DE1943586C3 - Twist drill - Google Patents

Description

15th

The invention relates to the subject matter of the preamble of claim (AT-PS 50 224).

In the magazine "American Machinist" of February 22, 1908, page 220, countersinking tools are with described several flutes. The flutes run in a straight line parallel to the longitudinal axis of the Countersinking tool. The clamping shank for insertion into a Lining is smooth and cylindrical. This has the disadvantage that the clamping shank when Operation is not locked in rotation in the chuck

Furthermore, in French patent specification 11 27 92 described that milling tools, reamers, wood drills and the like have three or more flutes a The problem of a rotationally secure fastening of these tools in a chuck is not addressed there.

Finally, the production of νοη tools, starting from a blank with a circular cross section and longitudinally arranged on this ribs by twisting, is known per se

The invention is based on the object of providing a twist drill according to the preamble of the claim create, which in the axial direction rotatably in a chuck can be held.

This problem is solved by the measures of the characterizing part of the claim

The twist drill obtained by twisting a rod-shaped blank with a cylindrical core is Much easier and more economical to manufacture than when using other working methods in which the Chip flutes are milled into a rod-shaped blank.

The twist drill according to the invention has the further advantage that it is used as a percussion drill can be.

The twist drill can be made by twisting a blank with an essentially cylindrical core, of the three equally spaced around the circumference, along the cylindrical surface of the core Has running ribs, manufacture. The twist drill has a continuous cylindrical core over its entire length, which it supports the tool enables quite high axial loads to be transmitted. It It has been found that due to the cylindrical core of the material cut by the drill no There is a tendency to get stuck within the flutes, even if the pitch of the flutes is relatively large is chosen. This means that the blank only needs to be twisted by a relatively small amount.

Presumably the reason for this is that for a given outer bore diameter in comparison to the twist drill according to the invention in a tool which by twisting a blank with a flat cross-section, the flutes are arranged closer to the tool axis are. For a given groove pitch, therefore, is the distance by which the chips are rotated with each revolution are displaced within the flutes, larger in the case of the twist drill according to the invention.

The term "substantially cylindrical core" comprises any cross-section, for which the difference Dc-Di the diameter Dc and Di of the circumscribed or inscribed circle of the cross section is equal to zero or substantially less than Di is Thus, this term includes cross-sections that regular polygons, like hexagons, octagons, are. The value Dc-Di should, however, be significantly smaller than the radial height of the ribs.

The ribs of the drill bit do not interfere with the insertion and centering of the non-twisted clamping shaft in a conventional chuck with three movable jaws, provided that each of the Ribs has a suitably small circumferential thickness, since the ribs then in the spaces between the jaws Find space and this can then come into engagement with the cylindrical surface of the core. In the Drawings means

F i g. 1 is a side view of a twist drill; and F i g. 2 shows a cross section through the twist drill.

F i g. 1 shows a twist drill 15 with a cylindrical core 11 and with the same spacing arranged ribs 12, namely three ribs, as can be seen from Fig. 2 The twist drill can be produced by twisting an end portion of the blank about the longitudinal axis to such an extent that that the desired slope of the flutes 13 is obtained. This twist can either be in a Special machine or made in a conventional machine tool with rotating mandrels be, for example a lathe. The twisting is usually done when the blank is in the cold state. However, the blank can be heated before and / or during the twisting process will. The twisted part of the blank forms a working part 14 for the in FIG. 1 twist drill shown 15, whereas the non-twisted end part of the blank forms a clamping shank 16. This can easily can be used in a standard three-jaw chuck.

In a manner known per se, the free end of the working part 14 of the in FIG. 1 shown with the drill be provided with an insert made of hard metal 19.

The rod-shaped blanks made of rolled bar steel can be cut to length before twisting, however, it is also possible and may be advantageous in some cases to cut the blanks if that Twist has already been made

1 sheet of drawings

Claims (1)

Claim: Twist drill with several helical flutes, which can be made by twisting one accordingly profiled blank is made, and a clamping shank for insertion in a chuck, thereby characterized in that of a rod-shaped blank with a substantially cylindrical Core (11), the three equally spaced around the circumference, along the cylinder surface of the core extending ribs (12) is assumed, the ribs in the region of the Clamping shank (16) are untwisted.