DE1041324B - Step drill or countersink - Google Patents

Description

Step drill or countersink The invention relates to a step drill or countersinks, which have several consecutive bores of different diameters produce. Such step tools are known in which, for example, two Chamfers are arranged side by side, which produce different diameters. Here the two bevels lie one behind the other on the circumference and are each in a web of the tool arranged. So if it is a countersinking tool, for example with three webs or three grooves, there are a total of six chamfers. At this Execution is the front bevel for the smaller hole in the cutting direction used, while the rear bevel is used for the larger hole. A A special feature of these tools is that the front bevel extends to the top End of the screw groove is carried out and the tool is therefore on a larger one Length can be used. The back bevel is on the front part with the milled away smaller diameter.

The disadvantage of this design is that you have to go on each web the tool does not have any number of chamfers for more than two different diameters can attach. In general, these tools are limited to the most common ones Dimensions therefore on two levels. With three levels, in particular for smaller tool diameters, no longer arrange three chamfers one behind the other, because then there is no longer any space left for the flutes.

Tools are also known in which the individual stages The chamfers belonging to it only extend over the respective step and are in alignment are arranged one behind the other. Such a design has the disadvantage that each bevel can only be grinded to a small extent. This regrinding but stops as soon as the bevel that remains in the individual step in the axial direction seen, no longer has the length that the corresponding step of the workpiece must have. This point in time for the tool to become unusable can depend on the length of the step required in the tool can be done very quickly.

In order to remedy this situation, according to the invention, a step drill or countersinking tool with more than two steps and with ridges distributed around the circumference suggested that if there are two or more chamfers per ridge of the drill, each chamfer overlaps extends two stages of the drill, with the bevel of the following one on each bevel larger stage adjoins. This makes it possible to have more than two or three stages to accommodate both drills and multi-edged countersinking tools, whereby the number of possible stages is practically limited by the dimensions of the tool will. A tool according to the invention can also be compared to the known tools Regrind much longer because, for example, the third bevel is in the third Stage can be looped through to the end of the fourth stage, because then because of Sanding off the fourth bevel in the fourth stage still makes the tool usable remain.

In the drawing, an embodiment of a countersink according to of the invention, namely Fig. 1 shows the view of the tool and FIGS. 2 to 6 show the various cuts through the tool.

The countersink has a conventional fastening cone a, which carries the tool cutting edge at the lower end. In the illustrated embodiment, a countersink is drawn with the three grooves b, c and d (Fig. 6). This tool, shown for example with two chamfers per web, thus contains three webs e, f and g. The tool is now designed so that each web in each step has only two fields i and h , of which the front bevel 1 of the webs is used for a diameter I. This bevel continues until approximately the end of the second stage. The second bevel is cut away along the length of the first step.

For the diameter II, the second field la of the individual webs used. Alternatively, bevel 2 runs through to approximately the end of the third stage. The chamfer 1, which is also still present in the area of the second stage, does not interfere here, since it lies on a smaller diameter (Fig. 5).

The next diameter III is now again in the front field i of the webs, where the chamfer 1 is in the lower part, and appears here as Chamfer 3 (Fig. 4) with the next larger diameter. This bevel 3 runs up to almost at the end of the fourth stage formed by the chamfer 4 is (Fig. 3 @. This bevel 4 is again attached to the field li, which is also the Bevel 2 in the second stage. According to Fig. 3 are therefore in the cross section C-D Levels 3 and 4 in a row. -The fifth bevel 5 will then turn on the field i arranged (Fig. 2) and appears in cross-section together with the bevel 4. This The division can be limited in the same sense depending on the dimensions of the holes continue.

According to this proposal, one is therefore able to manufacture a tool, which can have more than two steps even in the small diameter range. but it is designed in such a way that only two chamfers are accommodated on each web of the tool are. which in the sequence of the individual stages alternately on the fields t. and 1a are distributed and in this respect allow better utilization of the tool. as The bevels do not mind cheerful resharpening, but up to almost the entire length the next stage.

The same principle applies to more than two, depending on the diameter Chamfers can be used for each web, and the number of steps can then be increased.

Claims (1)

PA r -.; - rA., S:> r "U ctt: Step drill or countersink with more than two steps and with webs distributed around the circumference, characterized in that If there are two or more chamfers per bar of the drill, each chamfer has two steps of the Bohrers extends, with the bevel of the next but one larger step on each bevel connects. Documents considered: British Patent Specification No. 155 004, 5-10 073; U.S. Patent No. 2,389,909; VDI magazine, 1953, p. 879.