Cutting plate and method of pressing a cutting plate

Metal tools and implements – making – Blank or process – Drill

Reexamination Certificate

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Details

C076S108100

Reexamination Certificate

active

06536305

ABSTRACT:

BACKGROUND OF THE INVENTION
Field of the Invention
The invention pertains to a method of pressing a cutting plate of powdery starting material for use in a drill bit. The cutting plate has at least one end cutting edge running from the periphery to the axis of rotation of the drill and at least one lateral supporting edge having a flank for supporting on the wall of the drill hole. The method is carried out with the use of a die and a top punch and a bottom punch which can be moved relative to one another in the die.
Such cutting plates are generally used in drill bits which consist of a cylindrical steel shank having helically twisted flutes for disposing of the drilled-out material and of a drilling head at the end. The drilling head is formed by one or more of these cutting plates, which are made of a wear-resistant material and are typically connected to the steel shank by soldering or brazing.
The cutting plates are as a rule made from hard metal and are produced by powder metallurgy by pressing and sintering an initial powder mixture.
Drill bits having such cutting plates are often used for drilling rock or rock-like material such as brick, concrete or ceramic; but other materials such as metallic materials, wood or plastic can readily be machined as well.
Since many drilling operations are increasingly being carried out with cordless drilling machines, care is to be taken to reduce the cutting forces occurring during the drilling in order to preserve the battery and to achieve as long an operating period as possible. The reduction in the cutting forces is achieved in particular by sharp cutting edges in combination with positive rake angles of the end cutting edges.
Since such drill bits are mass products, they, and in particular also the cutting plates, must be produced as cost-effectively as possible.
In the vast majority of cases, the drilling head of such drill bits is formed by a cutting plate only a few millimeters thick and having two lateral supporting edges which project slightly beyond the steel shank and support the drill on the wall of the drill hole, and by two end cutting edges which are inclined in a roof shape and carry out the actual material removal. However, other designs where the drilling head is formed by a plurality of cutting plates, each of which may possibly have only one end cutting edge and one lateral supporting edge, are known.
The cutting plates are produced by pressing the initial powder mixture of the desired material in die presses using a die, a top punch and a bottom punch which are movable relative to one another. In the most frequently used presses, the bottom punch is stationary, while the die and top punch can be moved on their own or together relative to the bottom punch. But other designs where the die is stationary and the top punch and the bottom punch are movable in the die are common.
According to the hitherto conventional pressing method, the cutting plates are pressed in such a way that the relative movement of the top punch and the bottom punch with regard to the die is effected in the longitudinal direction of the lateral supporting edge(s), that is to say in the axial direction of the cutting plate, i.e. the cutting plate is formed in an “upright” position in the die. The disadvantage with this “upright” production of the cutting plate is that the press stroke of the top punch must not extend directly up to the transition between rake face or chip breaker groove and the cutting edge, but has to end with a safety distance of about 0.5 mm before this transition in order to definitely rule out the possibility of the top punch becoming wedged in the die for tolerance reasons. On account of this safety distance, the cutting plate has a negative bevel of about 0.5 mm, so that the cutting edge has no real positive rake angle, since, with a conventional feed performance of the drill of about 0.1 mm per revolution, the positive rake angle adjoining the negative bevel does not come into effect to a sufficient extent. The chip breaker grooves on the rake face of the cutting plate cannot be designed in any desired manner either, for example in a curve shape, or such that they only run over part of the rake face; on the contrary, they must run uniformly and rectilinearly over the entire rake face, since otherwise the ejection of the cutting plate from the die would not be possible.
Further disadvantages of this “upright” production of the cutting plates are excessive pressing or even inadequate compaction at exposed points of the cutting plate. Furthermore, exact rounded portions in the corner region between end cutting edge and lateral supporting edge, as would be desirable for strength reasons for this cutting-tip part subjected to extreme stress, likewise cannot be produced solely by pressing. Such rounded portions without disturbing sharp-edged transition regions could only be produced by grinding, which cannot be tolerated for reasons of cost.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide a method of pressing a cutting tip and a cutting plate produced by the method, which overcomes the above-mentioned disadvantages of the heretofore-known devices and methods of this general type and which the aforesaid disadvantages of the “upright” production process are avoided.
With the foregoing and other objects in view there is provided, in accordance with the invention, a method of pressing a cutting plate for a drill bit, which comprises the following steps:
providing a die, a top punch, and a bottom punch defining therebetween a die space for forming the cutting plate with at least one end cutting edge running from a periphery to an axis of rotation of the drill bit and at least one lateral supporting edge having a flank for supporting on a wall of a drill bore;
placing powdery starting material in the die space and pressing the starting material between the top punch and the bottom punch substantially transversely to the axis of rotation of the drill bit and substantially parallel to the flank of the lateral supporting edge.
In other words, the objects of the invention are achieved in that the relative movement of top punch and bottom punch with respect to the die is effected essentially in the transverse direction of the cutting plate parallel to the flank(s) of the lateral supporting edge(s).
In this way, the cutting plate is pressed essentially in a “horizontal” position, which means that the pressed part, in this case, lies in the die in such a way as to be inclined by the clearance angle of the flanks of the lateral supporting edges. A pressed part in which the positive rake angle extends without an undesirable negative bevel directly up to the transition between rake face and cutting edge can thus be produced. Since the chip breaker groove in the method according to the invention is formed with the top and bottom punches and not by the shape of the die as in the known “upright” method, the chip breaker groove may assume any desired shape without ejection problems from the die occurring. The chip breaker groove may have any desired curve shape, may extend only over part of the rake face and may also have any desired prominences and recesses on the root of the chip breaker groove. The shape of the chip breaker groove is therefore no longer predetermined and restricted for reasons related to the pressing but can be produced without restrictions with the shape desired for an optimum cutting capacity.
Furthermore, excess pressing or inadequate compaction at exposed points of the cutting plate, as often occurs in the “upright” pressing method, is definitely avoided.
Since the lateral flanks of the cutting plate and the flanks of the end cutting edges are formed by the die in the method according to the invention, the clearance angles of these flanks are directly related to one another.
With the above and other objects in view there is also provided, in accordance with the invention, a cutting plate for a drill bit having a defined axis of rotation, comprising:
a cutting plate body produced according

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