SU1326423A1 - Method of finish working of work shaped as body of revolution - Google Patents

Abstract

The invention relates to the finishing treatment of workpieces having the form of bodies of revolution. The aim of the invention is to improve the quality when machining the workpiece 1 oscillating at an angle in the last line and moving along this forming abrasive bar 6, whose working surface is made with the side sections 7 and 8 in the shape of the workpiece and the connecting platform 9, the last one is arranged perpendicular The direction of the smallest forced oscillations of a rotating workpiece in a plane perpendicular to its axis, caused by the oscillations of the AIDS system. 2 Il. about (L 7J SO O5 N4 GhE SO n

Description

The invention relates to the finishing of the vibrations of the bar 6 to the axis 3 of the workpiece 1,

processing of workpieces having the form of telsil press bar 6 to workpiece 1,

rotational speed, and can be used at a circumferential speed of the workpiece 1, the processing time of the compressor, for example, during separation, is selected experimentally in the hollow processing of the crankshaft journals, depending on the material of the workpiece and in other areas of machine construction to the quality of its surface

where finishing processing is needed. It is necessary to process a cylindrical billet with a diameter of 40 mm and a length of 100 mm with the following

the requirements for macro-geometry of the surface of rotation.

The aim of the invention is to improve the quality of processing by telling the abrasive bar 10 vibrations: facet of 0.4 µm, waviness at an angle to the rotating for-0.2 µm. Using a vibrograph, it was determined that the vector of least forced oscillations of the workpiece is oriented under the preparation and movement along this generator, while the working surface area of the abrasive bar is perpendicular to the vector of least forced

scrap 24 ° to vertical. Abrasive block 6 marks was chosen for processing.

.., f. „F ,, ...„ „.-., ..„ .- ,, f - .., „..,„ „., 1„ .. 4, JJ, v .. ,,,

oscillations of the workpiece, caused by oscillations-24AM20CTIK6, in which the lateral faces

In these systems, AIDS 7 and 8 have a cylindrical shape and soy FIG. 1 shows a diagram of the device implementing the method; in fig. 2 - relative movement of the bar and the workpiece during processing.

flat bars 9. The bar 6 system — the vibrator I 1 is rotated along the guides 13 so that the normal 15 20 to the platform is at an angle of 24 ° to the vertical axis 5, i.e. the platform 9 is set to bar 6 perpendicular to the vector 4 of the smallest oscillations of the workpiece. Processing is carried out in the following modes: circumferential speed

flat bars 9. The bar 6 system — the vibrator I 1 is rotated along the guides 13 so that the normal 15 20 to the platform is at an angle of 24 ° to the vertical axis 5, i.e. the platform 9 is set to bar 6 perpendicular to the vector 4 of the smallest oscillations of the workpiece. Processing is carried out in the following modes: circumferential speed

Workpiece 1 is reported to rotate in arrow 2 around axis 3. Using a vibrometer or vibrograph, the angular distribution pattern is found to be forced. - Ch1vi / iv-M in chuii, r1 l L / 4 / Tvfi ifi a l. urv u u l l d

oscillations of workpiece 1 in the plane, 35 workpieces 150 m / min, the angle of inclination of its perpendicular axis caused by the gauge is ,, g ,. g „. g, 4, forming

baths of the AIDS system. For this reason

 billet 15, the course of the abrasive bar

1.5 mm, the pressing force of the abrasive bar is 30 kP, the angle and orientation of the vector 4 of parasitic vibrations with the smallest amplitude relative to the vertical

axes 5. Abrasive bar 6, having a rac l t - /. The barrel surface, which consists of gra- / ° b passes 4, width 7 and 8 according to the form of the treatment, is -2.3 minutes. As a result of preparation 1 and connects their platforms 9, the ukreg ° ™ is obtained, c. ... ,, p, roughness, 08 mm, facet 0.3

Pour the vibrator into the worm. 11. Vibrator waviness O 15 microns

mounted on a fixedly fixed position of the e-trunk log support of the machine 12 (not shown) circular 35 ka was treated with a batch of similar guides 13 arranged in flat blanks, macro-geometry of the treated type, perpendicular to the axis 3 of the workpiece 1 and equipped with a scale of 14 s the divisions indicate the orientation angle of the normal 15 to the platform 9 of bar 6 relative to the vertical axis of axis 5. Then the vibrator 11 is moved from bar 6 in direction 1. from 13 to position B in which the normal is 15 to flatten 9 of bar 6 appears od angle a to the vertical

axes 5. At the same time, the flat platform 9 is gritted in the form of bent plots in the shape of ka 6, perpendicular to the vector 4 of the smallest-processed workpiece and the connecting platform, while the bar is reported to oscillate at an angle to the forming vrash. and sliding along this formation, characterized in that, in order to improve the quality of processing, the directions of the surfaces are characterized by the following characteristics: facet within 0.4 µm, waviness 0.2 µm.

Claims (1)

Invention Formula The method of finishing processing of workpieces in the form of rotation bodies, in which an abrasive bar is taken from the working top forced vibrations of the workpiece. Next, the vibrator 11 - bar 6 is secured in this position and the rotating workpiece 1 is processed, together with the bar 6, oscillating along arrow 16 at an angle to the generator 17 of the workpiece 1 with the help of the vibrator 1 I and the reciprocating movement in arrow 18 using the caliper 12. 50 These are the smallest forced oscillations of the workpiece in a plane perpendicular to its axis caused by the oscillations of the AIDS system. And the connecting workplace of the treatment (the oscillation frequency and the surface of the abrasive bar are arranged perpendicular to the indicated direction. the stroke of the bar 6, the speed of its reciprocating mixing, the angle of inclination requirements for surface macrogeometry: a facet of 0.4 µm, a waviness of 0.2 µm. Using a vibrograph, it was determined that the vector of least forced oscillations of the workpiece is oriented at an angle of 24 ° to the vertical. Abrasive block 6 marks was chosen for processing. f - .., „..,„ „., 1„ .. 4, JJ, v .. ,,, 24AM20CTIK6, whose side faces flat bars 9. The bar 6 system — the vibrator I 1 is deployed along the guides 13 so that the normal 15 to the platform is at an angle of 24 ° to the vertical axis 5, i.e. the platform 9 is set to bar 6 perpendicular to the vector 4 of the smallest forced oscillations blanks. Processing is carried out in the following modes: circumferential speed vi / iv-M in chuii, r1 l L / 4 / Tvfi ifi and l. urv u u l l d billet 150 m / min, the angle of the ko- ,, g ,. g „. g, 4, forming ka was processed batch of similar blanks, macrogeometry processed  by the shape of the bored plots in the shape of the workpiece and the connector of the surface which was characterized by the following indicators: facet within 0.4 µm, waviness 0.2 µm. Invention Formula The method of finishing processing of workpieces in the form of rotation bodies, in which an abrasive bar with a working surface is taken 77 G6 07.2