KR100649359B1 - Indexable Cutting Tools - Google Patents

Abstract

The cutting inserts are fastened precisely and precisely by the centering pins, and the cutting inserts are formed in the cutting inserts to reduce cutting resistance, thereby making it possible to work with rigid steel parts at high speed and high feed. An indexable cutting tool is disclosed. The indexable cutting tool according to the present invention has a structure consisting of an insert holder having an insert sheet formed at a distal end, a cutting insert inserted into the insert sheet, and a fixing screw fastening the cutting insert inserted into the insert sheet. In this case, a centering pin is mounted to the bottom rotational center of the insert sheet so that the tip is exposed, and a centering groove is formed at the bottom rotational center of the cutting insert to insert the centering pin. And both sides of the cutting insert is formed with a flute groove formed in the insert holder and a chip discharge helix groove. In addition, the insert hole of the cutting insert through which the fixing screw penetrates is formed to be radially narrow in the downward direction to strengthen the tightening force.

Description

Indexable Type Cutting Tool

1 is an exploded perspective view of an indexable cutting tool according to the present invention,

FIG. 2 is a plan view of the indexable cutting tool shown in FIG. 1,

3 is a cross-sectional view taken along the line A-A of FIG. 2,

4 is a cross-sectional view taken along the line B-B of FIG. 2, and

5 is a view showing another embodiment of an insert hole in the cross-sectional view of FIG.

<Description of the symbols for the main parts of the drawings>

100: indexable cutting tool 110: insert holder

120: flute groove 130: insert sheet

140: first centering groove 150: centering pin

170: Cutting insert 180, 180 ', 180 ": Insert hole

182: second centering groove 184: helix home

190: fixed screw

The present invention relates to a drill tool of an indexable cutting tool, and more particularly, to an indexable cutting tool capable of fastening a cutting insert and forming a chip ejection groove in the cutting insert to enable high speed and high feed operation. .

In general, a cutting tool is mainly used for cutting ferrous, nonferrous metals, and nonmetallic materials, and is a tool that is usually mounted on a machine tool and performs cutting to process a workpiece into a desired shape. Such a cutting tool consists of a cutting insert having a cutting edge and a cutter body for fixing the cutting insert.

In addition, the cutting tool can be divided into a brazing type and an indexable type according to the method of fixing the cutting insert to the cutter body. The brazing type brazes the cutting insert to a part of the cutter body. It is to fix permanently, the indexable type is to mount and detach the cutting insert to the cutter body using the fixing means provided in the cutter body.

Indexable cutting tools can be easily replaced with new pickings in a short time when the life of pickling is reached, and a new form that solves the problem of the conventional brazing type cutting tools, that is, the disadvantage of having to regrind the cutting edge for a long time. As a cutting tool of, it is currently used in all parts of cutting tools.

On the other hand, there are two methods for cutting metal using a cutting tool. Firstly, cutting is performed by contacting a pickled portion of a cutting tool fixed to a rotating workpiece, and secondly, a cutting edge. After fixing the tool having the tool, that is, the cutting insert to the machine tool using the holder for the tool, the workpiece is processed into a desired shape by contacting or penetrating the workpiece to be fixed in advance while rotating the cutting tool under such a condition.

The drill tool belongs to the second method of the metal cutting method, and drills the workpiece by the rotational movement of the drill tool while the workpiece is fixed.

In the above-described drill tool, the drill body, the flute groove, and the cutting blade are made of one-piece solid drill tool. An indexable drill tool which can be used by replacing the cutting insert is widely used. In addition, the indexable drill tool fixes a plurality of cutting inserts on the outer circumferential surface of the distal end of the insert holder in which the flute groove is formed.In recent years, only one cutting insert is improved by fixing the cutting insert across the distal end of the insert holder in which the flute groove is formed. It's happening.

However, the above-described conventional indexable drill tool has a problem in that the precision of the cutting insert is lower than that of the conventional solid drill tool due to the mismatch between the insert holder and the cutting insert center when the cutting insert is coupled to the insert holder.

In addition, the conventional indexable drill tool has a problem in that the manufacturing cost of the drill tool is not easy to manufacture because it needs to provide a separate centering device to accurately set the center of rotation.

In addition, when the cutting insert is coupled to the insert holder, there is a problem in that assembly precision management is difficult.

In addition, the fixing means is located in the chip discharge space of the flute groove there is a problem that the chip is pinched during chip discharge.

In addition, since the flute groove does not have a helix angle in the conventional cutting insert, there is no inclination angle on the cutting edge, which increases the cutting resistance, making it impossible to perform high speed and high feed.This is mainly used only for weak rigid aluminum or aluminum alloy. This strong steel type workpiece also has a problem that can not perform the cutting process.

The present invention has been made to solve the conventional problems as described above, the object of the present invention is the cutting insert is concise and precisely fastened by the centering pin, forming a chip discharge helix (helix) groove in the cutting insert The present invention provides an indexable cutting tool capable of working at high speed and high feed rate on a rigid steel type workpiece by reducing cutting resistance.

In order to achieve the object of the present invention as described above, the present invention,

An indexable cutting tool comprising an insert holder having an insert sheet at a distal end, a cutting insert inserted into the insert sheet, and a fixing screw for fastening the cutting insert inserted into the insert sheet,

The insert sheet is composed of an opposite seat side surface and a seat bottom surface, and the center of rotation of the seat bottom surface is formed with a first centering groove extending vertically inwardly of the seat bottom surface, and the tip portion of the centering pin is formed in the first centering groove. The centering pin is mounted to be exposed to the outside of the seat bottom so as to be assembled with the second centering groove of the cutting insert.A cutting edge is formed at the leading end of the cutting insert, and an insert bottom is formed at the rear end of the cutting insert. The insert and the insert bottom surface are connected by the insert side, and the center of rotation of the insert bottom provides an indexable cutting tool in which a second centering pin is inserted into which the centering pin is inserted.

As described above, according to the present invention, the centering pin is mounted on the insert sheet into which the cutting insert is inserted, and the centering groove is formed on the cutting insert, such that the centering pin and the centering groove of the cutting insert contact each other on the outer peripheral surface of the centering pin. Left when tightening the cutting insert. Since it can be fastened without biasing, the center of rotation of the insert holder and the center of rotation of the cutting insert can be easily matched, so that the cutting insert can be replaced quickly and the machining precision can be increased.

Hereinafter, an indexable cutting tool according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 is an exploded perspective view of an indexable cutting tool according to the present invention, FIG. 2 is a plan view of the indexable cutting tool shown in FIG. 1, FIG. 3 is a cross-sectional view taken along the line AA of FIG. 2, and FIG. 4. 2 is a cross-sectional view taken along the line BB of FIG. 2, and FIG. 5 is a view showing another embodiment of the insert hole in the cross-sectional view of FIG. 4.

1 to 4, the indexable cutting tool 100 according to the present invention mainly includes an insert holder 110 mounted to an arbor (not shown) of a machine tool (not shown), and an insert holder. The cutting insert 170 is fastened to the distal end of the 110 and a fixing screw 190 for fastening the cutting insert 170 to the insert holder (110).

The insert holder 110 has a shank portion 112 and a cutter body 114 integrally extending from the shank portion 112. A spiral flute groove 120 is formed on the outer circumferential surface of the cutter body 114. At the distal end of the cutter body 114, an insert sheet 130 extending in the longitudinal direction from the distal end of the cutter body 114 is formed so that both ends are connected to the flute groove 120. The insert sheet 130 is composed of a sheet bottom surface 134 connecting the sheet side surface 132 and the sheet side surface 132 facing each other, and the other sheet side surface 132 from one sheet side surface 132 outside ) The fixed screw insertion hole 136 to which the fixed screw 190 is mounted is formed outside. At this time, the female screw portion 138 is formed on the inner circumferential surface of any one of the fixing screw insertion hole 136 to fasten the male screw portion 192 of the fixing screw 190.

The center of rotation of the seat bottom surface 134 of the insert seat 130 described above is formed with a first centering groove 140 formed inwardly of the seat bottom surface 134, that is, vertically along the cutter body 114. The centering pin 150 is vertically mounted to the first centering groove 140. Preferably, the front end of the center ring pin 150 is exposed to the upper portion of the seat bottom surface 134, the center ring pin 150 is fitted to the first center ring groove 140 by fit.

On the other hand, the cutting insert 170 is manufactured using a cemented carbide in order to perform the cutting processing of ferrous or non-ferrous metal, or is made of a ceramic-coated material using a PVD or CVD coating method to the cemented carbide. .

The cutting insert 170 has a roughly S-shaped pickle 172 for actually cutting at the tip end, and an insert bottom 174 in close contact with the seat bottom 134 at the rear end. do. The insert side surface 176 and the insert free surface 178 are formed at both sides and both ends of the pickled 172 and the seat bottom surface 174. At this time, the cutting insert 170 is formed with an insert hole 180 penetrating the insert side surface 176 and connected to the fixed screw insertion hole 136, and one side of each insert side surface 176 is a flute groove 120 ) And an extended helix groove 184 is formed. Here, the angle β between the insert hole 180 and the insert longitudinal direction is between 90 ° and 45 °, preferably between 90 ° and 70 °. More preferably, it is preferably formed at 90 ° for ease of fabrication. The helix groove 184 is formed on one side of the insert side surface 176 so as not to interfere with the insert hole 180 and is formed to be symmetric with each other by 180 °. The helix groove 184 as described above serves to reduce the cutting resistance of the cutting insert 170 by guiding the generated chip to the flute groove 120 when processing the workpiece in the cutting insert 170. . Here, the helix angle α of the helix groove 184 is formed in the range of 5 ° ~ 40 ° and preferably between 20 ° ~ 30 °.

In this case, a second centering groove 182 is formed on the insert bottom surface 174 into which the centering pin 150 exposed to the outside of the seat bottom surface 134 is inserted. Like the first centering groove 140, the second centering groove 182 is vertically formed along the axial rotational center of the cutting insert 170 such that the centering pin 150 has the first centering groove 140 and the second centering ring. The grooves 182 are fitted to exactly match the center of each other.

Meanwhile, although the insert hole 180 of the cutting insert 170 through which the fixing screw 190 penetrates is generally formed in a circular shape, it may be formed as shown in FIGS. 5A and 5B to increase the fastening force.

Referring to FIG. 5A, the insert hole 180 ′ has a hole hole 186 having a diameter larger than that of the fixing screw 190, and a hole bottom portion 187 having a width smaller than the width of the hole hole 186. And a hole side surface portion 188 connecting both extension ends of the hole bottom portion 187 at both extension ends of the hole hole 186. That is, the hole side surface 188 extends radially narrow from the hole hole 186 toward the hole bottom portion 187. Here, the hole drilling unit 186 is provided with a curvature curved toward the front end side of the cutting insert 170, and the hole bottom 187 is provided with a curvature curved toward the rear end side of the cutting insert 170.

Referring to FIG. 5B, the insert hole 180 ″ has a hole hole 186 having a diameter larger than that of the fixing screw 190, and a hole hole 186 having a diameter smaller than the diameter of the hole hole 186. Has a hole bottom portion 188 extending radially downward, wherein the hole bottom portion 188 is formed of a conventional recess groove.

When the fixing screw 190 is fastened to the insert holes 180 ′ and 180 ″ formed as described above, the outer circumferential surface of the fixing screw 190 presses the hole side surface 188 or the extended end of the recess groove. The force side F3 is applied to the hole side portion 187 or the extended end of the recess groove, and as a result, the insert bottom surface 174 is firmly adhered to the seat bottom surface 134 and the cutting insert 170 rotates. The centering is more excellently fastened by matching the center with the center of rotation of the insert holder 110. At this time, the fixing screw 190 and the hole hole 186 and the hole bottom 188 may be fixed to increase the coupling accuracy. The clearance (a, b) occurs, the clearance (a, b) is in the range of 0.01 ~ 3.0mm.

Hereinafter, the coupling state of the indexable cutting tool 100 formed as described above will be briefly described.

First, the centering pin 150 is coupled to the first centering groove 140 by using a normal hitting tool under a state in which the centering pin 150 is prepared. At this time, the centering pin 150 hits the centering pin 150 to the first centering groove 140 so that the tip portion of the centering pin 150 may be exposed to the outside of the seat bottom surface 134.

When the cutting insert 170 is inserted into the insert sheet 130 under such a state, the insert side 176 of the cutting insert 170 is coupled along the seat side 132 and the insert bottom 174 is the seat bottom surface (174). 134). At this time, the centering pin 150 exposed on the seat bottom surface 134 is inserted into the second centering groove 182 formed in the insert bottom surface 174.

As such, when the centering pin 150 is inserted into the second centering groove 182, the centering pin 150 and the second centering groove 182 fixed to the cutter body 114 are in line contact or surface contact with the cutting insert. The 170 is fixed to the left and right without shaking, and the fixing screw 190 is coupled to the cutter body 114 and the cutting insert 170 to couple the cutting insert 170 to the insert sheet 130. At this time, the fixed screw 190 is inserted into any one of the fixed screw insertion hole 136 extends through the insert hole 180 to another fixed screw insertion hole 136 and another fixed screw insertion hole 136 The male screw portion 192 is coupled to the female screw portion 138 formed on the inner side thereof. When the fixing screw 190 is coupled in this way, each seat side surface 132 is a force (F1) that is in close contact with the insert side surface 176 side of the cutting insert 170 is generated, the fixing screw 190 is also fastened Pushes the insert holes 180, 180 ', and 180 "downwards, resulting in strong forces F2 and F3 that the cutting insert 170 comes into close contact with.

As described above, the indexable cutting tool according to the invention inserts a centering pin on the seat bottom surface of the insert sheet and forms a centering groove on the insert bottom surface of the cutting insert in close contact with the seat bottom surface, thereby inserting the insert holder. It is possible to easily match the center of rotation of the axis of rotation and the center of rotation of the cutting insert is excellent in the center of rotation accuracy can not only increase the machining precision, but also increase the durability of the cutting tool according to the present invention.

In addition, the indexable cutting tool according to the present invention has the advantage that by forming the flute groove and the chip discharge helix groove extending on the outer peripheral surface of the cutting insert, reducing the cutting resistance of the cutting insert to enable high speed and high feed operation.

In addition, the indexable cutting tool according to the present invention is formed by the radially narrowing the insert hole of the cutting insert through which the fixed screw penetrates downwards, so that the fixing screw pushes the cutting insert downward, thereby further strengthening the tightening force of the cutting insert. have.

Although the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art can variously modify and change the present invention without departing from the spirit and scope of the invention described in the claims. You will understand.

Claims (5)

The insert holder 110 having the insert sheet 130 formed at the front end, the cutting insert 170 inserted into the insert sheet 130, and the cutting insert 170 inserted into the insert sheet 130 are fastened to each other. In the indexable cutting tool consisting of a screw 190, A first centering groove 140 is formed at the rotation center of the bottom surface 134 of the insert sheet 130, and a centering pin 150 is mounted to expose the distal end portion of the first centering groove 140. A second centering groove 182 is formed at the rotation center of the bottom surface 174 of the insert 170, and the center of the side surface 176 of the cutting insert 170 is fixed to the center of both side surfaces 176 of the cutting insert 170. An insert hole 180 through which the screw 190 penetrates is formed, and on the both sides 176 of the cutting insert 170, the chip discharge helix groove 184 is 180 ° so as not to interfere with the insert hole 180. Indexable cutting tool, characterized in that the symmetrical and is formed to extend with the flute groove (120) formed in the insert holder (110). The method of claim 1, wherein the insert hole 180 ′ of the cutting insert 170 through which the fixing screw 190 penetrates has a hole hole 186 and a hole having a width smaller than that of the hole hole 186. The bottom portion 187 and the hole side portion 188 connecting the extension end of the hole hole 186 and the extension end of the hole bottom portion 187, the hole side portion 188 is the hole hole portion ( 186, the indexable cutting tool, characterized in that it extends radially narrowed toward the hole bottom portion (187). The indexable cutting tool according to claim 1, wherein an angle β between the insert hole 180 and the cutting insert 170 is formed at 90 °. The indexable cutting tool according to claim 1, wherein the angle β between the insert hole 180 and the cutting insert 170 is formed in a range of 90 ° to 45 °. The indexable cutting tool according to claim 1, wherein the helix angle (α) of the helix groove (184) of the cutting insert (170) is formed in a range of 5 ° to 40 °.

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