SU662329A1 - Method of strengthening a surface with a cylindrical burnishing tool - Google Patents

Description

HeL FIG. 4 - view of the trajectory from growing only around axis 4; Fig. 5 shows the movement paths of the tool’s contact point. The tool 1, installed at an angle of ° C to the axis of the part 2, having the possibility of free rotation of its geometrical axis 3, communicates with the first rotational motion of the orifs of axis 4 at a speed P |. Axis 4 is perpendicular to the axis of the part and does not pass through the point O of the contact point of the tool with the part. As a result of the first movement, the instrument planet rotates around axis 4 and after some time takes, for example, the polarization E, at the same time, the second rotational motion about the axis 5, displaced by the value e relative to the fourth axis of the first movement and parallel through the geometric axis of the tool 3 and perpendicular to it. The speed of rotational motion is equal to n | and opposite to him is directed. Axis 5 rotates planetary around axis 4 along with the tool. Due to the second rotational movement, the deforming tool at the same time rotates around the axis 5 at an angle tp, pf, and occupies: the position Щ. The contact point O of the tool with the workpiece moves by an amount Ne takes the o. Axes 4 and 5 move with the tool in the direction of smooth movement and product feed movement. .

To derive the equation of the trajectory of moving the point of contact of the roller with the part (see Fig. 3), it should be noted that its contact is always on the line of the centers of the machine. In the initial state (Polarisation I in Fig. 3}, the tool is set at an angle ct with respect to the generator (OX axis). During operation, the engine rotates relative to its

. geometric axis, while the contact trajectory is relative, the daty le represents a helix with the angle of lift ju / tg ju, where S is the feed, d is the diameter of the part. The axis 4 of the additional first movement is, for example, on the machine center line perpendicular to the axis, of the part. When rotating around axis 4 at a speed n for some time, the tool turns to the angle if and takes the position jl. The point A of the roller contact moves in the feed direction S and. occupies a position at the point of contact B.

Invention Formula

The method of surface hardening with a cylindrical tool, in which the latter is set at an angle to the axis of the surface being machined with the possibility of free rotation around its geometrical axis and informing it of an additional rotational movement around an axis eccentric relative to its deforming surface, characterized in that in order to improve the quality of the surface to be treated, the tool is reported to rotate around an axis, perpendicular to the axis of the part and not passing through the spot. processed by surface.

Sources of information taken into account in the examination

1, Copyright certificate №305043, cl. B 24 B 39/04, 1969. The equation of motion for a contact point is. . HOA + A8 OB co8 (90-l. + (P)) y When rotating around axis 5 at a speed Hj p and opposite to it, the tool takes the position tilf and the contact point B of the tool rotates it E0 by angle. moves in the direction opposite to the feed direction, and takes a position at point C. The equations of motion of the contact point when two movements are performed at a speed n riz have the form: e (l-eos4) e X OB-VS OS sin oL sjncC, t (t - time -) As a result of the presence of two movements, the point of contact of the tool with the workpiece moves additionally in the feed direction, which leads to an increase in the productivity of the process, as well as to an improvement in the cleanliness of the machined surface due to the smoothing effect. The proposed method can be used to create the necessary sinusoidal microrelief on the surface to be treated. It is adjusted by adjusting the value, n and rig, as well as by changing the basic movements.

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