DE2140004A1 - COUNTERING AND MILLING TOOL - Google Patents

Description

Senknrad Eråswerkzeug The invention relates to a countersinking and milling tool, with an ing-shaped cutter head, on the circumference at least in one direction adjustably arranged cutting or cutting edge carrier are provided, which means at least one fastening screw in corresponding recesses in the cutter head are interchangeably attached.

The invention is based on the object of countersinking and milling tools of the generic type in such a way that the setting and handling their cutters or cutter carriers compared to the known countersinking and milling tools this type can be carried out even more advantageously.

According to the invention, this object is achieved in that the cutting edges or the cutter carriers within the recess receiving them, both axially and are adjustable in the radial direction of the cutter head, these at least for radial adjustment on the wedge surface of one in which the cutter carrier is received Recess adjustable and lockable arranged adjusting wedge to lie.

Tools according to the invention for countersinking and milling are distinguished by this from the fact that they are extremely variable in the setting of the tool cutting edge are. The cutting edge adjustment can be carried out very easily by this the cutting the or their carrier in the corresponding recesses of the Cutter head of such tools after loosening the fastening screw both axially and can be adjusted radially. The use of at least one adjustable wedge for setting the tool cutting edge it enables the one on which the invention is based To solve the task constructively particularly advantageous.

Provided that individual knives in the recesses of the cutter head are used, on each of which a tool cutting edge molded is, the invention enables an adjustment to be carried out particularly quickly and precisely of the tool cutting edge to this in a common plane or on a common To fix the rotation or flight circle.

A universal setting of the tool cutting edge on the cutter head enables the invention when it is attached to a cutter carrier in a manner known per se removably attached, for example. Clamped or screwed to these. In this case it is possible by setting the cutter carriers in the recesses accordingly of the cutter head as well as by setting the cutting edges on the cutter carriers accordingly the most favorable machining angle for the individual machining case, in particular to be able to set the rake and clearance angle.

The invention thus allows the machining angle of the cutting edges to adapt to the materials to be machined and thus optimal tool life to reach. The cutting or

Knives can be made in all common materials, such as high-speed steel, Tungsten carbide, ceramic and the like., Are used.

As far as the cutter head itself is concerned, this can correspond to the respective manufacturing needs, e.g. B. with regard to the coming to be used Machine, can be designed in various ways. In particular, its spindle mount is can be produced in any desired design, e.g. B. with a cylindrical bore Longitudinal or transverse wedge drive, with a tapered bore and the like applies to cutting edges specially attached to corresponding cutter carriers, see above these can be designed in particular as triangular or square or shaped plates Cutting inserts be trained. You can also use a cutter head differently shaped cutting inserts are also used.

Are the adjustment mechanisms used to adjust the cutting edges of the cutter head only equipped with an adjusting wedge, it is suggested to design the adjusting wedges in such a way that they are approximately the axial length of the cutting edges respectively.

Cutter carriers have that they are parallel to the axis of the cutter head adjustable and with radial play in each case from the cutting edge or cutting edge carrier holding fastening screw are penetrated and that for axial adjustment of the The cutter holder has a set screw guided in the cutter head at its inner face is present. This construction allows, in particular, the circumference of the cutter carrier of the cutter head to be attached to this. It is favorable here if the adjustable wedges with the help of one on the one hand at one end of the face and on the other hand in the cutter head are adjustable with the help of their differential screw. Furthermore it is also possible to fasten the cutter carrier in the cutter head in such a way that its fastening screw is not visible on the periphery, which can be particularly advantageous if it is a cutter carrier seen in the radial direction of the cutter head are relatively narrow and therefore there is no possibility of a fastening screw in pass through the cutter carrier in the radial direction. In this case it is es (favorable, the fastening screw perpendicular to the longitudinal axis of the adjustment wedges to order in this case, an advantageous possibility of screw fastening offers when attaching the fastening screws to the individual cutting edges associated chip chambers are drilled out accordingly on the circumference of the cutter head.

In a preferred embodiment, the individual adjusters are wedges approximately half-round in cross-section and with their circular cylindrical Circumferential surface rotatably arranged in the cutter head recesses that accommodate them0 This cross-sectional shape of the adjustable wedges ensures that they, if they are loaded by the cutter carrier, each automatically in the cutter head recess Adjust so that the adjustment wedges and cutter carriers are properly aligned rest or an absolutely stable position of the cutter carrier to the cutter head is guaranteed is.

According to a further advantageous design variant, both for radial as well as axial adjustment of the cutter carriers in the cutter head An adjustable wedge It has proven particularly inconvenient when used as an adjustable wedge ¼! Lindrian sliding bushes are used, each with a + ifferential screw are axially adjustable and the circumference is arranged at an angle to its axis and have a flattened area which rests on the cutter carrier and forms the wedge surface. It is sufficient here if the radial adjustment of the individual cutter carriers effecting sliding sleeve rests only at the front end of the same. In this case a support screw can be inserted into the cutter carrier in the area of its rear end arranged be to ensure that the cutter carrier after radial adjustment in turn assume a position parallel to the axis of the cutter head in this. For this is the support screw after the radial adjustment of the corresponding sliding sleeve to be adjusted until the cutter carrier in question is again in this Location is located.

A particularly simple construction is available in this context, when both sliding bushings of the individual cutting edge carriers in the cutter head to the respective Adjustment direction of the cutting denträgers are obliquely adjustable such that their Axes enclose an obtuse angle.

Further advantages and details of the invention are evident from the following Description can be found in connection with the attached 2eichnang, 4n of Various embodiments of the countersink and milling tool according to the invention are shown are.

1 shows an end view of a first exemplary embodiment of a milling head according to the invention, FIG. 2 shows a partial longitudinal section of the milling head 1 along the line II-II in FIG. 1, FIG. 3 along a partial section the line III-III of Fig. 1, Fig. 4 is a partially shown Front view of a second exemplary embodiment of a milling head, FIG. 5 a partial section along the line V-V of FIG. 4, FIG. 6 shows a representation similar to FIG. 5, a construction variant an adjusting wedge for the radial adjustment of a cutter carrier of the milling head 7 shows a further design variant of a for radial adjustment of a Adjusting wedge serving for the cutter carrier, FIG. 8 is a view in the direction of the arrow A of the cutter carrier arrangement according to FIG. 7.

Fig. 1 shows a milling head equipped with exchangeable cutting edges, whose cutter head carrying the cutting edges is designated as a whole by 10. This The cutter head designed as an annular body has a cylindrical bore 12 for attachment on a work spindle with a circumferential groove 14 for the engagement of a Spring wedge is equipped. The cutter head is at equal angular intervals on its circumference in a manner known per se with recesses 16 for the use of cutting edges or

Provide cutter carriers. In the present embodiment are inserted into these recesses cutter carrier 18, which at her Head 20, for example, each have a cutting insert designed as a triangular shaped plate 22 wear, which by means of an Allen screw on the cutter head 20 possibly in different Positions can be fixed (see Fig. 2 and Fig. 5).

However, the cutting insert can also be soldered to the cutter carrier head or otherwise fastened in a suitable manner and also have a different circumferential shape. Finally, instead of a cutter carrier 18, a suitable one can also be used Cutting steel existing insert be used on which the cutting edge is formed is.

In the present exemplary embodiment, the cutter carriers 18 are - one disregards the cutter carrier head 20 - rectangular cross-section, the cutter head recesses 16 adapted accordingly to this cross-sectional shape are. The individual cutter carrier 18 is on the side of the cutter insert 22 on the circumference of the cutter head a chip chamber reaching up to its front face 24 provided. According to the invention, the individual cutter carriers 18 are in the cutter head recesses 16 steplessly adjustable both in the radial and in the axial direction of the cutter head arranged. Their attachment in a set position is done with the help of a Fastening screw 26 which penetrates the respective cutter carrier with radial play and in the embodiment according to FIGS. 1-3 essentially parallel to the End wall of the cutter head is arranged.

For the radial adjustment of the individual cutter carriers 18 is used inserted into this from the front face of the cutter head, as a whole with 28 designated sliding sleeve, the one Adjusting wedge forms, by having an oblique to its axis on its circumference and on the underside 30 of the cutter carrier has a flattened area 32 resting against it and forming a wedge surface. Likewise, for the axial adjustment of the cutter carrier 18 in the cutter head is a as a whole with 34 designated further similarly designed sliding sleeve arranged, which rests with its flat 36 on the rear face 38 of the cutter carrier. Both sliding sleeves are relative to the cutter carrier by means of a differential screw 40 displaceable in such a direction that each of the radial or. Axial adjustment causing force components become effective and with loosened fastening screw 26 carry out the adjustment of the cutter carriers in the desired directions can.

As can be clearly seen from Fig. 2, both are sliding sleeves 28, 34 relative to the interacting with these surfaces 30, 38 of the cutter carrier in such a direction obliquely in corresponding guide bores 42 of the cutter head adjustable so that the axis thereof is in contact with the one with the sliding sleeves standing sides 30 and 38 of the cutter carrier 18 define a sharp prong. In other words: Both sliding sleeves of the individual cutter carriers are to the the latter inclined in such a direction that their axes according to Fig. 2 include an obtuse angle in itself.

.lit 44 is one in the area of the inside of the cutter head The end of the tlfor the cutter bar is provided parallel to the fastening screw 26 arranged support screw referred to, which is located on the bottom surface 32 of the cutter head recesses 16 trims and with the help of which after a radial adjustment the cutting edge again in a parallel position to the axis of the cutter head let set before this by means of the fastening screw 26 in the cutter head to be established.

From Fig. 3 it can be seen that the radial adjustment of the Cutter carrier 18 serving sliding sleeve 28 still in a second direction within of the cutter head is guided obliquely, in such a way that their longitudinal axis together forms an obtuse angle with the front face of the cutter head This inclined position hinders the adjustment of the sliding sleeve 28 serving differential screw 40 avoided by the fastening screw 26.

The variable position arrangement of the three-channel .i4 shown in FIG. 2 trained cutting insert 22 makes it possible with appropriate handling of Sliding bushings 28, 34 any machining angle of the cutting edge denoted by 46 to adjust.

In the exemplary embodiments of a milling head shown in FIGS. 4-6 is only for adjusting the cutter carrier designated as a whole with 50 In the radial direction of the cutter head 52, an adjusting wedge labeled 54 is provided. The same has essentially the length of the cutter carrier 50, while to Axial adjustment of the cutter carriers at their inner front end one in the lesser head 50 guided adjusting screw 56 is applied.

The adjusting wedges 51 are here, for example, semicircular in cross section formed and are rotatable with their circular cylindrical peripheral surface 56 in the Plesserkopfausnehmungen 58 arranged, their floor area accordingly is concave.

The adjusting wedge 54 lies with an inclined surface forming the wedge surface 60 on the underside 62 of the cutter carrier 50, which accordingly also runs obliquely. In the embodiment according to FIG. 5, the wedge surface increases 60 of the adjusting wedge from the outside to the inside, while in the exemplary embodiment According to FIG. 6, the wedge surface slopes from the outside inwards. The adjusting wedge 54 is in both embodiments through one of the rear end face the cutter head accessible differential screw 64 adjustable, the one hand in a threaded hole of the cutter head and on the other hand in a threaded hole of the adjusting wedge 54 is guided. The attachment of the individual cutter carriers 50 is in the same way as in the embodiment according to FIGS. 1-3 accomplished with the help of a fastening screw 66, the screw shaft with radial play engages through both the cutter carrier and the adjusting wedge. The two construction variants shown in FIGS. 5 and 6 are the same advantageously applicable. The embodiment according to FIG. 6 is distinguished from one another however, the embodiment according to FIG. 5 is advantageous in that in Adjustment of the adjusting wedge 54 for the radial adjustment of the cutter carrier according to outside a force component is effective, which causes the cutter carrier is inevitably applied to the adjusting screw 56 which is used for axial adjustment.

The adjustment mechanism shown in FIGS. 7 and 8 differs of the construction variants according to FIGS. 4 - 6 in that that the adjusting wedge designated as a whole with 70, the one in the cutter head 72 also axially is adjustable, by means of a differential screw 74 from the front face the cutter head is adjustable by making the same angled at its front end is formed and thereby has an extension piece 76 in which the differential screw is led to the wedge adjustment.

This extension piece engages in a recess 78 in the cutter head, so that on its front face only the cutting edge 80, which is the present embodiment is designed as a square shaped plate protrudes. In this exemplary embodiment, the adjusting wedge has an analogue to the exemplary embodiment According to FIG. 6, a wedge surface 82 sloping from the outside inward, which is attached to a complementarily formed counter surface 84 of the cutter carrier rests. With this one Embodiment also serves a designated with 86 fastening screw for holding the cutter carrier in the cutter head recess 88, but this is arranged perpendicular to the longitudinal axis of the cutter head in the cutter carrier, including the doses cutting insert 80 associated Bahnkammex 90 is drilled out in such a way that the Fixing screw can be provided in this way. As shown in Fig. 2 7 and 7, the cutter head can be made in two parts, so that manufacturing difficulties with regard to the formation of the cutter head recesses be avoided.

Claims (9)

Claims Enk- and milling tool with an annular cutter head on which Circumference adjustable blades or blade carriers arranged at least in one direction are provided, which by means of at least one fastening screw in corresponding Recesses of the cutter head are fastened interchangeably, characterized in that that the cutting edges or cutting edge carriers (18, 50) are within the ones receiving them Recess (16, 53, 88) both in the axial and in the radial direction of the cutter head (10, 52) are adjustable, this at least for radial adjustment on the Wedge surface (32, 60, 82), one in the recess receiving the cutter support understandable ar and fixable on orderly adjusting wedge (28, 54, 70). 2. Countersinking and milling tool according to claim 1, characterized in that that adjusting wedges (54, 70) approximately correspond to the axial length of the cutting edges or cutting edge carriers have that they can be adjusted parallel to the axis of the cutter head (52) and with radial play in each case from the fastening screw holding the cutter carrier (66, 68) are penetrated and that for axial adjustment of the cutter carrier the inner end of which is an adjusting screw (56, 89) is present. 3. countersinking and milling tool according to claim 1 or 2, characterized in that that the adjusting wedges (54, 70) with one hand at one end and on the other hand, the differential screw (64, 74) guided in the cutter head (52) is adjustable are. 4. countersinking and milling tool according to claim 3, characterized in that that adjusting wedges (70) are rectangular in cross-section and the fastening screw (86) is arranged perpendicular to the longitudinal axis of the cutter head (52). 5. countersinking and milling tool according to one of the preceding claims 1-3, characterized in that the adjusting wedges (54) are approximately semicircular with its circular cylindrical peripheral surface (56) rotatable in the cutter head recesses (58) are arranged 6. countersinking and milling tool according to claim 1, characterized. that both for the radial as well as for the axial adjustment of the cutter carrier (18) each has an adjusting wedge (28, 34) in the cutter head (10). 7 Sezil and milling tool according to claim 6, characterized in that serve as adjusting wedges (28, 34) cylindrical sliding sleeves, each by means of a differential screw (4 @@ are axially adjustable and an oblique on the circumference the wedge surface arranged to the ihwc-axis and resting on the Schneictezträger (1 &) have forming flat (32, 36). 8. countersinking and milling tool according to claim 7, characterized in that that the radial adjustment of the individual cutter carriers (18) causing the sliding sleeve (28) rests on the front end of the same and in the cutter carriers (18) in the area a support screw (44) is arranged at its rear end, 9. Countersinking and milling tool according to claim 7 or 8, characterized in that both Sliding bushes (28, 34) of the individual cutter carriers (18) in the cutter head (10) for the respective direction of adjustment of the cutter carrier (18) can be adjusted obliquely, in such a way that that their axes enclose an obtuse angle. lp. Countersinking and milling tool according to one of the preceding claims 7 - 9, characterized in that the radial adjustment of the cutter carrier (18) serving sliding bushes (28) with respect to the front face of the cutter head obliquely into the inside of the cutter head or on the fastening screw holding the cutter carrier (18) (26) are passed. 11. Countersinking and milling tool according to one of the preceding claims, characterized in that the cutting edges on the cutting edge carriers (18) in per se are arranged in a known manner adjustable and lockable or replaceable.