RU2375155C1 - Cutting plate and assembled cutting tool (versions) - Google Patents

Abstract

FIELD: mechanics.

SUBSTANCE: cutting plate has symmetry axis and two main cutting edges located symmetrically relative thereto, two additional cutting edges and a transverse cutting edge. On tangential support surfaces there are ledges or slots, the side walls of which are located symmetrically relative to symmetry axis and at an angle thereto, the top part of which is located on opposite side from transverse cutting edge. Cutting tool includes housing with symmetry axis, in the socket of which a cutting plate is installed and fixed; symmetry axis of cutting plate when being installed in the socket coincides with housing symmetry axis. Housing socket is limited with two tangential support walls and axial support wall. In order to achieve the same effect, it is equipped with support element installed and fixed in the socket in axial support wall and having two protrusions, each of which has tangential walls for interacting the tangential support surface of cutting plate and tangential support wall of the socket and radial support wall for interacting the side wall of the ledge or slot of the cutting plate.

EFFECT: enlarging technological capabilities.

7 cl, 15 dwg

Description

The invention relates to the field of processing materials by cutting, a prefabricated cutting tool, in particular in the form of drills or mills.

Known cutting insert having a symmetry axis and symmetrically located relative to it two front surfaces, two main and auxiliary rear surfaces, an axial bearing surface and two tangential supporting surfaces, two main cutting edges at the intersection of the front and main rear surfaces, two auxiliary cutting edges on the intersection of the front and auxiliary rear surfaces and the transverse cutting edge at the intersection of the main rear surfaces (see international application WO 2006/036041, B23B 51/02, 2006 ), [one].

Known prefabricated cutting tool comprising a housing with an axis of symmetry, in the socket of which a cutting insert is mounted and fixed, the axis of symmetry of the cutting insert when installed in the socket coincides with the axis of symmetry of the housing, the cutting insert has two front surfaces symmetrically located relative to its axis of symmetry, two main surfaces and auxiliary rear surfaces, an axial bearing surface and two tangential bearing surfaces, two main cutting edges at the intersection of the front and main rear surfaces, two in pomogatelnye cutting edges at the intersection of the front and auxiliary rear surfaces and a transverse cutting edge at the intersection of the main rear surfaces, the socket body is bounded by two support walls tangential and axial support wall (see [1].).

Known cutting insert and precast cutting tool suggest the use of fixing screws for securing the cutting insert in the socket of the cutting tool body. This complicates the design and increases the dimensions of the cutting insert and precast cutting tool.

The objective of the invention is to expand the technological capabilities of the cutting insert and prefabricated cutting tool by simplifying the design and reducing dimensions with the exception of fixing screws.

The problem in relation to the option of the cutting insert according to claim 1 is solved by the fact that in a cutting insert having a symmetry axis and two front surfaces symmetrically located relative to it, two main and auxiliary rear surfaces, an axial bearing surface and two tangential bearing surfaces, two main cutting edges at the intersection of the front and main rear surfaces, two auxiliary cutting edges at the intersection of the front and auxiliary rear surfaces and a transverse cutting edge at the intersection and the main rear surfaces, according to the invention, ledges are made on the tangential bearing surfaces, the side walls of which are located symmetrically with respect to the axis of symmetry and at an angle to it, the apex of which is located on the opposite side from the transverse cutting edge.

The problem with respect to the cutting insert variant according to claim 3 is solved in that in a cutting insert having a symmetry axis and two front surfaces, two main and auxiliary rear surfaces, an axial bearing surface and two tangential bearing surfaces, two main cutting edges at the intersection of the front and main rear surfaces, two auxiliary cutting edges at the intersection of the front and auxiliary rear surfaces and a transverse cutting edge at the intersection and the main rear surfaces, according to the invention, grooves are arranged on the tangential bearing surfaces symmetrically with respect to the axis of symmetry, while the side wall of each groove closest to the axis of symmetry is at an angle to it, the apex of which is located on the opposite side from the transverse cutting edge.

With respect to the cutting insert, the technical result is also achieved due to the fact that the axial bearing surface is made flat, located perpendicular to the axis of symmetry, or cylindrical with an axis intersecting the axis of symmetry and located perpendicular to it.

The task in relation to the option of a prefabricated cutting tool according to claim 5 is solved by the fact that in a prefabricated cutting tool containing a body with an axis of symmetry, in the socket of which a cutting insert is mounted and fixed, the axis of symmetry of the cutting plate when installed in the socket coincides with the axis of symmetry of the body, the cutting insert has two front surfaces symmetrically located relative to its axis of symmetry, two main and auxiliary rear surfaces, an axial bearing surface and two tangential bearing surfaces , two main cutting edges at the intersection of the front and main rear surfaces, two auxiliary cutting edges at the intersection of the front and auxiliary rear surfaces and a transverse cutting edge at the intersection of the main rear surfaces, while the housing socket is bounded by two tangential supporting walls and an axial supporting wall, according to the invention it is equipped with a support element mounted and fixed in a socket on an axial support wall and having two protrusions, each of which has tangential walls for For interaction with the tangential supporting surface of the cutting insert and the tangential supporting wall of the nest and the radial supporting wall for interaction with the side wall of the ledge made on the corresponding tangential supporting surface of the cutting insert at an angle to the axis of symmetry, the apex of which is located on the opposite side from the transverse cutting edge.

With respect to the prefabricated cutting tool according to claim 5, the technical result is also achieved due to the fact that the radial support walls are located on the elastic parts made on the protrusions of the support element.

The task in relation to the option of a prefabricated cutting tool according to claim 7 is solved by the fact that in a prefabricated cutting tool containing a body with an axis of symmetry, in the socket of which a cutting insert is mounted and fixed, the axis of symmetry of the cutting plate when installed in the socket coincides with the axis of symmetry of the body, the cutting insert has two front surfaces symmetrically located relative to its axis of symmetry, two main and auxiliary rear surfaces, an axial bearing surface and two tangential bearing surfaces , two main cutting edges at the intersection of the front and main rear surfaces, two auxiliary cutting edges at the intersection of the front and auxiliary rear surfaces and a transverse cutting edge at the intersection of the main rear surfaces, while the housing socket is bounded by two tangential supporting walls and an axial supporting wall, according to the invention it is equipped with supporting elements mounted and secured in a nest on tangential supporting walls, on tangential supporting surfaces of the cutting face s formed slots and intended to cooperate with said support members at the side wall of each groove nearest the axis of symmetry is at an angle to it, whose apex is situated on the opposite side of the transverse cutting edge.

The cutting insert and the cutting tool assembly are shown in FIGS. 1-15, in which:

figure 1 presents a front view of the first embodiment of the cutting insert;

figure 2 presents a top view of figure 1;

figure 3 presents a left view of figure 1;

figure 4 presents a front view of a second variant of the cutting insert with grooves closed from the main rear surfaces;

figure 5 presents a top view of figure 4;

6 is a front view of a second embodiment of a cutting insert with grooves open from the main rear surfaces;

7 is a front view of a first embodiment of a precast cutting tool;

on Fig presents a top view of Fig.7;

figure 9 presents a front view of the support element;

figure 10 presents a top view of figure 9;

figure 11 presents a front view of the support element with elastic parts on the protrusions;

on Fig presents a front view of a second embodiment of a precast cutting tool with the location of the support elements transverse to the tangential support wall of the housing socket;

on Fig presents a section aa in Fig;

on Fig presents a top view of a second embodiment of a precast cutting tool with the location of the support elements along the tangential support wall of the housing socket;

on Fig presents a section bB in Fig.15.

1-15, the same elements are denoted by the same positions.

A cutting insert is shown in FIGS. 1-6. The cutting insert has an axis of symmetry 1 and two front surfaces 2 symmetrically located relative to it, two main 3 and auxiliary 4 rear surfaces, an axial supporting surface 5 and two tangential supporting surfaces 6. Two main cutting edges 7 are located at the intersection of the front 2 and main rear 3 surfaces, two auxiliary cutting edges 8 - at the intersection of the front 2 and auxiliary 4 rear surfaces. The transverse cutting edge 9 is located at the intersection of the main rear surfaces 3.

According to the first embodiment of the cutting insert (see Figs. 1-3), ledges are made on the tangential supporting surfaces 6, the side walls 10 of which are located symmetrically with respect to the axis of symmetry 1 and at an angle θ to it, the apex of which is located on the opposite side from the transverse cutting edge 8 .

According to the second embodiment of the cutting insert (see Figs. 4-6), grooves 11 are arranged on the tangential supporting surfaces symmetrically with respect to the axis of symmetry, with the side wall 12 of each groove adjacent to the axis of symmetry at an angle θ to it, the apex of which located on the opposite side of the transverse cutting edge 9. The grooves 11 from the side of the main rear surfaces can be closed (see Fig. 4, 5) or open (see Fig. 6).

The axial supporting surface 5 can be made flat (see Figs. 1-3 and 6), located perpendicular to the axis of symmetry 1, or cylindrical (see Figs. 4, 5) with an axis crossing the axis of symmetry 1 and perpendicular to it.

The assembly cutting tool shown in Figs. 7-15 comprises a housing 13 with a symmetry axis 14, in which a cutting insert 15 is mounted and fixed, the symmetry axis of the cutting insert when installed in the socket coincides with the symmetry axis of the housing, the cutting insert is symmetrically positioned relative to its axis of symmetry is two front surfaces 2, two main 3 and auxiliary 4 rear surfaces, an axial bearing surface 5 and two tangential supporting surfaces 6, two main cutting edges 7 at the intersection of the front 2 and the main rear their 3 surfaces, two auxiliary cutting edges 8 at the intersection of the front 2 and auxiliary 4 rear surfaces and a transverse cutting edge 9 at the intersection of the main rear surfaces 3, while the housing socket is limited by two tangential support walls 16 and an axial support wall 17.

According to the first embodiment of the assembled cutting tool (see Figs. 7-11), it is equipped with a support member 18 mounted and fixed in a socket on the axial support wall 17 and having two protrusions 19, each of which has tangential walls 20 for interacting with a tangential bearing surface 6 of the cutting insert 15 and the tangential support wall 16 of the socket and the radial support wall 21 for interaction with the side wall 10 of the ledge made on the corresponding tangential support surface 6 of the cutting insert 15 at an angle θ to the axis e symmetry, the apex of which is located on the opposite side of the transverse cutting edge 9.

Radial support walls 21 can be located on the elastic parts 22, made on the protrusions 19 of the support element 18.

According to a second embodiment of a prefabricated cutting tool (see Figs. 12-15), it is provided with support elements 23 (see Figs. 12 and 13), 24 (see Figs. 14 and 15) mounted and secured in a socket on the tangential support walls 16, grooves are made on the tangential supporting surfaces of the cutting insert, wherein the side wall of each groove closest to the axis of symmetry is located at an angle θ to it, the apex of which is located on the opposite side from the transverse cutting edge, and is designed to interact with said supporting elements 23 , 24.

In the assembly cutting tool shown in FIGS. 12 and 13, the support elements 23 are mounted transversely to the tangential support walls 16 of the housing socket 13, and in the assembly cutting tool shown in FIGS. 14 and 15, the support elements 24 are installed along the tangential support walls 16 housing slots 13.

The angle θ is chosen to be equal to or less than half the angle of friction (angle of self-braking) between the materials of the cutting insert 15 and the supporting element 18 or the supporting elements 23, 24, to ensure that the cutting insert is stuck in the socket of the housing 13 of the assembled cutting tool.

When assembling the cutting tool, the cutting insert 15 is installed in its seat between the tangential support walls 16 and is pressed into the seat between the protrusions 19 of the support member 18 or between the support members 23, 24 until its axial support surface 5 comes into contact with the support member 18 or with the axial support wall 17 the nests of the housing 13. In this case, due to the appropriate choice of the value of the angle θ, it is jammed in the nest of the housing 13. The reaction forces acting on the surface 10 or the wall 12 of the cutting insert form a moment, ayuschy tangential abutment surfaces of the cutting insert 6 to the tangential support wall 16 of socket housing 13.

Since the fixing of the cutting insert 15 in the socket of the housing 13 occurs without the use of a fixing screw, its dimensions and, consequently, the dimensions of the assembly cutting tool can be reduced, which, in turn, allows you to expand the technological capabilities of the cutting insert and assembly cutting tool.

Claims (7)

1. A cutting insert having an axis of symmetry and two front surfaces symmetrically located relative to it, two main and auxiliary rear surfaces, an axial supporting surface and two tangential supporting surfaces, two main cutting edges at the intersection of the front and main rear surfaces, two auxiliary cutting edges at the intersection of the front and auxiliary rear surfaces and a transverse cutting edge at the intersection of the main rear surfaces, characterized in that the tangential erhnostyah ledges formed, the side walls are arranged symmetrically relative to the symmetry axis and at an angle thereto, the vertex of which is located on the opposite side of the transverse cutting edge. 2. The cutting insert according to claim 1, characterized in that the axial bearing surface is made flat, located perpendicular to the axis of symmetry, or cylindrical with an axis intersecting the axis of symmetry and located perpendicular to it. 3. A cutting insert having an axis of symmetry and two front surfaces symmetrically located relative to it, two main and auxiliary rear surfaces, an axial supporting surface and two tangential supporting surfaces, two main cutting edges at the intersection of the front and main rear surfaces, two auxiliary cutting edges at the intersection of the front and auxiliary rear surfaces and a transverse cutting edge at the intersection of the main rear surfaces, characterized in that the tangential erhnostyah formed grooves disposed symmetrically relative to the symmetry axis, wherein the side wall of each groove nearest the axis of symmetry is at an angle to it, whose apex is situated on the opposite side of the transverse cutting edge. 4. The cutting insert according to claim 3, characterized in that the axial bearing surface is made flat, located perpendicular to the axis of symmetry, or cylindrical with an axis intersecting the axis of symmetry and located perpendicular to it. 5. A prefabricated cutting tool comprising a housing with an axis of symmetry, in which a cutting insert is mounted and fixed, the axis of symmetry of the cutting insert when installed in the socket coincides with the axis of symmetry of the housing, the cutting insert has two front surfaces symmetrically relative to its axis of symmetry, two main and auxiliary rear surfaces, an axial bearing surface and two tangential bearing surfaces, two main cutting edges at the intersection of the front and main rear surfaces, two auxiliary integral cutting edges at the intersection of the front and auxiliary rear surfaces and a transverse cutting edge at the intersection of the main rear surfaces, while the housing socket is bounded by two tangential support walls and an axial support wall, characterized in that it is provided with a support element mounted and secured in the socket on the axial a supporting wall and having two protrusions, each of which has tangential walls for interacting with the tangential supporting surface of the cutting insert and tangential supports nest wall and a radial support wall for interaction with the side wall of the ledge, made on the corresponding tangential support surface of the cutting insert at an angle to the axis of symmetry, the apex of which is located on the opposite side from the transverse cutting edge. 6. The cutting tool according to claim 5, characterized in that the radial support walls are located on the elastic parts made on the protrusions of the support element. 7. A prefabricated cutting tool comprising a housing with an axis of symmetry, in which a cutting insert is mounted and fixed, the axis of symmetry of the cutting insert when installed in the socket coincides with the axis of symmetry of the housing, the cutting insert has two front surfaces symmetrically relative to its axis of symmetry, two main and auxiliary rear surfaces, an axial bearing surface and two tangential bearing surfaces, two main cutting edges at the intersection of the front and main rear surfaces, two auxiliary integral cutting edges at the intersection of the front and auxiliary rear surfaces and a transverse cutting edge at the intersection of the main rear surfaces, while the housing socket is bounded by two tangential support walls and an axial support wall, characterized in that it is equipped with support elements mounted and secured in the socket on the tangential supporting walls, grooves are made on the tangential supporting surfaces of the cutting insert, while the side wall of each groove closest to the axis of symmetry is located under glom thereto, the apex of which is located on the opposite side of the transverse cutting edge, and intended to cooperate with said support elements.

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