RU2364476C1 - Built-up cutting tool (versions) - Google Patents

Abstract

FIELD: instrument engineering.

SUBSTANCE: tool comprises a body in a pocket of which there is a cutter plate mounted and fixed, herewith provided with a polygonal or circular front face and intersected by flanks thereby forming cutting edges. The cutter plate has a lower and lateral bearing faces and the symmetry axis that intersects said faces. The lower bearing face is opposed to the front face. The lateral bearing faces lie on ledges equispaced around the symmetry axis under the cutter plate vertexes and turned therein. The tool is equipped with a body-mounted vibrator that interacts with a part of the lower bearing face of the cutter plate. Said part is placed on the ledge of the cutter plate under its noncutting vertex. In case the cutter plate has circular front face, the vibrator contacts the part of the lower bearing face of the cutter plate provided on the ledge of the cutter plate under the noncutting part of its cutting edge.

EFFECT: higher wear resistance of the cutter plate that is ensured by vibration amplitude control during cutting cycle.

2 cl, 6 dwg

Description

The invention relates to the field of material processing by cutting, a prefabricated cutting tool with mechanical fastening of cutting inserts in the form of a polygon or circle.

Known prefabricated cutting tool containing a housing in the socket of which is mounted and fixed a cutting plate having a front surface in the form of a polygon and its rear surfaces intersecting with the formation of cutting edges, the lower and side supporting surfaces and the axis of symmetry intersecting the front and lower supporting surfaces, this lower supporting surface is located opposite the front surface, and the side supporting surfaces are made on the protrusions located evenly around the axis of symmetry under the top s cutting insert and a bottom inwardly facing cutting insert (see. USSR AS 755443, V23V 27/16, 1980) / 1 /.

Also known is a prefabricated cutting tool comprising a housing, in the nest of which a cutting insert is mounted and fixed, having a front surface and a rear surface intersecting it with the formation of a cutting edge, lower and side supporting surfaces, and an axis of symmetry intersecting the front and lower supporting surfaces, while the lower the supporting surface is located opposite the front surface, and the side supporting surfaces are made on the protrusions located evenly around the axis of symmetry under the cutting plate and on ide bottom facing inside (see. / 1 /).

In the known prefabricated cutting tool / 1 / during the cutting process, the cutting insert oscillates, the frequency and amplitude of which affect its wear resistance and tendency to chipping.

The objective of the invention is to increase the wear resistance of the cutting insert by adjusting the amplitude of its oscillations during cutting.

The problem is solved in that in a prefabricated cutting tool containing a housing, in the socket of which a cutting insert is installed and fixed, having a front surface in the form of a polygon and the rear surfaces intersecting it with the formation of cutting edges, the lower and side supporting surfaces and the axis of symmetry intersecting the front and a lower abutment surface, wherein the lower abutment surface is located opposite the front surface, and the lateral abutment surfaces are made on protrusions arranged uniformly around the axis of symmetry under the tops of the cutting insert and in a bottom view facing inward the cutting insert, according to the invention, the assembled cutting tool is equipped with a vibrator mounted in the housing with the ability to interact with a portion of the lower supporting surface of the cutting insert located on the protrusion of the cutting insert under its idle top.

The problem is also solved by the fact that in the combined cutting tool containing the housing, in the socket of which a cutting insert is installed and fixed, having a front surface and intersecting it with the formation of the cutting edge, the rear surface, the lower and side supporting surfaces and the axis of symmetry intersecting the front and lower supporting surface, while the lower supporting surface is located opposite the front surface, and the side supporting surfaces are made on the protrusions located evenly around the axis of the symmetry In accordance with the invention, the assembly cutting tool is provided with a vibrator, the front surface is made in the form of a circle, and the cutting edge has a working and non-working sections, while the vibrator is installed in the housing with the possibility of interaction with the lower section the supporting surface of the cutting insert located on its protrusion under the inactive portion of the cutting edge.

The proposed precast cutting tool is shown in figures 1-6, on which

figure 1 presents a top view of a precast cutting tool with a cutting insert having a front surface in the form of a polygon mounted and secured in the housing socket;

figure 2 presents a left view of figure 1;

figure 3 presents a section aa in figure 1;

figure 4 presents a top view of a precast cutting tool with a cutting insert having a front surface in the form of a circle mounted and secured in the housing socket;

figure 5 presents a left view of figure 4;

figure 6 presents a section bB in figure 4.

Consider figure 1-3. The prefabricated cutting tool comprises a housing 1, in the socket of which a cutting insert 2 is installed and fixed, having a front surface 3 in the form of a polygon (triangle) and the rear surfaces intersecting it with the formation of cutting edges, the lower 4 and side bearing surfaces 5 and the symmetry axis crossing the front and lower abutment surface. In this case, the lower supporting surface 4 is located opposite the front surface, and the side supporting surfaces 5 are made on the protrusions 6 located evenly around the axis of symmetry under the tops of the cutting insert 2 and in the bottom view facing the inside of the cutting insert.

The cutting insert 2 is fixed in the socket by means of a fixing screw 7, the head of which interacts with the side surface of the through hole in the cutting insert 2. The housing socket is bounded by the lower supporting wall 8 in the form of flat sections interacting with the lower supporting surface 4 of the cutting insert and the lateral supporting walls 9, interacting with the side supporting surfaces 5 on the protrusions 6 of the cutting insert. The lateral supporting surfaces 5 of the cutting insert are made in the form of an outer lateral surface of a straight truncated cone. The side support wall 9 of the socket under the working top 10 of the cutting insert is made in the form of the inner surface of a straight truncated cone. The side support wall located under the apex 11 adjacent to the main cutting edge 12 is made in the form of a plane touching the lateral support surface of the corresponding protrusion 6 under the apex 11.

The combined cutting tool is equipped with a vibrator 13 (for example, a piezoelectric) installed in the housing 1 with the possibility of interaction with a portion of the lower supporting surface 4 of the cutting insert 2 located on the protrusion 6 of the cutting insert under its idle apex 14.

The vibrator is installed in the hole of the housing 1 and secured with a screw 15. The wires 16 for supplying electrical voltage to the vibrator 13 are placed in the hole 17 of the housing 1.

Consider a variant of the proposed precast cutting tool, shown in Fig.4-6. In this case, similar elements are denoted by the same positions. The prefabricated cutting tool comprises a housing 1, in the socket of which a cutting insert 2 is installed and fixed, having a front surface 3 and a rear surface intersecting with the formation of a cutting edge, a lower 4 and side 5 supporting surfaces and an axis of symmetry intersecting the front and lower supporting surfaces. In this case, the lower supporting surface 4 is located opposite the front surface, and the lateral supporting surfaces 5 are made on the protrusions 6 located uniformly around the axis of symmetry under the cutting plate and in the bottom view facing inward.

The cutting insert 2 is fixed in the nest with a tack 18, the nose 19 of which interacts with the recess 20 on the front surface 3 of the cutting insert 2.

The cutting insert 2 is mounted in a socket on a support plate 21 fixed by a fixing screw 22. Sections 4 of the lower supporting surface of the cutting insert 2 interact with flat sections 23 on the upper surface of the supporting plate 21. The lateral supporting surface of the protrusion 6 of the cutting insert located under the working portion 24 of the cutting the edge under its apex interacts with a side support wall on a support plate 21, made in the form of an inner side surface of a straight truncated cone, and the side support surface of the protrusion 6, aspolozhennogo the other end of the working portion of the cutting edge interacts with the lateral support wall on the base plate 21 formed as a plane 25, on its side support surface 5.

The combined cutting tool is equipped with a vibrator 13, the front surface 3 is made in the form of a circle, and the cutting edge has a working 24 and non-working sections. In this case, the vibrator 13 is installed in the housing with the possibility of interaction with the portion 4 of the lower supporting surface of the cutting insert located on its protrusion 6 under the inactive portion of the cutting edge. The vibrator 13 is installed in the hole of the housing 1 and secured by a screw 15. The wires 16 for supplying electrical voltage to the vibrator 13 are placed in the hole 17 of the housing 1.

The vibrator 13 in the above-described variants of the assembled cutting tool creates vibrations of the cutting insert 2, comparable in frequency and amplitude with the vibrations of the cutting insert under the influence of the cutting force, which allows to increase the wear resistance of the cutting insert and reduce the tendency of its cutting edge to chipping.

Claims (2)

1. A prefabricated cutting tool comprising a housing, in the nest of which a cutting insert is mounted and fixed, having a front surface in the form of a polygon and back surfaces intersecting it with the formation of cutting edges, lower and lateral supporting surfaces and an axis of symmetry intersecting the front and lower supporting surfaces, the lower supporting surface is located opposite the front surface, and the side supporting surfaces are made on the protrusions located evenly around the axis of symmetry under the vertices dies of the plate and the inside of the cutting insert, characterized in that it is equipped with a vibrator mounted in the housing with the possibility of interaction with a portion of the lower supporting surface of the cutting insert located on the protrusion of the cutting plate under its idle top. 2. A prefabricated cutting tool comprising a housing, in the socket of which a cutting insert is mounted and fixed, having a front surface and a rear surface intersecting it with the formation of a cutting edge, lower and side supporting surfaces and an axis of symmetry intersecting the front and lower supporting surfaces, while the lower the supporting surface is located opposite the front surface, and the side supporting surfaces are made on the protrusions located evenly around the axis of symmetry under the cutting plate and facing inside l the cutting insert, characterized in that it is equipped with a vibrator, the front surface is made in the form of a circle, and the cutting edge has a working and non-working sections, while the vibrator is installed in the housing with the possibility of interaction with a portion of the lower supporting surface of the cutting plate located on its ledge under inoperative section of the cutting edge.

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