RU96103356A - CUTTING PLATE - Google Patents

Claims (11)

1. The cutting insert (20) having a polygonal body (34) of wear-resistant material for removing material from the workpiece (10) to the cutting depth (55) along the feed direction (48) with the feed pitch (60) during the turning operation, having the upper and a lower surface (36, 38) and a circumferential wall (40) between them and a cutting edge (42) formed at the intersection of the circumferential wall (40) and the upper surface (36), the improvement being that the cutting insert (20) has at least one corner zone (44) and adjacent side zones (46), with each corner zo on (44) is located around the bisector (50), which bisects the angle formed by the intersection of lines that are a continuation of the cutting edges (42) of each of the adjacent side zones (46), and each corner zone (44) consists of (a) a cutting segment (100) located around the bisector (50), and the cutting segment (100) has two ends (B, C) and radius (r1), to ensure that the corresponding cutting edge (42) can be removed during cutting into the workpiece (10) to a depth of cut (55) and for the formation of a undulating roughness n the workpiece (10), and (b) the finishing segment (105) adjacent to the ends (B, C) of the cutting segment (100) having two ends and a radius (R1) that is larger than the radius of the cutting segment (100), and oriented relative to the workpiece (10) so that the tangent (T) at least at one intermediate point on the segment (105) is parallel to the feed direction (48), and positioned so as to remove material from the undulating irregularities to provide improved surface roughness parameters.  2. The cutting insert (20) according to claim 1, in which the maximum chord length (162) on the finishing segment (105) parallel to the feed direction (48) is greater than or equal to the feed pitch (60).  3. A cutting insert (20) according to claim 1, in which a chord (162) connecting the two ends of the finishing segment (105) is parallel to the feed direction (48).  4. The cutting insert (20) according to claim 1, wherein the point of the finishing segment (105) with a tangent (T) parallel to the feed direction (48) determines the cutting depth (55).  5. The cutting insert (20) according to claim 1, wherein the cutting segment (100) and the finishing segment (105) are oriented on the cutting insert (20) so that the slope of the curve (tilt) of each segment (100, 105) at the intersection same.  6. The cutting insert (20) according to claim 1, in which the finishing segment (105) and the adjacent side segment (46) are oriented on the cutting insert (20) so that the slope of the curve of each segment (46) at the intersection is the same.  7. The cutting insert (20) according to claim 1, further comprising a transition segment (275) between each of the finishing segments (205) and a corresponding adjacent side segment (246), each transition segment (275) having a radius (R2 '), which is less than the radius (R2) of the finishing segment (205).  8. The cutting insert (20) according to claim 7, in which the transition segment (275) and the finishing segment (205) are oriented on the cutting insert (20) so that the slope of the curve of each segment (205, 275) at the intersection is the same.  9. The cutting insert (20) according to claim 7, in which the transition segment (275) and the adjacent side segment (246) are oriented on the cutting insert (20) so that the slope of the curve at the intersection is the same.  10. The cutting insert (20) according to claim 1, in which the radius (R1) of the finishing segment (105) is up to fifty times greater than the radius (r1) of the cutting segment (100).  11. The cutting insert (20) according to claim 1, wherein the configuration of the lower surface (38) is identical to the configuration of the upper surface (36), so that the cutting insert (20) is invertible.