Drill and method for producing a drill

Abstract

A drill has at least one main cutting edge (22) and a helical flute (20) abutting the main cutting edge (22). The surface of the flute (20) has a spiral segment (28) and an edge segment (30) abutting the main cutting edge (22). The roughness of the edge segment (30) is less than the roughness of the spiral segment (28). Furthermore, a method for producing a drill is provided.

Claims

1. A drill comprising at least one main cutting edge and a helical flute abutting the main cutting edge, wherein the surface of the flute has a spiral segment and an edge segment abutting the main cutting edge, and wherein the roughness of the edge segment is less than the roughness of the spiral segment.

2. The drill according to claim 1, wherein the roughness of the edge segment is less than 0.3 Ra.

3. The drill according to claim 1, wherein the roughness of the edge segment is less than 0.1 Ra.

4. The drill according to claim 1, wherein the roughness of the spiral segment is at least 0.3 Ra.

5. The drill according to claim 1, wherein at least 25% of the main cutting edge abuts the edge segment.

6. The drill according to claim 1, wherein at least 50% of the main cutting edge abuts the edge segment.

7. The drill according to claim 1, wherein at least 75% of the main cutting edge abuts the edge segment.

8. The drill according to claim 1, wherein the edge segment does not extend to a tip of the drill.

9. The drill according to claim 1, wherein the edge segment radially outwardly abuts a side cutting edge or guide edge of the drill.

10. The drill according to claim 1, wherein the edge segment extends over an axial length (L) which is at least 50% of the diameter (D) of the drill.

11. The drill according to claim 1, wherein the edge segment extends over an axial length (L) which is at least 75% of the diameter (D) of the drill.

12. The drill according to claim 1, wherein the edge segment extends over an axial length (L) which is at least 100% of the diameter (D) of the drill.

13. The drill according to claim 1, wherein the edge segment extends over an axial length (L) which is at most 200% of the diameter (D) of the drill.

14. The drill according to claim 1, wherein the edge segment extends over an axial length (L) which is at most 150% of the diameter (D) of the drill.

15. The drill according to claim 1, wherein the edge segment extends over an axial length (L) which is at most 100% of the diameter (D) of the drill.

16. The drill according to claim 1, wherein the edge segment has a smaller spiral angle (α) than the spiral segment.

17. The drill according to claim 16, wherein the spiral angle (α) of the edge segment is smaller by at least 1° than the spiral angle (β) of the spiral segment.

18. A method for producing a drill comprising at least one main cutting edge and a helical flute abutting the main cutting edge, wherein the method comprises the following steps: a) grinding of the flute, and b) subsequent fine-grinding of an edge segment abutting the main cutting edge of the surface of the flute.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0022] Further advantages and features will emerge from the following description and from the accompanying drawings. The figures show:

[0023] FIG. 1 a drill according to the invention in a side view,

[0024] FIG. 2 the cutting head of the drill from FIG. 1 in a detail view,

[0025] FIG. 3 the cutting head of the drill from FIG. 1 in a schematic view,

[0026] FIG. 4 a drill according to the invention according to a further embodiment in a side view,

[0027] In FIG. 1, a drill 10 having a nominal diameter D is shown.

[0028] The drill 10 extends along a longitudinal central axis M and has a cutting head 14 at an axial end 12 and a shaft 18 at the opposite axial end 16, by means of which the drill 10 can be mounted in a tool holder.

[0029] In the present embodiment, the drill 10 is a spiral drill with two helical flutes 20, each extending from the axial end 12 to the shaft 18.

[0030] Accordingly, the cutting head 14 comprises two main cutting edges 22 (see FIG. 2), each abutting one of the two flutes 20.

[0031] The main cutting edges 22 are connected to one another via a transverse cutting edge 24, which forms a tip 26 of the drill 10.

[0032] In an alternative embodiment, the drill 10 can be any drill having at least one helical flute 20 abutting a main cutting edge 22 of the drill 10.

[0033] The cutting head 14 is formed from a carbide.

[0034] Furthermore, the cutting head 14 does not have a coating, i.e., the cutting head 14 is formed in a non-coated manner.

[0035] Generally, the cutting head 14 can be formed from any material.

[0036] Additionally or alternatively, the cutting head 14 can comprise a coating, i.e., it is coated at least in sections.

[0037] Based on FIGS. 2 and 3, the design of one of the helical flutes 20 is explained below as an example for all of the flutes 20.

[0038] The surface of the helical flute 20 has a spiral segment 28 and an edge segment 30.

[0039] In the present exemplary embodiment, the surface area of the helical flute 20 consists of the spiral segment 28 and the edge segment 30. That is to say, the surface of the flute 20 that does not form the edge segment 30 forms the spiral segment 28.

[0040] In an alternative embodiment, the surface of the helical flute 20 can comprise one or more further segments.

[0041] Preferably, the surface area of the spiral segment 28 is greater than the surface area of the edge segment 30.

[0042] The edge segment 30 extends inwardly from a radially outwardly arranged guide edge 32 of the cutting head 14 over about 80% of the abutting main cutting edge 22 and thus not to the tip 26.

[0043] In this way, the edge segment 30 forms a substantial part of the rake face associated with the main cutting edge 22.

[0044] In principle, any portion of the main cutting edge 22 can abut the edge segment 30, but preferably the portion is at least 25%, further preferably at least 50%, in particular at least 75%.

[0045] Further, in an alternative embodiment, the guide edge 32 can be a side cutting edge of the cutting head 14.

[0046] Additionally or alternatively, the edge segment 30 can be spaced apart from guide edge 32 and/or can extend to the tip 26.

[0047] In the axial direction, the edge segment 30 has an axial length L (see FIG. 3) which corresponds to about 90% of the nominal diameter D of the drill 10.

[0048] In an alternative embodiment, the axial length L of the edge segment 30 is at least 50%, preferably at least 75%, in particular at least 100% of the nominal diameter D.

[0049] Additionally or alternatively, the axial length L of the edge segment 30 can be at most 200%, preferably at most 150%, in particular at most 100% of the nominal diameter D.

[0050] In this context, the edge segment 30 has a spiral angle α of 28°, while the spiral angle β of the spiral segment 28 is 30° here.

[0051] In an alternative embodiment, the spiral angle α and the spiral angle β can each be any size.

[0052] However, the spiral angle α is preferably smaller than the spiral angle β, in particular by at least 1°.

[0053] The edge segment 30 has a roughness of 0.05 Ra, while the spiral segment 28 has a roughness of 0.3 Ra.

[0054] Generally, the edge segment 30 and the spiral segment 28 can have any roughness, however, in all embodiments, the roughness of the spiral segment 28 is greater than the roughness of the edge segment 30.

[0055] In an alternative embodiment, the roughness of the edge segment 30 is less than 0.3 Ra, in particular less than 0.1 Ra.

[0056] Additionally or alternatively, the roughness of the spiral segment 28 can be at least 0.3 Ra.

[0057] In an alternative embodiment, the drill is a replaceable cutting head 10 (see FIG. 4), which forms a spiral drill together with a tool shaft. For the components known from the above embodiment, the same reference numerals are used, and reference is made in this respect to the foregoing explanations.

[0058] To produce the drill 10, the following method is provided.

[0059] In a first step, the helical flutes 20 are ground in the form of raw flutes into a blank of the drill 10.

[0060] The raw flutes here have the spiral angle β and the roughness of the spiral segments 28 of the helical flutes 20.

[0061] In a subsequent second step, the edge segments 30 are formed by fine-grinding the raw flutes respectively in a corresponding area abutting the main cutting edge 22 of the associated flute 20.

[0062] As a result, the edge segments 30 receive the spiral angle α and the lower roughness compared to the spiral segments 28.

[0063] The grinding as well as the fine-grinding can be done by means of grinding discs or grinding rollers.

[0064] The grinding discs or grinding rollers for the fine-grinding have a smaller grain size than the grinding discs or grinding rollers for the grinding.

[0065] Furthermore, the fine-grinding is performed at a lower cutting speed than the grinding in the preceding step.

[0066] In this way, a drill 10 as well as a method for producing a drill 10 are provided, which can be produced with little effort and has particularly good cutting properties.

[0067] The invention is not limited to the embodiments shown. Individual features of one embodiment can in particular be combined as desired with features of other embodiments, in particular independently of the other features of the corresponding embodiments.

LIST OF REFERENCE NUMERALS

[0068] 10 Drill

[0069] 12 Axial end

[0070] 14 Cutting head

[0071] 16 Axial end

[0072] 18 Shaft

[0073] 20 Flute

[0074] 22 Main cutting edge

[0075] 24 Transverse cutting edge

[0076] 26 Tip

[0077] 28 Spiral segment

[0078] 30 Edge segment

[0079] 32 Guide edge

[0080] L Length

[0081] D Diameter

[0082] α Spiral angle

[0083] β Spiral angle