SU1748957A1 - Method of sharpening multiphase surfaces - Google Patents

Abstract

The invention relates to the processing of materials by cutting. The purpose of the invention is to increase the productivity of processing by improving the cutting conditions. The turning of a multifaceted surface is carried out with incisors, the number of which is set equal to the number of faces and positioned evenly around the circumference in a plane perpendicular to the rotation axis of the cooking. In this case, the profiling of all the cutters is carried out simultaneously with a frequency equal to the frequency of rotation of the workpiece. 3 il.

Description

The invention relates to the field of machining materials and will find application in mechanical engineering in the manufacture of parts with multi-faceted surfaces, for example, fasteners, tools, some shafts, etc.

There is a method of processing a multi-faceted surface, on which the workpiece is informed about the rotation, and the cutter - the reciprocating movement of the feed. The reciprocating movement of the cutter is carried out according to a harmonically changing law, as a result of which it is impossible to treat surfaces with flat edges using this method.

There is also known a method of turning multi-faceted surfaces, according to which the workpiece is reported to rotate, and the cutter to the relative feed movement and reciprocating movement in the plane of rotation of the workpiece at a frequency greater than N times the frequency of rotation of the workpiece, where N is the number of faces of the multi-faceted surface.

The treatment is carried out with a single cutter, the apex of which is a polygon — the cross-section of the polyhedral surface; therefore, its contact is made at an angle of 360 °.

Due to the fact that the frequency of the reciprocating movement of the tool repeatedly exceeds the frequency of rotation of the workpiece, and the trajectory of movement of the tool nose has abrupt transitions in the tops of the faces of a multifaceted surface, adverse conditions of its operation are created, which negatively affects productivity.

The aim of the invention is to improve processing performance.

FIG. Figure 1 shows a kinematic scheme for turning a multifaceted surface; in fig. 2 - cutters, in the plane of rotation of the workpiece; in fig. 3 - the trajectory of the apex of one of the incisors in this plane.

The multi-faceted surface on the workpiece 1 is treated simultaneously with several uA

With these cutters 2, the number of which is equal to the number of faces N of the machined polyhedral surface, the Cutters are evenly distributed around the circumference in a plane perpendicular to the axis 3 of the workpiece. Each cutter process one of the faces. During processing, the workpiece 1 is reported to have a rotational motion of Bi around axis 3, and the cutters are reciprocated by movement P2, which is matched with the rotation of Bi in accordance with the profile of the faces, which can be straight or curvilinear. For surface machining along the length of the incisors relative to the workpiece, the feed movement Pz is also reported. The values of the velocities of movements Bi and Пз are set according to the standard or experimental data.

The reciprocating movement of each cutter is carried out with a frequency equal to the frequency of rotation of the workpiece, while the contact of its tip with a given polyhedral surface is carried out

2l:

on the angle of rotation of the workpiece r-t-g-. The rest of the path of the tool tip has the shape of an arc of a circle, the radius of which is larger than the radius of the workpiece, and the curves that smoothly juxtapose it with the section where

edge profiling is performed. This form of trajectory can be obtained using copiers, followers and other control systems.

Thanks to the absence of the trajectory

abrupt transitions provide a smooth change in the speed and acceleration of the movement of P2 and thereby create satisfactory conditions of the cutter during the cutting process, increasing the cutting speed and machining performance.

Claims (1)

The invention method of turning multi-faceted surfaces, in which the workpiece is given a rotational motion, and the cutters, the number of which is set equal to the number of faces, the movement of the profiling, consistent with the rotation of the workpiece, and relative feed movement, different from the fact that, in order to increase machining performance by improving cutting conditions, the cutters are evenly placed around the circumference in a plane perpendicular to the axis of rotation of the workpiece, and the profiling movement of all the cutters is carried out simultaneously with the frequency equal to the frequency of rotation of the workpiece. g /, / 6, Sh Fm one P, Fig 2 FIG. five