RU2516156C2 - Machining of equiaxed shafts - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to machine building and may be used for honing shaped shafts with equiaxed profile. Proposed process comprises running the cutter and machined shaft at equal rpm with the use of disc cutter. Cutter profile features equiaxed outline while the number of apices and eccentricity of said outline equals those of honed shaft. In honing, cutter and shaft axes are set in parallel. Cutter and shaft run in one direction.

EFFECT: higher quality, efficiency and precision.

1 dwg

Description

The method of processing shafts with an equiaxed contour relates to the field of metal working and can be used in the processing of profile shafts with an equiaxed contour.

A known method of processing shafts with equiaxial contour, which uses an end mill located perpendicularly, the width of which is constant over the entire producing surface, in which to obtain a shaft with an equiaxial contour, the mill and the shaft are reciprocated with an amplitude equal to the value of the eccentricity of the PK profile, and frequency, depending on the number of faces of the PK profile [A.S. No. 1599158, B23C 3/08, B24B 19/08, 1987].

The need to provide metal cutting machines with special devices that, due to the complex kinematics that reduce the cutting conditions, do not provide satisfactory equipment performance, reduce processing accuracy, due to the appearance of additional geometric errors is a drawback of this method.

Also, for processing shafts with an equiaxial contour, a method is known for machining with an end mill, which consists in the fact that:

- the shaft rotation speed and the rotational speed of the mill are equal, and the movement of the shaft and the mill are different in direction;

- the axis of the cutter and the shaft are perpendicular to each other [RF Patent No. 1033317, IPC B23C 5/06].

The disadvantage of this method is the inability to trim adjacent sections of the shaft surfaces and the complexity of processing short sections and neck shafts with an equiaxed contour.

The objective of the method is to simplify the processing of short sections and necks of shafts with an equiaxed contour and to realize the possibility of cutting adjacent sections of the shaft surfaces without the use of special tools, increasing productivity and processing accuracy.

The problem is achieved in that the rotational speed of the shaft and the rotational speed of the disk cutter are set the same, and the direction of rotation of the shaft and the cutter are the same in direction. Moreover, the axis of the shaft and the cutter are parallel relative to each other, and the profile of the cutter has an equiaxed contour, the number of vertices of which and the magnitude of the eccentricity are equal to the number of vertices and the magnitude of the eccentricity of the shaft processing, thereby eliminating reciprocating movements during processing.

Figure 1 presents a method of processing shafts with an equiaxed contour.

A disk milling cutter 1 having a producing surface 2 is informed of a movement that is the same in the direction of rotation of the shaft 3 having the producing surface 4, and the axes of the milling cutter and the shaft are parallel to each other. In this milling cutter 1, the rotational speed θ is reported equal to the rotational speed of the milling cutter, and the milling profile has an equiaxed contour, the number of vertices of which and the magnitude of the eccentricity are equal to the number of vertices and the magnitude of the eccentricity of the shaft processing, thereby eliminating reciprocating movements during processing.

The method of processing shafts with an equiaxed contour of a disk mill allows eliminating reciprocating movements, the implementation of which is carried out by the design of a disk mill, does not require the provision of machines with special tools, the use of prefabricated shaped disk mills, characterized by the complexity of manufacturing.

Claims (1)

A method of processing shafts with an equiaxial contour, comprising communicating to the mill and the rotational shaft to be machined with the same frequency, characterized in that they use a disk mill whose profile is made with an equiaxed contour, the number of vertices and the amount of eccentricity of which are equal to the number of vertices and the amount of eccentricity of the processed shaft, the axis of the cutter and the machined shaft during processing are set in parallel, and the rotation of the mill is carried out in the same direction as the machined shaft.