DE10238451A1 - Disk-shaped or strip-shaped tool for cutting profiles on workpiece has at least one cutting insert fixed to cassette-shaped support - Google Patents

Abstract

The cutting tool cuts profiles on a workpiece which is rotated during machining. The tool has several cutting inserts (11) radially clamped to a tool base holder (10) on the periphery. At least one cutting insert is fixed to a cassette-shaped support (12), which can be displaced axially by means of a displacement wedge (13) and/or radially by another such wedge (33).

Description

The invention relates to a disk-shaped or strip-shaped Tool for machining, especially for cutting profiles a workpiece, like one during machining rotating crankshaft, with several circumferential to a tool holder with radially clamped cutting inserts.

Already in the EP 0 830 228 B1 describes disk-shaped high-speed tools which are driven in such a way that the machining is carried out at cutting speeds of over 160 m / min. Particularly in the machining of crankshafts and here specifically for the production of undercuts, disc milling cutters are used in which the basic tool body, on which the cutting inserts are clamped radially on the circumference, is designed as a full circle disc. When milling crankshafts, both the crankshaft and the milling tool are rotated.

However, the present invention also includes those tools which are used as turning tools in so-called rotary broaching or rotary rotary broaching methods. In rotary broaching, a linear rotary broaching tool is fed in the radial direction onto the rotating workpiece to be machined. In turning-broaching machines, several successive cutting inserts are arranged on a pitch circle circumference of a flat tool carrier, which incrementally increase continuously along a first section of the disk circumference. This tool is pivoted along a partial arc in the radial direction onto the rotating workpiece, as is the case in principle EP 0 313 644 B1 or the EP 0 286 771 is described. In the case of constructions known according to the prior art, there is no possibility of axial and radial fine adjustment either in the case of linear tools or in the case of disc milling cutters or rotary-broaching tools, each with radially clamped cutting inserts, which preferably have a contour shown and described in WO 99/12685 , Manufacturing inaccuracies result from the manufacturing tolerances to which the tools and tool holders are subject.

It is an object of the present invention To create tools that have an axial and / or radial adjustment for the on the tool base arranged radially clamped cutting inserts. This tool should be structurally simple and easy to use.

This task is done by the tool according to claim 1 solved, this according to the invention is characterized in that at least one cutting insert on one cassette-type Carrier attached is and that the cassette-shaped Carrier by means of an adjustment wedge in the area of the bearing surface for the cutting insert axially and / or is radially adjustable by means of an adjusting wedge. The cutting inserts, the are to be adjusted axially and / or radially, on a cassette-shaped carrier (and not directly attached to the tool base) as is customary in the prior art, this carrier over the mentioned adjustment wedges is axially and / or radially adjustable.

Preferred embodiments of the invention and further developments are described in the subclaims.

The cassette-shaped carrier preferably has for the cutting insert a double angled, approximately Z-shaped contour, the upper one Part of the front surface for the Cutting insert forms, with the back of the upper part on a wedge. The lower, parallel to the upper part offset part of the cassette-shaped carrier is by means of a fastening screw that passes through a hole, on the disc-shaped Basic tool carrier attached, with the upper and lower part via a central crossbar are connected. By a change of position of the adjustment wedge is the upper part to different axial positions by bending pivotable. Through the Z-shaped Contour of the cassette-shaped There is some elasticity given, because of the top of this beam along a pivot axis, which lies in the area of the crosspiece, can be pivoted by a small amount is. Since the cutting insert is fixed on the upper part of the cassette-shaped carrier is mounted, it can be pivoted in a corresponding manner. Is preferably the axial adjustment range of the cutting insert 0.1 to 0.3 mm, which is ensured by the material and geometric structure of the cassette-shaped carrier can be. In any case, the upper limit is clearly below that Measure, at which an inelastic deformation of the cassette-shaped carrier occurs.

For fixing to the disc-shaped tool carrier the lower part of the cassette-shaped carrier a threaded hole into which one is fastened in the tool carrier Engages screw. An Allen screw is preferably selected for this purpose in the lower part of the cassette-shaped carrier of the back is screwed in here.

Should only or possibly also a radial Adjustment of the cutting tools may be required, so this is a Adjustment wedge provided on the lower side surface of the carrier is applied. Depending on the change the position of this adjusting wedge, the cassette and thus the cutting insert becomes radial postponed.

The lower part preferably has of the cassette-shaped carrier a graduated opening to accommodate the shaft and the Head of a clamping screw, the head of which is in the tensioned state with the end face on one corresponding face breakthrough level. The threaded shaft of the clamping screw engages in a threaded hole in the basic tool holder. Different as in the case described above, the clamping screw is from the front forth inserted in the lower part of the cassette-shaped carrier and in a corresponding Bore of the disc-shaped Tool body screwed up to the tensioning system.

Have the adjustment wedges used preferably a continuous threaded hole into which a threaded part engages a double threaded screw, the other threaded part in a correspondingly provided threaded hole in the basic tool holder intervenes. By turning this double-threaded screw you can the relative position of the adjusting wedge to the cassette-shaped carrier can be changed.

To secure the position of the cassette-shaped carrier adjustment is provided a lock screw, which in a graduated bore of the tool holder on the one hand and a tapped blind hole on the back of the upper part of the cassette-type carrier intervenes.

In order to further improve the exact setting of the position of the cutting insert, the fastening screw for fixing the cassette-shaped carrier lies according to a further development of the invention 12 on the disk-shaped or strip-shaped strip base holder in the tensioned state under a prestressing effective in the axial and / or radial direction.

Indexable inserts are preferred as cutting inserts used with a polycrystalline diamond (PCD) insert.

Further advantages and configurations the invention will be explained with reference to the drawings. Show it

1 a milling tool with radially clamped and axially adjustable cutting inserts, parts of which are shown in an exploded view,

2 the tool after 1 in assembled condition,

3 a milling tool with radially clamped and adjustable in both the radial and axial cutting inserts, partly in an exploded view;

4 another view of the tool 3 , partly in an exploded view and

5 the tool after 3 or 4 in assembled condition.

As already mentioned above, depending on the selected working method, the basic tool holder can 10 be designed as a disk milling cutter or strip-shaped as a tool for turning or turning-turning or other body with a partially annular segment. The tool base holder has radially clamped cutting tools on the circumference or on the edge; in the present case three on each side. The cutting inserts have a shape suitable for cutting profiles, in particular grooves or undercuts on crankshafts. For example, cutting inserts of the configuration described in WO 99/12685 can be used. At the in 1 illustrated embodiment are all cutting inserts 11 axially adjustable. For this purpose, a cassette-shaped carrier 12 as well as an adjustment wedge 13 with a wedge surface 14 used. The cassette-shaped carrier 12 consists of an upper part 15 , a cross bar 16 as well as from a lower part 17 , which form a one-piece unit with an angled, approximately Z-shaped contour. The cutting insert 11 is by means of a fastening screw 18 on the cassette-shaped support 12 attached. The basic tool holder 10 has one of the shown Z-shape of the carrier 12 customized receptacle so that the bottom side 19 of the carrier 12 on the surface 20 rests on the surface like the back of the lower part 21 or the back of the top on the surface 22 ,

The adjustment wedge 13 has a through hole into which the threaded part of a double-threaded screw 23 is screwed, the other threaded part in a hole 24 of the basic tool holder is screwed in. By actuating the double thread screw 13 the wedge can be moved linearly along the longitudinal axis of the double-threaded screw. Because the wedge surface 14 at the back of the top 15 is present when the adjustment wedge is changed accordingly 13 Print on the back 26 (please refer 3 ) of the upper part 15 exercised, which eventually caused the upper part to bend away 15 by pivoting along a line 25 that between the points 27 and 28 (please refer 3 ) lies. In the area of elastic deformability of the wearer 12 can thus the cutting insert 11 can be adjusted axially by up to 0.3 mm. Is the desired axial position of the cutting insert 11 is achieved with the help of the cheese head screw 29 that in the threaded hole 30 at the back 26 engages, clamped. For fixing the lower part 17 of the carrier 12 ensures a preferably larger socket head screw 31 with their threaded shaft in the threaded hole 32 of the lower part 17 of the carrier 12 intervenes. The cutting inserts 11 are arranged on each side at a distance from each other and viewed from side to side offset to each other, which creates space for the between two cutting inserts on one side Through holes for the passage and fastening of the screws 29 and 31 is created for the staggered cutting plate.

In addition to the axial adjustability, the cutting inserts are 11 according to the embodiment 4 and 5 radially adjustable (cf. 4 and 5 ). For radial adjustment of the carrier 12 serves an adjustment wedge 33 , in principle as well as the adjusting wedge 13 is formed and that via a double-threaded screw 34 can be shifted linearly. This adjustment wedge lies on the lower surface of the carrier 12 on. With the corresponding rotation of the double thread screw 34 becomes the carrier 12 moved radially outward and with it the cutting insert fastened thereon 11 , In contrast to the axial adjustment device only 1 to 3 serves the wedge surface of the adjusting wedge 33 (instead of the area 20 ) as the lower contact surface. To fix the carrier 12 serves the clamping screw 35 with its threaded shaft in a hole 36 of the tool body 10 intervenes. The lower part 17 the wearer has a graduated opening on the front 40 with an annular flat surface 37 , on the corresponding ring surface in the tensioned state 38 the clamping screw 35 comes to the plant. With regard to the axial adjustment possibility, reference is made to the above description 1 to 3 directed. The holes 40 and 39 (please refer 3 and 4 ) must be designed so that the screws 35 and 29 are still feasible with each selected radial setting of the cutting inserts or do not block desired radial adjustments. The fixation takes place in each case over a flat arrangement of the ring surfaces of the stepped bores used and the screw head.

As an additional measure, namely the exact setting of the cutting insert 11 to ensure that the clamping screw is in the radial direction (see arrow 41 ) and in the axial direction (see arrow 42 ) be biased. This creates an additional force in the direction of the bearing surface 20 (please refer 1 ) or in the direction of the adjustment wedge 33 in the radial direction and in the direction of the surface 43 and 44 exercised in the axial direction. This type of pretension can be used both with only axial adjustability and with axial and radial adjustability of the cutting insert.

Claims (10)

Disc-shaped or strip-shaped tool for machining, in particular for cutting profiles on a workpiece, such as a crankshaft that rotates during machining, with several radially on the circumference or on the edge of a tool holder ( 10 ) clamped cutting inserts ( 11 ), characterized in that at least one cutting insert ( 11 ) on a cassette-shaped support ( 12 ) is attached and that the cassette-shaped carrier ( 12 ) using an adjustment wedge ( 13 ) in the area of the contact surface for the cutting insert ( 11 ) axially and / or by means of an adjusting wedge ( 33 ) is radially adjustable. Disc-shaped tool according to claim 1, characterized in that the cassette-shaped carrier ( 12 ) a double angled contour ( 15 . 16 . 17 ), the upper part ( 15 ) on the front the contact surface for the cutting insert ( 11 ) forms and on the back on an adjustment wedge ( 13 ) and its lower, to the upper part ( 15 ) parallel offset part ( 17 ) using a fastening screw ( 31 . 35 ), which passes through a hole, on the disc-shaped tool base ( 10 ) with the upper and lower parts ( 15 . 17 ) via a central crossbar ( 16 ) are connected and by changing the position of the adjustment wedge ( 13 ) the upper part ( 15 ) can be pivoted to different axial positions by bending. Tool according to claim 1 or 2, characterized by a axial adjustment range between 0.1 mm and 0.3 mm. Tool according to one of claims 1 to 3, characterized in that the lower part ( 17 ) of the cassette-shaped carrier ( 12 ) has a threaded hole into the back of which one in the tool base ( 10 ) attached screw ( 31 ) intervenes. Tool according to one of claims 1 to 3, characterized in that for the radial adjustment of the cassette-shaped carrier ( 12 ) an adjustment wedge ( 33 ) is provided, which on the lower side surface of the carrier ( 12 ) is applied and a radial adjustment of the support (via its change in position) 12 ) is feasible. Tool according to claim 5, characterized in that the lower part ( 17 ) of the cassette-shaped carrier ( 12 ) a graduated opening ( 40 ) for holding the shaft and the head of a clamping screw ( 35 ), whose head is in tension with the face ( 38 ) on the corresponding face ( 37 ) of the breakthrough level, whereby the threaded shaft of the clamping screw ( 35 ) in a threaded hole ( 36 ) engages the disc-shaped tool base. Tool according to one of claims 1 to 6, characterized in that the adjusting wedge ( 13 . 33 ) has a continuous threaded hole into which a threaded part of a double-threaded screw ( 23 . 34 ) engages, whose other threaded part in a threaded bore of the disk-shaped tool base support ( 10 ) intervenes. Tool according to one of claims 1 to 7, characterized in that to secure the position of the cassette-shaped carrier ( 12 ) a counter screw ( 29 ) is provided, which in a stepped bore of the disc-shaped tool base holder and a threaded blind hole ( 30 ) on the back of the upper part ( 15 ) of the cassette-shaped carrier ( 12 ) intervenes. Tool according to one of claims 2 to 8, characterized in that the fastening screw for fixing the cassette-shaped carrier ( 12 ) on the disc or strip-shaped tool base holder ( 10 ) is present in the tensioned state under a pretension effective in the axial and / or radial direction. Tool according to one of claims 1 to 9, characterized in that the cutting insert ( 11 ) is an indexable insert with a PCD insert.