SU1678584A1 - A method for straightening lapping tools - Google Patents

Abstract

The invention relates to mechanical engineering, namely to abrasive machining, and can be used for straightening the working surfaces of flat lapping of double-disk vibratory finishing machines. The purpose of the invention is to improve the performance of the dressing process and the accuracy of the shape of the working surfaces of lap-ups. The lap-ups are trimmed with regular rings that make planetary motion between lap-holes that have antiphase circular translational oscillations in the horizontal plane. The new method of straightening lapings is that one or both lapisers are driven into additional rotational movement around their axes, while the rotational movements of the lapings and regular rings are carried out with different angular velocities. The application of the method of dressing provides an increase in the productivity of the process by 1.2-1.5 times and the achievement of non-flatness of the working surfaces of lapping up to 1.0-1.5 microns. 2 Il.

Description

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The invention relates to mechanical engineering, namely to abrasive machining, and can be used for straightening the working surfaces of flat lapping of double-disk vibratory finishing machines.

The purpose of the invention is to improve the performance of the dressing process and the accuracy of the shape of the working surfaces of lap-ups.

Figure 1 presents the implementation scheme of this method of editing; figure 2 - section aa in figure 1.

The method of straightening priterov carried out as follows.

Between lapings 1 and 2, correct rings 4 are installed in the sockets of separator 3. Antiphase forward circular oscillations in planes parallel to their working surfaces inform the lapways and complex planetary motion relative to the lapways to the right rings. At the same time, one or both of the lapings result in an additional rotational movement around their axes, while the rotational movement of the lapings and the correct rings are carried out with different angular velocity values.

Such a complex relative movement of the correct rings and lapping improves the productivity and accuracy of the dressing process. Rotation of prints and regular rings with different angular velocities leads to periodic displacement of contact zones, eliminates overwork between the pritir sites among themselves, eliminates the accumulated error in the shape of the priter surfaces in radial (tapering) and circumferential (wavy) directions.

The rotational movement of the lap in this method of editing is aided by x4

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telny and carried out with a small angular frequency of 1-0.4 s.

The main working movement during straightening is the translational oscillatory movement of lap and right rings along circular paths in the straightening planes, and the rotational movement of lap and planetary regular rings is an auxiliary motion, which ensures uniform editing over the entire surface of priter.

Such a nature of the working movement contributes to the elimination of shape errors both in the radial and in the circumferential directions. At the same time, the correct rings can form a flat or convex profile of the lap, which contributes to the achievement of high accuracy of the shape of the machined planes of parts.

This method of straightening can be carried out on all types of double-disk vibratory machines with circular translational vibrations of ground grinding with

electromagnetic or inertial vibration drive.

The use of this method of dressing provides an increase in the productivity of the process by 1.2-1.5 times and the achievement of the non-flatness of the working surfaces of laps in the range of 1-1.5 microns.

Claims (1)

Invention Formula The method of straightening lap on double-disk vibrating machines, in which the correct rings are placed between the lap and inform them of the planetary motion, and the lap is antiphase translational circular oscillations in the horizontal plane, characterized in that, in order to improve the performance and accuracy of the edit, at least at least one priter is reported to have additional rotational movement around its axis, while the priter and the correct rings rotate at different angular velocities. / g s FIG L 2