ROTARY CUTTING TOOL ASSEMBLY

Abstract

The present invention relates to a rotary cutting tool assembly comprising a toolholder which has a central tool holding receptacle, and a cutting tool which has a holding projection that can be detachably held in the tool holding receptacle and via which the cutting tool is secured to and radially centered on the tool, wherein the holding projection has at its free end a pin-like, first centering section and an adjoining externally threaded section, wherein the holding projection ends in a radially outwardly projecting shoulder having an end face abutment surface, and the tool holding receptacle has an internally threaded section for receiving the externally threaded section and a first centering seat section which is positioned deeper within the tool holding receptacle and in which the centering section of the cutting tool is held.

Claims

1. A rotary cutting tool assembly comprising a toolholder comprising a central tool holding receptacle and a cutting tool comprising a holding projection that can be detachably held in the tool holding receptacle and via which the cutting tool is secured to and radially centered on the toolholder, wherein the holding projection has at its free end a pin-like, first centering section and an adjoining externally threaded section, wherein the holding projection ends in a radially outwardly projecting shoulder having an end face abutment surface, and the tool holding receptacle has an internally threaded section for receiving the externally threaded section and a first centering seat section which is positioned deeper in the tool holding receptacle and in which the centering section of the cutting tool is received, characterized in that the axial length (L) of the first centering section is greater than the axial distance (I) from the start of the internally threaded section to the start of the first centering seat section.

2. The rotary cutting tool assembly according to claim 1, characterized in that located between the externally threaded section and the abutment surface is a second centering section, which has a larger outer diameter than the externally threaded section, and in that the toolholder has a second centering seat section which fixes the second centering section in place when the cutting tool is held in the toolholder.

3. The rotary cutting tool assembly according to claim 2, characterized in that the axial length of the second centering section is at most 50%, in particular at most 30%, of the axial length of the externally threaded section.

4. The rotary cutting tool assembly according to claim 2, characterized in that the centering sections and the associated centering seat sections are designed with an H6/g6 fit.

5. The rotary cutting tool assembly according to claim 1, characterized in that between the internally threaded section and the externally threaded section such a radial clearance is present that the cutting tool is radially centered exclusively at least on the first centering seat section in the toolholder.

6. The rotary cutting tool assembly according to claim 5, characterized in that the cutting tool is radially centered exclusively on the first and second centering seat sections in the toolholder.

7. The rotary cutting tool assembly according to claim 1, characterized in that, when the cutting tool is completely screwed into the toolholder, the end face abutment surface abuts against an end face counter surface of the toolholder.

8. The rotary cutting tool assembly according to claim 1, characterized in that the cutting tool holds at least one interchangeable cutting insert.

9. The rotary cutting tool assembly according to claim 1, characterized in that a cooling channel that ends in the tool holding receptacle is provided in the toolholder and a cooling channel that starts at an end face of the end of the first centering section is provided in the cutting tool.

10. The rotary cutting tool assembly according to claim 1, characterized in that the axial length of the holding projection is 1.8 to 3 times the outer diameter of the end face abutment surface.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0023] In the drawings:

[0024] FIG. 1 shows a sectional view through an optional embodiment of the rotary cutting tool assembly according to the invention with a cutting tool not yet screwed into the toolholder.

[0025] FIG. 2 shows the rotary cutting tool assembly according to FIG. 1 at the beginning of the centering process,

[0026] FIG. 3 shows the rotary cutting tool assembly according to the invention of FIG. 1 with partially screwed-in cutting tool, and

[0027] FIG. 4 shows the rotary cutting tool assembly according to the invention with a cutting tool completely held within the toolholder.

DETAILED DESCRIPTION

[0028] FIG. 1 shows a rotary cutting tool assembly in the form of a milling cutter or a drill and having a toolholder 10 and a cutting tool 12, which carries at its tip (not shown here) one or more cutting edges and/or one or more interchangeable cutting plates.

[0029] The toolholder 10 has a central tool holding receptacle 14 in the form of an opening which starts from a counter surface 16. The central axis A of the tool holding receptacle 14 extends perpendicularly to the counter surface 16. A cooling channel 18, a first centering seat section 20, an adjoining internally threaded section 22 and a thereto adjoining second centering seat section 24 extend centrally to the central axis A.

[0030] The first and the second centering seat section 20, 24 extend centrally to the central axis A. The internally threaded section 22 also extends centrally to the axis A, as far as this is possible with the manufacturing accuracy. A centric alignment of the cooling channel 18 may be advantageous but is not mandatory.

[0031] On its end opposite to its cutting edges and visible in FIG. 1, the cutting tool 12 has a holding projection 26 with different sections. Starting from the free end 28, a pin-like, first centering section 30 is provided on the holding projection 26, said first centering section being adjoined by an externally threaded section 32. A second centering section 36 is provided between the externally threaded section 32 and an end face abutment surface 34 formed by an outwardly projecting shoulder. A puncture 38 forms the transition between the second centering section 36 and the abutment surface 34. Here, too, the abutment surface 34 extends at a right angle to the central axis A.

[0032] The cutting tool 12 also has a central axis A, which constitutes a centering axis as well. This central axis A should be aligned with the central axis A of the toolholder when the two parts are secured to each other. Opposite and diametrically oriented flat surfaces 40 serve as the engagement of a tool with which the cutting tool 12 can be screwed into the toolholder 10.

[0033] The threads 22, 32 are designed as metric threads.

[0034] The axial length of the second centering section 36 should be at most 50%, in particular at most 30%, of the axial length of the externally threaded section.

[0035] The axial length of the holding projection is 1.8 to 3 times the outer diameter of the end face abutment surface.

[0036] The securing of the cutting tool 12 in the toolholder 10 will be explained below with reference to FIGS. 2 through 4. It should be emphasized that this securing is a releasable securing that can be reused multiple times without negatively affecting either of the two parts.

[0037] First, still without turning, the cutting tool 12 with the first centering section 30 first is inserted into the tool holding receptacle 14 until the first centering section 30 penetrates into the first centering seat section 20, as shown in FIG. 2. At this time, the externally threaded section 32 is not yet screwed into the internally threaded section 22. This is made possible by the axial length L of the first centering section being greater than the axial distance I of the start of the internally threaded section 22 from the start of the first centering seat section 20, as shown in FIG. 1. If the first centering section 30 has a bevel or rounding at the free end, then the latter is not to be added to the dimensioning of the length L, as FIG. 1 shows. After the insertion of the first centering section 30 into the first centering seat section 20, the cutting tool 12 is already centered in the toolholder 10. The axes A are aligned with each other.

[0038] Subsequently, as shown in FIG. 3, the externally threaded section 32 engages the internally threaded section 22 and is screwed into it. In doing so, the first centering section 30 is inserted deeper and deeper into the first centering seat section 20.

[0039] Finally, at the end of the now occurring screwing-in process, the second centering section 36 arrives in the second centering seat section 24 and excludes wobble errors and additionally holds the cutting tool 12 in the toolholder 10.

[0040] This assembly process is completed when the abutment surface 34 abuts against the counter surface 16 during the screwing-in process (see FIG. 4). In the process, an axial press fit is created.

[0041] The two centering sections 30, 36 act as widely spaced bearings. As found in tests, the long seat achieved by the first centering section 30 stabilizes the cutting tool in the toolholder very well. This is particularly important in the illustrated exemplary embodiment, because the holding projection 26 is weakened by a cooling channel 42 that begins at the end face of the holding projection, preferably centrally extends through the cutting tool 12 and can align with the cooling channel 18.

[0042] Both centering sections 30, 36 and their associated centering seat sections 20, 24 are designed with the same fit, in particular an H6/g6 fit.

[0043] The axial length a (see FIG. 2), via which the front end of the first centering section 30 engages in the first centering seat section 20 when the externally threaded section 32 starts to engage the internally threaded section 22, should be at least 20% of the diameter of the first centering section 30 in order to achieve a tilting stability during the first centering.

[0044] After installation, the cutting tool 12 is optimally centered in the toolholder 10; the two parts are concentric, without a bending load occurring in the holding projection 26 solely due to the securing of the components to one another. The holding projection is axially strained in elongation between the externally threaded section 32 and the abutment surface 34.

[0045] The assembly is characterized by an extreme rigidity, reduced tendency to vibrate and, above all, reduced wobbling motions.