JP2020116674A - Cutting tool - Google Patents

Abstract

To provide a cutting tool that can suppress sudden defect of a cutting blade.SOLUTION: A cutting tool comprises a rake face, a flank face leading to the rake face and a cutting blade formed at a ridge-line between the rake face and the flank face. The cutting tool has a polygonal shape in a planar view. The cutting blade is formed along a side in a polygonal shape. The cutting blade has a first portion extended linearly in a planar view and a second portion positioned at one end of the first portion and extended to form an obtuse angle with respect to the first portion in the planar view.SELECTED DRAWING: Figure 1

Description

The present invention relates to cutting tools. More specifically, the present invention relates to cutting tools for skiving.

For example, Patent Literature 1 (Japanese Patent Publication No. 2003-516868) describes a cutting tool for skiving. The cutting tool described in Patent Document 1 has a cutting edge that extends linearly.

In skiving using the cutting tool described in Patent Document 1, the cutting tool described in Patent Document 1 is arranged such that the cutting edge is inclined with respect to the central axis of the work material, and the cutting edge is Are fed across the central axis of the work material. As a result, the work piece is cut while the cutting point sequentially moves on the cutting edge of the cutting tool described in Patent Document 1.

Special table 2003-516868 gazette

However, the cutting tool described in Patent Document 1 has a cutting resistance when the cutting edge starts contact with the work material (when biting) or when the contact with the work material is ended (when missing). Fluctuates. As a result, in the cutting tool described in Patent Document 1, there is room for improvement in the resistance of the cutting edge to sudden loss.

The present invention has been made in view of the above-mentioned problems of the conventional techniques. More specifically, the present invention provides a cutting tool capable of suppressing sudden breakage of a cutting edge.

A cutting tool according to an aspect of the present invention includes a rake face, a flank that is continuous with the rake face, and a cutting edge that is formed on a ridgeline between the rake face and the flank. The cutting tool has a polygonal shape in a plan view. The cutting edges are formed along the sides of the polygonal shape. The cutting edge includes a first portion extending linearly in a plan view, and a second portion located at one end of the first portion and extending so as to form an obtuse angle with the first portion in the plan view. have.

According to the cutting tool of one aspect of the present invention, it is possible to suppress sudden breakage of the cutting edge.

It is a perspective view of the cutting tool 10. 3 is a plan view in the vicinity of a cutting edge 3 of the cutting tool 10. FIG. FIG. 3 is an enlarged plan view of a portion where a first portion 31 and a second portion 32 of the cutting tool 10 are continuous with each other. FIG. 3 is an enlarged plan view of a portion where a first portion 31 and a third portion 33 of the cutting tool 10 are continuous with each other. FIG. 3 is a schematic view of skiving using the cutting tool 10. FIG. 3 is a plan view in the vicinity of a cutting edge 3 of the cutting tool 20. It is a top view in the vicinity of the cutting edge 3 of the cutting tool 30. FIG. 6 is a plan view in the vicinity of a cutting edge 3 of the cutting tool 40.

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

(1) A cutting tool according to an embodiment of the present invention includes a rake face, a flank that is continuous with the rake face, and a cutting edge that is formed on a ridgeline between the rake face and the flank. The cutting tool has a polygonal shape in a plan view. The cutting edges are formed along the sides of the polygonal shape. The cutting edge includes a first portion that extends linearly in a plan view, and a second portion that is located at one end of the first portion and that extends so as to form an obtuse angle with the first portion in a plan view. have.

In the cutting tool according to (1) above, the second portion is continuous with one end of the first portion, so that the cutting edge bites into the work material or the cutting edge comes out of the work material. Further, in the cutting tool according to (1) above, the second portion extends so as to form an obtuse angle with respect to the first portion, and thus is recessed relative to the work material relative to the first portion. In position. That is, the cut amount in the second portion is relatively smaller than the cut amount in the first portion. As a result, according to the cutting tool of the above (1), fluctuations in the cutting resistance generated at the cutting edge when biting into or out of the work material are alleviated, and sudden breakage of the cutting edge is suppressed. It becomes possible to do.

(2) In the cutting tool of (1) above, the second portion may extend linearly in a plan view.

(3) In the cutting tool according to (2), the angle formed by the first portion and the second portion may be larger than 179°.

According to the cutting tool of the above (3), since the cutting resistance between the cutting edge and the work material changes gently from the first portion to the second portion, when cutting into the work material or coming out of the work material. Fluctuations in the cutting resistance generated at the cutting edge at this time are further alleviated, and it becomes possible to further suppress sudden breakage of the cutting edge.

(4) In the cutting tools according to (1) to (3) above, the cutting edge is located at the other end of the first portion and extends so as to form an obtuse angle with the first portion in plan view. You may have a part further.

According to the cutting tool of (4) above, since the second portion is connected to one end of the first portion and the third portion is connected to the other end of the first portion, when cutting the work material and Fluctuations in the cutting resistance that occur in the cutting edge when exiting from the work material are alleviated, and it becomes possible to further suppress sudden loss of the cutting edge.

(5) In the cutting tool according to (4) above, the third portion may extend linearly in a plan view.

(6) In the cutting tool according to (5) above, the angle formed by the first portion and the third portion may be larger than 179°.

According to the cutting tool of the above (6), the cutting resistance between the cutting edge and the work material changes gently from the first portion to the second portion and changes gently from the first portion to the third portion. Therefore, the fluctuation of the cutting resistance generated at the cutting edge when biting into the work material and when coming out of the work material is further alleviated, and it becomes possible to further suppress the sudden loss of the cutting edge.

(7) In the cutting tools described in (4) to (6), the value obtained by dividing the width of the first portion in the extending direction of the first portion by the width of the cutting edge in the extending direction of the first portion is 0. It may be 7 or more and 0.99 or less.

[Details of the embodiment of the present invention]
Next, details of the embodiment of the present invention will be described with reference to the drawings. In the following drawings, the same or corresponding parts will be denoted by the same reference symbols and redundant description will not be repeated.

(Structure of the cutting tool according to the embodiment)
The configuration of the cutting tool according to the embodiment (hereinafter, referred to as "cutting tool 10") will be described.

The cutting tool 10 is a cutting tool for skiving. FIG. 1 is a perspective view of the cutting tool 10. As shown in FIG. 1, the cutting tool 10 has a rake face 1, a flank face 2 and a cutting edge 3. The flank 2 is continuous with the rake face 1. The cutting edge 3 is formed on the ridgeline between the rake face 1 and the flank face 2.

The cutting tool 10 has a polygonal shape in a plan view. Here, “plan view” refers to the case where the cutting tool 10 is viewed from a direction orthogonal to the rake face 1. In the example shown in FIG. 1, the cutting tool 10 has a triangular shape in a plan view, but the cutting tool 10 may have a polygonal shape (for example, a quadrangle, a trapezoid, etc.) other than the triangular shape. Good. Note that this "polygonal shape" does not have to be a perfect polygonal shape, and its sides and corners deviate from the perfect polygonal shape (for example, there is a part that is not a perfect straight line on that side, It may be present). The cutting edge 3 is formed along the side of this polygonal shape. The cutting edge 3 may be formed on at least one of the sides forming the polygonal shape.

The cutting tool 10 includes a base material 11, a sintered body 12, and a bonding layer 13. The base material 11 is formed of, for example, a cemented carbide. The base material 11 has a top surface 11a, a back surface 11b, and a side surface 11c. The top surface 11 a constitutes a part of the rake surface 1. The back surface 11b is a surface opposite to the top surface 11a. The side surface 11c is continuous with the top surface 11a and the back surface 11b. The side surface 11c constitutes a part of the flank surface 2.

The top surface 11a has a seat surface portion 11d. The distance between the top surface 11a and the back surface 11b on the seat surface portion 11d is smaller than the distance between the top surface 11a and the back surface 11b other than the seat surface portion 11d. That is, a step is formed on the top surface 11a in the seat surface portion 11d.

The sintered body 12 is formed of a hard material. This hard material is, for example, a cubic boron nitride (CBN) sintered body. The sintered body 12 is arranged on the seat surface portion 11d. The sintered body 12 is bonded to the base material 11 by a bonding layer 13 arranged between the sintered body 12 and the seat surface portion 11d.

In the above description, the case where the cutting tool 10 is composed of the base material 11, the sintered body 12 and the bonding layer 13 has been shown as an example, but the cutting tool 10 is configured by using the base material 11 alone and having the same shape. May be done.

FIG. 2 is a plan view in the vicinity of the cutting edge 3 of the cutting tool 10. As shown in FIG. 2, the cutting edge 3 has a first portion 31, a second portion 32, and a third portion 33.

The first portion 31 extends linearly in a plan view (hereinafter, the extending direction of the first portion 31 is referred to as “extending direction DR”). The first portion 31 has a first end 31a and a second end 31b in the extending direction DR. The second end 31b is an end opposite to the first end 31a.

The second portion 32 is continuous with the first portion 31 at the first end 31a. The second portion 32 extends linearly in a plan view. In a plan view, the first portion 31 and the second portion 32 form an angle θ1. The angle θ1 is an obtuse angle (more than 90° and less than 180°). The angle θ1 is preferably more than 179° and less than 180°.

FIG. 3 is an enlarged plan view of a portion where the first portion 31 and the second portion 32 of the cutting tool 10 are continuous with each other. As shown in FIG. 3, the corner formed by the first portion 31 and the second portion 32 may be rounded. When the corner formed by the first portion 31 and the second portion 32 is rounded, the angle θ1 is calculated as the angle formed by the extension line L1 of the first portion 31 and the extension line L2 of the second portion 32. ..

The third portion 33 is continuous with the first portion 31 at the second end 31b. The third portion 33 extends linearly in a plan view. In a plan view, the first portion 31 and the third portion 33 form an angle θ2. The angle θ2 is an obtuse angle. The angle θ2 is preferably more than 179° and less than 180°.

FIG. 4 is an enlarged plan view of a portion where the first portion 31 and the third portion 33 of the cutting tool 10 are continuous with each other. As shown in FIG. 4, the corner formed by the first portion 31 and the third portion 33 may be rounded. When the corner formed by the first portion 31 and the third portion 33 is rounded, the angle θ2 is calculated as the angle formed by the extension line L1 of the first portion 31 and the extension line L3 of the third portion 33. ..

As shown in FIG. 2, the first portion 31 has a width W1 in the extending direction DR. The cutting edge 3 has a width W2 in the extending direction DR. The value obtained by dividing the width W1 by the width W2 is preferably 0.7 or more and 0.99 or less.

In the above description, the cutting edge 3 has been described as having both the second portion 32 and the third portion 33, but the cutting edge 3 has at least one of the second portion 32 and the third portion 33. All you have to do is have it.

(Skiving using the cutting tool according to the embodiment)
Skiving processing using the cutting tool (cutting tool 10) according to the embodiment will be described.

FIG. 5 is a schematic diagram of skiving using the cutting tool 10. As shown in FIG. 5, the work material W rotates around the central axis A. The cutting tool 10 is arranged so that the cutting edge 3 is inclined with respect to the direction of the central axis A. The cutting tool 10 is fed in a direction in which the cutting edge 3 crosses the central axis A. More specifically, the cutting tool 10 is fed along a direction orthogonal to the central axis A or a direction inclined with respect to the central axis A.

As a result, at the start of cutting, the cutting edge 3 contacts the outer peripheral surface of the work material W on the second portion 32 side (the contact point between the cutting edge 3 and the work material W is referred to as a cutting point), but the cutting progresses. Accordingly, the cutting point sequentially contacts the first portion 31 and the third portion 33. As described above, in skiving, the cutting points sequentially move on the cutting edge 3, so that the wear is dispersed over the entire cutting edge 3. When the cutting tool 10 is arranged as shown in FIG. 5, the cutting point moves from the second portion 32 side to the third portion 33 side (on the second portion 32 side, the work material W bites, On the 3rd part 33 side, the cutting point moves from the 3rd part 33 side to the 2nd part 32 side (it escapes from the work material W), but if the arrangement of the cutting tool 10 is changed (on the 3rd part 33 side, It is possible to bite the work material W so as to come out of the work material W on the second portion 32 side).

(Effects of the cutting tool according to the embodiment)
The effects of the cutting tool (cutting tool 10) according to the embodiment will be described.

In the cutting tool 10, when the cutting edge 3 bites into the work material W (when biting) and when the cutting edge 3 comes out of the work material W (when falling), relatively large cutting is performed on the cutting edge 3. Resistance fluctuations occur. This change in cutting resistance causes a sudden defect in the cutting edge 3.

Since the second portion 32 and the third portion 33 linearly extend so as to form an obtuse angle with the first portion 31, the second portion 32 and the third portion 33 recede relative to the work material W relative to the first portion 31. It's in the right position. That is, the cut amount in the second portion 32 and the third portion 33 is relatively smaller than the cut amount in the first portion 31. As described above, since the second portion 32 and the third portion 33 are the portions of the cutting edge 3 that come into contact with the work material W at the time of biting and when coming out, the cutting amount in the second portion 32 and the third portion 33 is By making it relatively small, fluctuations in the cutting resistance applied to the cutting edge 3 at the time of biting and at the time of coming off are alleviated. Therefore, according to the cutting tool 10, it becomes possible to suppress sudden breakage of the cutting edge 3.

If the cutting edge 3 has either the second portion 32 or the third portion 33, it is possible to reduce the fluctuation of the cutting resistance applied to the cutting edge 3 when biting or coming off. Therefore, if the cutting edge 3 has either the second portion 32 or the third portion 33, the cutting tool 10 can suppress the accidental loss of the cutting edge 3.

In the cutting tool 10, when the angle θ1 and the angle θ2 are more than 179° and less than 180°, the cutting resistance between the cutting edge 3 and the work material W is from the first portion 31 to the second portion 32. Since it changes gently and changes gradually from the first portion 31 to the third portion 33, the fluctuation of the cutting resistance generated in the cutting edge 3 at the time of biting and when coming off is further alleviated, and sudden loss of the cutting edge. Can be further suppressed.

(Modification)
Hereinafter, the cutting tool according to the first modification (hereinafter referred to as "cutting tool 20"), the cutting tool according to the second modification (hereinafter referred to as "cutting tool 30"), and the cutting tool according to the third modification (hereinafter referred to as "cutting tool 30"). The cutting tool 40" will be described.

FIG. 6 is a plan view in the vicinity of the cutting edge 3 of the cutting tool 20. As shown in FIG. 6, the configuration of the cutting tool 20 differs from the configuration of the cutting tool 10 in that the second portion 32 and the third portion 33 are each configured by connecting a plurality of straight lines. .. When the second portion 32 (third portion 33) is configured by connecting a plurality of straight lines, “the second portion 32 (third portion 33) has an obtuse angle with respect to the first portion 31 in plan view. "Extends so as to form" means that the angle formed by each straight line forming the second portion 32 (third portion 33) and the first portion 31 is an obtuse angle.

FIG. 7 is a plan view in the vicinity of the cutting edge 3 of the cutting tool 30. FIG. 8 is a plan view in the vicinity of the cutting edge 3 of the cutting tool 40. As shown in FIGS. 7 and 8, the configurations of the cutting tool 20 and the cutting tool 30 are different from those of the cutting tool 10 in that the second portion 32 and the third portion 33 extend in a curved shape in a plan view. The composition is different. When the second portion 32 (third portion 33) extends in a curved shape, "the second portion 32 (third portion 33) forms an obtuse angle with the first portion 31 in a plan view. The term “extends” means that the angle formed by the curved tangent line forming the second portion 32 (third portion 33) and the first portion 31 is an obtuse angle.

As shown in FIG. 7, in the cutting tool 30, the second portion 32 and the third portion 33 are each configured by a single curve in a plan view. As shown in FIG. 8, in the cutting tool 40, the second portion 32 and the third portion 33 are each configured by connecting a plurality of curves in a plan view.

According to the cutting tool 20, the cutting tool 30, and the cutting tool 40, the amount of cutting in the second portion 32 and the third portion 33 becomes relatively small, so that the variation of the cutting resistance applied to the cutting edge 3 at the time of biting and when coming out. Is alleviated, it is possible to suppress a sudden loss in the cutting edge 3.

The embodiments disclosed this time are to be considered as illustrative in all points and not restrictive. The scope of the present invention is shown not by the above-described embodiments but by the claims, and is intended to include meanings equivalent to the claims and all modifications within the scope.

1 rake face 2 flank face 3 cutting edge 10, 20, 30, 40 cutting tool 11 base material 11a top face 11b back face 11c side face 11d seat face portion 12 sintered body 13 bonding layer 31 first portion 31a first end 31b second end 32 2nd part 33 3rd part A Central axis DR Extension direction L1, L2, L3 Extension line W Work material W1, W2 Width

Claims (7)

A cutting tool,
A rake face,
A flank that is continuous with the rake face,
A cutting edge formed on the ridgeline of the rake face and the flank,
The cutting tool has a polygonal shape in a plan view,
The cutting edge is formed along the side of the polygonal shape,
The cutting edge is located at one end of the first portion linearly extending in a plan view and at one end of the first portion, and extends so as to form an obtuse angle with the first portion in the plan view. A cutting tool having two parts. The cutting tool according to claim 1, wherein the second portion extends linearly in a plan view. The cutting tool according to claim 2, wherein an angle formed by the first portion and the second portion is larger than 179°. The cutting edge further includes a third portion located at the other end of the first portion and extending so as to form an obtuse angle with the first portion in a plan view. Item 4. The cutting tool according to any one of items 3. The cutting tool according to claim 4, wherein the third portion extends linearly in a plan view. The cutting tool according to claim 5, wherein an angle formed by the first portion and the third portion is larger than 179°. The value obtained by dividing the width of the first portion in the extending direction of the first portion by the width of the cutting edge in the extending direction of the first portion is 0.7 or more and 0.99 or less. ~ The cutting tool according to claim 6.