KR101301433B1 - Unequal Endmill of leading edge with oval web - Google Patents

Abstract

The present invention relates to an uneven split end mill to which an elliptical web is applied.
The differential split end mill to which the elliptical web according to the present invention is applied comprises: a plurality of first cutting edges 2a having a first spiral angle; A plurality of second cutting edges (2b) having a second helix angle different from said first helix angle (hea); A plurality of first flutes (3a) formed between the plurality of first cutting edges (2a) and the plurality of second cutting edges (2b) to discharge the cutting chips; A plurality of second flutes (3b) formed between the plurality of second cutting edges (2b) and the plurality of first cutting edges (2a) to discharge the cutting chips; And a web 11 formed in an inscribed manner with the plurality of first flutes 3a and the plurality of second flutes 3b.
The web 11 forms a back taper 12a in a first cross section passing through the end mill center C in the longitudinal direction of the inequality end mill 1, and forms the end mill center C. And a taper (12b) shape in a second cross section perpendicular to the first cross section.

Description

Unequal Endmill of leading edge with oval web}

The present invention relates to an uneven split end mill applied with an elliptical web, and more particularly, to an undivided split end mill applied with an elliptical web for processing a plane and a side surface of a workpiece.

In general, vibration occurs when cutting with an end mill, and the vibration causes roughness of the workpiece surface.

An inequality split end mill has been proposed as a technique for suppressing vibration of the end mill.

Conventional uneven split end mills have a technique of forming an uneven lead (uneven helix) that varies the helix angle of each cutting edge, a technique of forming each cutting edge at uneven intervals in the circumferential direction, and an uneven division of a low indexing angle. One technique.

In the conventional uneven split end mill, a difference in cutting resistance occurs depending on the interval between cutting edges when cutting, and there is a problem in that uneven cutting resistance is generated by changing the contact area under the influence of the uneven lead.

In addition, the conventional uneven split end mill has a problem that the cutting force is uneven according to the position of the cutting edge as the gap between the cutting edge spacing occurs, and furthermore, the quality of the processing is deteriorated by affecting the vibration of the tool.

In addition, the conventional unequal split end mills have a problem that the cutting edge thickness and the flute depth of one of the divided portions are different from the cutting edge thickness and the flute depth of the other, so that the rigidity is weakened at the relatively narrow cross-sectional area. As the stiffness is weakened, there is a problem that defects and chipping of the uneven split end mill occur.

Patent Application Publication No. 10-0673555, 2007.01.17. Publication No. 10-2007-0083787, 2007.08.24. Patent Publication No. 10-2009-0080959, July 27, 2009. Patent Publication No. 10-2009-0098655, 2009.09.17.

Therefore, the technical problem to be achieved by the present invention is to reduce the vibration that can be generated when the unequal split end mill rotates due to the unequal split low and lead effect, to ensure the rigidity as much as the unequal divided split and chipping of the unequal split end mill The purpose is to provide an unequal split end mill with an elliptical web to prevent it.

The present invention has been made in view of the above problems, and it is an object of the present invention to at least partially solve the problems in the conventional arts. There will be.

The unequal divided end mill to which the elliptical web according to the present invention for achieving the above technical problem is provided comprises: a plurality of first cutting edges (2a) having a first spiral angle (hea); A plurality of second cutting edges (2b) having a second helix angle different from said first helix angle (hea); A plurality of first flutes (3a) formed between the plurality of first cutting edges (2a) and the plurality of second cutting edges (2b) to discharge the cutting chips; A plurality of second flutes (3b) formed between the plurality of second cutting edges (2b) and the plurality of first cutting edges (2a) to discharge the cutting chips; And a web 11 formed in an inscribed manner to the plurality of first flutes 3a and the plurality of second flutes 3b, wherein the web 11 has an undivided length of the end mill 1. Taper in a first cross section passing through the end mill center C in a direction, and a second taper in a second cross section crossing the end mill center C and perpendicular to the first cross section. 12b) form a shape.

In addition, in the differentially divided end mill to which the elliptical web according to the present invention is applied, the web 11 may have an elliptic shape in a third cross section perpendicular to the first cross section and the second cross section.

In addition, the inequality split end mill to which the elliptical web according to the present invention is applied includes a first inequality divided angle Aa formed by the first cutting edge 2a, the end mill center C, and the second cutting edge 2b. ): A second inequality divided by the second cutting edge (2b), the end mill center (C) and the first cutting edge (2a); A first web width Wa across the plurality of first cutting edges 2a; And a second web width Wb across the plurality of second cutting edges 2b, wherein the ratio of the first inequality angle Aa and the second inequality angle Ab is the second width. The larger the inequality in proportion to the ratio of the first web width Wa to the second web width Wb, the larger the web width is in direct proportion to the ratio.

In addition, the inequality split end mill to which the elliptical web according to the present invention is applied has a first inequality divided angle Aa formed by the first cutting edge 2a, the end mill center C, and the second cutting edge 2b. A second inequality divided by the second cutting edge 2b, the end mill center C, and the first cutting edge 2a; A first flute depth Ha of the first cutting edge 2a; And a second flute depth Hb of the second cutting edge 2b, wherein a ratio of the first inequality dividing angle Aa and the second inequality dividing angle Ab is determined by the first flute depth (Ab). As the inequality is increased in inverse proportion to the ratio of Ha) and the second flute depth Hb, the flute depth may be inversely shallow.

In addition, the inequality split end mill to which the elliptical web according to the present invention is applied has a first inequality divided angle Aa formed by the first cutting edge 2a, the end mill center C, and the second cutting edge 2b. A second inequality divided by the second cutting edge 2b, the end mill center C, and the first cutting edge 2a; A first web width Wa across the plurality of first cutting edges 2a; A second web width Wb across the plurality of second cutting edges 2b; A first flute depth Ha of the first cutting edge 2a; And a second flute depth Hb of the second cutting edge 2b, wherein the ratio of the first inequality dividing angle Aa and the second inequality dividing angle Ab is equal to the first web width (b). The larger the angle of inequality in proportion to the ratio of Wa) and the second web width Wb, and inversely proportional to the ratio of the first flute depth Ha and the second flute depth Hb, the larger the web width is directly proportional to The flute depth may be inversely shallow.

The details of other embodiments are included in the detailed description and drawings.

The unequal split end mill to which the elliptical web according to the present invention made as described above is applied to the elliptical web, and the ratio of the major axis and the minor axis of the ellipse is equal to the ratio of the unequal dividing angle to balance the rotation moment. It is possible to minimize the vibration generated during the cutting process.

In addition, the unequal split end mill to which the elliptical web is applied according to the present invention has increased rigidity at the cutting edge that requires a large cutting force, thereby reducing the defect of the cutting edge when cutting, and can stably implement cutting for a long time by smooth chip generation. have.

1 is a view for explaining an uneven split end mill to which an elliptical web according to an embodiment of the present invention is applied.
2 is a cross-sectional view taken along the line AA of FIG. 1 for explaining the web.
3 is a cross-sectional view taken along the line BB of FIG. 1 for explaining the web.
4 is a cross-sectional view taken along line CC of FIG. 1 for explaining the web.
5 is a view for explaining the difference in depth of the flute in the uneven split end mill to which the elliptical web according to an embodiment of the present invention.
Figure 6 is a front view as seen from the bottom side of the differential split end mill to which the elliptical web according to an embodiment of the present invention is applied.
7 is a view for explaining the web,
(a) is sectional drawing in the DD line | wire of FIG.
(b) is sectional drawing in the EE line | wire of FIG.
Figure 8 is an exemplary view showing the processing quality cut by the differential split end mill to which the elliptical web according to an embodiment of the present invention.
Figure 9 is an exemplary view showing the machining quality cut by the end mill of the comparative example.
It is the front view seen from that side.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to accomplish them, will become apparent by reference to the embodiments described in detail below with reference to the accompanying drawings.

Like reference numerals refer to like elements throughout the specification.

Hereinafter, an undivided split end mill to which an elliptical web according to an embodiment of the present invention is applied will be described with reference to FIGS. 1 to 7.

1 is a view for explaining an uneven split end mill to which an elliptical web according to an embodiment of the present invention is applied.

In the differentially divided end mill 1 according to an embodiment of the present invention, a plurality of first and second cutting edges 2a and 2b are formed outside the web 11, and a plurality of first and second cutting edges are formed. First and second bottoms 4a and 4b are formed at the ends of the blades 2a and 2b, respectively.

In addition, one side of the first and second bottom faces 4a and 4b is provided with a marginal face 7 and a low tilting surface 8, respectively.

The 1st, 2nd grind 4a, 4b is a form connected with the 1st, 2nd cutting edge 2a, 2b, and the angle which the 1st 2nd grind 4a and the 2nd grind 4a make is made It is provided in the same ratio as the uneven division angle which the 1st cutting edge 2a and the 2nd cutting edge 2b make.

The plurality of first cutting edges 2a have a first spiral angle Hea, the plurality of second cutting edges 2b have a second spiral angle Heb, and the first spiral angle Hea and the second Helix angles are provided differently.

Moreover, the 1st, 2nd outer peripheral surface 6a, 6b is formed in each of the 1st, 2nd cutting edge 2a, 2b.

Moreover, the some 1st cutting edge 2a has the 1st flute 3a, The some 2nd cutting edge 2b has the 2nd flute 3b, The 1st, 2nd flute 3a ( 3b) is used as a discharge groove for discharging the cutting chip generated during the cutting process.

In addition, the unequal split end mill 1 is formed with a circular or elliptic web 11 contacting the plurality of first flutes 3a and the plurality of second flutes 3b around the end mill center C. FIG. do.

The cross-sectional shape of the web 11 described above will be described in more detail with reference to FIGS. 2 to 5.

2 through 5 are cross-sectional views taken along line AA, line BB, and line CC of FIG. 1 for explaining a web, and FIG. 5 is a flute in an undivided split end mill to which an elliptical web according to an embodiment of the present invention is applied. Is a diagram for explaining the difference in depth.

As shown in Figs. 2 to 4, when looking at the cross section at a specific portion of the first and second cutting edges 2a and 2b, the web 11 is elliptical in the cross section perpendicular to the longitudinal direction of the end mill center C. It is an image.

The elliptic shape has the widest part and the narrowest part, which are defined as the first web width Wa and the second web width Wb, respectively.

The first cutting edge 2a, the end mill center C, and the second cutting edge 2b form a first inequality divided angle Aa, and the second cutting edge 2b, the end mill center C, and the first cutting edge 2a. The first cutting edge 2a constitutes the second inequality dividing angle Ab, and the first inequality dividing angle Aa and the second inequality dividing angle Ab are provided differently.

Here, the ratio of the first flute depth Ha and the second flute depth Hb is provided in the same manner as the ratio of the first inequality dividing angle Aa and the second inequality dividing angle Ab.

Meanwhile, as shown in FIG. 5, the first flute 3a and the second flute 3b have different depths as the first flute depth Ha and the second flute depth Hb.

Further, the ratio of the first flute depth Ha and the second flute depth Hb is provided in the same manner as the ratio of the ellipse long axis Wa and the elliptic short axis Wb.

This can be expressed as follows.

That is, as the relative inequality of the first and second cutting edges 2a and 2b increases, the web width increases proportionally, and the flute depth becomes proportionally shallow.

On the contrary, as the relative inequality of the first and second cutting edges 2a and 2b is smaller, the web width is proportionally smaller, and the flute depth is proportionally deeper.

The outer shape of the web 11 described above will be described in more detail with reference to FIGS. 5 to 7.

FIG. 6 is a front view seen from the bottom side of an uneven split end mill to which an elliptical web according to an embodiment of the present invention is applied, and FIG. 7 is a view for explaining the web, and FIG. 7 (a) is a DD of FIG. 6. It is a line sectional drawing, and FIG. 7 (b) is sectional drawing of the EE line of FIG.

The contour of the web 11 in the undivided split end mill 1 is a cross section passing through a position adjacent to the first cutting edge 2a and a position adjacent to a second cutting edge 2b at a position orthogonal to the cross section. Are completely different shapes.

More specifically, it forms a back taper 12a in the first cross section passing through the end mill center C in the longitudinal direction of the inequality end mill 1.

In addition, a taper 12b is formed in the second cross section passing through the end mill center C and perpendicular to the first cross section described above.

That is, as shown to Fig.7 (a), in a specific cross section, it is a reverse taper 12a shape, and as shown to Fig.7 (b), it is a taper 12b shape in another cross section.

On the other hand, the cross-sectional shape of the web 11 is an elliptical shape, as shown in FIGS. 2 to 4 in a third cross section perpendicular to the above-described first cross section and the above-described second cross section.

That is, the outer shape of the web 11 is formed by combining the back taper shape and the forward taper shape to optimize the shape of the ellipse in the unequal lead structure in which the unequal division angle is changed according to the length of tension. It becomes possible.

As the first and second cutting edges 2a and 2b proceed in the shank direction, the elliptical web 11 and the uneven division angle change at a uniform ratio.

In addition, the inequality split end mill 10 according to an embodiment of the present invention, the flute depth becomes shallower as the web (web) becomes larger toward the flute that generates a lot of cutting force due to the application of the elliptical web (11), thereby As the angle of inclination approaches the obtuse angle, the rigidity of the cutting edge may be increased, and further, vibration may be minimized when cutting, and the machining quality may be improved as the vibration is reduced.

In particular, the inequality split end mill 10 according to an embodiment of the present invention, the inclination angle is changed for each position of the cutting edge as the processing depth deepens, the feed per cutting edge is irregular, thereby the cutting force acts differently, but specific It is possible to have a rigidity corresponding to the cutting force at the cutting edge portion.

In addition, by applying the uneven taper to the web 11, the change in the ratio of the major axis and the minor axis of the elliptical web 11 is applied evenly according to the change of the uneven division angle, thereby achieving a balanced balance of the rotation moment, thereby improving processing efficiency. In addition, the processing quality is improved.

Improvement of the machining quality of the cutting process will be described with reference to the accompanying drawings, FIGS. 8 and 9.

8 is an exemplary view showing a machining quality cut by the uneven split end mill 1 to which an elliptic web is applied according to an embodiment of the present invention, and FIG. 9 is a machining cut by the end mill of the comparative example. An example drawing showing the quality.

In the following cutting processing conditions as shown in Table 1, the cutting process is performed using the uneven split end mill 1 according to an embodiment of the present invention and an end mill to which the prior art is applied, and the machining quality is compared. do.

After processing a hole having a predetermined depth (12 mm) and a diameter of 8 mm, the material is cut to show the surface of the hole, and detailed drawings of FIGS. 8 and 9 show an enlarged surface of the hole.

When cutting corners and shoulders, cutting may occur on the cut surface due to the shaking of the tool. do.

As can be seen in comparison with FIGS. 8 and 9, in FIG. 8, it can be seen that there is little pattern and smoothness on the processed surface (hole surface), and in FIG. 9, the comb pattern is clearly shown on the processed surface (hole surface). It can be seen that.

That is, it can be seen that the processing quality processed by the inequality end mill 1 according to the embodiment of the present invention is superior to the comparative example.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. will be.

Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, and the scope of the present invention is indicated by the appended claims. The scope of the claims and their equivalents It is to be understood that all changes or modifications that come within the meaning and range of equivalency of the claims are to be embraced within their scope.

An uneven split end mill with an elliptical web according to the invention can be used for cutting planes and sides.

1: unequal split end mill
2a, 2b: first and second cutting edges
3a, 3b: first and second flutes
4a, 4b: first and second author
6a, 6b: first and second outer margins
7: writer
8: low slope
11: web ellipse
12a: Back taper
12b: taper
C: End Mill Center
Hea, Heb: first and second helix angle

Claims (5)

delete delete A plurality of first cutting edges 2a having a first helix angle;
A plurality of second cutting edges (2b) having a second helix angle different from said first helix angle (hea);
A plurality of first flutes (3a) formed between the plurality of first cutting edges (2a) and the plurality of second cutting edges (2b) to discharge the cutting chips;
A plurality of second flutes (3b) formed between the plurality of second cutting edges (2b) and the plurality of first cutting edges (2a) to discharge the cutting chips; And
And a web 11 formed in an inscribed manner with the plurality of first flutes 3a and the plurality of second flutes 3b.
The web 11,
A back taper 12a is formed in a first cross section through the end mill center C in the longitudinal direction of the inequality end mill 1, and passes through the end mill center C and is perpendicular to the first cross section. Taper (12b) shape in the second cross section to form a,
First inequality divided angle Aa formed by the first cutting edge 2a, the end mill center C, and the second cutting edge 2b:
A second inequality divided by the second cutting edge (2b), the end mill center (C), and the first cutting edge (2a);
A first web width Wa across the plurality of first cutting edges 2a; And
A second web width Wb across the plurality of second cutting edges 2b;
The ratio of the first inequality angle Aa and the second inequality angle Ab is directly proportional to the ratio of the first web width Wa and the second web width Wb, so that the larger the inequality angle, the web An uneven split end mill with an elliptical web characterized in that the width increases in direct proportion.
A plurality of first cutting edges 2a having a first helix angle;
A plurality of second cutting edges (2b) having a second helix angle different from said first helix angle (hea);
A plurality of first flutes (3a) formed between the plurality of first cutting edges (2a) and the plurality of second cutting edges (2b) to discharge the cutting chips;
A plurality of second flutes (3b) formed between the plurality of second cutting edges (2b) and the plurality of first cutting edges (2a) to discharge the cutting chips; And
And a web 11 formed in an inscribed manner with the plurality of first flutes 3a and the plurality of second flutes 3b.
The web 11,
A back taper 12a is formed in a first cross section through the end mill center C in the longitudinal direction of the inequality end mill 1, and passes through the end mill center C and is perpendicular to the first cross section. Taper (12b) shape in the second cross section to form a,
First inequality divided angle Aa formed by the first cutting edge 2a, the end mill center C, and the second cutting edge 2b:
A second inequality divided by the second cutting edge (2b), the end mill center (C), and the first cutting edge (2a);
A first flute depth Ha of the first cutting edge 2a; And
And a second flute depth Hb of the second cutting edge 2b.
The ratio of the first inequality dividing angle Aa and the second inequality dividing angle Ab is inversely proportional to the ratio of the first flute depth Ha and the second flute depth Hb. An uneven split end mill with an oval web characterized in that the depth becomes shallow in inverse proportion.
A plurality of first cutting edges 2a having a first helix angle;
A plurality of second cutting edges (2b) having a second helix angle different from said first helix angle (hea);
A plurality of first flutes (3a) formed between the plurality of first cutting edges (2a) and the plurality of second cutting edges (2b) to discharge the cutting chips;
A plurality of second flutes (3b) formed between the plurality of second cutting edges (2b) and the plurality of first cutting edges (2a) to discharge the cutting chips; And
And a web 11 formed in an inscribed manner with the plurality of first flutes 3a and the plurality of second flutes 3b.
The web 11,
A back taper 12a is formed in a first cross section through the end mill center C in the longitudinal direction of the inequality end mill 1, and passes through the end mill center C and is perpendicular to the first cross section. Taper (12b) shape in the second cross section to form a,
First inequality divided angle Aa formed by the first cutting edge 2a, the end mill center C, and the second cutting edge 2b:
A second inequality divided by the second cutting edge (2b), the end mill center (C), and the first cutting edge (2a);
A first web width Wa across the plurality of first cutting edges 2a;
A second web width Wb across the plurality of second cutting edges 2b;
A first flute depth Ha of the first cutting edge 2a; And
And a second flute depth Hb of the second cutting edge 2b.
The ratio of the first inequality dividing angle Aa and the second inequality dividing angle Ab is directly proportional to the ratio of the first web width Wa and the second web width Wb and the first flute depth. An inequality split end mill to which an elliptical web is applied, characterized in that the larger the inequality of the inversely proportional to the ratio of (Ha) and the second flute depth (Hb), the larger the width of the web becomes in direct proportion, and the inversely shallower depth of the flute.

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