SU1166981A1 - Cutoff wheel with inner cutting edge - Google Patents

Abstract

CUTTING CIRCLE WITH INTERNAL CUTTING CRUMP, in the case of which, at two levels, holes are filled evenly in the outer direction, characterized in that in order to reduce the beating of the circle. the holes located closer to the cutting edge are of the same diameter, and their centers are removed from the center of the circle for a distance of E, the magnitude of which is determined by the formula (L - a) 1 El M L, - the outer and inner edges of the cutting wheel; E, Elf are the Young's moduli of the body of the circle, respectively, in the direction of rolling and in the direction constituting the angle V with the direction of rolling. (L and O); o 00

Description

The invention relates to a tool for machining fragile non-metallic materials, and in particular to a tool for cutting them, and can be used in the manufacture of electronic devices.

The aim of the invention is to reduce the runout of the circle during the cutting process by reducing the dynamic shock loads on the cutting edge by making holes of the second level of the same diameter.

The drawing shows a cutting wheel with an internal cutting edge.

The cutting wheel comprises a housing 1 1 and an internal cutting edge 2. In the housing 1, holes 3 and 4 are made on two levels, and the holes 3 serve to set the wheel and its tension. Holes 4 have the same diameter d, equal to d = K (N | a / b) x X2b, where K is the proportionality coefficient, N is the number of these holes, depending on the outer radius of the wheel b, and for known standard sizes of cutting wheels with an internal cutting edge is 16 - 20. In this case, with increasing b, it is necessary to increase N. The proportionality coefficient K is determined on the basis of information on the stress state arising in the annular plate with circular cutouts when it is stretched uniformly by the forces applied on the external circuit, in particular aws, for cutting wheels with a ratio of radii a / b ® of 0.37-0.41 hN = 16, K «0,1. The constancy of the diameters of the holes 4 eliminates the imbalance of the circle during its rotation, which contributes to the reduction of dynamic shock loads on the cutting edge. Holes 4 are located at different distances. £ from the center of the circle, determined by the formula f _ (b - a) _ ------ _{El {} (1) where b, a are the external and internal radii of the circle;

E, E c are the experimentally determined Young's moduli of the material of the wheel body in the rolling direction and in the direction making the angle ψ with the rolling direction F. The location of the centers of the holes at different distances from the center

Claims (1)

CUTTING CIRCLE WITH INTERNAL CUTTING EDGE, in the casing of which holes are made evenly in the circumferential direction at two levels, characterized in that, in order to reduce the runout of the circle, the holes located closer to the cutting edge are made of the same diameter and their centers are removed from the center of a circle over a distance the value of which is determined by the formula where b, a are the external and internal radii of the cutting wheel; , ECG are the Young's moduli of the material of the wheel body, respectively, in the rolling direction and in the direction making the angle V with the rolling direction.