CH656335A5 - DRILLING TOOL. - Google Patents

Description

The invention relates to a drilling tool with a head part having at least one cutting insert and a tool holder which can be fastened to the spindle of a machine tool, the head part at its rear end facing the tool holder having a cylindrical fitting pin which is concentric with the drilling tool axis and which extends from an annular surface running perpendicular to the drilling tool axis is surrounded, and the tool holder for receiving the fitting pin has a fitting hole surrounded by an annular end face, and in the region of the fitting hole has a radially screwable retaining screw, which has a conical shoulder and a conical recess, the two axes of which are arranged offset to one another in the direction of the drilling tool axis , acts on the locating pin.

Since, on the one hand, the tool holders on the spindles of boring and milling machines are designed very differently, whereby besides conical tool holders with the most varied cone angles there are also special designs and, on the other hand, since the drilling tools are to be adapted to the most varied of machining tasks as variably as possible, it is common To assemble drilling tools in the manner of a modular system from two or more parts. The appropriate head part is then selected for specific machining tasks and connected to a tool holder suitable for the respective tool holder. By interposing different lengths or even several connecting pieces, drilling tools of different lengths can be assembled.

In a known drilling tool of the type mentioned in the introduction, the fitting pin has a conical depression in its cylindrical outer surface. A conical extension on the retaining screw engages in this conical recess. When the retaining screw is tightened, the axial offset of the axis of the conical recess relative to the axis of the conical extension means that the annular surface is pressed against the end face. However, this pressure is also one-sided due to the one-sided arrangement of the retaining screw and the inevitable play between the fitting pin and fitting hole. Since the retaining screw only acts on the fitting pin from one side, it is pressed on one side against the wall part of the fitting hole, which is opposite the retaining screw. Due to this one-sided pressure, the axis of the head part is no longer exactly aligned with the axis of the tool holder, which leads to machining inaccuracies. Furthermore, the conical recess in the fitting pin is exposed to very high pressure, which under certain circumstances can lead to signs of wear. This high pressure is not only caused by the tightening of the retaining screw, but also by the torque, which has to be partially transferred from the retaining screw to the recess. This results in a high surface pressure, because the conical extension only touches the conical depression along a line or at least a very narrow surface. In addition, in order to establish the necessary firm connection between the head part and the tool holder, the retaining screw has to be tightened relatively strongly, which under certain circumstances can also damage its thread or the nut thread provided for the retaining screw in the tool holder.

The invention has for its object to provide a drilling tool of the type mentioned, in which the connection between the head part and tool holder or possibly interposed intermediate pieces is not subjected to one-sided loading, a better contact between ring surface and end face is achieved and in which strong loaded connecting parts are easy to replace.

This is achieved according to the invention in that the fitting pin has a transverse bore in the area of the retaining screw with a connecting bolt which can be displaced therein and which has a conical extension or a conical depression at its two ends, and in that

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A second retaining screw is arranged in the tool holder so that it can be screwed diametrically opposite one another coaxially to the retaining screw, with both retaining screws being supported at opposite ends of the connecting bolt with their conical depressions or conical projections.

The tool therefore has two holding screws diametrically opposite one another, but these do not act directly on the fitting pin, but rather on a connecting bolt which can be displaced in the fitting pin. Since both retaining screws act on the connecting bolt via conical depressions and conical projections, forces are exerted by both retaining screws on diametrically opposite ends of the connecting bolt, the force components of which press the annular surface against the end face at diametrically opposite regions. This results in a more even pressure on both surfaces. Furthermore, when tightening the retaining screws, no one-sided pressure is exerted on the fitting pin, since the connecting bolt can move in the transverse bore. It is hereby always ensured that the axis of the head part runs coaxially to the axis of the tool holder or also intermediate intermediate pieces. Furthermore, the clamping force between the annular surface and the end surface is doubled, because there are conical projections and conical recesses in engagement at both ends of the connecting bolt. Finally, all the heavily loaded connecting parts, namely the two retaining screws and the connecting bolt, can also be easily replaced,

if you notice any signs of wear on these parts.

Advantageous embodiments of the invention are characterized in the dependent claims.

The invention is explained in more detail below with reference to exemplary embodiments shown in the drawing. Show it:

FIG. 1 shows a side view of the drilling tool, partly in longitudinal section,

Figure 2 shows a cross section along the line II-II of the figure

1.

Figures 3 and 4 partially longitudinal sections through two further embodiments.

In the drawing, 1 denotes a tool holder, which can be inserted with its cone 2 into the tool holder of a machine tool. Instead of the cone shown, the tool holder 1 can also have a cone with a different cone angle, a cylindrical shaft, a flange, or can be adapted in some other way to the tool holder on the spindle of the machine tool.

Furthermore, the drilling tool has a head part 3, which is provided, for example, with two diametrically opposed cutting plates 4. This head part 3 is to be connected directly or with the interposition of an intermediate piece 5 to the respective tool holder 1, wherein other head parts adapted to the respective machining task are to be connected to the most varied tool holders and intermediate pieces instead of the head part shown. So that the system is as variable as possible, the connecting parts described below on the head part 3 and on the tool holder 1 and on the intermediate piece 5 are each of the same design. The following description regarding the connection of the intermediate piece 5 with the tool holder 1 also applies analogously to the connection between the head part 3 and the front end of the intermediate piece 5.

The intermediate piece 5 is ver656 335 at its rear end 5a facing the tool holder 1 with a cylindrical fitting pin 6 concentric with the drilling tool axis B.

see. This fitting pin 6 is surrounded by an annular surface 7 running perpendicular to the drilling tool axis B. The tool holder 1 is provided with a fitting bore 8, which is also concentric with the drilling tool axis B and serves to receive the fitting pin 6. The fitting bore 8 is surrounded by an annular end face 9.

The fitting pin 6 has a transverse bore 10, - in which a connecting pin 11 is slidably mounted. This connecting pin expediently has conical projections 12 at its two ends. The tool holder 1 is provided with two radially screwable holding screws 13 which are arranged diametrically opposite one another and are provided in the area of the transverse bore 10. Each of the retaining screws 13 has one to the conical extension

12 matching conical recess 14.

The arrangement of the retaining screw 13 and the transverse bore 10 is such that the distance A of the axis C of the retaining screw 13 from the end face 9 is somewhat greater than the distance a of the axis D of the transverse bore from the annular surface 7. The two axes are C and D. in practice about 0.3 to 0.5 mm in the direction of the drilling tool axis B offset from each other.

This ensures that the two retaining screws

13 when tightening act on the connecting bolt 11 from one side in the direction P and try to move it to the right according to FIG. 1. As a result, the annular surface 7 is pressed against the end face 9. Since the forces P act on both ends of the connecting bolt 11, a uniform, annular pressure on both surfaces is achieved. In addition, the contact forces are doubled, since at the same time two conical projections 12 are in engagement with the conical depressions 14 which fit them. Due to the displaceability of the connecting bolt 11 in the transverse bore 10, forces acting on the fitting pin 6 on one side are avoided.

It would also be conceivable, as shown in FIG. 3, to provide the connecting bolt 11 'with conical depressions 14' at both ends and to attach conical projections 12 'to the two retaining screws 13', which fit into the conical depressions 14 'of the connecting bolt Intervene 1Y. 4, the connecting bolt 11 "could be provided at one end with a conical projection 12 which engages in the conical recess 14 of the one retaining screw 13. At its other end, the connecting bolt 11" has a conical recess 14 ', in which engages a conical extension 12 'of the other retaining screw.

Furthermore, it is expedient if the length L of the connecting bolt is somewhat smaller than the diameter d of the fitting pin 6. In this case, the connecting bolt 11 can always remain in the transverse bore 10 during disassembly and assembly.

So that the connecting bolt 11 does not come out of the transverse bore 10 and is lost when the parts are disassembled, it has in its lateral surface a longitudinal groove 15 which is closed at both ends and into which a screw 16 screwed into the fitting pin 6 engages. The length of the screw 16 is dimensioned such that it never clamps the connecting bolt 11 in the transverse bore 10. The length of the longitudinal groove 15 is dimensioned such that the connecting bolt 11 can only emerge from the transverse bore 10 by the length of one of its two conical projections 12. This ensures that when assembling or disassembling the parts of the drilling tool, the connecting bolt 11 can never get stuck, but is always pressed into the transverse bore 10 by its conical projections 12.

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656 335

Drilling tools often also have coolant bores through which coolant can be fed from the tool holder 1 out of the cutting plates 4. In the embodiment shown, the head part 3, the intermediate piece 5 and the tool holder 1 are provided with such coolant bores 17. In this case, it is expedient to also provide the connecting bolt 11 with a coolant bore 18 which runs in the direction of the drilling tool axis B and which is approximately aligned with the coolant bore provided in the fitting pin 6.

In most cases it is also important that the head part 3 is arranged in a predetermined angular position with respect to the tool holder 1. So that this predetermined angular position is repeatedly reached, an index bolt 19 extending parallel to the drilling tool axis B is arranged in the end face 9 and engages in a corresponding longitudinal bore 20 in the annular surface of the head part 3 and also of the intermediate part 5. This connection can also be made with a larger play of approx. 0.1 mm. The index bolt 19 can optionally also transfer part of the torque.

The tip angle a of the conical projections 12 and the conical depressions 14 is approximately 90 ° in the exemplary embodiment shown. If you want to increase the contact pressure of the ring surface 7 and end face 9, you would have to choose a smaller tip angle a.

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1 sheet of drawings

Claims (7)

656 335 PATENT CLAIMS 1. drilling tool, with a head part having at least one cutting plate and a tool holder which can be fastened to the spindle of a machine tool, the head part at its rear end facing the tool holder having a cylindrical fitting pin which is concentric with the drilling tool axis and is surrounded by an annular surface running perpendicular to the drilling tool axis, and the tool holder for receiving the locating pin has a locating bore surrounded by an annular end face, and in the region of the locating bore has a radially screwable holding screw, which has a conical shoulder and a conical depression, the two axes of which are arranged offset from one another in the direction of the drilling tool axis, onto the A fitting pin acts, characterized in that the fitting pin (6) has a transverse bore (10) in the area of the retaining screw (13, 13 ') with a connecting bolt (11, 11', 11 ") which can be displaced therein and which has a conical shape at both ends A Has set (12) or a conical recess (14 '), and that coaxially opposite the retaining screw (13,13') diametrically opposite a second retaining screw (13,13 ') is arranged screwable in the tool holder (1), both retaining screws ( 13, 13 ') on opposite ends of the connecting bolt (11, 11', 11 ") with their conical depressions (14) or conical projections (12 '). 2. Drilling tool according to claim 1, characterized in that the length (L) of the connecting bolt (11) is slightly smaller than the diameter (d) of the fitting pin (6). 3. Drilling tool according to claim 1 and 2, characterized in that the connecting bolt (11) has in its lateral surface a longitudinal groove (15) closed at both ends, in which a screw (6) screwed into the fitting pin (6) engages. 4. Drilling tool according to claim 1 and 3, characterized in that the connecting bolt (11) has a coolant bore (18) extending in the direction of the drilling tool axis (B), which is approximately aligned with a coolant bore (17) provided in the fitting pin (6). 5. Drilling tool according to claim 1, characterized in that in the end face (9) of the tool holder (1) a parallel to the drilling tool axis (B) extending index bolt (19) is provided, which in a corresponding longitudinal bore (20) in the annular surface ( 7) of the head part (3) engages. 6. Drilling tool according to claim 1, characterized in that the tip angle (a) of the conical projections (12) and the conical depressions (14) is approximately 90 °. 7. Drilling tool according to one of claims 1-6, characterized in that between the head part (3) and tool holder (1) insertable intermediate piece (5) is provided, the two ends of which to the connecting parts (6-14) of the head part (3rd ) and tool holder (1) are provided with suitable connecting parts.