RU2001123493A - The method of polishing surfaces - Google Patents

Claims (3)

1. A method of polishing surfaces, including the rotation of cylindrical and reciprocating longitudinal and transverse movement of the planed workpiece surfaces, in which the grinding wheel is mounted on a mandrel, characterized in that oscillating grinding in the longitudinal direction is carried out by a wheel mounted by means of a bearing from the condition of rotation with frequency rotation of the workpiece due to friction and oscillation of the working layer of the circle along the axis, while the mandrel is equipped with a sleeve that is internal the ring of a radial needle roller bearing, or the said bearing is mounted on a sleeve, in which the axes of the outer and inner surfaces are made at an angle α and intersect at the center of symmetry, with oblique washers in which the ends are made at an angle α to each other, with an abrasive wheel, which is made on flexible base and which is mounted on the outer ring of the bearing at an angle α to the plane perpendicular to the axis of rotation, while the angle α is determined by the formula α <arc sin (V _to / D _to ), degrees, where In _to and D _to - respectively, the height and outer diameter of the abrasive wheel. 2. The method according to claim 1, characterized in that oscillating in the longitudinal direction is carried out by grinding with a wheel mounted by means of a bearing from a rotation condition with a frequency that is faster or slower than the workpiece due to the mandrel with a circle being truncated at an angle α to the plane, perpendicular to the axis of rotation of the circular ring mounted on the end of the circle coaxially to the axis of the mandrel and a two-arm lever, pivotally in the bracket mounted on the mandrel, one arm in contact with the inner surface of the ring, the other cho is equipped with a screw screwed into the mandrel, and a damping spring. 3. The method according to PP.1 and 2, characterized in that the mandrel is installed at a distance H from the surface to be machined, less than the radius of the circle, and rotates with a frequency of N _about , determined by the formulas H = 0.5 [(D _to ² + B _to ² ) ^1/2 ] -B _to tgα, mm, N _about≥ N _d [2πD _to / L _max ] min ^-1 , where N _d is the rotational speed of the part, min ^-1 ; L _max - maximum arc of contact between the circle and the part, mm.