DE102008033046A1 - Drill bit with hard metal insert on drill head has cutting edges of hard metal insert extending away from tip of drill bit in curved star shape to outer circumference of drill bit - Google Patents

Abstract

The drill bit has a hard metal insert (10) on the drill bit head and extending transversely with respect to the drill bit head. The cutting edges (20) of the hard metal insert extend away from the tip (22) of the drill bit in a curved star shape to the outer circumference of the drill bit.

Description

The The invention relates to a drill, according to the preamble of claim 1.

From the DE 297 21 790 a drill is known which has an S-shaped curved carbide cutting plate, viewed in plan view of the drill from its front side. This drill has not become established in the market, because the application specified therein, to allow little or no drilling dust in the immediate vicinity of the drilling site to get at the beginning of the pipe is in practice of less relevance.

Furthermore, from the DE-GM 299 22 291 an embodiment of a carbide cutting plate is known which has a recess in the region of the free surface. This is intended to improve the drilling progress especially in two-cutters.

Finally, it is still from the DE-PS 11 67 158 a drill known to be provided with the spiral-bound Ausspitzflächen. This is to achieve the advantages of cutting centering lips.

on the other hand are the known drills little suitable, if it is, reinforced concrete, So to drill concrete with reinforcements. Such reinforcements act pronouncedly dampening the smashing effect from usual carbide cutting plates. This will be the Drilling progress braked or reduced to zero. Even worse, the drill tends to swerve laterally, especially with double cutters a lateral leverage is created by the fact that the carbide cutting mat supported as it were on the reinforcement according to their clearances and lever away the drill bit laterally.

Though Drills with carbide elements are already proposed have been formed star-shaped and already on principle have better concentricity properties. However, these are also able to align with the impact just on massive steel reinforcements little.

In In many cases, the mechanic helps himself by being hit converted to the reinforcement on a metal drill, the Cut through the reinforcement and then continue drilling with the concrete drill bit. However, this process is extremely time consuming and also damages the metal drill, because a metal drill is basically not for hitting Concrete suitable.

Therefore the invention has the object, a drill according to the To provide a preamble of claim 1 which is particularly well suited to drill reinforced reinforced concrete.

These The object is achieved by claim 1 solved. Advantageous developments emerge from the Dependent claims.

Particularly according to the invention it is favorable if the carbide insert in the range his middle shoulder is sharpened as it were. This is possible according to the invention by the design of a star realize with curved or curved beams, wherein the rays formed by the cutting edges of the hard metal element become. This allows the drill to be achieved always severed when striking armatures this pointed. By the broad lateral shoulder both radially inward as also radially outward at the armoring cutting edge region, So the inner shoulder and the outer shoulder leaves make sure that even when drilling concrete by the way no damage to the cemented carbide insert at this point be generated.

In According to the invention particularly favorable embodiment it is also intended that this area - in side view considered - springs back, so the drill from Drill tip seen in the radial outward direction concave. The concavity concerns here a jump back to a usual Bohrkegel, typically with a point angle of, for example 130 ° is stretched.

Around otherwise typically over the entire radial length a cutting edge realized debris effects in the shoulder areas To be able to absorb better, these are with several stump corners Mistake. For example, a protective bevel extends in itself known manner obliquely to the cutting edge at the radially outermost The End. It can also sanded various other bevels or be attached in any other way, so that at the same time no big stiffness jumps over the course the cutting edge and this supporting shoulders of the hard metal element arise.

Particularly according to the invention It is favorable if the hard metal element as a three-knife trimmer is trained. A three-knife trimmer has a good system Concentricity, but still a little worse drilling progress as a two-cutter, typically equipped with a carbide cutting insert is. In addition, the Bohrmehlabfuhr is quite good, in terms of still comparatively large open spaces on the side the rays of the star-shaped cemented carbide element.

in principle also the realization of a four- or multi-cutter is possible, which has even better concentricity properties.

Of the Rake angle or the cutting angle of the cutting surface leaves to adapt to the needs in a wide range of areas. For example the rake angle can be very low in the reinforcement cutting area, for example, near 0 °.

Further Advantages, details and features will be apparent from the following Description of several embodiments with reference to the drawing.

It demonstrate:

1 a side view of a hard metal element according to the invention for a drill according to the invention in a first embodiment;

2 the hard metal element according to 1 in front view;

3 the hard metal element according to 1 and 2 and perspective view;

4 another embodiment of the drill according to the invention showing the hard metal element in front view;

5 a third embodiment of a drill according to the invention, showing the hard metal element in side view;

6 the third embodiment showing the hard metal element in front view; and

7 a fourth embodiment of a drill according to the invention showing the hard metal element in a perspective view.

This in 1 shown carbide element 10 is intended for a first embodiment of a drill according to the invention, which at its drill head, not shown, for receiving the cemented carbide element 10 having suitable grooves.

In known manner, the hard metal element 10 soldered there or fastened in any other way.

As is clear from the 1 . 2 and 3 results, the hard metal element is substantially star-shaped, so at least one three-cutter. It consists of a total of three stars 12 . 14 and 16 , which extend at an angle of 120 ° to each other as a radiation body. Each radiating body has a height which substantially corresponds to its depth, as it turns out 1 yields, and a width that corresponds to about half of its height and depth as it looks 2 in comparison with 1 is apparent.

At the transition between the individual ray bodies 12 and 14 respectively. 14 and 16 respectively. 12 and 16 is ever a radius 18 formed, which corresponds to 1/10 to 1/2, preferably about 1/3 of the width of a radiation body.

Each star beam has a cutting edge 20 on, which is formed according to the invention in a special way. Starting from the drill bit 22 the cutting edge jumps 20 , viewed in relation to a conical surface, which is swept by the drill head back so that there is a concavity in this respect. This becomes particularly clear at the cutting edge 20 of the radiation body 12 ,

Approaching the radially outer end of the radiation body, the cutting edge approaches 20 then the cone sheath again. In this respect, there is over the course of a cutting edge 20 considered an inner shoulder near the drill bit near area 24 that the cutting edge 20 there solid supported laterally. At this closes radially outwardly seen a middle shoulder 26 at. At this in turn closes radially outward an outer shoulder 28 at.

While the inner shoulder 24 and the outer shoulder 28 is characterized by rather blunt cutting edge angle and also by the realization of edges with significantly more than 90 ° edge angle, is the middle shoulder 26 trained in a special way. This embodiment also results from the comparison of 1 . 2 and 3 , The cutting edge 20 runs arcuately, like it out 2 is apparent, in such a way that it from the drill bit 22 starting at an angle to the front 30 of the radiation body 12 extends. She is bent over there, so in the area of the middle shoulder 26 essentially parallel to the front 30 of the radiation body 12 runs and meets in the area of the middle shoulder 26 the front 30 , at least almost, while in the field of external shoulder 28 back to the back.

Even if here is a curved cutting edge 20 is shown with a bending radius which lies between the radius and the diameter of the drill, it is understood that according to the invention no constant radius of the bending of the cutting edge 20 is required. Rather, it is also possible that the radius of the cutting edge 20 from the inside out first increases and then decreases again to the area of the middle shoulder 26 to make even more pointed.

According to the course of the cutting edge 20 is the cutting surface 32 near the drill bit 22 initially quite wide and flat. When viewed radially outwards, it is then approaching the middle shoulder 26 narrower and steeper, so that the Cutting angle in the middle range can be quite 0. Outwardly spreads the cutting surface 32 again, so that the cutting angle can then increase again.

The same applies vice versa for the open space 34 in that it is steeper and narrower at first, then in the area of the middle shoulder 26 quite wide and in the area of the outer shoulder 28 narrower again. The increase and decrease is compared to the cutting surface 32 but much lower, if only because of the open space 34 anyway much wider, for example, at least twice as wide as the cutting surface 32 is, even in the area of the inner shoulder 24 ,

At the radial outside of the radiation body 12 is ever additionally a protective chamfer 40 attached, which prevents due to protruding edges, the risk of breakage in this heavily loaded area of the hard metal element 10 increases.

One opposite the 1 . 2 and 3 modified embodiment is made 4 seen. There it is provided, the orientation of the cemented carbide element 10 reverse, so that the drill shown there is particularly suitable for anti-clockwise rotation. Here as well as in the other figures, identical or similar parts correspond to the same or similar reference numerals.

A third embodiment of the invention is made 5 and 6 seen. While in the embodiments according to the 1 to 4 every ray body 12 to 16 each runs straight outward, in this embodiment depending also the beam body itself is curved, in the same direction with the course of the associated cutting edge 20 ,

In a further preferred embodiment, a curved beam body 12 to 16 with a cutting edge course according to the 1 to 3 combined. This causes the curvature of the cutting edge 20 in any case, is significantly stronger than the curvature or bending of the relevant radiation body. As a result, an accentuated interior area, a central area as a reinforcement cutting area and an exterior area can be realized in turn.

In this embodiment, in the area of the drill bit 22 the width of cutting surface 32 and open space 34 almost the same, with a small width excess of about 60% to 40% for the open space 34 , The width of the open space 34 increases radially outwards continuously increasing until the width of the free surface 34 at the radially outer end of the radiation body 12 . 14 and 16 a ratio to the width of the cutting surface 32 from 3: 1 to 4: 1.

The width / length ratio of the radiation body in the embodiment according to the 5 and 6 namely only 1: 3 or 1: 4, so that comparatively much space for the realization of Bohmehlabfuhrnuten is available.

Again, at the outer end of the cutting edge 20 one protection bevel each 40 appropriate.

Another embodiment of the drill according to the invention is made 7 seen. There is the carbide element 10 designed as a four-cutter and accordingly has four beam body 12 . 14 . 16 and 17 on. The design otherwise corresponds to the 1 to 3 , in which case the same reference numbers refer to the same parts.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 29721790 [0002]
• - DE 29922291 U [0003]
• - DE 1167158 [0004]

Claims (13)

Drill having a hard metal element on the drill head, which extends across the drill head, characterized in that the cutting edges ( 20 ) of the hard metal element ( 10 ) is bent in a star shape from the drill tip ( 22 ) extend to the outer circumference. Drill according to claim 1, characterized in that the hard metal element ( 10 ) a cutting edge ( 20 ), which, from the drill bit ( 22 ), the cutting surface ( 32 ) reduced in width, in particular reduced by more than 50%, in a curved course. Drill according to claim 1 or 2, characterized in that the cutting surface ( 32 ) to the outer periphery of a beam of the star-shaped cemented carbide element ( 10 ) increases in width from a central region, the reinforcing cutting region. Drill according to one of the preceding claims, characterized in that each beam or radiation body of the star-shaped hard metal element ( 10 ) an open space ( 34 ), the width of which viewed in front view of the drill radially outwardly from the drill bit ( 22 ) increases, in particular increases in a curved manner. Drill according to one of the preceding claims, characterized in that each jet ( 12 . 14 . 16 ) or radiation body of the star-shaped cemented carbide element ( 10 ) an open space ( 34 ) whose width in front view of the drill viewed from the central region of the cutting edge ( 20 ) decreases again. Drill according to one of the preceding claims, characterized in that a star-shaped hard metal element ( 10 ) Cutting edges ( 20 ), which are concave when viewed in a side view of the drill, in particular from the drill bit ( 22 ) out to the outer periphery of the drill, if necessary, leaving a protective bevel ( 40 ) on the outer edge of the hard metal element ( 10 ). Drill according to one of the preceding claims, characterized in that the cutting surface ( 32 ) as a chip surface over the course of a star beam of the hard metal element ( 10 ) viewed in front view of the drill in its width is reduced to zero or at most a tenth, in particular at most one twentieth of the width of a radiation body and formed as a reinforcing cutting edge. Drill according to one of the preceding claims, in particular according to claim 6, characterized in that the drill as reinforced concrete drill has a radially outward area, by edges with edge angle of more than 120 °, in particular in the area of the protective chamfer, is marked, and at the radially then inwardly a Armierungsschneidebereich connects with sharp edges. Drill according to one of the preceding claims, characterized in that the hard metal element ( 10 ) has a flat base and is received as carbide element in insertion grooves of the drill head and that each beam of the star-shaped has a length / width ratio of at least 1.5: 1, preferably about 2: 1 and at most 4: 1. Drill according to one of the preceding claims, characterized in that the hard metal element ( 10 ) is star-shaped and its rays ( 12 . 14 . 16 ) have substantially the same width over their radially outwardly extending course as viewed in the end view of the drill. Drill according to one of the preceding claims 1 and 9, characterized in that the hard metal element ( 10 ) is star-shaped and its rays ( 12 . 14 . 16 ) has substantially a continuous decreasing width. Drill according to one of the preceding claims, characterized in that the drill a star-shaped cemented carbide element ( 10 ) whose rays are each curved, in particular gleichsinning with the curvature of the cutting edges ( 20 ). Drill according to one of the preceding claims, characterized in that the cutting edges ( 20 ) of the star-shaped hard metal element ( 10 ) have a curvature which, viewed in the direction of rotation of the drill, is convex, so that the convex portion of the cutting edge ( 20 ) in the direction of rotation is front.