SU1450931A1 - Method of machining polyhedrons - Google Patents

Abstract

The invention relates to the field of metalworking and can be used in mechanical engineering in the manufacture of "parts with multifaceted surfaces, such as tool shanks. The purpose of the invention is to simplify the process of implementing the method when machining flat edges. The workpiece 1 is machined with a disk cutter 2, which is mounted for rotation about an axis 3 parallel to the geometric axis 4 of the cutter. The distance e between axes 3 and 4 and the cutter radius is set from the condition (r + p): t (t + 2), where r is the cutter radius, p is the radius of the circle inscribed in the polyhedron profile; n is the number of faces of the polyhedron. During machining, workpiece 1 is reported to rotate B, around axis 5, consistent with rotation B of the cutter around axis 3. These rotational movements are carried out in opposite directions, and the ratio of angular velocities is set either constant or variable depending on the profile of the resulting polyhedron. When machining the workpiece, the cutter 2 over the workpiece 1 reports the feed movement S along axis 5. This relationship between the cutter radius and eccentricity reduces the cutter imbalance and eliminates the need for regrinding the cutter. 2 Il. i (L

Description

P1.

P.

m

+ i

t step screw surfaces of the faces;

55, participation in the operation of all teeth of the milling cutter is ensured. To fulfill this condition, an eccentricity value e is first assigned from this condition, and then the cutter radius r is determined according to the dependence for e.

For processing polyhedrons with convex faces, the value of eccentricity e is set smaller, and with concave faces, more than the value calculated by the formula.

The cutting speed during processing by the proposed method is equal to the difference between the peripheral speeds of the cutter and the workpiece. Its maximum value V at given frequencies of rotation of the milling cutter Uj and the workpiece n corresponds to the moment of processing the center of the face for which

V 2 ir (r + e) n - ZiTp n,. Because

1450931

F o

rmula of invention

A method for processing polyhedrons with an eccentric mounted disk cutter, the axis of which is set parallel to the axis of the workpiece, in which the last and cutter are conveyed by coordinated rotational movements and relative feed movements, characterized in that the workpiece is reported in opposite directions, and the eccentricity of the cutter installation and its radius are determined from the ratio

n iraii,

that

V 2THP, ((g + e) m - p).

Consequently, the frequency of rotation of the workpiece n is given by

V

P ,

 2IT (t (g + e) -p)

The cutting speed V and the feed S are determined by the cutting conditions.

- g + p m (t + 2)

de e is the eccentricity of the installation of the cutter;

g - cutter radius}

p is the radius of the circle inscribed in the profile of the treated surface;

m is the number of faces of the polyhedron.

cpus.Z

Claims (1)

Claim A method for processing polyhedra with an eccentrically mounted disk ⁵ milling cutter, the axis of which is set parallel to the axis of the workpiece, in which the agreed rotational ₁₀ movements and relative feed motions are reported to the milling cutter and the latter, characterized in that, in order to simplify the process implementation when processing flat faces, rotational movements the milling cutter ₁₅ and the workpiece are reported in opposite directions, and the eccentricity of the milling cutter and its radius are assigned from the ratio then n ₂ = needles,, g + p m (t + 2) ^g V = 2'iFn ₎ ((r + e) mp). Therefore, the rotation frequency of the workpiece η is set according to V ^P '21G (w (d + e) -p) The cutting speed V and feed S are assigned according to the cutting conditions. where e is the eccentricity of the mill; g is the radius of the cutter; p is the radius of the circle inscribed in the profile of the machined surface; m is the number of faces of the polyhedron.