DE8018832U1 - DRILLING TOOL, ESPECIALLY BLANKER - Google Patents

Description

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Applicant: Komet Stahlhalter and Iderkzeugfabrik

Robert Breuning GmbH, PF 260, 7122 Besigheim.

Boring tool, especially countersink »

The invention relates to a boring tool, in particular a countersink, with a cylindrical shaft, a radially adjustable at the free end of the shaft, with a contact surface resting against a support surface thereof Cutting plate carrier that has a exchangeable, through είπε clamping screw in the recess held transfer cutting plate carries, at least one of the cutting plate carrier connecting to the shank Retaining screw and one between the shaft and the Cutting insert carrier provided adjusting device for radial adjustment of the latter.

In such a known boring tool (CH-PS 546 614) is essentially the insert carrier cuboid and stored in a matching recess in the cylindrical shaft. In a A retaining screw is arranged in the transverse bore of the shank, which is inserted into a corresponding thread in the insert carrier intervenes. However, since the axis of this retaining screw is essentially parallel to the support and contact surfaces extends, the insert carrier is not sufficiently firm with its contact surface on the Clamped support surface of the shaft. Main disadvantage dBS known boring tool, it is also that the cutting plate only a relatively large recess in the cylindrical shaft so requires this boring tool is not suitable for drilling smaller-diameter holes.

3D The invention is based on the object of creating a boring tool of the type mentioned at the outset, in which the cutting insert carrier is very stably connected to the shaft is, which is also suitable for boring holes of smaller diameter and which works through

simple structure and high working accuracy .

This would be achieved according to the invention in that the Support surface arranged at an acute angle to the shaft axis is, extends over the entire front face of the shaft and has a flat first toothing, their mutually parallel teeth in the direction of the inclination of the support surface parallel to one through the shaft axis

1D continuous plane that the insert carrier is generally cylindrical and has approximately the same diameter as the Shaft, its contact surface inclined at the same acute angle to the shaft axis and with one of the first teeth corresponding second toothing is guided displaceably in the first toothing that the retaining screw is arranged perpendicular to the support and contact surfaces and its head and shaft in an elongated hole in the shaft or the insert carrier in the direction of the teeth

2G is displaceable and that the rake faces of the relocating insert run essentially perpendicular to the plane passing through the support and contact surfaces.

In the case of the new boring tool, it is the insert carrier not arranged in a recess of the shaft, but on its end face. This has the advantage that the boring tool is much smaller in the radial direction May have dimensions so that it is also suitable for the

3D boring of small diameter holes is suitable, The arrangement of the support and contact surfaces in a pointed The angle to the shaft axis has a dual function. On the one hand, the arrangement at an acute angle creates a easy adjustment in the radial direction created and on the other hand it is also achieved that the support and contact surfaces touch on a very large area. In combination with those in the manner described

arranged toothing is hereby a very stable one Connection between the cutting board carrier and the Shaft reached. This stable connection and also the fact that the insert carrier approximately Has the same cross-section as the shaft, result in a high rigidity of the entire drilling tool, see above that this is also characterized by great working accuracy. The simple structure of the boring tool is based on the drawing and the description below one embodiment clearly recognizable.

Advantageous embodiments of the invention are shown in Characterized subclaims.

The invention is in the following, based on one in the

Drawing illustrated embodiment explained in more detail.

P. Show it:

20th

ij Figure 1 is a longitudinal section of the designed as a flank countersink

! ς of the boring tool,

Figure 2 is a section along the line II-II of Figure 1,

If Figure 3 is an end view of the countersink in the direction III

p 25 of FIG. 1

The countersink 1 shown as an embodiment is used

! '·' To produce cylindrical recesses with

level ground. Such recesses are often used 3G to accommodate cylindrical or part-cylindrical Cutting plate carriers, for example in the DE-PS 25 D6 902 are disclosed. So that this insert carrier can be inserted safely and precisely in the holder, it is necessary that the diameter of the recesses exactly with the outer diameter of the Coincides cutting insert carrier, for example, have a diameter between 16 mm and 30 mm can. The countersink 1 shown in the drawing is

shown in double size and intended for a bore diameter of 25 mm. It was determined, that cylindrical recesses of the type mentioned with Plan core that has a predetermined working diameter have not been made precisely enough. For this reason, a countersink was sought, the diameter of which can be adjusted radially within small limits.

The countersink 1 consists essentially of a cylindrical

1Ü thresh shaft 2 and a likewise cylindrical cutting insert carrier 3. Both parts have essentially the same diameter. The cutting insert carrier 3 is semi-cylindrical at its front end 3a and has a recess h for receiving an appropriately triangular relocating insert 5. This relocating insert corresponds in its outline to that of an equilateral triangle. It has a central bore for the passage of a clamping screw 6 which is screwed into the cutting insert carrier 3 and which holds the relocating insert 5 in the recess. The effective cutting edge 5a of the cutting tip 5 is arranged perpendicular to the shaft axis A and extends from the working diameter D of the countersink 1 to the shaft axis A.

On its end face, the shaft 2 has a support surface 7 which is arranged at an acute angle oC of preferably 3D to the shaft axis A. This support surface 7 is provided with a flat toothing extending over the entire front face of the shaft 1. The parallel teeth 7a of this first toothing extend in the direction of the inclination of the support surface 7 parallel to the plane passing through the shaft axis A. The contact surface B of the cutting insert carrier 3 is inclined at the same acute angle cL to the shaft axis A and is provided with a second toothing which corresponds to the first toothing and is guided displaceably in the first toothing. The second set of teeth has teeth

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Ba on, which engage between the teeth 7a. Two retaining screws 9 and 1D are perpendicular to the support and contact surfaces 7, B arranged. Your head 9a, 1Ga and their shafts 9b, 1Db are each in an elongated hole 11, 12 of the shaft 2 or the cutting insert carrier 3 displaceable in the direction of the teeth 7a, Ba. Each of the Retaining screws 9, 1G is in the respective opposite part, namely the insert carrier 3 or the Shank 2 screwed in. For plan core with a smaller one A retaining screw is also sufficient for the working diameter.

As you can still see from the drawing, are the rake faces 5b of the relocating insert 5 essentially arranged perpendicular to the plane E1-E1 passing through the support and contact surfaces 7, B.

A pin 13 is located in the shaft 2 as an adjusting device rotatably mounted in a brace 1 ^ with a collar 13a. The axis of the bolt 13 extends perpendicular to the

2D passing through the support and contact surfaces 7, B. Level E1-E1. The bolt 13 has an eccentric pin 17 at one end and is at its other end with a hexagon socket 16 for inserting a corresponding one Key provided. The eccentric pin 17 engages into a groove 15 in the insert carrier 3, which extends transversely to the teeth Ba of the second toothing. The width b of this fury 17 corresponds in the direction of the teeth approximately the diameter d of the eccentric pin

3D If the working diameter D of the countersink 1 is to be adjusted, the retaining screws 9 and 1D are loosened somewhat. By rotating the bolt 13, the cutting insert carrier is displaced in the direction of the teeth 7a, Ba. As a result, the cutting tip 5 is adjusted both in the radial direction and in the axial direction. However, the axial direction does not play an essential role here. At an acute angle approx. of 30 ° with a shift of the insert carrier in the direction of the teeth 7a,

Ba achieved half the adjustment in the radial direction, but the change in the working diameter D is exactly the displacement in the direction of the Teeth 7a, Sa corresponds. In this way the Working diameter D of the countersink, for example Adjust + 1 mm. After the adjustment, the retaining screws 9, 1G are tightened again.

The adjusting device could also be used in the opposite way to be ordered so that the bolt in the cutting board carrier is rotatably mounted and its eccentric pin in an im Shank provided groove engages.

Claims (5)

Il 11 * 1 Il I ti · III 111 III Il ι 1 · · Il Ij ti) i 'J Wl - 7 claims 1. Boring tool, especially countersink, with a cylindrical shaft, one radially adjustable at the free end of the shaft, with a contact surface on one Support surface of the same adjoining cutting plate carrier, which is an exchangeable, by a recess in a Clamping screw held in the recess relocating insert carries, at least one of the insert carrier 1D with the shank connecting retaining screw and between the shank and the cutting insert carrier provided \>, Henen adjusting device for the radial adjustment of the the latter, characterized in that the support surface (7) is arranged at an acute angle (oC) to the shaft axis (A) is to extend over the entire front face of the Shank (2) extends and a flat first toothing has, the mutually parallel teeth (7a) in the direction of the inclination of the 'support surface (7) parallel to a through the shank axis (A) extending plane (E-E) that the cutting insert carrier (3) substantially is cylindrical and has approximately the same diameter as the shaft (2), its contact surface (β) at the same acute angle (oO to the shaft axis (A) inclined and with a second toothing corresponding to the first toothing in the first toothing is guided displaceably that the retaining screw (9,10) perpendicular to the support and contact surfaces (7,8) is arranged and its head (9a, 10a) and shaft (9b, 10b) in an elongated hole (11, 12) of the shaft (2) or the 3D insert carrier (3) in the direction of the teeth (7a, 8a) is displaceable, and that the rake faces (5b) of the relocating insert (5) is substantially perpendicular to the through the support and contact surfaces (7, 8) extending plane (E1-E1). 35 2. Tool according to claim 1, characterized in that the acute angle (oC) is about 30 ^G. •> * I 3. Tool according to claim 1 or 2, characterized in that that the adjusting device one in the shaft (2) around one perpendicular to the curch the support and contact surfaces (7, B) through Ehene (E1-E1) extending axis has rotatable bolt (13) with an eccentric pin (17), the in a transverse to the teeth (8) the second toothing extending groove (15) engages in the cutting insert carrier (3), the width (b) in the direction of the teeth (B) corresponds approximately to the diameter (d) of the eccentric 1D pin (17). U. Tool according to claim 1, 2 or 3, characterized in that the relocating insert 5 has, in a manner known per se, a central bore for the passage of the clamping screw (G). 5. Tool according to claim 1 or U, characterized in that the relocating insert (5) forms an equilateral triangle in plan, the effective cutting edge 2G te (5a) is arranged perpendicular to the shaft axis (A).