SU1079369A1 - Free rotating cutter - Google Patents

Abstract

1. A LOVELY ROTATING CUTTER with a cup-type cutting element mounted on an axis, the cutting edge of which is made as incomplete multi-directional helixes with the highest and lowest points, with the aim of improving the quality of the surface to be worked out by reducing the oscillations of forces during processing and increasing the uniformity rotation of the cutter, it is provided with a second element, aylognichnyh first, installed with a turn relative to the first at a central angle equal to half the central angle of the fire, PEI dnonapravlennoy helix zhuschey cutter edge, thus counting the angle of rotation is produced between nainnzshimn (naivysishmi points A and cutting blade edges T w jO X;. of n

Description

2. The cutter according to claim 1, of tl and h ay y and y. The cutter according to claim 1, in accordance with the fact that the second cutting element is usable so that the second cutting element is mounted on the same axis with the first one. The axle is parallel to the first one.

1079369

The invention relates to metalworking and can be used in machine-building enterprises in turning, boring, planing and milling a billet of hard-to-use # 1 x viscous materials.

Freely rotating turning tools with a helical cutting edge are known. The cutters contain holders with an axis having the possibility of rotation in bearings, on which the working part of the cutter is mounted, having a screw blade 1 and 2.

The disadvantage of these incisors is the periodic variation in cutting forces.

Closest to the invention is a freely rotating cutter with a cup cutting member, the cutting edge of which is designed as incomplete multi-directional helical lines with the highest and lowest points mounted on axis 3.

A disadvantage of the known cutter is that due to a change in the cross section of the cut in time, the forces are healed during processing, which causes the vibrations of the AIDS system, and uneven rotation of the cutter.

The purpose of the invention is to increase the quality of the surface to be processed by reducing the fluctuation of forces during processing and increasing the uniformity of rotation of the tool.

The goal is achieved by the fact that a freely rotating cutter with a cup cutting element mounted on an axis, the cutting edge of which is made as incomplete multi-directional helical lines with the highest and lowest points, is provided with a second cutting element, similar to the first, and installed with a turn from the first to the central an angle equal to half of the central angle of the unidirectional helix of the cutting edge of the tool, while the angle of rotation is calculated between the lowest and highest tons chkami cutting blade edge, said second cutting element is mounted on the same axis with the first and can be mounted is parallel to it.

FIG. 1 schematically shows the proposed cutter; in fig. 2 - pan cutting

elements of incisors, top view; in fig. 3 cutter with offset axes; in fig. 4 force change when machining with incisors.

The cutter consists of cup cutting elements 1 and 2 mounted on axis 3, having the ability to rotate in bearings (not shown) mounted in the holder 4. Cutting elements 1 and 2 are similar to each other and have cutting edges 5 and 6 respectively. The cutting edge of each cutter consists of two oppositely directed helical lines located at central corners (p and cpj Cutting elements are mounted on an axis in such a way that, for example, the lowest point AI of the blade of one cutter and the lowest point A of the second blade of the second cutter are located relative to each other on the central corner of the OS about (fig. 2):

or

d2

When) we get -T (12 Installation of incisors relative to their highest points is possible. Blades.

The incisors 1 and 2 can also be mounted on the axes x 3 and 7, which are displaced between themselves by a certain distance. The incisors are set on the axes with a turn relative to each other by the angle oi or on the same axis. In order to prevent the installation of the incisors during the operation of the tool, the axes 3 and 7 are kinematically interconnected, for example by gear 8 and 9 (Fig. 3). The cutters can be used for a multi-blade tool, an end mill, for which the holder 4 is attached to the mill body 10 (Fig. 1).

The cutter works as follows.

When installing the cutter at an angle relative to the workpiece, turning on its rotation and feed movement, the cutters 1 and 2 rotate together with the workpiece and interact with the workpiece. In this case, the cutter, for example 1, removes the allowance of metal with a depth t and located above it, removes the allowance of metal tg in depth. The force P. (in the direction of the main movement) for the first cutter varies from the angle according to the periodic law (Fig. 4) of curve 11. The force P for the second cutter changes in the same way as in the first case but its change happens um relative to the force P2 of the first cutter, which is shifted in phase by the angle cy t ob due to the turn of the cutters. Where p2 is the glide of the first incisor, P for the second and vice versa. As a result, we obtain the resultant force p2 total. practically worthwhile. Direct 12 in FIG. 4 is a force Pg total. 94 The work of the cutters mounted on two axles occurs in a similar way. The proposed tool cuts a constant force during machining, cutting passes without knobs and ribs with stable crushing of chips. This allows for better cleanliness (per class), and processing of parts without vibrations is known. Due to the complete absence of vibrations due to the stabilization of the total forces during the machining process, the cutter bone is stable.

Claims (3)

1. A FREE ROTATING CUTTER with a cup-mounted cutting element mounted on the axis, the cutting edge of which is made in the form of incomplete multidirectional helical lines with the highest and lowest points, characterized in that, in order to improve the quality of the processed surface by reducing the fluctuation of forces during processing and increasing uniform rotation of the cutter, it is equipped with a second cutting element, similar to the first, installed with a turn relative to the first by a central angle equal to half the central angle of the location. the unidirectional helix of the cutting edge of the cutter, while the angle of rotation is counted between the lowest and highest points of the cutting edge of the cutter. SU .... 1079369 2. The cutter in π. 1, characterized in that the second cutting element is mounted on the same axis as the first. 3. The cutter in π. 1, due to the fact that the second cutting element is mounted on an axis parallel to the first.