DE19731246B4 - Drilling or milling tool and method for determining the absolute clearance angle of the flank areas of a cutting insert - Google Patents

Abstract

Drilling or milling tool with a tool carrier and at least two arranged on the front side of the tool carrier in a respective recess cutting inserts with a rake surface which is bounded by cutting edges, wherein at least one cutting insert has at least one formed by a protuberance broken cutting edge, a support surface and lateral open spaces which are arranged at a positive clearance angle, wherein each point of an active cutting edge of a frontally disposed cutting insert at fixed fixed axial Bohr- or Fräsvorschub (f _z ) describes a spiral or helical space curve, characterized in that at least to this active cutting edge subsequent region of the flank is formed from a family of perpendicular to the cutting edge straight lines, each with respect to the corresponding to the drilling or Fräsvorschub (f _z ) to an inclined straight line developed space curve is inclined at an effective positive (free) angle (α).

Description

The invention relates to a drilling or milling tool with a tool carrier and at least two arranged on the front side of the tool carrier in a respective recess cutting inserts with a rake surface which is bounded by cutting edges, wherein at least one cutting insert, at least one formed by a protuberance broken cutting edge, a Supporting surface and lateral free surfaces, which are arranged at a positive clearance angle, wherein each point of an active cutting edge of a arranged on the front cutting insert at fixed fixed axial drilling or Fräsvorschub (f _z ) describes a helical space curve.

The The invention further relates to a method for determining the absolute Clearance angle of the open areas, abutting the active cutting edge of a cutting insert in one Drilling or milling tool the connect the aforementioned type.

To the state of the art are for Holes in solid material suitable drilling tools known a Shaft with at least two arranged in corresponding recesses, offset by 180 ° cutting inserts exhibit. The cutting inserts are arranged at different radial distance on the shaft, so that their Partially overlap workspaces and otherwise adjoin one another. Optionally, at the front in different Radial distance also be arranged more than two cutting inserts. The same applies to Face mills with frontally arranged cutting inserts.

The cutting inserts used are available in many basic shapes, such as hexagonal, octagonal, pentagonal, triangular, rhombic and rectangular inserts, sometimes with an enlarged cutting corner angle. For drilling or milling in particular from the EP 0 088 505 A1 known trigon- or rhombus-shaped cutting inserts used which have three or four roof-shaped cutting edges, so that per cutting edge two an obtuse angle enclosing cutting edge halves are formed, both of which are machined into engagement. The use of trigonförmige cutting plates in a drilling tool, for example, in the DE 27 30 418 C2 proposed, wherein the cutting plates are arranged on a respective recess of the drill shank so that the bisectors of the engaging cutting inserts of each indexable insert to the drill axis are arranged in parallel or at a slight tilt of not more than 2 °.

Out WO 93/0 28 24 A1 are also known cutting inserts for drilling, the at least three the rake surface limiting cutting corners and between two adjacent cutting corners Having lying cutting edges, of which at least one of Cutting edges has at least two protruding cutting tips.

All for drilling or milling have cutting inserts used frontally of the tool holder a positive plate geometry to a sufficient clearance angle the open space to ensure. Of the Disadvantage of the described, known in the prior art cutting inserts lies in that the effectively between the drilling or milling ground and the free surface forming Clearance angle corresponding to the axial feed reduced because of Drilling or milling ground does not represent a plane at axial feed. This affects active, i. in cutting engagement on the drilling or milling ground cutting edge tips or the adjacent free space disadvantageous, namely by a raised there Wear.

It is therefore an object of the present invention, the aforementioned Drilling or milling tool by better stabilization of the between the chip surface and the open space to optimize the formed wedge. This is also a method for Determination of the absolute angle of the active cutting edge indicated adjacent open areas become. The to be solved Task should refer to all cutting insert geometries, the front side on a drill or router can be used, indifferent at which point of the active cutting edge the protuberance (cutting edge nose) arranged is. Especially with such cutting inserts, in the middle range a drill are to be used, the resulting pressure during drilling on the open space as low as possible being held. When milling The task is especially in corner cutters with large axial To loosen angle be.

To solve the above object, in addition to claim 5 also described in claim 1 drilling or milling tool of the type mentioned above, which is characterized in that at least the adjoining the active cutting edge region of the free surface from a crowd of perpendicular to the cutting edge horizontal straight line, each of which is inclined at an effective positive (free) angle with respect to the developed to a corresponding to the drilling or Fräsvorschub to an inclined straight line space curve. By this measure, any free surface of the cutting inserts arranged on the face side along the entire cutting edge, in particular in the region of cutting edge tips, which adapted to the Bohrerrotation and the axial feed resulting abraded surface, namely the drilling or milling base, so that there is an effective actual positive clearance angle at each location. Preferably, this effective positive clearance angle is less than 15 °, in particular 5 ° to 9 °.

The present invention both such cutting inserts, where only the one immediately adjacent to the active cutting edge Free area after the above measure is formed, in contrast the adjoining ones Free area may have different, in particular larger clearance angle, as well such open space training, where each perpendicular to the cutting edge cut a Just over the entire open space results. By this measure extended the life of each active cutting edge, since this be stabilized considerably.

The respective determination of the absolute clearance angles of the open area areas, which is adjacent to the active cutting edge of a cutting insert in a boring or milling tool connect the above-described type, carried out according to the in the claim 4 described method, which is characterized in that for each Point of an active cutting edge of a arranged on the front side Cutting insert for the fixed maximum axial drilling or milling feed the helical one Space curve is determined. then to a straight line (in a Level) which is relative to a vertical plane for drilling or milling feed lies. By respective rotation of this line to the desired Clearance angle, which is the free space adjacent to the active cutting edge with respect to the Drilling or milling hole ground should have received each subsequent to a lying on the active cutting edge limit point the local open space course. The flock of the respective open space gradients yields then the entire, adjacent to the active cutting edge free space or a subarea of the same.

For further explanation serves the following consideration:
Each point of an active cutting edge of a frontally arranged cutting insert describes during drilling or Fräsvorschub with centered drill alignment in the axial direction a helical (helical) curve, resulting from the totality of these curves of drilling or milling ground. If you turn each of these helical curve by a desired clearance angle, which is to have the adjoining the cutting edge clearance area, there is another group of helical space curves, in contrast to untwisted respective helical curve a distance or clearance angle between the drilling or milling ground arise. Since the radius of a point on the active cutting edge seen from the drilling or milling center seen in plan view becomes larger outward, result in the development of the respective helical space curves straight lines of different lengths, which also explains that the respective clearance angle along the cutting edge of different sizes are. The twisted around the desired actual clearance angle helix thus serves as a support or envelope for the free space to be created.

A Spiral shape deviating from the helical form results when the drill with an effective cutting edge not only at the specified nominal diameter, but also for drilling slightly larger or smaller drill diameters is used, the drill axis to a correspondingly low Measure e.g. is deflected out of the borehole axis by a few 1/10 mm. Too too set a corresponding effective clearance angle in this case to be able to must the effective clearance angle loss, which is due to the spiral instead of the helical path a cutting edge point results, by a corresponding compression the helical shape can be compensated for a circular path to a spiral.

The described method can be for each axial feed or for any desired actual Apply free angle, with the respective underlying feed then as the maximum allowable Feed for to view the drill or cutter is.

The Invention will be further explained below with reference to the drawings. It demonstrate

1 space curves developed on one level, which, taking account of the clearance angle and taking into account the sum of the clearance angle and the feed of the tool, take into account

2 a plan view of a spiral space curve, which passes through a cutting edge point of a cutting insert with slightly eccentrically deflected drill axis,

3 . 4 a 90 ° offset view of the spiral space curve 2 .

5 an exemplary cutting insert in a schematic representation and

6 . 7 in each case a section in sectional planes a and b.

Each point of an actively cutting edge of a cutting insert on a rotating drill, which is not in the well center or on the drill longitudinal axis, describes in a Bohrerdre without a feed, it will be a one-level web, as with the cutting insert 10 and the one by the circle 11 certain level, which is the point 12 the cutting edge passes through, off 4 is apparent. Taking into account the feed of the drill or the cutting insert during drilling, a helical space curve results 13 which describes a helical shape with exactly centered drill, ie when drilling a nominal diameter. Deviations from the helical form arise when the drill is deflected by a few tenths of a millimeter from the borehole axis for drilling smaller or larger diameter than the nominal diameter. The related spiral shape as a projection of the helix into a plane is out 3 visible and with reference numerals 14 characterized. The developed space curves 13 . 14 according to the horizontal line in 1 , In contrast, the lying on a perpendicular to the cutting edge point of lying below the cutting edge of the free surface, which also follows a corresponding space curve, inclined to the clearance angle a. However, this clearance angle adjustment is retained only as long as no drill advance occurs. In order to obtain an effective clearance angle, thus resulting from the drill advance "free angle loss" compensate, which is illustrated by line 15, which shows the objective with respect to the stationary cutting angle clearance angle b for each clearance angle part below a cutting edge point. As the drill bit progresses, an effective clearance angle of the desired type relative to the feed may be independent of the open space contour of the cutting insert 10 each determined. The sections A and B obtained from Fig. 5 show different contours 16 the open space below the cutting edge point 12 ,

Claims (5)

Drilling or milling tool with a tool carrier and at least two arranged on the front side of the tool carrier in a respective recess cutting inserts with a rake surface which is bounded by cutting edges, wherein at least one cutting insert has at least one formed by a protuberance broken cutting edge, a support surface and lateral open spaces which are arranged at a positive clearance angle, wherein each point of an active cutting edge of a frontally disposed cutting insert at fixed fixed axial Bohr- or Fräsvorschub (f _z ) describes a spiral or helical space curve, characterized in that at least to this active cutting edge subsequent region of the flank is formed from a family of perpendicular to the cutting edge straight lines, each of which with respect to the corresponding to the drilling or Fräsvorschub (f _z ) unwound to a sloping straight line curve e is inclined at an effective positive (free) angle (α). Drilling or milling tool according to claim 1, characterized in that the effective clearance angle (α) <15 °. Drilling or milling tool according to claim 2, characterized in that the effective clearance angle (α) between 5 ° and 9 °. Drilling or milling tool according to one of the claims 1 to 3, characterized in that below one of the cutting edge adjacent open space area at least one further open space area at a larger clearance angle is arranged as the absolute clearance angle of the first open space area. A method for determining the absolute clearance angles of the flank areas adjoining the active cutting edge of a cutting insert in a drilling or milling tool according to claim 1, characterized in that for each point of an active cutting edge of an end face cutting insert for the fixed maximum axial Drilling or milling feed (f _z ) determines the spiral or helical space curve, unwound to a straight line and also from the inclination of this line relative to a vertical plane to the drilling or milling feed (f _z ) plus the effective clearance angle the absolute clearance angle for each below the said point on the cutting edge lying free surface area is determined.