CUTTING ASSEMBLY WITH MULTIPLE CUTTING TOOLS FOR MILLING

Abstract

A cutting assembly for milling includes at least two milling cutting tools with shanks that are arranged in a rotatable tool holder at a distance from the central axis of the tool holder, such that an operational region of a cutting portion of each cutting tool is primarily facing outwards, in a radial direction, from the tool holder central axis.

Claims

1. A cutting assembly comprising: a tool holder including tool holder body having rear coupling end, a front end, a tool holder central axis around which the tool holder is rotatable, and at least a first and a second tool mounting recess, wherein the tool holder central axis extends through the tool holder body between the front end and the rear coupling end, and wherein each tool mounting recess includes an opening being at least partly located in a surface of the front end and spaced apart from the tool holder central axis; and at least a first and a second cutting tool for milling, each cutting tool including a cutting tool body having a shank at a rear end, a cutting portion at a front end, which cutting portion comprising one or more peripheral cutting edges, and a cutting tool axis extending through the shank and the cutting portion, wherein the shank of the first cutting tool is arranged in the first tool mounting recess and the shank of the second cutting tool is arranged in the second tool mounting recess, such that at least a part of the cutting portion of each cutting tool extends from the tool holder, wherein an operational region of the cutting portion of each cutting tool is primarily facing outwards, in a radial direction, from the tool holder central axis.

2. The cutting assembly according to claim 1, wherein the shank of each cutting tool includes an abutting end surface and each tool mounting recess includes a bottom support surface, wherein the abutting end surface of the first cutting tool abuts the bottom support surface of the first tool mounting recess, and the abutting end surface of the second cutting tool abuts the bottom support surface of the second tool mounting recess, such that the cutting tools are arranged at a predetermined axial position in relation to the tool holder body.

3. The cutting assembly according to claim 1, wherein each tool mounting recess has an elongated shape and extends at least partly into the tool holder body in a direction substantially parallel to the tool holder central axis, such that the cutting tool axis of each cutting tool is substantially parallel with the tool holder central axis.

4. The cutting assembly according to claim 1, wherein an axial distance A by which each cutting tool extends from the surface of the front end in the axial direction of the tool holder, is related to a diameter D of the cutting tool as A≤1.5 D.

5. The cutting assembly according to claim 1, wherein the first and second cutting tools have a substantially equal extension from the surface of the front end in the axial direction of the tool holder.

6. The cutting assembly according to claim 1, comprising an even number of cutting tools being pairwise arranged such that the cutting tools of a pair are symmetrically arranged in the tool holder on opposite sides of, and equally spaced from, the tool holder central axis.

7. The cutting assembly according to claim 1, wherein each of the first and second tool mounting recesses includes a tool alignment means, and each shank of the first and second cutting tools includes one interlocking feature for each peripheral cutting edge for interlocking with the tool alignment means such that each of the first and second cutting tools is non-rotatably arranged in a respective tool mounting recess with the corresponding peripheral cutting edge in a predefined position with respect to the tool holder body.

8. The cutting assembly according to claim 7, wherein the interlocking feature includes a substantially flat region in the shank.

9. The cutting assembly according to claim 7, wherein the tool alignment means includes a threaded hole extending from the tool mounting recess to a peripheral surface of the tool holder body and a screw extending through the threaded hole and engaging the interlocking feature of the shank.

10. The cutting assembly according to claim 9, wherein the threaded hole extends from the tool mounting recess to the peripheral surface of the tool holder body along a direction which is non-parallel to an imaginary straight radial line between the tool holder central axis and the center of the tool mounting recess.

11. The cutting assembly according to claim 1, wherein the shank of each cutting tool is solid.

12. Tool A tool holder for use in a cutting assembly according to claim 1, the tool holder comprising: a tool holder body having a rear coupling end, a front end, a tool holder central axis around which the tool holder is rotatable, and at least a first and a second tool mounting recess, in each of which a shank of a cutting tool for milling is arrangeable, wherein the tool holder central axis extends through the tool holder body between the front end and the rear coupling end, and wherein each tool mounting recess includes an opening being at least partly located in a surface of the front end and spaced apart from the tool holder central axis, and wherein each tool mounting recess is delimited by the tool holder body in all directions perpendicular to the tool holder central axis along a major part of the longitudinal extension thereof.

13. The tool holder according to claim 12, wherein each of the first and second tool mounting recesses includes tool alignment means including a threaded hole extending from the tool mounting recess to a peripheral surface of the tool holder body.

14. The tool holder according to claim 13, wherein the threaded hole extends from the tool mounting recess to the peripheral surface of the tool holder body along a direction which is non-parallel to an imaginary straight radial line between the tool holder central axis and the center of the tool mounting recess.

15. The tool holder according to claim 12, further comprising a central tool mounting recess in which the shank of a cutting tool for milling is arrangeable, wherein the central tool mounting recess extends at least partly through the tool holder body from an opening in the surface of the front end towards the rear coupling end along the tool holder central axis.

16. The tool holder according to claim 12, adapted for wherein the cutting assembly is a modular cutting assembly wherein the rear coupling end being mountable to a basic holder which is arrangeable on a machine tool spindle.

17. A cutting tool shank for use in a cutting assembly according to claim 1, wherein the shank has an overall cylindrical shape and includes at least two interlocking features, each interlocking feature including a region being geometrically divergent from the overall cylindrical shape.

18. The cutting tool shank according to claim 17, wherein the geometrically divergent regions are substantially flat.

19. A cutting tool for milling comprising: a cutting tool shank according to claim 17, and a cutting portion including two or more peripheral cutting edges, and a cutting tool axis extending through the cutting tool shank and the cutting portion, wherein each of the at least two interlocking features are associated with each of the at least two peripheral edges, respectively.

20. The cutting tool according to claim 19, wherein the cutting portion is integrally formed to the cutting tool shank.

21. The cutting tool according to claim 19, wherein the cutting portion is detachably arranged on the cutting tool shank.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0042] FIG. 1 shows an example of a cutting assembly

[0043] FIG. 2 shows the cutting assembly of FIG. 1 in a cross sectional view in a plane perpendicular to the tool holder central axis.

[0044] FIG. 3 shows the cutting assembly of FIG. 1 in a cross sectional view in a plane parallel to the tool holder central axis.

[0045] FIG. 4 shows a tool holder for a cutting assembly.

[0046] FIG. 5 shows a cutting tool for a cutting assembly.

[0047] FIG. 6 shows another embodiment of a cutting tool for a cutting assembly.

DETAILED DESCRIPTION OF EMBODIMENTS

[0048] A cutting assembly, a tool holder and a cutting tool according to the invention will now be described with reference to FIGS. 1-6. The cutting assembly, illustrated in FIGS. 1-3, comprises a tool holder 2 and four milling cutting tools 3 arranged in the tool holder. The tool holder has a tool holder body 4, a rear coupling end 5, and a front end 6. A tool holder central axis 7, around which the tool holder is rotatable when mounted to a machine tool spindle, extends through the tool holder body 4 between the front end 6 and the rear coupling end 5. The rear coupling end 5 is arrangeable to a machine tool spindle (not shown), either directly or via a basic holder of a modular tooling system, such as Coromant Capto®. Each cutting tool comprises a cutting portion 8 with four peripheral cutting edges 9 (of which the most radially distal peripheral cutting edge of one cutting tool is indicated in the figures) and a shank 10 (of which the major part is located within the tool holder body and therefore not visible in FIG. 1). Each peripheral cutting edge 9 transforms into an end cutting edge 11. The shank of each cutting tool is arranged in a tool mounting recess 12 (best seen in FIG. 3) in the form of a cylindrical blind hole having an opening 13 (best seen in FIG. 4) in the surface of the front end of the tool holder. Each cutting tool 3 has a cutting tool axis 14 extending through the cutting portion and the shank.

[0049] Each cutting tool 3 extends a distance A from the surface of the front end 6 in the axial direction of the tool holder, and is non-rotatably arranged in a tool mounting recess 12 at a radial distance B from the tool holder central axis. The distance A is preferably not greater than 1.5 times the diameter D of the cutting tool. Such relationship between the distance A and diameter D provides for a robust cutting assembly.

[0050] In other embodiments it may be sufficient if the distance A is less than 1.5 the diameter of the tool holder body at the front end surface.

[0051] By arranging the cutting tools at a distance from the tool holder central axis 7, mainly the peripheral parts of the cutting portion 8 facing outwards from the tool holder central axis (and in particular the most radially distal peripheral cutting edge 9) will be in operational contact with a workpiece when the tool holder is rotated around the tool holder central axis 7 during machining.

[0052] In order to align and clamp the cutting tool in the correct position in which the most radially distal peripheral cutting edge 9 engages a workpiece during machining, the tool holder comprises alignment means in the form of a screw 15 and a threaded hole 16 extending from the tool mounting recess 12 to a peripheral surface of the tool holder body 4. The threaded hole extends perpendicularly to an imaginary radial line 19 (see FIG. 2) extending from the tool holder central axis 7 through a central axis 20 (which coincides with the cutting tool axis 14 of the corresponding cutting tool 3) of the respective tool mounting recess 12. As seen in FIG. 1, in this particular embodiment the tool holder body includes deep recesses 18 in the otherwise cylindrically shaped tool holder, and each threaded hole 16 opens in the peripheral surface of this recessed part of the tool holder body.

[0053] As best seen in FIG. 2, which is a cross-sectional view in a plane perpendicular to the tool holder central axis 7 at a position where the tool alignment means are located, the screw engages an interlocking feature in the form of a flat surface 17 in the shank, and clamps the cutting tool in this particular position. The shank has four such flat surfaces distributed around the periphery of the shank. By matching the location of the tool alignment means 15,16 with the circumferential locations of the flat surfaces 17 on the shank (wherein the flat surfaces have a known positional relationship with the peripheral cutting edges 9), each peripheral cutting edge 9 is located in a predefined position with respect to the tool holder when the cutting tool is clamped within the holder by screw 15 engaging the flat 17. More specifically, the most radially distal peripheral cutting edge 9 is positioned such that the point where the peripheral cutting edge 9 transforms into an end cutting edge 11, which is axially located at a distance B from the surface of the front end of the tool holder, is located at a greater radial distance from the tool holder central axis than any other part of the cutting portion being located at the same distance B from the surface of the front end of the tool holder. In this embodiment, the tool alignment means 15, 16 also provides clamping of the cutting tool. In other embodiments, the alignment means merely provides correct positioning of the cutting tool with respect to the tool holder, whereas clamping of the tool within the tool mounting recess is obtained by separate means.

[0054] The number of flat regions 17 corresponds to the number of peripheral cutting edges 9 of the cutting tool. Thereby, a new peripheral cutting edge can be easily indexed by releasing the screw 15, rotating the cutting tool 3 (in this case 90°) and tightening the screw again, such that another flat 17 is engaged by the screw 15.

[0055] FIG. 3 is a cross-sectional view in a plane parallel to the tool holder central axis, showing the alignment and clamping of the cutting tool 3 within a tool mounting recess 12. The shank of the cutting tool has an abutment surface 24 at its rear end, and the tool mounting recess has a bottom support surface 25. When the cutting tool is mounted within the tool mounting recess, the abutment surface 24 abuts the bottom support surface 25.

[0056] FIG. 4 shows a tool holder for use in a cutting assembly. The same reference numbers as used in FIGS. 1-3 are used for corresponding features in FIG. 4. Each tool mounting recess 12 is formed as a cylindrical blind hole with openings 13 in the surface of the front end. Except for being intersected by a threaded hole 16, each tool mounting recess is delimited by the tool holder body in all directions perpendicular to the tool holder central axis along the longitudinal extension of the blind hole. The tool holder shown in FIG. 4 does not only have peripheral tool mounting recesses, but also a centrally arranged tool mounting recess 21. If a cutting tool is arranged in this recess instead of in the peripherally arranged tool mounting recesses, the tool could be used for conventional machining where the cutting tool axis coincides with the central (rotation) axis of the tool holder. A cutting tool would normally not be mounted in the central tool mounting recess when the tool holder is used in a cutting assembly as described with reference to FIGS. 1-3. However, the presence of the central tool mounting hole increase flexibility, since the same tool holder could be used in a cutting assembly as shown in FIG. 1, or for conventional machining with only a centrally arranged cutting tool. The exact tangential location of the cutting edges would not be important when mounting the cutting tool in the centrally arranged tool mounting recess 21. The interlocking features would therefore not fill any purpose in such assembly. Nevertheless, a cutting tool according to the invention would still be arrangeable in the central tool mounting recess.

[0057] FIG. 5 shows one of the cutting tools used in the cutting assembly shown in FIGS. 1-3. The same reference numbers as used in FIGS. 1-3 are used for corresponding features in FIG. 5. The cutting tool is a solid end mill made of cemented carbide. The shank comprises four interlocking features in the form of flat surfaces 17 (of which three is visible and indicated in the figure).

[0058] An alternative embodiment of a cutting tool 30 for use in a cutting assembly according to the invention is shown in FIG. 6. The same reference numbers as used in FIGS. 1-3 are used for corresponding features in FIG. 6. The cutting tool 30, which comprises a shank 10 and a detachable cutting portion 8, is shown in an unassembled state in which the cutting portion 8 has an internal thread 22 (only partly seen in this view) and the shank has a part with an external thread 23 for mating with the internal thread of the cutting portion. When using the cutting tool in a cutting assembly, the cutting portion is connected to the shank using the threaded connection. Thereafter, the shank of the cutting tool is inserted into the tool holder.

[0059] Both tools described with reference to FIGS. 5 and 6 have a diameter D which is the same for both the shank 10 and the cutting portion 8. In other embodiments, the diameter of the cutting portion is greater than the diameter of the shank. Then the operational region of the cutting portion (corresponding to the peripheral cutting edge 9 in FIGS. 1-3) could be located at a greater radial distance from the tool holder central axis than all parts of the tool holder body, even if an opening 13 of the tool mounting recess is entirely located in the surface of the front end of the tool holder, and the central axis 20 of the tool mounting recess is parallel to the tool holder central axis 7.