DE102011082732A1 - Drilling tool has centering element that is fixed to base portion under direct or indirect action of two radially arranged cutting elements in splinter grooves - Google Patents

Abstract

The drilling tool has a drill bit (10) provided with a base portion (11). The splinter grooves (16,17) are arranged in the base portion. The stationary cutting elements (12',12'',14',14'') are provided with an effective face cutting edges (18',18'',20',20''). The front central recess of the base portion is engaged with centering element (34). The centering element is fixed to base portion under the direct or indirect action of the two radially arranged cutting elements (12'',14'') in the splinter grooves.

Description

The invention relates to a drilling tool with a preferably a drill bit having base body, arranged with two circumferentially at a defined angular distance from one another in the body flutes, each with at least one arranged in the flutes and there detachably fixed to the body, with an effective end cutting axially over the body protruding Cutting element and with an engaging in an end-side central recess, axially projecting beyond the base centering. If, in the following, the basic body is mentioned, it is basically also possible to form this two-part consisting of a shank and a drill bit.

Drilling tools of this type are intended for use in machine tools. The cutting elements are formed there mainly as indexable inserts. Likewise, the centering element is arranged interchangeable in the frontal central recess. It is known with drills of this type to fix the centering element, also referred to as centering drill, centering spade or drill bit, to the base body by means of a locking screw ( DE-103 14 809 A1 ). Optionally, there is additionally provided an adjusting screw which can be screwed into the base body obliquely for the axial adjustment of the centering element. This type of attachment of the centering is relatively expensive and leads to an undesirable weakening of the body.

Proceeding from this, the present invention seeks to make provisions that allows easier fixation of the centering on the body without the use of an additional locking screw.

To solve this problem, the feature combination specified in the claim is proposed. Advantageous embodiments and modifications of the invention will become apparent from the dependent claims.

The inventive solution is based on the idea that the centering element under the direct or indirect action of at least one of the two radially innermost, arranged in the flutes cutting elements can be fixed non-positively in the body.

A preferred embodiment of the invention provides that in the base plate insert seats are arranged, that the cutting elements are clamped in the insert seats with support on the bottom and flanks of the insert seats on the base body and that the centering element facing inner edges of the radially innermost insert seats under the action of the associated Cutting elements are spread elastically in the direction of centering and pressed against diametrically opposite outer surface portions of the centering. The radially innermost cutting elements are expediently designed as perforated plates, which are clamped by means of a preferably designed as countersunk screw clamping screw with a directed against the inner edges misalignment in the associated insert seats so that there is an elastic spreading of the inner edges in the direction of the diametrically opposite outer surface portions of Centering comes. In order to reliably fix the centering element in the central recess, it is proposed according to a further advantageous embodiment of the invention that the inner flanks of the radially innermost plate seats in the expanded state form a positive connection with the outer surface sections directed against the extension direction of the centering element. The centering element is rotatably arranged in the central recess. This is expediently likewise effected via the inner flanks bearing against the outer surface sections of the centering element. The centering element can be provided with drill bits for drilling into the full. Advantageously, the centering element is designed as a replaceable cutting body or indexable insert.

According to a further advantageous embodiment of the invention, at least two substantially radially arrayed, equipped with cutting elements insert seats are expediently arranged in the flutes, the effective end cutting the radially outermost cutting elements to form a double cutter in the region of their outer corner cutting each other at least partially overlapping areas of action and together with radially adjacent secondary cutting edges protrude radially beyond the main body. Furthermore, it is advantageous if the radially outer cutting elements have different radial dimensions in the region of their effective end cutting edges, wherein the larger of the two outer cutting elements overlaps with its effective end cutting a portion of the effective range of the adjacent to the smaller of the radially outer cutting elements inwardly cutting element. With these measures it is achieved that even with the occurrence of gaps between the immediately adjacent cutting elements to a trouble-free chip removal with high chip removal capacity.

A further improvement in the common chip removal of the two cutting element groups is achieved in that the two radially inner cutting elements in the region of their effective end cutting different radial Having areas of action, wherein one of the radially inner cutting elements overlaps with its effective end cutting a portion of the effective range of the other of the radially inner cutting elements outwardly adjoining cutting element.

In this construction, however, it should be noted that the two radially outer cutting elements may have different corner angles or corner radii between the effective end cutting edge and the adjacent secondary cutting edge in the area of their corner blades projecting radially beyond the base body. In order to be able to set a defined drill diameter in this case, it is proposed according to a preferred embodiment of the invention that the outer cutting element with the larger corner angle or corner radius has a slightly larger circle diameter than the cutting element with the smaller corner angle or corner radius.

In principle, it is possible that the cutting elements in the region of their effective end cutting individually and / or in pairs have different angles of attack, deflection and / or Axialversätze compared to the main body. With these measures, the radial displacement of the drilling tool can be varied and adjusted during the drilling process. In the case of Axialversatzes, it is advantageous if the radially outer cutting element with the larger corner angle or corner radius has a positive axial offset relative to the outer cutting element with the smaller corner angle or corner radius.

Advantageously, the radially outer and the radially inner cutting elements in the region of their effective end cutting alternately same radial dimensions. It is thus basically possible to make a plate change crosswise between inside and outside. On the other hand, it is also conceivable that the radially outer and the radially inner cutting elements have different outline geometries. The cutting elements are expediently selected from the group of triangular plates, trigon plates, square plates, rhombic plates, parallelogram plates, rectangular plates.

A preferred embodiment of the invention provides that the individual flutes associated cutting elements are arranged at equal angular intervals from each other rotationally symmetrical in the main body.

In the following the invention will be explained in more detail with reference to the drawing. Show it

1a to c a drill bit of a drilling tool in a diagrammatic view, a side view and a plan view;

2 a side view of a drilling tool with drill bit to 1a to c;

3a and b is a detail of the drill bit in a partially sectioned view before and after the attachment of the cutting elements and the centering in opposite 1a to c magnification.

In the 1 to c shown drill bit 10 belongs to a drilling tool 1 that accordingly 2 from a shaft 2 and the front side with the shaft 2 positively and non-positively connected drill bit 10 consists. In principle it is also possible to use the drill bit 10 forming a one-piece body 11 with the shaft 2 connect to.

The drill bit 10 is part of a double-edged solid drill, which is similar to a twist drill, but with interchangeable cutting elements. Double cutters, also known as double cutters, are designed for large chip rates with high feed rates. The drilling tool 1 has two in the circumferential direction at a defined angular distance from each other arranged flutes 16 . 17 on, in which in the embodiment shown in each case two substantially radially arrayed cutting elements 12 ' . 12 '' . 14 ' . 14 '' are arranged. The cutting elements stand with the effective end cutting edges 18 ' . 18 '' . 20 ' . 20 '' axially over the body 11 over, with the effective end cutting 18 ' . 20 ' the radially outer cutting elements 12 ' . 14 ' forming a double cutter in the area of its outer corner cutting 26 . 28 have at least partially overlapping areas of action and together with substantially axially adjoining secondary cutting edges 30 . 32 radially over the body 11 survive. The cutting elements are formed as indexable inserts, which in plate seats 22 ' . 22 '' . 24 ' . 24 '' of the basic body 11 are placed. The cutting elements are positioned both on the bottom side and on the effective front cutting inconvenient cutting edges in the insert seats and by means of clamping screws 27 at the base body 11 recorded.

In the center of the main body 11 is an axially projecting, designed as a centering centering 34 arranged with drill bits 36 is provided for drilling into the full, and which is formed in the embodiment shown as interchangeable cutting body, which in a central receptacle 38 of the basic body 11 is used. A special feature of the invention is that the centering element 34 under the influence of the two radially innermost, in the flutes 16 . 17 arranged cutting elements 12 '' . 14 '' non-positively in the body 11 is fixed. In the embodiment shown, the fixing of the centering element takes place 34 indirectly via the inner flanks 25 the radially innermost insert seats 22 '' . 24 '' , which are under the action of the associated cutting elements 12 '' . 14 '' elastic from the in 2a shown position by the angle α in the direction of centering 34 be bent up and according to 2 B against diametrically opposite outer surface portions 35 of the centering element 34 be pressed with the forces F1 and F2. The spreading of the inner flanks 25 takes place in that the cutting elements 12 '' . 14 '' are designed as perforated plates with the trained as countersunk screws clamping screws 27 with one against the inner flanks 25 directed axial offset e in the associated insert seats 22 '' . 24 '' be clamped so that they are in the direction of centering 34 to be moved. The axial offset e of the screw hole 33 the cutting elements 12 '' . 14 '' to the plate seat is in 3a and b are drawn. The spreading of the inner flanks 25 is in the embodiment shown by a predetermined bending point 29 relieved at the foot of the inner flanks. The mutually facing, mutually complementary outer contours of the inner edges 25 and the outer surface portions 35 are formed so that in the spread state, a counter to the extension direction of the centering 34 directed positive connection between the centering element 34 and the body 11 consists ( 3b ).

Like from the 1a to c can be seen, the two radially outer cutting elements 12 ' . 14 ' in the area of their effective frontal cutting 18 ' . 20 ' different radial dimensions, wherein the larger of the radially outer cutting elements 12 ' with its effective frontal cutting edge 18 ' a portion of the area of action of the smaller of the radially outer cutting elements 14 ' inwardly adjoining cutting element 14 '' overlaps. The double cutter executes two cutting operations with its two cutting rows in one complete revolution, with the one restriction that in the gap region between two directly adjacent cutting elements only one cutting operation is carried out by the respective overlapping cutting edge. Since the gaps are relatively small, this leads to no significant reduction in performance.

A further improvement in this regard is achieved in that the two radially inner cutting elements 12 '' . 14 '' have in the region of their effective end cutting different radial action areas, wherein the larger of the radially inner cutting elements 14 '' with its effective end cutting a portion of the effective range of the smaller of the radially inner cutting elements 12 '' outwardly adjoining cutting elements 12 ' overlaps. This ensures that even the more inward gaps are overlapped when turning the tool by 180 ° from an effective end cutting.

In the case of the double cutters according to the invention, care must be taken that the two radially outer cutting elements 12 ' . 14 ' in the region of their over the base body protruding corner cutting 26 . 28 usually different corner angles or corner radii between the effective end cutting edge 12 ' . 14 ' and a neighboring minor cutting edge 30 . 32 exhibit. In order to avoid disturbances in the generation of a given bore diameter, it is proposed here that the outer cutting element 12 ' with the larger corner angle or corner radius a slightly larger circle diameter than the cutting element 14 ' having the smaller corner angle or corner radius.

For setting a predetermined Radialabdrängung the drill 1 it is advantageous if the cutting elements 12 ' . 12 '' . 14 ' . 14 '' in the area of their effective frontal cutting 18 ' . 18 '' . 20 ' . 20 '' individually and / or in pairs different angles of attack, deflection angle and / or Axialversätze compared to the main body 11 exhibit. In principle, it is advantageous in this case if the radially outer cutting element 12 ' with the larger corner angle or corner radius a positive (leading) axial offset relative to the radially outer cutting element 14 ' having the smaller corner angle or corner radius.

In the embodiment shown in the drawing, the radially outer cutting elements 12 ' . 14 ' and the radially inner cutting elements 12 '' . 14 '' in the area of their effective frontal cutting 18 ' . 20 '; 18 '' . 20 '' alternately same radial dimensions. In principle, it is therefore possible to exchange the inner and outer cutting elements in the course of the change process crosswise against each other.

Furthermore, it is possible that the radially outer and the radially inner cutting elements have different outline geometries. Although not shown in the drawing, it is noted that the cutting elements 12 ' . 12 '' . 14 ' . 14 '' for example, from the group of triangular plates, trigon plates, square plates, rhombic plates, parallelogram-shaped plates, rectangular plates can be selected.

In summary, the following should be noted: The invention relates to a drilling tool 1 with a preferably a drill bit 10 having basic body 11 , with two circumferentially in a defined angular distance from each other in the body 11 arranged flutes 16 . 17 , With in each case at least one in the flutes 16 . 17 arranged and there releasably on the body 11 fixed, with an effective end cutting axially over the body 11 protruding cutting element 12 ' . 12 '' . 14 ' . 14 '' and with a in a frontal central recess 38 of the basic body 11 engaging, axially projecting beyond the base centering 34 , A special feature of the invention is seen in that the centering element 34 under the direct or indirect action of the two radially innermost, in the flutes 16 . 17 arranged cutting elements 12 '' . 14 '' non-positively in the body 11 is fixed.

LIST OF REFERENCE NUMBERS

1

drilling

2

shaft

10

drill bit

11

body

12 ', 12' ', 14', 14 ''

cutting elements

16, 17

flutes

18 ', 18' ', 20', 20 ''

face cutting

22 ', 22' ', 24', 24 ''

insert seats

25

inner flanks

26, 28

corner blades

27

clamping screw

29

Predetermined bending point

30, 32

Besides cutting

33

screw

34

centering

35

Outer surface portions

36

drill bits

38

central opening

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 10314809 A1 [0002]

Claims (16)

Drilling tool with a preferably a drill bit ( 10 ) having basic body ( 11 ), with two in the circumferential direction at a defined angular distance from each other in the body arranged flutes ( 16 . 17 ), each with at least one in the flutes ( 16 . 17 ) arranged there and releasably on the base body ( 11 ), with an effective end cutting edge ( 18 ' . 18 '' . 20 ' . 20 '' ) axially over the body ( 11 ) projecting cutting element ( 12 ' . 12 '' . 14 ' . 14 '' ) and with at least one in a frontal central recess ( 38 ) of the basic body ( 11 ) engaging, axially over the body ( 11 ) projecting centering element ( 34 ), characterized in that the centering element ( 34 ) under the direct or indirect action of at least one of the two radially innermost, in the flutes ( 16 . 17 ) arranged cutting elements ( 12 '' . 14 '' ) non-positively in the body ( 11 ) is fixed. Drilling tool according to claim 1, characterized in that in the base plate insert seats ( 22 ' . 22 '' . 24 ' . 24 '' ) are arranged, that the cutting elements ( 12 ' . 12 '' . 14 ' . 14 '' ) supported on the bottom and flanks of the insert seats on the base body ( 11 ) are clamped, and that the centering element ( 34 ) facing inner edge ( 25 ) at least one of the radially innermost insert seats ( 22 '' . 24 '' ) under the action of the associated cutting element ( 12 '' . 14 '' ) elastically in the direction of centering element ( 34 ) and against an outer surface section ( 35 ) of the centering element ( 34 ) is pressed. Drilling tool according to claim 2, characterized in that formed as a perforated plate, at least one inner cutting element ( 12 '' . 14 '' ) by means of a preferably designed as a countersunk screw clamping screw ( 27 ) with one against the inner flank ( 25 ) aligned axial offset (s) in the associated insert seat ( 22 '' . 24 '' ) is clamped so that the thereby elastically spread internal flank ( 25 ) against the outer surface portion of the centering element ( 34 ) is pressed. Drilling tool according to claim 2 or 3, characterized in that the inner edge ( 25 ) of the radially innermost insert seat ( 22 '' . 24 '' ) in the pressed state one against the extension direction of the centering element ( 34 ) formed positive fit with the outer surface portion forms. Drilling tool according to one of claims 1 to 4, characterized in that the centering element ( 34 ) rotatably in the central recess ( 38 ) is arranged. Drilling tool according to one of claims 1 to 5, characterized in that the inner edge ( 25 ) of the at least one inner insert seat ( 22 '' . 24 '' ) a spreading that favors, preferably designed as a material dilution predetermined bending point ( 29 ) having. Drilling tool according to one of claims 1 to 6, characterized in that the centering element ( 34 ) facing inner edges ( 25 ) of the radially innermost insert seats ( 22 '' . 24 '' ) under the action of the associated cutting elements ( 12 '' . 14 '' ) against diametrically opposed outer surface portions ( 35 ) of the centering element are pressed. Drilling tool according to one of claims 1 to 7, characterized in that in the flutes ( 16 . 17 ) at least two substantially radially arrayed, with cutting elements ( 12 ' . 12 '' . 14 ' . 14 '' ) equipped insert seats ( 22 ' . 22 '' . 24 ' . 24 '' ) are arranged so that the effective end cutting ( 18 ' . 20 ' ) of the radially outermost cutting elements ( 12 ' . 14 ' ) forming a double cutter in the area of its outer corner cutting edges ( 26 . 28 ) have at least partially overlapping area of action and together with substantially axially adjoining secondary cutting edges ( 30 . 32 ) radially over the body ( 11 ) and that the radially outer cutting elements ( 12 ' . 14 ' ) in the region of their effective face cutting edges ( 18 ' . 20 ' ) have different radial dimensions, wherein the larger of the outer cutting elements with its effective end cutting a portion of the effective range of the smaller of the radially outer cutting elements ( 14 ' ) inwardly adjacent cutting element ( 14 '' ) overlaps. Drilling tool according to claim 8, characterized in that the two inner cutting elements ( 12 '' . 14 '' ) in the region of their effective face cutting edges ( 18 '' . 20 '' ) have different radial areas of action, wherein the larger of the radially inner cutting elements ( 14 '' ) with its effective end cutting edge ( 20 '' ) a portion of the effective area of the to the smaller of the radially inner cutting elements ( 18 '' ) outwardly adjoining cutting element ( 18 ' ) overlaps. Drilling tool according to claim 8 or 9, characterized in that the two radially outer cutting element ( 12 ' . 14 ' ) in the region of their radial over the main body ( 11 ) projecting corner cutting ( 26 . 28 ) different corner angles or corner radii between the effective end cutting edge ( 18 ' . 20 ' ) and the adjacent secondary cutting edge ( 30 . 32 ) exhibit. Drilling tool according to one of claims 1 to 10, characterized in that the Cutting elements ( 12 ' . 12 '' . 14 ' . 14 '' ) in the region of their effective end cutting edges individually and / or in pairs different angles of attack, deflection angle and / or axial offsets relative to the main body ( 11 ) exhibit. Drilling tool according to one of claims 1 to 11, characterized in that the cutting elements ( 12 ' . 12 '' . 14 ' . 14 '' ) are formed as indexable inserts. Drilling tool according to one of claims 1 to 12, characterized in that the radially outer cutting elements ( 12 ' . 14 ' ) and the radially inner cutting elements ( 12 '' . 14 '' ) in the region of their effective face cutting edges ( 18 ' . 20 ' . 18 '' . 20 '' ) have alternately the same radial dimensions. Drilling tool according to one of claims 1 to 13, characterized in that the cutting elements from the group of triangular plates, trigon plates, square plates, rhombic plates, parallelogram-shaped plates, rectangular plates are selected. Drilling tool according to one of claims 1 to 14, characterized in that the centering element ( 34 ) with drilling edges ( 36 ) is provided for drilling in full. Drilling tool according to one of claims 1 to 15, characterized in that the centering element ( 34 ) is a replaceable cutting body or an indexable insert.

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