RU2598138C1 - Tangential cutting plate and cutter - Google Patents

Abstract

FIELD: instrument making.

SUBSTANCE: cutter is made with mechanical attachment by means of fastening screw of cutting plate, tangential cutting plate for installation in the seat of cutter holder. Due to additional openings and recesses in the cutting plate and flange on the head of fastening screw the cutter has a lubricant coolant channel to feed lubricant coolant to the rear surface of the main cutting edge.

EFFECT: increased permissible cutting speed due to lubricant coolant feed to the rear surface of the main cutting edge.

3 cl, 6 dwg

Description

The invention relates to a metal cutting tool, cutters with mechanical fastening of the cutting insert, a tangential cutting insert for installation in the socket holder tool.

Known tangential cutting insert for installation in the socket of the tool holder, bounded by two end surfaces and lateral surfaces located between them and having a through hole, the side surface of which includes a cylindrical section and two conical sections for alternately interacting with the head of the fixing screw, each end surface includes a front surface and a supporting surface, wherein the supporting surfaces of the end surfaces are parallel to each other, including the side surfaces two parallel large side surfaces and two parallel smaller side surfaces, the through hole axis being parallel to the supporting surfaces of the end surfaces and perpendicular to the large side surfaces, the larger and smaller side surfaces are joined by cylindrical side surfaces, the side surfaces at the intersection with each end surface form cutting edges, while large side surfaces form the main cutting edges, smaller side surfaces form auxiliary cutting edges, and cylindrical side surfaces form radial cutting edges that mate the main and auxiliary cutting edges, sections of side surfaces adjacent to the cutting edges form the corresponding rear surfaces, the cutting plate has two mutually perpendicular symmetry planes passing through the axis of the through hole, the first of these planes of symmetry runs perpendicular to the supporting surfaces of the end surfaces, and the second parallel to the supporting surfaces of the end surfaces her (see RF patent RU 2312742, B23B 27/16, 2007), / 1 /.

Known is a cutter containing a holder, in the socket of which a tangential cutting insert is mounted, fixed by a fixing screw, the holder’s nest is bounded by a lower supporting surface for interacting with the supporting surface of the end surface of the cutting plate and the side supporting walls for interacting with the larger and smaller side surfaces of the cutting plate, a fixing screw has a head with a conical section for interaction with the conical section of the main through hole of the cutting insert for fixing it in nezde holder, a fixing screw mounted in the threaded hole on the major lateral wall of the support, the axis of which is offset relative to the axis of the through hole of the cutting insert when it is installed in the socket in the direction of the lower support wall and the minor lateral walls (cm. / 1 /).

In the known tangential cutting insert and cutter / 1 / there is no possibility of supplying a cutting fluid to the main rear surface of the working cutting edge, and therefore the efficiency of using the cutter and tangential cutting insert is reduced.

The objective of the invention is to increase the efficiency of use of the cutter and tangential cutting insert, for example by increasing the permissible cutting speed, by supplying coolant to the main rear surface of the working cutting edge.

The problem is solved in that in a tangential cutting insert for installation in the holder holder of the cutter, bounded by two end surfaces and lateral surfaces located between them and having a through hole, the side surface of which includes a cylindrical section and two conical sections for alternating interaction with the head of the fixing screw, each end surface includes a front surface and a supporting surface, and the supporting surfaces of the end surfaces parallel to each other th, the side surfaces include two parallel large side surfaces and two parallel smaller side surfaces, the axis of the through hole parallel to the abutment surfaces of the end surfaces and perpendicular to the large side surfaces, the larger and smaller side surfaces are joined by cylindrical side surfaces, the side surfaces in intersection with each end surface form cutting edges, while large side surfaces form the main cutting edges, smaller side surfaces and form auxiliary cutting edges, and cylindrical side surfaces form radial cutting edges that mate the main and auxiliary cutting edges, sections of side surfaces adjacent to the cutting edges form the corresponding rear surfaces, the cutting plate has two mutually perpendicular planes of symmetry passing through the axis of the through hole , the first of these planes of symmetry runs perpendicular to the supporting surfaces of the end surfaces, and the second parallel to the supporting surfaces The surfaces of the end surfaces according to the invention are provided with four additional through holes having axes parallel to the axis of the main through hole and located from the main hole in the direction to the corresponding auxiliary cutting edge symmetrically with respect to said first and second planes of symmetry, step sections adjacent to the through hole are made to large lateral surfaces, bounded by perpendicular to the axis of the through-hole flat surfaces on which there are conical sections of the through hole, and cylindrical surfaces facing large side surfaces, while the diameter of the cylindrical surfaces of the stepped sections is larger than the maximum diameter of the conical sections on their flat surfaces, additional through holes go to the flat surfaces of the stepped sections and the conical sections of the main through hole, each of the large side surfaces has two recesses located symmetrically with respect to the axis of the main through hole holes and expanding from an additional through hole to the corresponding main cutting edge, and the depth of the recesses decreases from the additional through hole to the main cutting edge, and the recesses on one larger side surface are located in two centrally symmetric quadrants formed by the aforementioned first and second planes of symmetry, and the recesses on the other larger lateral surface are formed in two other centrally symmetrical quadrants, between the additional through hole and said the recess is made transitional section, inclined to the bottom of the recess.

The task with respect to the cutter is solved in that it contains a holder, in the socket of which the tangential cutting insert described above is fixed, secured by a fixing screw, the holder’s nest is limited by the lower abutment surface for interaction with the abutment surface of the end surface of the insert and side abutment walls to interact with a larger and smaller side surfaces of the cutting insert, the fixing screw has a head with a conical section for interaction with the conical section of the main well of the cutting hole for fixing it in the holder socket, the mounting screw is installed in the threaded hole on the larger side supporting wall, the axis of which is offset from the axis of the through hole of the cutting plate when it is installed in the socket towards the lower supporting wall and the smaller side wall, while according to the invention in the nest on the side wall for interaction with a larger side surface of the cutting insert is made a protrusion with an opening for supplying coolant, designed to be placed in an additional through the bore of the cutting insert, corresponding to the operative major cutting edge, on the head of the fastening screw from its larger diameter of the conical portion a flange that is placed with a gap in a stepped portion of the main through-hole of the cutting insert in the holder is provided with holes for supplying coolant to the hole of said projection.

The problem is also solved by the fact that the said protrusion on the larger lateral supporting wall of the holder socket is made in the form of a tube mounted in the holder, or from the material of the holder.

The proposed tangential cutting insert and cutter are shown in FIG. 1-6, on which:

in FIG. 1 is a side view of a tangential cutting insert;

in FIG. 2 shows a section Α-A in FIG. one;

in FIG. 3 shows a section BB in FIG. one;

in FIG. 4 is a front view of a cutter;

in FIG. 5 is a plan view of a cutter;

in FIG. 6 shows a section BB in FIG. four.

The tangential cutting insert 1 is intended for installation in the holder holder of the cutter 2, is limited by two end surfaces 3 and 4 and the side surfaces located between them and has a through hole, the side surface of which includes a cylindrical section 5 and two conical sections 6 and 7 for alternating interaction with the head fixing screw.

Each end surface 3, 4 includes a front surface and a supporting surface 8, and the supporting surfaces of the end surfaces are parallel to each other.

The side surfaces include two parallel large side surfaces 9 and 10 and two parallel smaller side surfaces 11 and 12, the axis of the through hole being parallel to the supporting surfaces 8 of the end surfaces and perpendicular to the large side surfaces 9 and 10.

Larger and smaller side surfaces are joined by cylindrical side surfaces 13.

The lateral surfaces at the intersection with each end surface form cutting edges, with the large side surfaces forming the main cutting edges 14, the smaller side surfaces forming the auxiliary cutting edges, and the cylindrical side surfaces forming the radius cutting edges mating the main and auxiliary cutting edges.

The portions of the side surfaces adjacent to the cutting edges form the corresponding rear surfaces.

The cutting insert has two mutually perpendicular planes of symmetry I and II passing through the axis of the through hole, the first of these planes of symmetry runs perpendicular to the supporting surfaces of the end surfaces, and the second parallel to the supporting surfaces of the end surfaces.

In the tangential cutting insert there are four additional through holes 15 having axes parallel to the axis of the main through hole and located from the main hole in the direction to the corresponding auxiliary cutting edge symmetrically with respect to said first and second planes of symmetry.

In the through hole, stepped sections 16 are made adjacent to the large lateral surfaces, bounded by perpendicular to the axis of the through hole with flat surfaces on which the conical sections 6, 7 of the through hole extend, and cylindrical surfaces facing large side surfaces, while the diameter of the cylindrical surfaces of the stepped sections more than the maximum diameter of the conical sections on their flat surfaces.

Additional through holes 15 extend onto the flat surfaces of the stepped portions and the conical sections of the main through hole.

On each of the large side surfaces there are two recesses 17, located symmetrically with respect to the axis of the main through hole and expanding from the additional through hole 15 to the corresponding main cutting edge 8, and the depth of the recesses decreases from the additional through hole to the main cutting edge, and the recesses on one larger lateral surface are located in two centrally symmetric quadrants formed by the aforementioned first and second planes of symmetry, and recesses on the other larger lateral surfaces are formed in two other centrally symmetric quadrants.

Between the additional through hole 15 and said recess 17 is made of the transition section 18, inclined to the bottom of the recess.

The cutter 2 contains a holder 19, in the socket of which a tangential cutting plate 1 is mounted, fixed by a fixing screw 20.

The holder socket is bounded by a lower abutment surface for engaging with a abutment surface of the end surface of the insert and side abutment walls for engaging with the larger and smaller side surfaces of the insert.

At the same time, a protrusion 21 with an opening 22 for supplying a cutting fluid to the working main cutting edge 8 (see Fig. 4), designed to be placed in an additional through hole 15 of the insert 1.

The fixing screw 20 is installed in the threaded hole on the larger side support wall of the socket, the axis of which is offset from the axis of the through hole of the cutting insert when it is installed in the socket towards the lower support wall and the smaller side wall (see Fig. 6).

The fixing screw has a head with a conical section 23 for interacting with the conical section of the main through hole of the cutting insert 1 for fixing it in the holder holder 19.

On the head of the fixing screw 20 from the side of the larger diameter of its conical section 23, a flange 24 is made, placed with a gap in the step section 16 of the main through hole of the cutting insert.

The holder has holes 25 for supplying coolant to the hole 22 of the said protrusion, which can be made in the form of a tube installed in the holder, or from the material of the holder.

When assembling the cutter 2, the tangential cutting insert 1 is installed in the socket of the holder 19 so that the protrusion 21 is located in one of the through additional holes 15 closest to the working auxiliary cutting edge 26.

Then, the cutting insert 1 is fixed with a fixing screw 20. In this case, the flange 24 of the fixing screw is located in the stepped portion 16. The flange 24, the recess 17 together with the hole 22 of the protrusion 21 create a channel for supplying coolant from the holes 25 of the holder 19 to the rear surface of the main working cutting edge 27 .

The supply of coolant to the main working cutting edge improves the efficiency of use of the cutter and tangential cutting insert, for example by increasing the permissible cutting speed.

Claims (3)

1. The tangential cutting insert for installation in the socket holder tool,
bounded by two end surfaces and lateral surfaces between them and having a through hole, the side surface of which includes a cylindrical section and two conical sections for alternating interaction with the head of the fixing screw,
each end surface includes a front surface and a supporting surface, and the supporting surfaces of the end surfaces are parallel to each other,
the side surfaces include two parallel large side surfaces and two parallel smaller side surfaces, the axis of the through hole parallel to the abutment surfaces of the end surfaces and perpendicular to the large side surfaces,
larger and smaller side surfaces are joined by cylindrical side surfaces,
the side surfaces at the intersection with each end surface form cutting edges, with the large side surfaces forming the main cutting edges, the smaller side surfaces forming the auxiliary cutting edges, and the cylindrical side surfaces forming the radius cutting edges mating the main and auxiliary cutting edges,
sections of the side surfaces adjacent to the cutting edges form the corresponding rear surfaces,
the cutting insert has two mutually perpendicular planes of symmetry passing through the axis of the through hole, the first of these planes of symmetry extends perpendicular to the end surfaces, and the second perpendicular to the large side surfaces, characterized in that
four additional through holes are made in it, having axes parallel to the axis of the main through hole, and located from the main hole in the direction to the corresponding auxiliary cutting edge symmetrically relative to the indicated first and second planes of symmetry,
stepped sections are made in the through hole adjacent to large lateral surfaces, bounded by perpendicular to the axis of the through hole with flat surfaces on which the conical sections of the through hole exit, and cylindrical surfaces facing large side surfaces, while the diameter of the cylindrical surfaces of the stepped sections is larger than the maximum diameter of the conical areas on their flat surfaces,
additional through holes extend onto the flat surfaces of the stepped sections and conical sections of the main through hole,
on each of the large side surfaces there are two recesses located symmetrically with respect to the axis of the main through hole and expanding from the additional through hole to the corresponding main cutting edge, and the depth of the recesses decreases from the additional through hole to the main cutting edge, and the recesses on one larger side the surfaces are located in two centrally symmetric quadrants formed by the aforementioned first and second planes of symmetry, and the recesses on the other greater side howl surface formed in the other two centrally symmetrical quadrants,
between the additional through hole and said recess is made transitional section, inclined to the bottom of the recess. 2. The cutter containing the holder and the tangential cutting insert according to claim 1, which is installed in the holder holder and secured with a fixing screw, the holder holder being limited to a lower supporting surface for interacting with the supporting surface of the end surface of the cutting insert and the side supporting walls for interacting with a larger and smaller side surfaces of the insert,
while in the nest on the side wall for interaction with a larger side surface of the cutting insert there is a protrusion with an opening for supplying cutting fluid intended for placement in an additional through hole of the cutting insert corresponding to the working main cutting edge,
a mounting screw is installed in the threaded hole on the larger side support wall, the axis of which is offset from the axis of the through hole of the cutting insert when it is installed in the socket towards the lower support wall and the smaller side wall,
the fixing screw has a head with a conical section for interacting with the conical section of the main through hole of the cutting insert for fixing it in the holder socket,
on the head of the fixing screw from the side of the larger diameter of its conical section, a flange is made, which is placed with a gap in the stepped section of the main through hole of the cutting insert,
holes in the holder are made for supplying coolant to the hole of said protrusion. 3. The cutter according to claim 2, characterized in that said protrusion on the larger lateral supporting wall of the holder socket is made in the form of a tube mounted in the holder or from the holder material.

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