 shown in FIG. 12 is a milling cutter for corner cutting. The cutting tool 20 includes a cutter body 21 having an outer peripheral surface and the cutting insert 1 described above. The cutting insert 1 is fixed to the outer peripheral surface. Specifically, a plurality of seat grooves 22 are formed on the outer peripheral surface of the cutter body 21. The cutter body 21 is rotatable about a rotation axis. A seat groove 22 is formed on an outer peripheral surface located in a radial direction when viewed from a rotation axis of the cutter body 21. A chip pocket 23 is formed on the outer peripheral surface of the cutter body 21 so as to be adjacent to the seat groove 22. The plurality of seat grooves 22 and the chip pockets 23 are arranged at intervals along the rotation direction of the cutter body 21.

  The cutting insert 1 is inserted into each seat groove 22. The cutting insert 1 is fixed to the seat groove 22 by a mounting screw. The mounting screw is inserted into a fixing hole 32 (see FIG. 1) of the cutting insert 1 and screwed into a screw hole (not shown) formed in the inner wall of the seat groove 22 to be fixed.

  For example, the lower surface 3 of the cutting insert 1 is in contact with the inner surface 22a of the seat groove 22. Further, the second surface 4 on the side not involved in cutting of the cutting insert 1 is supported by the inner surface 22 b of the seat groove 22.

  As the cutter body 21 rotates about the rotation axis, the workpiece is cut by the main cutting edge 6 and the sub cutting edge 7 of the cutting insert 1.

  According to such a configuration, by using the cutting insert 1 having both excellent edge strength and machinability, the cutting tool 20 capable of performing a high-efficiency cutting by increasing the depth of cut at the time of cutting is obtained. be able to.

  The embodiment disclosed this time is an example in all respects and should be considered as not being restrictive. The scope of the present invention is defined by the terms of the claims, rather than the embodiments described above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

  The present invention is useful when used for cornering.

Reference Signs List 1 cutting insert 2 first surface 3 lower surface 4 second surface 6 main cutting edge 6a first straight portion 6b first curved portion 6c second curved portion 6d second straight portion 7 sub cutting edge 8 third surface 11 reference side Reference Signs List 20 cutting tool 21 cutter body 22 seat groove 22a, 22b inner surface 23 chip pocket 31 flank 32 fixing hole

Claims (13)

A main body having a first surface, a second surface continuous with the first surface and extending in a direction intersecting the first surface, and a third surface continuous with the first surface and the second surface;
A fixing hole is formed in the first surface,
The second surface includes a rake surface,
A boundary portion between the outer periphery of the second surface and the first surface is a main cutting edge,
The main cutting edge as viewed from the first surface side,
A first linear portion located on a reference side which is a boundary between the first surface and the third surface;
A second linear portion disposed at an interval from the first linear portion;
A curved portion connecting the first straight portion and the second straight portion;
A first intersection angle of the first straight line portion with respect to the reference side is larger than a second intersection angle of the second straight line portion with respect to the reference side,
The first surface is a flank connected to the main cutting edge,
A central portion where the fixing hole is formed, which is continuous with the flank on the side opposite to the main cutting edge,
A cutting insert, wherein an extending direction of the flank and an extending direction of the central portion intersect.   The cutting insert according to claim 1, wherein an intersecting angle between an extending direction of the flank and an extending direction of the central portion is 1 ° or more and 10 ° or less.   The curved portion includes a first curved portion that is convex in a direction away from the fixing hole when viewed from the first surface side, and a second curved portion that is convex on the fixing hole side. The cutting insert according to claim 1 or 2.   The cutting according to any one of claims 1 to 3, wherein a radius of curvature of the first curved portion and a radius of curvature of the second curved portion are different when viewed from the first surface side. insert.   4. The cutting insert according to claim 1, wherein a radius of curvature of the second curved portion is larger than a radius of curvature of the first curved portion when viewed from the first surface side. 5.   When viewed from the first surface side, the width of the second linear portion in a direction perpendicular to the reference side is greater than the width of the first linear portion in a direction perpendicular to the reference side. The cutting insert according to any one of claims 1 to 5, wherein the cutting insert has a larger diameter. The curved portion includes a first end connected to the first linear portion, and a second end connected to the second linear portion,
The position of the second end is closer to the fixing hole than the position of the first end in a direction along the reference side when viewed from the first surface side. Item 7. The cutting insert according to any one of Items 6.   When viewed from the first surface side, a first width in a direction along the reference side of a portion adjacent to the first linear portion on the flank is adjacent to the second linear portion. The cutting insert according to any one of claims 1 to 7, wherein the cutting insert has a second width different from a second width in a direction along the reference side of the portion. The main cutting edge viewed from the second surface side is curved,
The cutting insert according to any one of claims 1 to 8, wherein a center of a radius of curvature of the main cutting edge as viewed from the second surface is located closer to the third surface than the fixing hole. .   The cutting insert according to any one of claims 1 to 9, wherein a difference between the first intersection angle and the second intersection angle is 1 ° or more and 5 ° or less.   The cutting insert according to any one of claims 1 to 10, wherein the first intersection angle is not less than 80 ° and not more than 85 °.   The cutting insert according to any one of claims 1 to 9, wherein the first intersection angle is 90 ° or more. A cutter body having an outer peripheral surface,
A cutting tool comprising: the cutting insert according to any one of claims 1 to 12, fixed to the outer peripheral surface.