THREADED INSERT FOR SECURING A TOOL IN A TOOL RECEIVING AREA, AND TOOL RECEIVING AREA COMPRISING SUCH A THREADED INSERT

Abstract

The invention relates to a threaded insert for securing a tool provided with a securing thread in a tool receiving area. The threaded insert contains a receiving opening with an inner thread for screwing in the tool at the front end face. According to the invention, the threaded insert has a plug-in region which tapers towards the rear end face and which comprises an outer support surface, and at least one depression for receiving an adhesive is arranged on the outer contact surface. The invention additionally relates to a receiving element for such a threaded insert and to a tool receiving area comprising such a threaded insert and a corresponding receiving element.

Claims

1. A threaded insert for fastening a tool provided with a fastening thread in a tool receptacle, wherein the threaded insert contains, on a front end face, a receiving opening having an internal thread for screwing in the tool, wherein the threaded insert has a plug-in region which tapers toward a rear end face and which has an outer contact surface, and in that at least one depression for receiving an adhesive is arranged on the outer contact surface.

2. The threaded insert as claimed in claim 1, wherein the plug-in region has a conical or polygonal outer contour.

3. The threaded insert as claimed in claim 1, wherein a plurality of vertically extending depressions which are distributed over the circumference are arranged on the outer contact surface of the plug-in region.

4. The threaded insert as claimed in claim 1, wherein the at least one depression is designed in the form of a flat groove.

5. The threaded insert as claimed in claim 1, wherein the at least one depression has a maximum depth of 1.5 mm, preferably 0.5 mm.

6. The threaded insert as claimed in claim 1, wherein the at least one depression extends parallel to the generatrix of the outer surface of the plug-in region.

7. The threaded insert as claimed in claim 1, wherein the at least one depression extends parallel to the circumference of the outer surface of the plug-in region or helically.

8. The threaded insert as claimed in claim 1, wherein the receiving opening contains, between the tool-side front end face and the internal thread, an outer bearing region having a first conical bearing surface and a second conical bearing surface.

9. The threaded insert as claimed in claim 8, wherein the first conical bearing surface and the second conical bearing surface have different cone angles.

10. The threaded insert as claimed in claim 1, wherein an inner bearing region having a plurality of radially inwardly projecting web-shaped bearing elements spaced apart from one another in the circumferential direction is present between an inner end of the receiving opening and the internal thread.

11. The threaded insert as claimed in claim 1, wherein it contains a through-bore for feeding a working fluid.

12. The threaded insert as claimed in claim 1, wherein the threaded insert has an external thread at its end facing away from the receiving opening.

13. The threaded insert as claimed in claim 1, wherein the threaded insert has a blocking groove at its end facing away from the receiving opening.

14. The threaded insert as claimed in claim 1, wherein a plurality of horizontally extending depressions distributed over the circumference are arranged on the outer contact surface of the plug-in region.

15. A receiving body of a tool receptacle, wherein a long and slender receiving region in which there is arranged a receiving opening intended for receiving a threaded insert and widening toward an inlet on a front end face of the receiving region.

16. The receiving body as claimed in claim 15, wherein a core composed of a heavy and stable material is arranged in the receiving region.

17. The receiving body as claimed in claim 16, wherein the core is tubular and has a central through-duct.

18. The receiving body as claimed in claim 16, wherein the core is inserted into a slender central part of a central through-opening of the receiving body.

19. The receiving body as claimed in claim 15, wherein the receiving body has an internal thread at its lower end.

20. The receiving body as claimed in claim 15, wherein the threaded insert has a blocking element at its lower end.

21. The receiving body as claimed in claim 15, wherein a plurality of horizontally extending depressions distributed over the circumference are arranged in its receiving opening.

22. A tool receptacle having a receiving body as claimed in claim 15.

23. The tool receptacle as claimed in claim 22, wherein the receiving opening of the receiving body and the plug-in region of the threaded insert are adapted to one another in such a way that, in the mounting position of the threaded insert, a gap remains between the tool-side end face of the receiving region and an annular surface on the threaded insert.

24. The tool receptacle as claimed in claim 22, wherein a sealing element is formed between the receiving body and the threaded insert.

25. The tool receptacle as claimed in claim 22, wherein depressions of the threaded insert and of the receiving body come to lie on one another and thus create a particular receiving space for the adhesive.

Description

[0030] Further particular features and advantages of the invention will emerge from the following description of a preferred exemplary embodiment with reference to the drawing, in which:

[0031] FIG. 1 shows a first embodiment of a tool receptacle having a threaded insert in a longitudinal section;

[0032] FIG. 2 shows an enlarged partial view of the tool receptacle from FIG. 1;

[0033] FIG. 3 shows a threaded insert in a perspective view;

[0034] FIG. 4 shows a second embodiment of a tool receptacle having a threaded insert in a longitudinal section;

[0035] FIG. 5 shows the threaded insert shown in FIG. 4 in a perspective view;

[0036] FIG. 6 shows a further embodiment having vertical and horizontal depressions and blocking grooves;

[0037] FIG. 7 shows a further embodiment having vertical and horizonal depressions and external thread;

[0038] FIG. 8 shows a further embodiment with inserted sealing element, and

[0039] FIGS. 9a, b, c show detail views of different embodiments of the sealing element.

[0040] FIG. 1 shows a tool receptacle 1 having a rotationally symmetrical receiving body 2 and a threaded insert 3 which is fastened in the receiving body 2 and intended for holding a tool provided with a fastening thread. The receiving body 2 has a long and slender front receiving region 4 and a rear clamping region 5 which is arranged at the top in FIG. 1 and intended for holding the receiving body in a working spindle of a machine tool. In the embodiment shown, the machine-side clamping region 5 is configured as an HSK interface having a conical outer clamping surface 6 for reception in a corresponding inner cone of the working spindle of a machine tool or the like. However, the interface at the rear end of the receiving body 2 can also take the form of an SK, JIS, BT, ABS or Capto interface or other suitable interface.

[0041] As is apparent from FIG. 1, a core 9, which here takes the form of a tubular reinforcing and damping element having a central through-duct 8 and which is composed of a heavy and stable material, is inserted in the slender receiving region 4 of the receiving body 2 that tapers conically toward a tool-side end face 7. The core 9 serving for reinforcing and vibration damping of the long and slender receiving region 4 is inserted into a slender central part of a central through-opening 10 of the receiving body 2. A conical receiving opening 12 intended for receiving the threaded insert 3 and widening toward an inlet 11 on the front end face 7 of the receiving region 4 is provided at the tool-side end of the receiving region 4.

[0042] It is particularly clearly evident from FIG. 2 that the threaded insert 3 contains a plug-in region 13 which is adapted to the receiving opening 12 of the receiving body 2 and which tapers toward a rear end face 26 facing the tool receptacle 1. The plug-in region 13 has an outer contact surface 14. The threaded insert 3 additionally contains a front receiving region 15 having a receiving opening 16 for fastening a tool provided with a thread. For this purpose, the receiving opening 16 has an internal thread 17. In the exemplary embodiment of FIG. 1, the plug-in region 13 has a conical outer contour having a conical outer contact surface 14. The conical receiving opening 12 of the receiving body 2 and the plug-in region 13 of the threaded insert 3 are adapted to one another in such a way that, in the mounting position of the threaded insert 2, a gap 19 remains between the tool-side end face 7 of the receiving body 2 and an annular surface 18 at the transition from the plug-in region 13 to the receiving region 15 of the threaded insert 3. As a result, no axial prestressing is produced between the receiving body 2 and the threaded insert 3.

[0043] Between a tool-side front end face 20 of the threaded insert 3 and the internal thread 7, the receiving opening 16 has an outer bearing region having a first conical bearing surface 21 and a second conical bearing surface 22 for contact with corresponding guide surfaces on the tool. The conical bearing surfaces 21 and 22 have different cone angles. The first conical bearing surface 21 has for example a relatively large cone angle of between 140 and 179, preferably 170, whereas the second conical bearing surface 22 contains a comparatively smaller cone angle of between 1 and 90, preferably 10. A double cone of the type described has the advantage that the smaller cone angle allows good centering of the tool on the threaded insert 3, and the large cone angle allows additional support and centering. The cone angle is to be understood as meaning the opening angle of the cone formed by the conical bearing surfaces 21 and 22.

[0044] An inner bearing region having a plurality of radially inwardly projecting, web-shaped bearing elements 23 spaced part from one another in the circumferential direction is provided between an inner end of the receiving opening 16 and the internal thread 17. The tool is guided by these bearing elements 23 so as to be additionally centered and radially damped within the receiving opening 16. An example of the configuration of the receiving opening 16 and the construction of an associated tool is described in DE 10 2015 112 079 A1. The content thereof is fully incorporated herein by reference. A coolant or another working fluid can be channeled to the tool via a through-bore 24 provided in the threaded insert 3 and the through-duct 8 in the core 9.

[0045] It is evident from FIG. 3 that a plurality of depressions 25 for receiving an adhesive are arranged on the conical outer surface 14 on the conical plug-in region 13 of the threaded insert 3. Prior to inserting the threaded insert 3 into the receiving body 2, adhesive can thus be introduced into the depressions 25. As a result, the threaded insert 3 can be held firmly and in a rotationally secure manner not only by a press fit between the receiving body 2 and the threaded insert 3 but also by the additional adhesive connection. If required, the adhesive connection can for example be released by corresponding heating of the receiving body 2 and thus the threaded insert 3 or the receiving body 2 can be replaced. The depressions 25 can preferably extend parallel to the generatrices of the conical outer surface 14. However, in further embodiments, they can also form annular surfaces extending parallel to the circumference of the conical outer surface 14 or have a helical profile. As an alternative to an adhesive connection, the threaded insert 3 can also be brazed with the receiving body 2 or be connected in an integrally bonded manner in another way.

[0046] FIGS. 4 and 5 show a further exemplary embodiment of a tool receptacle 1 having a rotationally symmetrical receiving body 2 and a threaded insert 3 which is fastened in the receiving body 2 and intended for holding a tool provided with a fastening thread. This embodiment differs from the preceding exemplary embodiment in that a gap is present between the outer side of the core 9 and the inner wall of the central through-opening 10. Damping elements 27 which are annular here serve to hold the core 9 in the receiving body 2.

[0047] As is apparent from FIG. 5, the plug-in region 13 of the threaded insert 3 here has a polygonal outer contour. The receiving opening 12 in the receiving body 2 is adapted to the outer contour of the plug-in region 13 on the threaded insert 3 and accordingly has a polygonal inner contour.

[0048] FIG. 6 shows that, in addition to depressions 25 extending longitudinally with respect to the axis of rotation, there are also depressions 28 extending transversely with respect to the axis of rotation. In this case, the receiving region 4 of the receiving body 2 also ideally has corresponding wider depressions (not shown here). There is provision in particular that the horizontally extending depressions 28 of the thread insert 3 and of the receiving body 2 come to lie on one another and thus create a particular receiving space for the adhesive. In this embodiment, there is furthermore provision that both the threaded insert and the receiving opening have at least five such horizontally extending depressions 28.

[0049] In this exemplary embodiment, a plurality of blocking grooves 30 are also formed, starting at the rear end face 26.

[0050] The threaded insert 3 of FIG. 7 is of similar design to that shown in FIG. 6. By contrast thereto, an external thread 29 is formed here, starting at the rear end face 26. In the concrete case, it is a trapezoidal thread, but a V-thread could also be used.

[0051] FIG. 8 shows the tool receptacle 1, which is known substantially already from FIG. 1, with receiving body 2 and threaded insert 3. A sealing element 31 which is formed coaxially to the through-duct 8 is additionally situated here between the receiving body 2 and threaded insert 3. In this figure, both the through-duct 8 and the sealing element 31 are of single-duct design. However, in the case of a multi-duct through-duct 8, the sealing element 31 can also be of multi-duct design.

[0052] FIGS. 9a, 9b, 9c each show different possible embodiments of the sealing element 31.

[0053] FIG. 9a shows a sealing element 31 whose outside diameter widens on the side toward the threaded insert 3 in order to be anchored there in an opening provided therefor.

[0054] The sealing element 31 shown in FIG. 9b has, in addition to the widening of the outside diameter shown in FIG. 9a, an additionally enlarged outside diameter on the side facing toward the core 9. However, this additionally enlarged outside diameter does not engage in a clearance, but is positioned as a type of flange on the end face of the core 9.

[0055] A further embodiment of the sealing element 31 is shown in FIG. 9c. Here, the sealing element 31 is disk-shaped and bears with full-surface contact by way of its end faces both on the core 9 and on the sealing element 31.

LIST OF REFERENCE SIGNS

[0056] 1 Tool receptacle [0057] 2 Receiving body [0058] 3 Threaded insert [0059] 4 Receiving region [0060] 5 Clamping region [0061] 6 Clamping surface [0062] 7 End face [0063] 8 Through-duct [0064] 9 Core [0065] 10 Through-opening [0066] 11 Inlet [0067] 12 Receiving opening [0068] 13 Plug-in region [0069] 14 Conical outer surface [0070] 15 Receiving region [0071] 16 Receiving opening [0072] 17 Internal thread [0073] 18 Annular surface [0074] 19 Gap [0075] 20 Front end face [0076] 21 First conical bearing surface [0077] 22 Second conical bearing surface [0078] 23 Bearing elements [0079] 24 Through-bore [0080] 25 Depression (vertical) [0081] 26 Rear end face [0082] 27 Damping element [0083] 28 Depression (horizontal) [0084] 29 Thread [0085] 30 Blocking groove [0086] 31 Sealing element