SU1316758A1 - Method of forming helical surface of double-enveloping worm with concave shape of screws and arrangement for gear=milling machine for machining helical surface of the same - Google Patents

Abstract

This invention relates to the machining of a globoid screw with a concave profile of a Witksworm toroidal tool on a gear milling machine. WITH . in order to increase the carrying capacity and reduce the metal intensity of the transfer with a globoid screw with a concave profile of turns, the angle of inclination of the tool axis to the screw axis is changed during the processing of the screw, respectively, the angle of rotation of the tool and determined

Description

are divided according to the dependence 5 - arctg U / / (A) R - cos), 1 de 8 - the angle of inclination of the tool axis to the axis of the screw, U Oj / CJ, - the ratio of the angular velocity пов of turning the instrument to the angular velocity ω, Rotation of the screw ka, A is the shortest distance between the axis of the screw and the axis of rotation of the tool,, R is the distance from the axis of rotation of the tool to the center of the circumference of the axial section profile of the tool, / 3 is the angle of rotation of the tool. Screw surface treatment device

The invention relates to mechanical engineering and can be used in all sectors of the national economy in the manufacture of tons of heavily loaded globoid worms.

The purpose of the invention is to increase the carrying capacity and decrease the metal transmission capacity by changing the angle of inclination of the tool axis to the screw axis, as well as expanding the technological capabilities by supplying the device with a copier and a lever.

FIG. 1 shows a diagram of the location of the toroidal tool relative to the machined worm, FIG. 2 - a device for processing a globoid with a concave profile of turns of a worm with a toroidal tool on a hobbing machine; in fig; 3 - the same plan view.

The method of forming a helboid helical surface with a concave profile of the turns of the screw 1 consists in the fact that the axis is 0.0 (tool 2 is tilted to the axis of the screw 1 by an angle that does not coincide with the angle of elevation of the screw line of the screw 1 at this point, and change in the process of processing, respectively, the angle 3 of the rotation of the tool 2, the angle S of the inclination of the tool 2 to the axis of the screw 1 is determined from the dependence

 arctg U // A (R-cosp), where S is the angle of inclination of the tool axis to the axis of the screw, and G) / CJ, the ratio of the angular velocity (j) of the tool-turn with the concave profile of the turns of screw 1 is equipped with a copier mounted on the fixed part of the gear mill machine, and a lever rigidly connected to the carriage and placed with the possibility of interaction with the copier. The center of the circular guides is located on a line passing through the center of the circle of the axial section profile of the tool 2, perpendicular to the axis O, Od of the rotation of the tool and intersecting the axis OjOj of the product spindle. 2 sec. f-ly, 3 ill.

. that to the angular velocity OZ, the rotation of the screw, A is the shortest distance between

axis 0, screw and axis of rotation of tool 2, R is the distance from the axis of rotation of the tool to the center of the circle of the axial section profile of the tool 2, is the angle of rotation of the tool, Cr this is the center of the circle of radius g forming the profile of the axial section of the tool 2 into arbitrary the moment of processing is placed on a line, perpendicular to the 0-0 axis, rotation of the tool and intersecting the axis of the screw, and the axis of the tool is set perpendicular to this line,

This combination of installation parameters of a toroidal tool allows you to get a flat line of contact between the tool and the screw surface, which is outlined by an arc of a circle that coincides with the axial section of the tool, and the screw surface profile does not depend on the diameter of the tool, because processing the line of its contact with the tool retains its location and shape.

An apparatus for carrying out the method comprises a base 3, a carriage 4 with a spindle assembly 5 with a toroidal tool fixed therein.2, for example a grinding wheel, rigidly connected to the carriage 4 by a lever

WITH

6, with a roller 7 mounted on it, interacting with a cam 8, rigidly mounted on a bracket 9 mounted on a fixed part of a gear milling machine. The carriage 4 is connected to the angle of elevation of the helix of the worm, characterized in that.

t5

on with base 3 circular directions

10 and 11 rolls, the center of the rotation, which, in order to increase the carrier strength, at any moment of the property and decrease the metal consumption

The machining is located on the line, perpendicularly, the tool axis is located on the axis of the rotation axis and perpendicular to the line, perpendiment 2, passing through the center of the coulter axis of the tool rotation and

axial profile circumference

tool 2 and intersecting axis

Worm 1. Circular guide 10

rests on balls 12 lying on

guide 11, guide 10 and

11 are stacked between each other 13.

The processing of the screw surface of the globoid with a concave profile of the turns of the screw is carried out in the following 20 ways.

A globoid worm blank is installed in the spindle of the gear mill, and the device is installed on the table 14 of the gear mill. The bracket 9 with the cam 8 fixed on it is attached to the fixed part of the gear milling machine,. for example, on its base. A predetermined distance between the axis of the worm 1 and the table 14 is set. One side of the worm turns is processed by bringing the tool 2 rotating around its axis 2 with it using the rotary feed method 35 carried out by the differential machine of the gear milling machine. In the process of rotating the table with the device fixed on it, the roller 7 mounted on the lever 6 drives 40 the copier 8 and turns the carriage 4 together with the spindle unit 5 with the tool 2 fixed in it

angle S of the tool axis tilt to

, f with a tool in it, and the spindle of the axis of the screw, defined by the above - - „„ „„ „„

given formula. After the tool 2 leaves the working area, the roller 7 moves away from the copier 8 and the carriage 4 crossing the axis of the screw, while the center of the circle of the axial section of the tool is located on this line, and the angle of inclination of the tool axis to the axis of the screw is changed during processing according to the angle tool rotation and determined according to

S arctg u / (A / R - cos f),

where S is the angle of inclination of the tool axis to the axis of the screw

25 and G), is the ratio of the angular velocity CO, the rotation of the instrument to the angular velocity ω, the rotation of the screw;

the shortest distance between the axis of the screw and the axis of the tool rotation; the distance from the axis of rotation of the tool to the center of the circle forming the axial section of the tool; 3 - the angle of rotation of the tool.

2. A device for a gear milling machine for machining a screw surface of a globoid with a concave profile of turns of the worm with a toroidal tool, containing a base, on which circular guides there is a carriage that carries a spindle with anchored product,

And R that, for the purpose of expansion of technological capabilities, the device is supplied

the copier is set to its original position.

socks on the fixed part of the gear mill

machine, and a lever rigidly connected to the carriage and placed with the cast on,., g., g.,.

Claims (2)

1. Method of forming a helboid helical surface with a concave interaction with the copier, and the center of the circular guides is located on a line passing through the center of the circumference of the axial section profile of the tool, perpendicular to the axis of rotation of the tool and intersecting the axis of the spindle product. the profile of the turns of the screw with a rotating toroidal tool, in which the tool axis is tilted to the screw axis by an angle that does not coincide with different in that. in order to increase the carrier tool in it and spindle „„ „„ „„ intersecting the axis of the screw, while the center of the circle of the axial section profile of the tool is located on this line, and the angle of inclination of the tool axis to the axis of the screw is changed during machining according to the angle of rotation of the tool and is determined by S arctg u / (A / R - cos f), where S is the angle of inclination of the tool axis to the axis of the screw and G), is the ratio of the angular velocity CO, the rotation of the instrument to the angular velocity ω, the rotation of the screw; the shortest distance between the axis of the screw and the axis of the tool rotation; the distance from the axis of rotation of the tool to the center of the circle forming the axial section of the tool; 3 - the angle of rotation of the tool. 2. A device for a gear milling machine for machining a screw surface of a globoid with a concave profile of turns of the worm with a toroidal tool, containing a base, on which circular guides there is a carriage that carries a spindle with anchored product, characterized by And R th machine, and a lever rigidly connected to the carriage and placed with interaction with the copier, and the center of the circular guides is located on the line passing through the center of the circle the profile of the axial section of the tool, perpendicular to the axis of rotation of the tool and intersecting the axis of the spindle product. 02 Oi (pus.i 02 Editor M. Bandura Order 2383/10 Circulation 975 Subscription VNSHPI State Committee of the USSR for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing enterprises, Uzhgorod, Projecto st., 4 sri.Z Compiled by S. Lastochkin Tehred L. Oliynyk Proofreader A. Ilyin