SU473593A1 - Copy mechanism for machining helical surfaces on the ends of parts such as bodies of rotation - Google Patents

Description

with one working surface on a flat copier, you can get two helix branches at the ends of the machined parts, reduce the number of branches on the copiers by half and get a helix at the ends of the machined parts with identical branches.

FIG. 1 shows the scheme of the proposed mechanism, vertical projection; in fig. 2 is a view along arrow A in FIG. one; in fig. 3 is a circular cam, view along arrow B in FIG. I, in FIG. 4 - various designs of flat copiers.

The cam disc 1 has a working profile in the form of an equidistant closed spiral and is mounted on spindle 2 by means of a spline joint, which allows the rotating spindle to transmit torque to the cam in any axial position (cam 1 in the axial direction is rigidly fixed and has only rotational motion, and inside it, the rotating spindle performs reciprocating axial movement). Frame 3, which is connected to the working profile of cam 1 by means of two rollers 4, has a reciprocating motion in a plane perpendicular to the axis of spindle 2 by the stroke (difference of maximum and minimum radii of profile removal) of cam 1. Thus, the rotational motion the cam is converted into a linear reciprocating frame movement. The frame moves on the guide rolls in only one plane. On frame 3, two pushers 5 are rigidly mounted, which, moving with it, slide along the working profile of flat copiers 6. Flat copiers can have various shapes of working surfaces (Fig. 3): from the simplest wedge-shaped to the most complex, assembled from individual planes (Fig. 4). Flat copiers are interchangeable, and their working profiles correspond to the profile m at the ends of the parts to be machined; the height of the working surface on flat copiers should be equal to the height of the comb on the workpiece, regardless of the diameter and angle of elevation of the helix on the workpiece. Flat copiers 6 are installed on the wrench 7.

The wedge holder 7 is mounted on the mechanism spindle 2 and performs an axial reciprocating motion with the latter. The wedge holder 7 does not perform a rotational movement due to the guides which allow only axial reciprocating movement with the spindle.

The constant contact of the working surfaces of the flat copiers 6 with the pushers 5 is carried out with the help of the load 8.

The proposed mechanism works as follows.

Spindle 2, rotating, transmits rotational movement to disk cam 1, which reverses rotational movement into reciprocating movement of frame 3 in the plane perpendicular to the axis of spindle 2 using rollers 4. Cam 1 and frame 3 do not have an axial axis (along the axis of the spindle) movement. The frame 3, moving, pushes flat copiers 6 on working profiles with the help of pushers 5, overcoming load 8. Flat copiers 6 with wedge holder 7 are rigidly (using thrust bearings) mounted on rod 2 of the mechanism and have only axial reciprocating motion.

In this way, the spindle, along with the rotational movement, receives a reciprocating axial movement. The workpiece 9, installed on the rod with a chuck or any special device, also performs rotational and reciprocating motion, and each point on the ends of the workpiece describes a helix and, if you bring the cutting element to the end of the workpiece, the treatment will be be carried along a helix.

The load 8, connected to the wedge holder (or chip pin), brings flat copiers and pushers into constant contact.

Subject invention

A copying mechanism for machining screw surfaces at the ends of parts such as rotation bodies with a disk cam freely mounted on the tailgun, having a working profile in the form of an equidistant helix, for performing axial reciprocating movement of the rotating shpinddel, characterized in that using a wedge holder, flat replaceable copiers are installed, kinematically connected with a disk cam.

2. The copying mechanism according to claim 1, characterized in that the pitch (height of elevation) of the interchangeable copiers is equal to the pitch of the helix on the workpiece, regardless of the angle of its rise.

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