RU103317U1 - MILLING MACHINE FOR TREATMENT OF SHAFT WITH EQUILIBRIUM CIRCUIT - Google Patents

Abstract

 End mill for machining shafts with an equiaxial contour (RC), characterized in that the producing surface of the mill described by the coordinates xn, yn, zn is determined according to the dependencies:! ; !; ! zn = -e · cos (N · θ) -B,! where N is the number of vertices of the PK profile; ! e - eccentricity of the RK profile; ! θ is the angle of rotation of the shaft; ! zв - the length of the processed shaft journal; ! Df - mill diameter; ! H is the width of the milling; ! In - the width of the cutter.

Description

The utility model relates to the field of metalworking and can be used in the processing of profile shafts with an equiaxed contour.

A known method of processing shafts with an equiaxed contour with a face mill located perpendicularly, the width of which is constant over the entire producing surface, i.e. there is no tooth lift, in which, to obtain the RK profile, the milling cutter and the workpiece are reciprocated with an amplitude equal to the profile eccentricity and a frequency depending on the number of faces of the RK profile [A. S. No. 1599158, B23C 3/08, B24B 19/08, 1987].

The disadvantage of this method is the need to provide metal-cutting machines with special devices, which, due to the complex kinematics that reduce the cutting conditions, do not provide satisfactory equipment performance.

The technical task of the utility model is to simplify the processing of shafts with an equiaxial contour, to improve the quality of processing shafts of this type and the productivity of the equipment.

The specified result is achieved in that the face mill has a producing surface described by the coordinates x _n , y _n , z _n :

z _n = -e cos (N θ) -B

where N is the number of vertices of the PK profile;

e - eccentricity of the RK profile;

θ is the angle of rotation of the workpiece;

z _in - the length of the processed shaft journal;

D _f - the diameter of the cutter;

H is the width of the milling;

In - the width of the cutter.

The use of an end mill will allow in the process of processing shafts with an equiaxial contour at the same speed of rotation of the workpiece and mill, to exclude other movements, the implementation of which is carried out by the design of the end mill, and does not require the provision of special tools for machines.

The end mill will allow you to qualitatively process both sections of the profile in the vicinity of the base of the shafts of this type, and the faces of the shafts with equiaxed contour, which perform the functions of centering or transmitting torque.

Figure 1 presents the end mill having a producing surface 1, which allows to process the shaft section 2 with a width equal to the milling width H with the number of vertices of the PK profile equal to three. The presence of a tooth lift leads to the formation of a difference (h) between the maximum (B _max ) and minimum values (B _min ) of the cutter width, the value of which varies along the length of the entire producing surface, the number of complete cycles of changes in the value of h is equal to the number of vertices of the PK profile. Figure 2 shows the profile of the producing surface obtained as a result of a section of the producing surface around the circumference.

The use of an end mill when machining shafts with an equiaxed contour will allow to achieve high precision machining of the most important sections of shafts of this type, optimal roughness and the correct geometric shape of the machined surface of the shafts with equiaxed contour, high productivity of the equipment, due to the simplification of the shaping scheme of shafts of this type.

Claims (1)

End mill for machining shafts with equiaxial contour (RK), characterized in that the producing surface of the mill, described by the coordinates x _n , y _n , z _n , is determined according to the dependencies:

;

; z _n = -e · cos (N · θ) -B, where N is the number of vertices of the PK profile; e - eccentricity of the RK profile; θ is the angle of rotation of the shaft; z _in - the length of the processed shaft journal; D _f - the diameter of the cutter; H is the width of the milling; In - the width of the cutter.