SU1122435A1 - Cutter tool - Google Patents

Abstract

CUTTER, for example, for turning with a turning angle of up to 90 °, provided with a front-facing, surface-forming element in the groove, so that, in order to improve the shaving process From the cutting area, both with the longitudinal and transverse feed, the front surface of the cutter is performed by straight, grooves not leaving the cutting edge of the cutter, one of which coincides with the bisector of the angle of the cutter.

Description

eleven

The invention relates to the field of machining plastic metals and alloys on lathes and can be used on computer-controlled machines.

A turning tool is known, which is supplied to it by a small-sized groove located in the direction parallel to the feed movement.

Also known is a lathe tool, equipped with a small-sized chip breaker, located along the cutting edge.

Known turning cutters with small-sized grooves ensure the effect of curling and crushing of chips with a longitudinal feed only. They intensify the curling of chips in a vertical plane to form it into a cylindrical spiral. coming down in a spiral of infinite length. This form of chips ensures the safety of work, as well as mechanized cleaning of chips from the machine. In addition, when curling in a vertical plane, the chips can meet on their way the already treated surface, which leads to a deterioration of its quality.

The purpose of the invention is to improve the process of chip removal from the cutting zone when working with both longitudinal and transverse feed.

The goal is achieved by the fact that in the tool, for example, for turning, with an angle at the apex of up to 90 °, provided on the front surface with a chipping element, in the form of a rocker, on the front surface is 2435J

There are no straight, grooves not entering the cutting edges of the cutter, one of which coincides with the bisector of the angle at the tip of the cutter.

J In FIG. 1 shows the proposed cutter; in fig. 2 is a section A-A in FIG. I; in fig. 3 is a diagram of the operation of the cutter and the shape of a converging chip with a longitudinal flow; in fig. 5 - the same

o at cross-turning.

The cutter works as follows. When the chip moves along the front surface of the cutting insert 1 of the cutter, its contact layers are located in

5, the state of plastic flow, flow into the grooves 2 and, meeting resistance to movement from the vertical wall of the groove 3, provide curling of chips. The positioning of the chip-forming grooves 2 ensures that the chips are directed onto the surface 4, preventing it from coming into contact with the surface that has already been machined 5.

5 Compared with the known cutter, the proposed cutter has the following advantages that determine the technical and economic feasibility of its use: chips, converging in the form of

0 helix helix, under the incisor, and is not a factor that destroys the processing process even in the case of an endless helix; the chips do not come into contact with the machined surface of the part; possible turning with the same cutter, both with longitudinal and transverse feed, the chip crushing scheme offered by the cutter does not cause an additional dynamic effect on the cutter, which leads to an increase in its durability and the quality of the machined surface.

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FIG. five

Claims (1)

CUTTER, for example, for turning: with an angle at the apex of up to 90 °, equipped on the front surface with a chip-cutting element in the form of a groove, with the exception that, in order to improve the chip removal process from the zone When working with both longitudinal and transverse feeds, grooves are made on the front surface of the cutter and are straight, not extending to the cutting edges of the cutter, one of which coincides with the bisector of the angle at the tip of the cutter. SU .1122435