EP0855257A2 - Drill with cylindrical head - Google Patents

Abstract

The drill's (1) main blade (4) with centring point (5) has free-cut surfaces (11) and extends over the entire circular cross-section of the drill-head (3). Slanting drilling-dust ducts (7) penetrate the drill head and are open towards the edge next to the main blade. Each end of the main blade adjoins a pre-cutting edge (8) coinciding with the peripheral line of the drill-head. The pre-cutting edge extends as far as the edge of the outer drilling-duct, and is formed by the edge of a cylindrical outer wall (6) of the drilling head. The otherwise smooth outer casing wall is broken up by radial outward bulges (13) interspersed by grooves (12) sloping towards the axis or parallel with the axis.

Description

The invention relates to a cylinder head drill, for example Forstner drills, art drills or the like with an essentially diametrically over the entire circular cross section of the drill head, Main cutting edge with free cutting surfaces with centering tip and adjoining the main cutting edge, open towards the edge, penetrating the drill head at an angle Chip channels, with each end of the main cutting edge one coinciding with the circumferential line of the drill head Pre-cut edge connects, for only guidance the pre-cut edge to the edge of the other chip channel and which the Edge of an essentially cylindrically curved Shell wall of the drill head is.

Such cylinder head drills are known. For example in DE-PS 41 15 030 in one piece Solid material worked out cylinder head drill specified, with one carried by a clamping shaft Drilling head, which with a centering tip and two Circumferential cutting with two approximately radial ones Main cutting is seen. The two main edges chip channels are assigned to the peripheral surface and open to the rear face of the drill head are. Each chip channel base is rounded and curved goes smoothly both in the rake face of the assigned Main cutter as well as in this rake face opposite chip channel side wall over. Are further so-called ring hole cutter known for chip removal Have chip channels on the outer wall of the drill head.

In view of the prior art described above becomes a technical problem of the invention seen in it a generic cylinder head drill so improved to design that the drill head less heated when drilling.

This problem is first and foremost with Subject of claim 1 solved, with reference to it is that the otherwise smooth-walled jacket wall is interrupted by radial bulges. These radial bulges open up space created, which serve to cool the drill head. Chip removal takes place in a known manner via the Chip channels arranged centrally in the drill head. On the contrary to the mentioned ring hole cutters radial bulges in the casing wall of the drill head not for chip removal. So these bulges can for example on the front and back of the drill head, in Considered the axial direction, form closed free spaces. An embodiment is preferred in which the Bulges are mantle wall depressions. Through this Shell wall recesses are used to cool the drill head desired free space created during drilling. This Shell wall recesses can be in the form of impressions or cutouts. According to the invention provided that the jacket wall recesses to the axis Form grooves parallel or inclined to the axis. This Grooves can, for example, by means of a end mill or the like from the otherwise smooth-walled Cladding wall to be worked out. Because of this, that the jacket wall recesses only for cooling serve the drill head, these can also be parallel to Be aligned axis of rotation of the cylinder head drill. However, an embodiment is preferred in which the grooves formed are inclined to the drilling axis.

It is also proposed that the grooves have a rectangular or circular cross section. Will continue suggested that the grooves be open on both sides are. According to the invention, the cylinder head drill Made in one piece from solid material will. The for heat dissipation of the drill head serving grooves are preferably milled out. It is also provided that the pre-cut edge training, arch-shaped pre-cutter one has a wedge-shaped cross-sectional shape, that of a formed on the back of the shell wall hollow surface is. The jacket wall recesses according to the invention preferably extend to the pre-cut edge, which is due to the wedge-shaped cross-sectional shape of the arched running pre-cutter tooth-like pre-cutter segments be cut free. Due to the tooth gap-like Structure of the pre-cut edge is also counteracting heating of the drill head during drilling. It is also advantageous that the free cut surfaces The main cutting edge levels are that, in essence cut the respective hollow surface at right angles. The aforementioned openings open into these cut-out areas Chip channels of the cylinder head drill. In an advantageous Training is provided that the pre-cut edge in the area between two neighboring ones Grooves have a free cut. The tooth gap-like Pre-cut edge sets due to this training during the drilling process only point by point on the one to be processed Workpiece on. Through the selected free cut in the area of a cut free between two adjacent grooves Pre-cut tooth is an improved one Cutting property in the area of the pre-cut edge and secondly given less warming. In an alternative embodiment of the subject matter of the invention it is intended that the bulges from radial protruding tooth sections of individual teeth are. These individual teeth are wall-outer arranged of the drill head and form the pre-cut edge. Due to the radially protruding arrangement of the individual Teeth are preferably axially aligned between them Freedom created. For this purpose, it is further provided that the individual teeth are made of hard material and in receiving pockets of the drill head with radial and axial protrusion are soldered. The cylinder head drill is consequently in successive operations produced. First, the drill head is with its main cutting edge and the one that penetrates the drill head at an angle Chip channels in one piece from solid material worked out. This is followed by an insertion of Single teeth in, in the cylindrically curved wall integrated pockets and soldering of the drill head and individual teeth. The pockets are dimensioned such that the individual teeth used both with radial as well as axial projection on the Drill head are fixed. Because of the axial projection the pre-cut edge is formed. Due to the radial projection the single tooth is between two neighboring ones Individual teeth created a free space. Otherwise is thus smooth-walled jacket wall of the drill head interrupted by the protruding individual teeth. This has less heating of the drill head during the drilling process. Finally it turns out it is advantageous that the receiving pockets one dovetail-shaped cross section for each have a single tooth. By this measure is a simple way to pre-fix the individual teeth given on the drill head, this without additional fasteners in the form of wires or the like. The individual teeth have a cross section of the receiving pocket corresponding cross-section, whereby after Insert a single tooth with a wall clearance in the receiving bag lies in. In the space thus formed can be after heating the pre-assembled The silver solder used for final fixation of the individual teeth.

Fig. 1

einen erfindungsgemäßen Zylinderkopfbohrer in Form eines Forstner-Bohrers, in perspektivischer Darstellung, eine erste Ausführungsform betreffend;

Fig. 2

den Forstner-Bohrer gemäß Fig. 1 in einer Seitenansicht;

Fig. 3

den Forstner-Bohrer in einer Stirnansicht;

Fig. 4

den Längsschnitt durch den Forstner-Bohrer gemäß der Linie IV-IV in Fig. 3;

Fig. 5

einen erfindungsgemäßen Forstner-Bohrer in einer Seitenansicht, eine zweite Ausführungsform betreffend;

Fig. 6

die Stirnansicht auf den Forstner-Bohrer gemäß der Ausführungsform in Fig. 5;

Fig. 7

den Längsschnitt gemäß der Linie VII-VII in Fig. 6;

Fig. 8

in einer dritten Ausführungsform die Seitenansicht auf einen mit Einzelzähnen bestückten Forstner-Bohrer;

Fig. 9

die Stirnansicht auf den Forstner-Bohrer gemäß der Ausführungsform in Fig. 8;

Fig. 10

den Längsschnitt gemäß der Linie X-X in Fig. 9.

The invention is explained in more detail below with the aid of the attached drawing, which, however, only represents several exemplary embodiments. It shows:

Fig. 1

a cylinder head drill according to the invention in the form of a Forstner drill, in a perspective view, relating to a first embodiment;

Fig. 2

the Forstner drill according to Figure 1 in a side view.

Fig. 3

the Forstner drill in a front view;

Fig. 4

the longitudinal section through the Forstner drill along the line IV-IV in Fig. 3;

Fig. 5

a Forstner drill according to the invention in a side view, relating to a second embodiment;

Fig. 6

the front view of the Forstner drill according to the embodiment in Fig. 5;

Fig. 7

the longitudinal section along the line VII-VII in Fig. 6;

Fig. 8

in a third embodiment, the side view of a Forstner drill equipped with individual teeth;

Fig. 9

the front view of the Forstner drill according to the embodiment in Fig. 8;

Fig. 10

the longitudinal section along the line XX in Fig. 9th

Is shown and described initially with reference to Fig. 1 designed as a Forstner drill cylinder head drill 1, which essentially consists of a Clamping shank 2 and a drill head carried by this 3 composed. The latter is essentially circular cylindrical and has an essentially diametrically over the entire circular cross-section extending main cutting edge 4 with a centering tip 5.

The main cutting edge 4 is through the centering tip 5 interrupted, with each major cutting section 4 'and 4' 'towards the outer wall 6 of the drill head 3 Open chip channel penetrating the drill head 3 at an angle 7 connects.

Each outer wall end of the main cutting edge 4 one closes with the circumference of the drill head 3 coincident pre-cut edge 8, which for Guidance of the drill 1 is used. Each pre-cut edge 8 extends from the end of the main cutting edge 4 to to the edge of the other chip channel 7. Conditional due to the essentially circular cylindrical design the drill head 3 thus result in a cylindrical shape curved pre-cut edges 8.

The rear of the jacket wall 6 is assigned in each case a pre-cut edge 8 a hollow surface 9 is formed. This results in one, the pre-cut edge 8 forming, arcuate roughing cutter 10 with a wedge-shaped cross-sectional shape (cf. Fig. 4).

The main cutting edge 4 or the main cutting edge sections 4 'and 4' 'have free cut surfaces 11, which are flat and continuously up to the hollow surface 9 of each in the direction of rotation following pre-cutter 10, the open spaces 11 with respect to a transverse plane of the Drill head 3 inclined by an angle of approx. 30 ° each are.

The chip channels 7 have an arcuate rounded Chip channel base. Each chip channel 7 projects into the drill head its associated main cutting edge section 4 ' and 4 ''. The arched chip channel base protrudes here to the free area 11 of the other main cutting edge section inside.

The planes of the free cut surfaces 11 essentially cut the respective hollow surface 9 in a right Angle.

The otherwise smooth-walled jacket wall 6 is in the 1 to 4 shown first embodiment interrupted by grooves 12 of circular arc shape in cross section. As a result, radial bulges 13 are formed, which in this first embodiment Form shell wall recesses.

The grooves 12 are, for example, by means of one Finger cutter or the like in the jacket wall 6 incorporated, the orientation of the grooves 12 so can be chosen to be parallel to the drill axis run x-x. However, as can be seen in particular in FIG. 2, an orientation is preferred in which the Grooves 12 are aligned inclined to the axis x-x. By doing The embodiment shown here is an angle alpha of approx. 20 °.

The grooves 12 are open on both sides, that means they extend in the axial direction considered total drill head height, which is due to the wedge-shaped cross-section of the pre-cutter 10 isolated, tooth-like pre-cutter segments 14 train. In the area of the penetration of grooves 12 and pre-cutters 10 are elliptical Open cuts 15.

Furthermore, each pre-cut edge 8 is in the area between two adjacent grooves 12, that is in the area of one Pre-cutting segment 14 provided with a free cut 16, with which the pre-cut edges 8 only selectively touch the workpiece to be machined.

Through the grooves 12 machined into the jacket wall 6 the advantageous effect is achieved that the Forstner drill 1 warmed less during drilling. Continue the separation of Pre-cutter segments 14, which are preferably also with Open cuts 16 are provided, advantageously on the Heat development.

5 to 7 is in a second embodiment a Forstner drill 1 is shown, which is the same the first embodiment with bulges 13 in Form of grooves 12 provided in the region of the jacket wall 6 is. However, here is an essentially rectangular one Cross-sectional shape of the grooves 12 selected. Are further the grooves 12 aligned parallel to the drill axis x-x.

These grooves 12 are also open on both sides, which in turn is in the area of the pre-cut edges 8 isolated, tooth-like pre-cutter segments 14 train. Here too, due to the im Cross-section wedge-shaped design of the pre-cutter 10, Free cuts 15 formed.

In the two previously described embodiments the bulges 13 and grooves 12 are continuous, that means open on both sides. It However, versions are also conceivable in which the Bulges 13 closed on one or both sides are trained. The bulges 13 and grooves 12 only serve to reduce the heat development in the area of the drill head 3 and not for chip evacuation. The latter takes place over the essentially centrally arranged Chip channels 7. This can result in the formation and alignment of the bulges 13 freely chosen will.

A third embodiment of the invention Solution is shown in FIGS. 8 to 10. opposite the previously described embodiments are here the jacket wall 6 of the drill head 3 is not groove-like Bulges interrupted. Rather is training chosen here so that the bulges 13 from radial protruding tooth sections of individual teeth 17 are formed are. Accordingly, the jacket wall 6 is not of Depressions but interrupted by protrusions.

The individual teeth 17 consist of a hard material and are accommodated in pockets 18 of the drill head 3.

The receiving pockets 18 are in the radial outside area the pre-cutter 10 for the outer casing wall and End face of the drill head 3 is open, and have a dovetail-shaped cross section. The individual teeth 17 have an insertion cross section the receiving pockets 18 adapted cross-section on. The axial length and the radial depth each receiving pocket 18 is selected so that a inserted single tooth 17 with radial projection a and axial projection b is supported.

Due to the dovetail cross sections enables pre-assembly. For this, the single teeth 17 in the corresponding pockets 18 of the Pre-cutter 10 forming jacket wall 6 inserted. Then the pre-assembled unit is heated, with what a silver solder ultimately establishing the connection in the spaces between the single tooth wall and the receiving pocket wall can flow in.

Form the individual teeth 17 fixed to the drill head 3 in this way together the only the guidance of the drill 1 serving pre-cutter 10.

Due to the radial projection a 10 radial between two adjacent individual teeth Free zones 19, which serve the same purpose as that Grooves 12 of the two previously described embodiments. The free zones 19 formed have an effect the heat development of the drill head 3 at Drilling process positive. This effect is still there supports that serving as pre-cutter

Individual teeth 17 are pointed at the front and thus form a pre-cutter, which only punctually hits the workpiece to be machined.

All the features disclosed are essential to the invention. In the disclosure of the application also becomes the content of the disclosure the associated priority documents (transcript the pre-registration) is fully included, also for the purpose of characteristics of this document in To include claims of the present application.

Claims (11)

Cylinder head drills (1), for example Forstner drills, Artificial drill or the like with an essentially diametrically over the entire circular cross-section of the drill head (3) extending, free-cutting surfaces (11) having main cutting edge (4) with centering tip (5) and adjoining the main cutting edge (4), open towards the edge, penetrating the drill head (3) at an angle Chip channels (7), with each end of the main cutting edge (4) one with the circumference of the drill head (3) adjoining pre-cut edge (8), for only guiding the drill (1), which pre-cut edge (8) to the edge of the other chip channel (7) is enough and which is the edge of one in substantially cylindrical curved jacket wall (6) of the Drilling head (3), characterized in that the otherwise smooth-walled jacket wall (6) by radial Bulges (13) is interrupted. Cylinder head drill according to claim 1 or in particular afterwards, characterized in that the bulges (13) Wall wall recesses are. Cylinder head drill according to one or more of the preceding claims or in particular according thereto, characterized in that the jacket wall recesses grooves parallel to the axis or inclined to the axis (12) form. Cylinder head drill according to one or more of the preceding claims or in particular according thereto, thereby characterized in that the grooves (12) have a rectangular or circular arc cross-section. Cylinder head drill according to one or more of the preceding claims or in particular according thereto, characterized in that the grooves (12) on both sides are open. Cylinder head drill according to one or more of the preceding claims or in particular according thereto, characterized in that the pre-cut edge (8) forming pre-cutters (10) has a wedge-shaped cross-sectional shape that of a hollow surface on the back of the jacket wall (6) (9) is formed. Cylinder head drill according to one or more of the preceding claims or in particular according thereto, characterized in that the free cut surfaces (11) The main cutting edge (4) are levels that are essentially cut the respective hollow surface (9) at right angles. Cylinder head drill according to one or more of the preceding claims or in particular according thereto, characterized in that the pre-cut edge (8) in Area between two adjacent grooves (12) Has free cut (16). Cylinder head drill according to one or more of the preceding claims or in particular according thereto, characterized in that the bulges (13) of radially projecting tooth sections of individual teeth (17) are formed. Cylinder head drill according to one or more of the preceding claims or in particular according thereto, characterized in that the individual teeth (17) Hard material exist and in Aufnähmetaschen (18) of the Drill head (3) with radial (a) and axial protrusion (b) are soldered. Cylinder head drill according to one or more of the preceding claims or in particular according thereto, characterized in that the receiving pockets (18) a dovetail-shaped cross section for each have a single tooth (17).

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