EP1406741A1 - Rotative cutting device, e.g. drill - Google Patents
Rotative cutting device, e.g. drillInfo
- Publication number
- EP1406741A1 EP1406741A1 EP01978311A EP01978311A EP1406741A1 EP 1406741 A1 EP1406741 A1 EP 1406741A1 EP 01978311 A EP01978311 A EP 01978311A EP 01978311 A EP01978311 A EP 01978311A EP 1406741 A1 EP1406741 A1 EP 1406741A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- tool
- clamping
- tool head
- fixing pin
- fixing
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B51/00—Tools for drilling machines
- B23B51/02—Twist drills
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B2251/00—Details of tools for drilling machines
- B23B2251/02—Connections between shanks and removable cutting heads
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S408/00—Cutting by use of rotating axially moving tool
- Y10S408/713—Tool having detachable cutting edge
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T408/00—Cutting by use of rotating axially moving tool
- Y10T408/78—Tool of specific diverse material
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T408/00—Cutting by use of rotating axially moving tool
- Y10T408/89—Tool or Tool with support
- Y10T408/907—Tool or Tool with support including detailed shank
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T408/00—Cutting by use of rotating axially moving tool
- Y10T408/89—Tool or Tool with support
- Y10T408/909—Having peripherally spaced cutting edges
- Y10T408/9095—Having peripherally spaced cutting edges with axially extending relief channel
- Y10T408/9097—Spiral channel
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T408/00—Cutting by use of rotating axially moving tool
- Y10T408/89—Tool or Tool with support
- Y10T408/909—Having peripherally spaced cutting edges
- Y10T408/9098—Having peripherally spaced cutting edges with means to retain Tool to support
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T408/00—Cutting by use of rotating axially moving tool
- Y10T408/89—Tool or Tool with support
- Y10T408/909—Having peripherally spaced cutting edges
- Y10T408/9098—Having peripherally spaced cutting edges with means to retain Tool to support
- Y10T408/90993—Screw driven means
Definitions
- Concentric cutting tool e.g. drill
- the invention relates to a concentric cutting tool, e.g. a drill, a milling cutter, a reamer or the like. with the features of the preamble of claim 1.
- solid carbide drills are regularly manufactured in one piece. With them the drill tip and the drill shank are not separable.
- drills are also known in which a solid carbide cutting body is soldered into the shaft or in which the solid carbide cutting body is detachably connected to a steel shaft.
- the one-piece tool head is clamped between the flanks of two clamping arms which protrude in the axial direction from the tool shank made of tool steel.
- This combination drill with a steel shank and exchangeable hard metal tip can only be easily manufactured for larger drill diameters of> 10 mm.
- One problem in particular is ensuring adequate tool change and concentricity.
- the tool head is tensioned via a fastening pin attached to the drill head and concentric with the drill axis, through which a cutting insert forming the tool head is concentric in a pin receptacle of the tool shaft is held.
- the fastening pin is undercut in the pin circumference so that it can be inserted laterally into the pin receptacle from the flute.
- the cutting insert with the fastening pin that is integral with it is turned in the manner of a bayonet connection against the direction of rotation until the contact surfaces provided on the fastening pin contact the corresponding contact surfaces of the pin receptacle.
- the desired frictional clamping of the cutting insert is brought about in that the jacket of the fastening pin has undercut contact surfaces in the pin circumference.
- the cutting insert is held against the cutting forces by the rear wall and the edge of the shaft on which it is received. agreed holder recess supported. The cutting forces push the cutting insert into its seat so that it is fixed without additional fasteners. This eliminates the need for a complicated and time-consuming fastening screw to replace the cutting insert.
- the undercut in the s circumference of the pin impairs the desired concentricity.
- the invention has for its object to provide a concentric cutting tool of the type mentioned, which can be easily manufactured even for drill diameters smaller than 10 mm and has a high degree of change and concentricity 10.
- This object is achieved according to claim 1.
- the solution is that the mutual clamping surfaces of the tool, which contact each other in the fixing position, and the clamping arm of the tool shaft lie on the surface of a truncated cone coaxial with the longitudinal axis of the tool shaft tapered towards the machine tool clamping end of the tool shank.
- the tool head with the loaded conical surface areas of its fixing pin projecting in the direction of insertion rests similar to the Kömerspitze of the tailstock of a lathe. 20
- the angle of inclination of the conical surface of the locating pin with respect to the shaft axis is approximately 3 °. It is in particular a cone with a 1:10 inclination ratio.
- the base circle diameter of the conical shape of the fixing pin of the tool head is 25 smaller than the radial extent, in particular as the diameter of the base body of the tool head.
- Clamping arm as an axial stop.
- the clamp arms spring apart slightly elastically in the axial stop position of the tool head. This supports the frictional active clamping effect of the tapered jacket surfaces of the clamping arm on the pressurized clamping surfaces of the fixing pin of the tool head.
- the frictional connection between the tapered clamping surfaces of the tool head on the one hand and the tool shank or its clamping arm on the other hand is sufficient for torque transmission, in particular in the case of small drill diameters.
- at least one driver surface is provided in the area of an axial end of the clamping cone of the tool head for an also positive torque transmission from the tool shaft to the tool head.
- This driver surface touches a corresponding counter surface on the tool shank in the fixing position of the tool head.
- At least two mutually parallel driver surfaces are expediently provided diametrically opposite one another on the tool head, which correspond to corresponding driver surfaces of the tool shaft when the tool head is in the fixing position on the tool shaft.
- An embodiment according to claim 3 is advantageous.
- driver surface or driver surfaces for the additional positive torque transmission can also expediently be parts of a tab placed in front of the tapered clamping cone end in the insertion direction, which corresponds to a recess at the end of the tool shank suitable for the corresponding torque transmission (claim 5).
- a clamping fixing screw penetrating the clamping arm and the tool head or its fixing pin, a bolt, a spiral spring pin, a rivet or the like.
- a torque driver also causes an increase in the forceps-like clamping fixation pressure acting on the cone clamping surfaces on the part of the clamping arm of the tool shaft.
- This means for driving torque or for increasing the radial clamping fixing pressure expediently lies in a through hole penetrating the clamping cone radially (claim 8).
- clamping fixing screw or the like it is also possible for the clamping fixing screw or the like to lie in a diametrically longitudinal slot groove which penetrates the clamping cone radially and is open towards the tapered clamping cone end (claim 9). This makes it easier to replace the tool head.
- a releasable snap connection which is activated in the fixing position of the tool head, for an axially effective, form-fitting fixing of the tool head to the tool shaft.
- the physical design of such a snap connection is the subject of claim 11.
- a snap nub is part of the cone shell or the driver area adjacent to the cone shell in the axial direction and the counter surface of the snap nub is part of the tool shank or its clamp arm or vice versa a snap nub part 0 of the tool shank and the recess as a counter surface is part of the tool head.
- the flute of the cutting tool runs in the fixing position, e.g. the twist groove of the drill in the space between the clamp arms.
- the bottom of the flute is s recessed into the surface of the fixing pin, which has no passive clamping function in the space between the clamping brackets (claims 12 and 13) but is fully effective for chip guidance that is open radially outwards.
- FIG. 1 shows the overall view of a drill with a tool head made of a hard cutting material, e.g. HM. 2 a side view isolated of the tool head according to FIG. 1.
- FIG. 3 a detailed view of the drill tip in the direction of arrow III from FIG. 1 and FIG. 2.
- FIG. 4 a perspective exploded view of the end of the tool shaft on the tool head side and of the tool head in their for the mutual fixing insert suitable or ready rotary positions.
- 5 shows an overall perspective view of the tool shank with the tool head used in the production of a clamping film.
- Fig. 6 is an overall perspective view of the fixing end of another embodiment of the tool head.
- 7 shows a side view of the tool head according to FIGS. 4, 5 and 6.
- 8 is a side view of the complete drill with the tool head seated in the clamping fixation position on the tool shank.
- FIG. 9 is a sectional view corresponding to arrow IX-IX in FIG. 8.
- FIG. 10 is a front view of the drill tip in the direction of arrow X of FIG. 8.
- FIG 11 is a side view of a modified embodiment of the tool head.
- FIG. 12 is a side view - partly in section - of a tool shank suitable for receiving the tool head according to FIG. 11.
- FIG. 13 shows the side view of a drill tip with the tool head seated in the clamped fixing position.
- FIG. 14 shows the side view - partly in section - of the tool shank according to FIG. 12 with the tool head according to FIG. 11 seated in the clamping fixing position.
- FIG. 15 is a side view in the direction of arrow XV of the drill according to FIG. 14.
- 16 shows the schematic side view of a modified embodiment of the tool head.
- FIG. 17 shows the side view of the tool-side end of the tool shaft for receiving the tool head designed according to FIG. 16.
- the drill shown as an exemplary embodiment of a concentric cutting tool • contains as essential components a tool head 1 made of a hard
- Cutting material e.g. Hard metal, oxide ceramic or the like.
- a tool shank 2 made of a tool steel or another metallic material.
- the tool head 1 is the carrier of the cutting edges 3. From the side of its base body 5 facing away from the tip 4 and facing the tool shaft 2, there projects a fixing pin 7 coaxial with the longitudinal tool axis 6, which also has a truncated cone 8 tapering in the direction of the tool shaft 2 the longitudinal axis 6 forms as a cone axis.
- the two swirl grooves 9 extend over the circumference of both the base body 5 and its fixing pin 7. They therefore divide the jacket of the fixing pin 7 or the truncated cone 8 into two substantially diametrically opposed truncated cone surfaces 10, 11 and continue on the circumference of the tool shank 2.
- the tool shaft 2 interchangeably fixes the tool head 1 at its holding end opposite the clamping end 12 on the machine tool between the mutually facing flanks of the two clamping arms 13, 14 projecting essentially in the axial direction from the tool shaft 2.
- the diametrically opposed truncated cone outer surfaces 10, 11 of the fixing pin 7, which are separated from one another in the circumferential direction by the two swirl grooves 9, are acted upon in the clamping position by the mutually facing flanks of the two clamping arms 13, 14 of the tool shank 2.
- the mutually facing inner flanks 15, 16 of the clamping arms 13, 14 are correspondingly concavely hollowed out in accordance with the convex truncated cone outer surfaces 10, 11 of the fixing pin 7 such that they are in the fixing position (FIGS. 1, 3, 5, 8, 9, 14 and 15) Apply the full surface of the truncated cone outer surfaces 10, 11 of the fixing pin 7.
- the axial direction of insertion 17 of the tool head 1 in the tool shank 2 is indicated by an arrow.
- the passive truncated cone surfaces 10,11 of the fastening pin 7 of the tool • head 1 or the cone described by them have a base diameter which is smaller than the radial extension or the diameter 18 of the base body 5 of the tool head 1. This forms the transition from the base body 5 to the fixing pin 7 between the swirl grooves 9 pronounced axial stops 19. With the two axial stops 19, the tool head 1 lies in the fixing position on the end faces 20 of the clamping arms 13, 14 facing it.
- the tool head 1 has at least one radially effective driver surface 21 and / or 22 for positive torque transmission from the tool holder 2 to the tool head 1.
- This driver surface 21 or 22 touches, ie acts upon, a corresponding counter surface on the tool shaft 2 in the fixing position of the tool head 1.
- the driver surface 22 is located in the region of the tapered fixing pin end 23 and is placed in front of it in the direction of insertion 17. Both driver surfaces 21, 22 are designed and effective as flat surfaces in the manner of a wrench size.
- the driver surface 22 is part of the circumference of a driver pin 24, which is placed in front of the tapered fixing pin or clamping cone end 23 in the direction of insertion 17.
- the driver pin 24 is torque-locked into the central recess 25 at the clamping end of the tool shank 2 between the two clamping arms 13, 14.
- the driver surfaces 22 press-fit the counter-surfaces 31 flanking the central recess 25 on both sides below the cone-shaped concave inner flanks 15, 16 of the two clamping arms 13, 14.
- the clamping fixing screw 26 not only establishes a positive connection between the clamping brackets 13, 14 and the fixing pin 7. Rather, it further increases the radial, pincer-like clamping fixing pressure exerted by the clamping arms 13, 14 on the truncated cone lateral surfaces 10, 11 of the driving pin 24.
- the clamping fixing screw 26 lies in a through hole 27 which penetrates radially through the fixing pin 7.
- the clamping fixing screw 26 lies within a diametrically longitudinal slot groove 28 which penetrates the fixing pin 7 radially and is open towards the tapered fixing pin end 23.
- a releasable snap connection is present in the fixing position of the tool head 1 on the tool shaft 2.
- the snap connection contains, with the cone jacket or a truncated cone jacket surface 10 or 11, integral, diametrically opposed snap knobs 29.
- the snap knobs 29 of the fixing pin 7 snap into corresponding recesses on the inner flanks 15, 16 of the clamping arms 13, 14 as a counter surface ,
- the swirl grooves 9 lie in the space between the two clamp arms 13, 14. As a result, they are completely exposed to the circumference of the drill and are therefore not hindered or restricted in their action as flutes.
- the bottom of the swirl grooves 9 is concavely formed in the truncated cone outer surfaces 10, 11 of the fixing pin 7.
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Drilling Tools (AREA)
- Gripping On Spindles (AREA)
Abstract
The invention relates to a rotative cutting device, in particular a drill, comprising a tool head (1) consisting of a hard cutting material and a tool shaft (2), which clamps the tool head (1) between two clamp extensions (13, 14) that project axially from said tool shaft (2), in such a way that the tool head is interchangeable. In the fixed position, the interconnected clamping surfaces of the tool head (1) and the clamping extensions (13, 14) of the tool shaft (2) lie on the surface of a truncated cone-shaped fixing peg (7), running coaxially with the longitudinal axis (6) of the tool shaft (2). Said fixing peg tapers in the insertion direction (17), facing the chuck end (12) of the tool shaft (2).
Description
Beschreibung description
Rundlauf-Schneidwerkzeug, z.B. BohrerConcentric cutting tool, e.g. drill
Die Erfindung betrifft ein Rundlauf-Schneidwerkzeug, z.B. einen Bohrer, einen Fräser, eine Reibahle o.dgl. mit den Merkmalen des Oberbegriffs des Anspruches 1.The invention relates to a concentric cutting tool, e.g. a drill, a milling cutter, a reamer or the like. with the features of the preamble of claim 1.
Bekannte Vollhartmetall-Bohrer (VHM-Bohrer) werden regelmäßig einstückig hergestellt. Bei ihnen sind die Bohrerspitze und der Bohrerschaft nicht trennbar. Es sind jedoch auch Bohrer bekannt, bei denen ein VHM-Schneidkörper in den Schaft eingelötet oder bei denen der VHM-Schneidkörper lösbar mit einem Stahlschaft verbunden ist. Bei einem aus WO 96/11079 vorbekannten Bohrer ist der einstückige Werkzeugkopf zwischen den Flanken zweier Klemmausleger geklemmt, welche in Axialrichtung aus dem aus Werkzeugstahl bestehenden Werkzeugschaft vorstehen. Dieser Kombi- nationsbohrer mit einem Stahlschaft und auswechselbarer Hartmetallspitze ist nur für größere Bohrerdurchmesser von > 10 mm fertigungstechnisch problemlos realisierbar. Ein Problem besteht besonders in der Gewährleistung einer ausreichenden Wechsel- und Rundlaufgenauigkeit des Werkzeuges.Known solid carbide drills (solid carbide drills) are regularly manufactured in one piece. With them the drill tip and the drill shank are not separable. However, drills are also known in which a solid carbide cutting body is soldered into the shaft or in which the solid carbide cutting body is detachably connected to a steel shaft. In the case of a drill known from WO 96/11079, the one-piece tool head is clamped between the flanks of two clamping arms which protrude in the axial direction from the tool shank made of tool steel. This combination drill with a steel shank and exchangeable hard metal tip can only be easily manufactured for larger drill diameters of> 10 mm. One problem in particular is ensuring adequate tool change and concentricity.
Bei einem aus EP-B1-0 118 806 vorbekannten Bohrwerkzeug mit den Merkmalen des Oberbegriffs des Anspruches 1 erfolgt die Spannung des Werkzeugkopfes über einen an den Bohrerkopf angesetzten, zur Bohrerachse konzentrischen Befestigungszapfen, durch den ein den Werkzeugkopf bildender Schneideinsatz in einer Zapfenaufnahme des Werkzeugschaftes konzentrisch gehalten wird. Der Befestigungszapfen ist im Zapfenumfang hinterschnitten, damit er von der Spannut her seitlich in die Zapfenaufnahme eingesetzt werden kann. Nach dem Einsetzen in die Zapfenaufnahme wird der Schneideinsatz mit dem mit ihm einstückigen Befestigungszapfen nach Art einer Ba- jonettschluss-Verbindung gegen den Bohr-Drehsinn verdreht, bis sich am Befestigungszapfen vorgesehene Anlageflächen an entsprechende Anlageflächen der Zap- fenaufnahme anlegen. Die angestrebte reibschlüssige Klemmung des Schneideinsatzes wird dadurch bewirkt, dass der Mantel des Befestigungszapfens im Zapfenumfang hinterschnittene Anlageflächen besitzt. Gegen die Schnittkräfte wird der Schneideinsatz durch die Hinterwand und den schaftseitigen Rand der zu seiner Aufnahme be-
stimmten Halterausnehmung abgestützt. Die Schittkräfte drücken den Schneideinsatz in seinen Sitz hinein, so dass er ohne zusätzliche Befestigungsmittel fixiert ist. Dadurch wird eine das Auswechseln des Schneideinsatzes umständlich und zeitraubend gestaltende Befestigungsschraube entbehrlich gemacht. Die Hinterschneidung im s Zapfenumfang indessen beeinträchtigt den angestrebten Rundlauf.In a drilling tool known from EP-B1-0 118 806 with the features of the preamble of claim 1, the tool head is tensioned via a fastening pin attached to the drill head and concentric with the drill axis, through which a cutting insert forming the tool head is concentric in a pin receptacle of the tool shaft is held. The fastening pin is undercut in the pin circumference so that it can be inserted laterally into the pin receptacle from the flute. After inserting it into the pin receptacle, the cutting insert with the fastening pin that is integral with it is turned in the manner of a bayonet connection against the direction of rotation until the contact surfaces provided on the fastening pin contact the corresponding contact surfaces of the pin receptacle. The desired frictional clamping of the cutting insert is brought about in that the jacket of the fastening pin has undercut contact surfaces in the pin circumference. The cutting insert is held against the cutting forces by the rear wall and the edge of the shaft on which it is received. agreed holder recess supported. The cutting forces push the cutting insert into its seat so that it is fixed without additional fasteners. This eliminates the need for a complicated and time-consuming fastening screw to replace the cutting insert. The undercut in the s circumference of the pin, however, impairs the desired concentricity.
Der Erfindung liegt die Aufgabe zugrunde, ein Rundlauf-Schneidwerkzeug der eingangs genannten Art zu schaffen, welches auch für geringere Bohrerdurchmesser als 10 mm problemlos herstellbar ist und eine hohe Wechsel- und Rundlaufgenauigkeit 10 aufweist. Diese Aufgabe wird gemäß Anspruch 1 gelöst. Die Lösung besteht anders als bei EP-B1-0 118 606 darin, dass die in Fixierstellung einander kontaktierenden beiderseitigen Klemmflächen des Werkzeug köpf es und der Klemmausleger des Werkzeugschaftes insgesamt auf dem Mantel eines mit der Längsachse des Werk- zeugschaftes koaxialen Kegelstumpfes liegen, der sich in Richtung auf das werkte zeugmaschinenseitige Einspannende des Werkzeugschaftes verjüngt. Zwischen den dadurch wie Klemmbacken eines Spannfutters wirksamen Hohlkegelsegmenten des Klemmkegels am werkzeugseitigen Ende des Werkzeugschaftes liegt der Werkzeugkopf mit den beaufschlagten Kegelmantelflächen seines in Einsetzrichtung vorstehenden Fixierzapfens ähnlich der Kömerspitze des Reitstockes einer Drehmaschine ein. 20 Der Neigungswinkel der Kegelmantelflächen des Fixierzapfens gegenüber der Schaftachse beträgt etwa 3°. Es handelt sich insbesondere um einen Kegel mit einem Neigungsverhältnis 1 :10.The invention has for its object to provide a concentric cutting tool of the type mentioned, which can be easily manufactured even for drill diameters smaller than 10 mm and has a high degree of change and concentricity 10. This object is achieved according to claim 1. In contrast to EP-B1-0 118 606, the solution is that the mutual clamping surfaces of the tool, which contact each other in the fixing position, and the clamping arm of the tool shaft lie on the surface of a truncated cone coaxial with the longitudinal axis of the tool shaft tapered towards the machine tool clamping end of the tool shank. Between the hollow cone segments of the clamping cone that act as clamping jaws of a chuck at the tool-side end of the tool shank, the tool head with the loaded conical surface areas of its fixing pin projecting in the direction of insertion rests similar to the Kömerspitze of the tailstock of a lathe. 20 The angle of inclination of the conical surface of the locating pin with respect to the shaft axis is approximately 3 °. It is in particular a cone with a 1:10 inclination ratio.
Der Grundkreisdurchmesser der Kegelform des Fixierzapfens des Werkzeugkopfes ist 25 kleiner als die Radialerstreckung, insbesondere als der Durchmesser des Basiskörpers des Werkzeugkopfes. Der Werkzeugkopf stößt in Fixierstellung mit einer Stirnfläche nach Art eines Ringflansches an die Stirnflächen derThe base circle diameter of the conical shape of the fixing pin of the tool head is 25 smaller than the radial extent, in particular as the diameter of the base body of the tool head. The tool head butts in the fixing position with an end face in the manner of an annular flange on the end faces of the
Klemmausleger als Axialanschlag an. Die Klemmausleger federn in axialer Anschlagstellung des Werkzeugkopfes geringfügig elastisch auseinander. Das unterstützt die 30 reibungsbedingte aktive Klemmwirkung der Kegelmantelflächen der Klemmausleger auf die beaufschlagten Klemmflächen des Fixierzapfens des Werkzeugkopfes.
Grundsätzlich reicht für die Drehmomentübertragung der Reibschluss zwischen den kegeligen Klemmflächen von Werkzeugkopf einerseits und Werkzeugschaft bzw. dessen Klemmausleger andererseits insbesondere bei kleinen Bohrerdurchmessern aus. Um indessen auch höhere Drehmomente übertragen zu können, ist gemäß Anspruch 3 im Bereich eines Axialendes des Klemmkegels des Werkzeugkopfes mindestens eine Mitnehmerfläche zu einer auch formschlüssigen Drehmomentübertragung vom Werkzeugschaft zum Werkzeugkopf vorgesehen. Diese Mitnehmerfläche tangiert in Fixierstellung des Werkzeugkopfes eine entsprechende Gegenfläche am Werkzeugschaft. Zweckmäßig sind mindestens zwei zueinander parallele Mitnehmerflächen einander diametral gegenüberliegend am Werkzeugkopf vorgesehen, die mit entsprechenden Mitnehmerflächen des Werkzeugschaftes korrespondieren, wenn der Werkzeugkopf sich in Fixierstellung am Werkzeugschaft befindet. Vorteilhaft ist eine Ausbildung gemäß Anspruch 3.Clamping arm as an axial stop. The clamp arms spring apart slightly elastically in the axial stop position of the tool head. This supports the frictional active clamping effect of the tapered jacket surfaces of the clamping arm on the pressurized clamping surfaces of the fixing pin of the tool head. In principle, the frictional connection between the tapered clamping surfaces of the tool head on the one hand and the tool shank or its clamping arm on the other hand is sufficient for torque transmission, in particular in the case of small drill diameters. In order to be able to transmit higher torques, at least one driver surface is provided in the area of an axial end of the clamping cone of the tool head for an also positive torque transmission from the tool shaft to the tool head. This driver surface touches a corresponding counter surface on the tool shank in the fixing position of the tool head. At least two mutually parallel driver surfaces are expediently provided diametrically opposite one another on the tool head, which correspond to corresponding driver surfaces of the tool shaft when the tool head is in the fixing position on the tool shaft. An embodiment according to claim 3 is advantageous.
Die Mitnehmerfläche bzw. Mitnehmerflächen zur zusätzlich formschlüssigen Drehmomentübertragung können zweckmäßig auch Teile eines dem verjüngten Klemmkegelende in Einsteckrichtung vorgesetzten Lappens sein, der mit einer für die entsprechende Drehmomentübertragung geeigneten Ausnehmung am Stim-ende des Werk- zeugschaftes korrespondiert (Anspruch 5).The driver surface or driver surfaces for the additional positive torque transmission can also expediently be parts of a tab placed in front of the tapered clamping cone end in the insertion direction, which corresponds to a recess at the end of the tool shank suitable for the corresponding torque transmission (claim 5).
Gemäß Anspruch 7 ist vorgesehen, zusätzlich eine formschlüssige Drehmomentmitnahme durch eine die Klemmausleger und den Werkzeugkopf bzw. seinen Fixierzapfen durchsetzende Klemmfixierschraube, einen Bolzen, einen Spiralspannstift, einen Niet oder dergleichen zu bewirken bzw. zu unterstützen. Ein solcher Drehmomentmit- nehmer bewirkt auch eine Vergrößerung des auf die Kegelklemmflächen wirkenden zangenartigen Klemmfixierdruckes seitens der Klemmausleger des Werkzeugschaftes. Dieses Mittel zur Drehmomentmitnahme oder zur Erhöhung des radialen Klemmfixierdruckes liegt zweckmäßig in einem den Klemmkegel radial durchsetzenden Durchgangsloch ein (Anspruch 8). Es ist indessen bei vergleichbarer Wirksamkeit auch möglich, dass die Klemmfixierschraube oder dergleichen in einer den Klemmkegel radial durchsetzenden, zum verjüngten Klemmkegelende hin offenen, diametral längsgerichteten Schlitznut einliegt (Anspruch 9). Das erleichtert ein Auswechseln des Werkzeugkopfes.
Schließlich ist es weiterhin möglich, für auch eine axial wirksame formschlüssige Fixierung des Werkzeugkopfes am Werkzeugschaft eine lösbare Schnappverbindung vorzusehen, welche in Fixierstellung des Werkzeugkopfes aktiviert ist (Anspruch 10). Die s körperliche Ausgestaltung einer solchen Schnappverbindung ist Gegenstand des Anspruches 11. Dabei ist es wirkungsmäßig ohne Bedeutung, ob ein Schnappnoppen Teil des Kegelmantels oder des dem Kegelmantel in Axialrichtung benachbarten Mitnehmerbereiches und die Gegenfläche des Schnappnoppens Teil des Werkzeugschaftes bzw. seiner Klemmausleger ist oder ob umgekehrt ein Schnappnoppen Teil 0 des Werkzeugschaftes und die Ausnehmung als Gegenfläche Teil des Werkzeugkopfes ist.According to claim 7 it is provided to additionally effect or support a positive torque transmission by means of a clamping fixing screw penetrating the clamping arm and the tool head or its fixing pin, a bolt, a spiral spring pin, a rivet or the like. Such a torque driver also causes an increase in the forceps-like clamping fixation pressure acting on the cone clamping surfaces on the part of the clamping arm of the tool shaft. This means for driving torque or for increasing the radial clamping fixing pressure expediently lies in a through hole penetrating the clamping cone radially (claim 8). However, with comparable effectiveness, it is also possible for the clamping fixing screw or the like to lie in a diametrically longitudinal slot groove which penetrates the clamping cone radially and is open towards the tapered clamping cone end (claim 9). This makes it easier to replace the tool head. Finally, it is also possible to provide a releasable snap connection, which is activated in the fixing position of the tool head, for an axially effective, form-fitting fixing of the tool head to the tool shaft. The physical design of such a snap connection is the subject of claim 11. It is of no effect in terms of effect whether a snap nub is part of the cone shell or the driver area adjacent to the cone shell in the axial direction and the counter surface of the snap nub is part of the tool shank or its clamp arm or vice versa a snap nub part 0 of the tool shank and the recess as a counter surface is part of the tool head.
In Fixierstellung verläuft die Spannut des Schneidwerkzeuges, z.B. die Drallnut des Bohrers im Zwischenraum zwischen den Klemmauslegern. Der Boden der Spannut ist s dabei vertieft in die Oberfläche des Fixierzapfens eingelassen, der im Zwischenraum zwischen den Klemmauslegern keine passive Klemmfunktion hat (Ansprüche 12 und 13) sondern voll zur radial nach außen offenen Spanführung wirksam ist.The flute of the cutting tool runs in the fixing position, e.g. the twist groove of the drill in the space between the clamp arms. The bottom of the flute is s recessed into the surface of the fixing pin, which has no passive clamping function in the space between the clamping brackets (claims 12 and 13) but is fully effective for chip guidance that is open radially outwards.
Der Gegenstand der Erfindung wird anhand von in den Figuren dargestellten Ausfüh- 0 rungsbeispielen näher erläutert. Es zeigen:The object of the invention is explained in more detail with reference to exemplary embodiments shown in the figures. Show it:
Fig. 1 die Gesamtansicht eines Bohrers mit an seiner Bohrspitze klemmfixiert einsitzendem Werkzeugkopf aus einem harten Schneidwerkstoff, z.B. HM. Fig. 2 eine Seitenansicht isoliert des Werkzeugkopfes gemäß Fig. 1. 5 Fig. 3 eine Detailansicht der Bohrerspitze in Pfeilrichtung III von Fig. 1 und Fig. 2. Fig. 4 eine perspektivische Explosionsansicht des werkzeugkopfseitigen Endes des Werkzeugschaftes und des Werkzeugkopfes in ihren für den gegenseitigen Fixiereinsatz geeigneten bzw. bereiten Drehstellungen. Fig. 5 eine perspektivische Gesamtansicht des Werkzeugschaftes mit in Klemmfi- 0 Herstellung eingesetztem Werkzeugkopf.Fig. 1 shows the overall view of a drill with a tool head made of a hard cutting material, e.g. HM. 2 a side view isolated of the tool head according to FIG. 1. FIG. 3 a detailed view of the drill tip in the direction of arrow III from FIG. 1 and FIG. 2. FIG. 4 a perspective exploded view of the end of the tool shaft on the tool head side and of the tool head in their for the mutual fixing insert suitable or ready rotary positions. 5 shows an overall perspective view of the tool shank with the tool head used in the production of a clamping film.
Fig. 6 eine perspektivische Gesamtansicht des Fixierendes einer anderen Ausführungsform des Werkzeugkopfes. Fig. 7 eine Seitenansicht des Werkzeugkopfes gemäß Fig. 4, 5 und 6.
Fig. 8 eine Seitenansicht des kompletten Bohrers mit in Klemmfixierstellung am Werkzeugschaft einsitzendem Werkzeugkopf.Fig. 6 is an overall perspective view of the fixing end of another embodiment of the tool head. 7 shows a side view of the tool head according to FIGS. 4, 5 and 6. 8 is a side view of the complete drill with the tool head seated in the clamping fixation position on the tool shank.
Fig. 9 eine Schnittdarstellung entsprechend Pfeil IX-IX in Fig. 8.9 is a sectional view corresponding to arrow IX-IX in FIG. 8.
Fig. 10 eine Frontansicht auf die Bohrerspitze in Pfeilrichtung X von Fig. 8.10 is a front view of the drill tip in the direction of arrow X of FIG. 8.
Fig. 11 die Seitenansicht einer modifizierten Ausführungsform des Werkzeugkopfes.11 is a side view of a modified embodiment of the tool head.
Fig. 12 eine Seitenansicht - teilweise im Schnitt - eines zur Aufnahme des Werkzeugkopfes gemäß Fig. 11 geeigneten Werkzeugschaftes.FIG. 12 is a side view - partly in section - of a tool shank suitable for receiving the tool head according to FIG. 11.
Fig. 13 die Seitenansicht einer Bohrerspitze mit in Klemmfixierstellung einsitzendem Werkzeugkopf.13 shows the side view of a drill tip with the tool head seated in the clamped fixing position.
Fig. 14 die Seitenansicht - teilweise im Schnitt - des Werkzeugschaftes gemäß Fig. 12 mit in Klemmfixierstellung einsitzendem Werkzeugkopf gemäß Fig. 11.14 shows the side view - partly in section - of the tool shank according to FIG. 12 with the tool head according to FIG. 11 seated in the clamping fixing position.
Fig. 15 eine Seitenansicht in Pfeilrichtung XV des Bohrers gemäß Fig. 14.15 is a side view in the direction of arrow XV of the drill according to FIG. 14.
Fig. 16 die schematisierte Seitenansicht einer modifizierten Ausführungsform des Werkzeugkopfes.16 shows the schematic side view of a modified embodiment of the tool head.
Fig. 17 die Seitenansicht des werkzeugseitigen Endes des Werkzeugschaftes zur Aufnahme des gemäß Fig. 16 ausgebildeten Werkzeugkopfes.FIG. 17 shows the side view of the tool-side end of the tool shaft for receiving the tool head designed according to FIG. 16.
Der als Ausführungsbeispiel eines Rundlauf-Schneidwerkzeuges dargestellte Bohrer • enthält als wesentliche Bestandteile einen Werkzeugkopf 1 aus einem hartenThe drill shown as an exemplary embodiment of a concentric cutting tool • contains as essential components a tool head 1 made of a hard
Schneidwerkstoff, z.B. Hartmetall, Oxidkeramik oder dgl. und einen Werkzeugschaft 2 aus einem Werkzeugstahl oder einem anderen metallischen Werkstoff. Der Werkzeugkopf 1 ist Träger der Schneiden 3. Aus der der Spitze 4 abgewandten und dem Werkzeugschaft 2 zugewandten Seite seines Basiskörpers 5 steht ein mit der Werk- zeuglängsachse 6 koaxialer Fixierzapfen 7 vor, welcher einen sich in Richtung auf den Werkzeugschaft 2 verjüngenden Kegelstumpf 8 mit der Längsachse 6 als Kegelachse bildet.Cutting material, e.g. Hard metal, oxide ceramic or the like. And a tool shank 2 made of a tool steel or another metallic material. The tool head 1 is the carrier of the cutting edges 3. From the side of its base body 5 facing away from the tip 4 and facing the tool shaft 2, there projects a fixing pin 7 coaxial with the longitudinal tool axis 6, which also has a truncated cone 8 tapering in the direction of the tool shaft 2 the longitudinal axis 6 forms as a cone axis.
In den Umfang des Werkzeugkopfes 1 sind - ausgehend von den Schneiden 3 - zwei als Spannuten wirksame Drallnuten 9 eingeformt. Die beiden Drallnuten 9 erstrecken sich über den Umfang sowohl des Basiskörpers 5 als auch seines Fixierzapfens 7. Sie unterteilen daher den Mantel des Fixierzapfens 7 bzw. des Kegelstumpfes 8 in zwei
einander im Wesentlichen diametral gegenüberliegende Kegelstumpf- Mantelflächen 10,11 und setzen sich auf dem Umfang des Werkzeugschaftes 2 fort.In the circumference of the tool head 1 - starting from the cutting edges 3 - two swirl grooves 9 which are effective as flutes are formed. The two swirl grooves 9 extend over the circumference of both the base body 5 and its fixing pin 7. They therefore divide the jacket of the fixing pin 7 or the truncated cone 8 into two substantially diametrically opposed truncated cone surfaces 10, 11 and continue on the circumference of the tool shank 2.
Der Werkzeugschaft 2 klemmfixiert auswechselbar den Werkzeugkopf 1 an seinem dem werkzeugmaschinenseitigen Einspannende 12 gegenüberliegenden Halteende zwischen den einander zugewandten Flanken der beiden im Wesentlichen in Axialrichtung vom Werkzeugschaft 2 vorstehenden Klemmausleger 13,14. Die durch die beiden Drallnuten 9 in Umfangsrichtung voneinander separierten, einander diametral gegenüberliegenden Kegelstumpf-Mantelflächen 10,11 des Fixierzapfens 7 werden in Klemmstellung von den einander zugewandten Flanken der beiden Klemmausleger 13,14 des Werkzeugschaftes 2 beaufschlagt. Die einander zugewandten Innenflanken 15,16 der Klemmausleger 13,14 sind den konvexen Kegelstumpf-Mantelflächen 10,11 des Fixierzapfens 7 entsprechend konkav ausgemuldet derart, dass sie in Fixierstellung (Fig. 1 ,3,5,8,9,14 und 15) vollflächig die Kegelstumpf-Mantelflä- chen 10,11 des Fixierzapfens 7 beaufschlagen. Die axiale Einsetzrichtung 17 des Werkzeugkopfes 1 in den Werkzeugschaft 2 ist durch einen Richtungspfeil gekennzeichnet.The tool shaft 2 interchangeably fixes the tool head 1 at its holding end opposite the clamping end 12 on the machine tool between the mutually facing flanks of the two clamping arms 13, 14 projecting essentially in the axial direction from the tool shaft 2. The diametrically opposed truncated cone outer surfaces 10, 11 of the fixing pin 7, which are separated from one another in the circumferential direction by the two swirl grooves 9, are acted upon in the clamping position by the mutually facing flanks of the two clamping arms 13, 14 of the tool shank 2. The mutually facing inner flanks 15, 16 of the clamping arms 13, 14 are correspondingly concavely hollowed out in accordance with the convex truncated cone outer surfaces 10, 11 of the fixing pin 7 such that they are in the fixing position (FIGS. 1, 3, 5, 8, 9, 14 and 15) Apply the full surface of the truncated cone outer surfaces 10, 11 of the fixing pin 7. The axial direction of insertion 17 of the tool head 1 in the tool shank 2 is indicated by an arrow.
Die passiven Kegelstumpf-Mantelflächen 10,11 des Fixierzapfens 7 des Werkzeug- • kopfes 1 bzw. der durch sie beschriebene Kegelmantel haben einen Grundkreisdurchmesser, welcher kleiner ist als die Radialerstreckung bzw. der Durchmesser 18 des Basiskörpers 5 des Werkzeugkopfes 1. Dadurch bildet der Übergang vom Basiskörper 5 zum Fixierzapfen 7 zwischen den Drallnuten 9 ausgeprägte Axialanschläge 19. Mit den beiden Axialanschlägen 19 liegt der Werkzeugkopf 1 in Fixierstellung an den ihm zugewandten Stirnflächen 20 der Klemmausleger 13,14 an.The passive truncated cone surfaces 10,11 of the fastening pin 7 of the tool • head 1 or the cone described by them have a base diameter which is smaller than the radial extension or the diameter 18 of the base body 5 of the tool head 1. This forms the transition from the base body 5 to the fixing pin 7 between the swirl grooves 9 pronounced axial stops 19. With the two axial stops 19, the tool head 1 lies in the fixing position on the end faces 20 of the clamping arms 13, 14 facing it.
Im Bereich eines Axialendes des Fixierzapfens 7 bzw. seiner Kegelstumpf-Mantelflächen 10,11 weist der Werkzeugkopf 1 mindestens eine radial wirksame Mitnehmerfläche 21 und/oder 22 zur formschlüssigen Drehmomentübertragung vom Werkzeug- schaff 2 zum Werkzeugkopf 1 auf. Diese Mitnehmerfläche 21 bzw. 22 tangiert, also beaufschlagt, in Fixierstellung des Werkzeugkopfes 1 eine entsprechende Gegenfläche am Werkzeugschaft 2. Beim Ausführungsbeispiel gemäß den Fig. 1 bis 3 befindet
sich die Mitnehmerfläche 21 im Übergangsbereich vom Fixierzapfen 7 zum Basiskörper 5.In the area of an axial end of the fixing pin 7 or its truncated-cone outer surfaces 10, 11, the tool head 1 has at least one radially effective driver surface 21 and / or 22 for positive torque transmission from the tool holder 2 to the tool head 1. This driver surface 21 or 22 touches, ie acts upon, a corresponding counter surface on the tool shaft 2 in the fixing position of the tool head 1. In the exemplary embodiment according to FIGS. 1 to 3 the driver surface 21 in the transition area from the fixing pin 7 to the base body 5.
Im Falle des Ausführungsbeispiels gemäß den Fig. 4 bis 7 und Fig. 16,17 befindet sich die Mitnehmerfläche 22 im Bereich des verjüngten Fixierzapfenendes 23 und ist ihm in Einsetzrichtung 17 vorgesetzt. Beide Mitnehmerflächen 21 ,22 sind als ebene Oberflächen nach Art einer Schlüsselweite ausgebildet und wirksam. Im Falle der Positionierung im Bereich des verjüngten Fixierzapfenendes 23 ist die Mitnehmerfläche 22 Teil des Umfanges eines Mitnehmerzapfens 24, welcher dem verjüngten Fi- xierzapfen- bzw. Klemmkegelende 23 in Einsetzrichtung 17 vorgesetzt ist. Der Mitnehmerzapfen 24 steht dabei drehmomentschlüssig in die Zentralausnehmung 25 am Klemmende des Werkzeugschaftes 2 zwischen den beiden Klemmauslegern 13,14 hinein. Dabei beaufschlagen die Mitnehmerflächen 22 kontaktschlüssig die die Zentralausnehmung 25 beidseitig flankierenden Gegenflächen 31 unterhalb der kegel- mantelförmig konkaven Innenflanken 15,16 der beiden Klemm-ausleger 13,14.In the case of the exemplary embodiment according to FIGS. 4 to 7 and 16, 17, the driver surface 22 is located in the region of the tapered fixing pin end 23 and is placed in front of it in the direction of insertion 17. Both driver surfaces 21, 22 are designed and effective as flat surfaces in the manner of a wrench size. In the case of positioning in the region of the tapered fixing pin end 23, the driver surface 22 is part of the circumference of a driver pin 24, which is placed in front of the tapered fixing pin or clamping cone end 23 in the direction of insertion 17. The driver pin 24 is torque-locked into the central recess 25 at the clamping end of the tool shank 2 between the two clamping arms 13, 14. In this case, the driver surfaces 22 press-fit the counter-surfaces 31 flanking the central recess 25 on both sides below the cone-shaped concave inner flanks 15, 16 of the two clamping arms 13, 14.
Bei der Ausführungsform gemäß den Fig. 1 bis 3 und 12 bis 15 durchdringt eine von der Umfangsseite des Werkzeugschaftes 2 her eingeschraubte Klemmfixierschraube 26 den Fixierzapfen 7 und die ihn klemmfixierenden Klemmausleger 13,14. Die Klemmfixierschraube 26 stellt nicht nur eine Formschlussverbindung zwischen den Klemmauslegern 13,14 und dem Fixierzapfen 7 her. Vielmehr erhöht sie weiterhin den radialen, von den Klemmauslegern 13,14 auf die Kegelstumpf-Mantelflächen 10,11 des Mitnehmerzapfens 24 ausgeübten, zangenartig wirksamen Klemmfixierdruck.In the embodiment according to FIGS. 1 to 3 and 12 to 15, a clamping fixing screw 26 screwed in from the peripheral side of the tool shank 2 penetrates the fixing pin 7 and the clamping bracket 13, 14 fixing it to the clamp. The clamping fixing screw 26 not only establishes a positive connection between the clamping brackets 13, 14 and the fixing pin 7. Rather, it further increases the radial, pincer-like clamping fixing pressure exerted by the clamping arms 13, 14 on the truncated cone lateral surfaces 10, 11 of the driving pin 24.
Bei der Ausführungsform gemäß Fig. 1 bis 3 liegt die Klemmfixierschraube 26 in einem den Fixierzapfen 7 radial durchsetzenden Durchgangsloch 27 ein. Im Falle der Ausführungsform gemäß Fig. 11 bis 15 liegt die Klemmfixierschraube 26 innerhalb einer den Fixierzapfen 7 radial durchsetzenden, zum verjüngten Fixierzapfenende 23 hin offenen, diametral längsgerichteten Schlitznut 28 ein.In the embodiment according to FIGS. 1 to 3, the clamping fixing screw 26 lies in a through hole 27 which penetrates radially through the fixing pin 7. In the case of the embodiment according to FIGS. 11 to 15, the clamping fixing screw 26 lies within a diametrically longitudinal slot groove 28 which penetrates the fixing pin 7 radially and is open towards the tapered fixing pin end 23.
Bei der Ausführungsform gemäß den Fig. 16 und 17 ist in Fixierstellung des Werkzeugkopfes 1 am Werkzeugschaft 2 eine lösbare Schnappverbindung vorhanden. Sie bildet in Fixierstellung des Werkzeugkopfes 1 eine zusätzliche, axial wirksame form-
schlüssige Verschiebesicherung. Die Schnappverbindung enthält mit dem Kegelmantel bzw. einer Kegelstumpf-Mantelfläche 10 bzw. 11 integrale, einander diametral gegenüberliegende Schnappnoppen 29. In Fixierstellung schnappen die Schnappnoppen 29 des Fixierzapfens 7 in entsprechende Ausnehmungen an den Innenflanken 15,16 der Klemmausleger 13,14 als Gegenfläche ein.In the embodiment according to FIGS. 16 and 17, a releasable snap connection is present in the fixing position of the tool head 1 on the tool shaft 2. In the fixing position of the tool head 1, it forms an additional, axially effective conclusive protection against displacement. The snap connection contains, with the cone jacket or a truncated cone jacket surface 10 or 11, integral, diametrically opposed snap knobs 29. In the fixing position, the snap knobs 29 of the fixing pin 7 snap into corresponding recesses on the inner flanks 15, 16 of the clamping arms 13, 14 as a counter surface ,
In Fixierstellung des Werkzeugkopfes 1 gegenüber dem Werkzeugschaft 2 liegen die Drallnuten 9 im Zwischenraum zwischen den beiden Klemmauslegern 13,14. Dadurch liegen sie zum Umfang des Bohrers hin völlig frei und sind dadurch in ihrer Wirkung als Spannuten nicht behindert bzw. eingeschränkt. Der Boden der Drallnuten 9 ist konkav in die Kegelstumpf-Mantelflächen 10,11 des Fixierzapfens 7 eingeformt.
In the fixing position of the tool head 1 with respect to the tool shank 2, the swirl grooves 9 lie in the space between the two clamp arms 13, 14. As a result, they are completely exposed to the circumference of the drill and are therefore not hindered or restricted in their action as flutes. The bottom of the swirl grooves 9 is concavely formed in the truncated cone outer surfaces 10, 11 of the fixing pin 7.
- y - Bezugszeichenliste- y - list of reference symbols
Werkzeugkopftool head
Werkzeugschafttool shank
Schneidecutting edge
Spitzetop
Basiskörperbase body
Längsachselongitudinal axis
Fixierzapfenfixing pins
Kegelstumpftruncated cone
Drallnut, SpannutTwist groove, flute
Kegelstumpf-MantelflächeTruncated cone surface
Kegelstumpf-MantelflächeTruncated cone surface
Einspannendeclamping end
Klemmauslegerclamping arm
Klemmauslegerclamping arm
Innenflankeinside edge
Innenflankeinside edge
Einsetzrichtunginsertion
Durchmesserdiameter
Axialanschlagaxial stop
Stirnflächeface
Mitnehmerflächeentraining
Mitnehmerfläche verjüngtes FixierzapfenendeDriver surface tapered fixing pin end
Mitnehmerzapfendriver pin
Zentralausnehmungcentral opening
KlemmfixierschraubeKlemmfixierschraube
DurchgangslochThrough Hole
Schlitznutslot groove
Schnappnoppensnap studs
Ausnehmungrecess
Gegenfläche
counter surface
Claims
1. Rundlauf-Schneidwerkzeug, z. B. Bohrer, Fräser, Reibahle oder dergleichen1. Run-out cutting tool, e.g. B. drills, milling cutters, reamer or the like
- mit einem Werkzeugkopf (1 ) aus einer oder wenigstens mit einem harten s Schneidwerkstoff, Z.B.Hartmetall, Oxidkeramik oder dergleichen und- With a tool head (1) made of one or at least with a hard cutting material, e.g. hard metal, oxide ceramic or the like and
- mit einem den Werkzeugkopf (1 ) koaxial fixierenden Werkzeugschaft (2), welcher Werkzeugschaft (2) an seinem dem maschinenseitigen Einspannende (12) gegenüberliegenden Halteende einen aus der schaftseitigen, zum Werkzeugschaft (2) hin als Axialanschlag (19) wirksamen Endfläche des 0 Werkzeugkopfes (1) koaxial vorstehenden, sich in Vorstehrichtung schlankkonisch verjüngenden Fixierzapfen (7) mit den Innenflanken zweier im Wesentlichen in Axialrichtung vom Werkzeugschaft (2) vorstehender, mit dem Werkzeugschaft (2) einstückiger Klemmausleger (13,14) reibschlüssig beaufschlagt, s dadurch gekennzeichnet, dass die Klemmflächen des Fixierzapfens (7) die Mantelflächen (10,11) eines- With a tool shaft (2) which fixes the tool head (1) coaxially, which tool shaft (2) has at its holding end opposite the machine-side clamping end (12) an end surface of the shaft which is effective from the shaft-side and towards the tool shaft (2) as an axial stop (19) Tool head (1) coaxially projecting fixation pins (7) tapering in the direction of the projection with the inner flanks of two clamping arms (13, 14) protruding axially from the tool shaft (2) and integrally with the tool shaft (2), s characterized that the clamping surfaces of the fixing pin (7) of the lateral surfaces (10, 11)
- aus dem Basiskörper (5) des Werkzeugkopfes(l) in dessen Einsetzrichtung (17) vorstehenden- From the base body (5) of the tool head (l) in the direction of insertion (17) protruding
- mit der Längsachse des Werkzeugschaftes (2) konzentrischen 0 ' Kegelstumpfes bilden.- Form concentric 0 ' truncated cone with the longitudinal axis of the tool shank (2).
2. Schneidwerkzeug nach Anspruch 1 , dadurch gekennzeichnet, dass der Grundkreisdurchmesser des Fixierzapfens (7) kleiner ist als die 5 Radialerstreckung, insbesondere als der Durchmesser (18) des Basiskörpers (5) des Werkzeugkopfes (1 ).2. Cutting tool according to claim 1, characterized in that the base circle diameter of the fixing pin (7) is smaller than the 5 radial extent, in particular as the diameter (18) of the base body (5) of the tool head (1).
3. Schneidwerkzeug nach Anspruch 1 oder 2, dadurch gekennzeichnet, 0 dass der Werkzeugkopf im Bereich eines Axialendes des Fixierzapfens (7) mindestens eine Mitnehmerfläche (21 ,22) zur zusätzlichen Drehmomentübertragung vom Werkzeugschaft (2) zum Werkzeugkopf (1) aufweist, welche Mitnehmerfläche (21 ,22) in Fixierstellung des Werkzeugkopfes (1) eine ent- sprechende Gegenfläche am Werkzeugschaft (2) beaufschlagt.3. Cutting tool according to claim 1 or 2, characterized in that the tool head in the region of an axial end of the fixing pin (7) has at least one driver surface (21, 22) for additional torque transmission from the tool shank (2) to the tool head (1), which driver surface (21, 22) in the fixing position of the tool head (1) a speaking counter surface on the tool shank (2).
4. Schneidwerkzeug nach Anspruch 3, dadurch gekennzeichnet, s dass die Mitnehmerfläche (21) zur Drehmomentübertragung am Übergang vom4. Cutting tool according to claim 3, characterized in that the driver surface (21) for torque transmission at the transition from
Basiskörper (5) des Werkzeugkopfes (1 ) zum Fixierzapfen (7) ausgebildet ist.Base body (5) of the tool head (1) for fixing pin (7) is formed.
5. Schneidwerkzeug nach Anspruch 3, dadurch gekennzeichnet, 0 dass die Mitnehmerfläche (22) im Bereich des verjüngten Fixierzapfenendes (23) positioniert und dem verjüngten Fixierzapfenende (23) in Einsetzrichtung (17) vorgesetzt ist sowie in Fixierstellung des Werkzeugkopfes drehmomentschlüssig in eine Zentralausnehmung (25) am Klemmende des Werk- zeugschaftes (2) hineinsteht. 55. Cutting tool according to claim 3, characterized in that the driving surface (22) is positioned in the region of the tapered fixing pin end (23) and the tapered fixing pin end (23) is placed in the insertion direction (17) and in the fixing position of the tool head in a torque-locking manner in a central recess ( 25) protrudes at the clamping end of the tool shank (2). 5
6. Schneidwerkzeug nach Anspruch 4 oder 5, dadurch gekennzeichnet, dass die Mitnehmerfläche (21 ,22) als ebene Oberfläche nach Art einer Schlüsselweite ausgebildet ist. 0 ' 6. Cutting tool according to claim 4 or 5, characterized in that the driver surface (21, 22) is designed as a flat surface in the manner of a wrench size. 0 '
7. Schneidwerkzeug nach einem der Ansprüche 1 bis 6, gekennzeichnet durch eine den Fixierzapfen (7) und die ihn klemmfixierenden Klemmausleger (13,14) etwa diametral durchdringende Drehmomentmitnahme, z.B. eine von der Um- 5 fangsseite des Werkzeugschaftes her schraubbare Klemmfixierschraube (26) zur Erhöhung auch des radialen, von den Klemmauslegern (13,14) auf die Klemmkegelflächen (10,11) ausgeübten, zangenartig wirksamen Klemmfixierdruckes.7. Cutting tool according to one of claims 1 to 6, characterized by a the fixing pin (7) and the clamp-fixing clamp arm (13, 14) approximately diametrically penetrating torque, e.g. a clamp fixing screw (26) which can be screwed from the circumferential side of the tool shank to increase the radial, clamp-like clamping force exerted by the clamp arms (13, 14) on the clamping cone surfaces (10, 11).
o 8. Schneidwerkzeug nach Anspruch 7, dadurch gekennzeichnet, dass die Klemmfixierschraube (26) in einem den Fixierzapfen (7) radial durchsetzenden Durchgangsloch einliegt.8. Cutting tool according to claim 7, characterized in that that the clamping fixing screw (26) lies in a through hole which penetrates radially through the fixing pin (7).
9. Schneidwerkzeug nach Anspruch 7, dadurch gekennzeichnet, dass die Klemmfixierschraube (26) innerhalb einer den Fixierzapfen (7) radial durchsetzenden, zum verjüngten Fixierzapfenende (23) hin offenen, diametral längsgerichteten Schlitznut (28) einliegt.9. Cutting tool according to claim 7, characterized in that the clamping fixing screw (26) lies within a diametrically longitudinal slot groove (28) which extends radially through the fixing pin (7) and opens towards the tapered fixing pin end (23).
10. Schneidwerkzeug nach einem oder mehreren der vorhergehenden Ansprüche, gekennzeichnet durch eine lösbare Schnappverbindung zwischen dem Werkzeugkopf (1) einerseits und dem Werkzeugschaft (2), insbesondere einem Fixierzapfen (7) des Werk- zeugschaftes (2) andererseits, welche Schnappverbindung in Fixierstellung des Werkzeugkopfes (1 ) als zusätzliche, insbesondere axial wirksame Verschiebesicherung einrastet.10. Cutting tool according to one or more of the preceding claims, characterized by a releasable snap connection between the tool head (1) on the one hand and the tool shank (2), in particular a fixing pin (7) of the tool shank (2) on the other hand, which snap connection in the fixing position of the Tool head (1) snaps into place as an additional, in particular axially effective, locking device.
11. Schneidwerkzeug nach Anspruch 10, gekennzeichnet durch einen mit dem Kegelmantel oder mit einem dem Kegelmantel in Axialrichtung benachbarten Mitnehmerbereich integralen, aus ihm radial vorstehenden Schnappnoppen (29) als Schnapper und mit einer Ausnehmung (30) in einem Klemmausleger (13,14) oder in dem Werkzeugschaft (2) als Gegenfläche oder auch wirkungsmäßig umgekehrt.11. Cutting tool according to claim 10, characterized by an integral with the cone jacket or with a conical area adjacent to the driver area in the axial direction, radially projecting from it snap nubs (29) as a snap and with a recess (30) in a clamp arm (13, 14) or in the tool shank (2) as a counter surface or vice versa.
12. Schneidwerkzeug nach einem der Ansprüche 1 bis 12 mit mindestens einer im Wesentlichen axial ausgerichteten und sich in Axialrichtung vom Werkzeugkopf bis in den Umfang des Werkzeugschaftes hinein erstreckenden Spannut, z. B. mit der Drallnut (9) eines Bohrer, dadurch gekennzeichnet, dass in Fixierstellung des Werkzeugkopfes (1) die Spannut (9) im Zwischenraum zwischen den Klemmauslegem (13,14) verläuft. 12. Cutting tool according to one of claims 1 to 12 with at least one substantially axially aligned and extending in the axial direction from the tool head into the circumference of the tool shank flute, z. B. with the twist groove (9) of a drill, characterized in that in the fixing position of the tool head (1) the flute (9) extends in the space between the clamp extensions (13, 14).
3. Schneidwerkzeug nach Anspruch 12, dadurch gekennzeichnet, dass die Spannut (9) in den Mantel des Fixierzapfens (7) und gegebenenfalls in einen Teil des Umfanges des Mitnehmerzapfens (24) eingeformt ist. 3. Cutting tool according to claim 12, characterized in that the flute (9) in the jacket of the fixing pin (7) and optionally in a part of the circumference of the driver pin (24) is formed.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE10042990A DE10042990A1 (en) | 2000-09-01 | 2000-09-01 | Run-out cutting tool, e.g. B. drills |
DE10042990 | 2000-09-01 | ||
PCT/EP2001/009916 WO2002018082A1 (en) | 2000-09-01 | 2001-08-29 | Rotative cutting device, e.g. drill |
Publications (1)
Publication Number | Publication Date |
---|---|
EP1406741A1 true EP1406741A1 (en) | 2004-04-14 |
Family
ID=7654553
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP01978311A Withdrawn EP1406741A1 (en) | 2000-09-01 | 2001-08-29 | Rotative cutting device, e.g. drill |
Country Status (6)
Country | Link |
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US (3) | US7048480B2 (en) |
EP (1) | EP1406741A1 (en) |
JP (1) | JP2004507373A (en) |
AU (1) | AU2002210466A1 (en) |
DE (1) | DE10042990A1 (en) |
WO (1) | WO2002018082A1 (en) |
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US6283682B1 (en) | 1997-09-30 | 2001-09-04 | Jerald D. Plummer | Helically fluted twist drill device |
IL123858A (en) | 1998-03-27 | 2003-05-29 | Iscar Ltd | Drilling head |
DE19834635C2 (en) * | 1998-07-31 | 2001-07-26 | Guehring Joerg | Drilling tool with an exchangeable cutting insert that is secured against loosening |
DE19905735A1 (en) | 1999-02-11 | 2000-08-17 | Kennametal Inc | Process for producing a cutting tool and cutting tool |
DE19907749A1 (en) | 1999-02-23 | 2000-08-24 | Kennametal Inc | Sintered hard metal body useful as cutter insert or throwaway cutter tip has concentration gradient of stress-induced phase transformation-free face-centered cubic cobalt-nickel-iron binder |
US6135218A (en) | 1999-03-09 | 2000-10-24 | Camco International Inc. | Fixed cutter drill bits with thin, integrally formed wear and erosion resistant surfaces |
DE19914170C1 (en) | 1999-03-29 | 2000-03-16 | Kennametal Inc | Drill with basic body incorporates exchangeable cutting insert located in accommodation open to drill point and penetrating basic body crossways to its longitudinal axis |
DE19920192A1 (en) | 1999-05-03 | 2000-11-16 | Kennametal Inc | Cutting insert, especially indexable insert |
DE10042990A1 (en) * | 2000-09-01 | 2002-03-28 | Kennametal Inc | Run-out cutting tool, e.g. B. drills |
US6506003B1 (en) * | 2001-10-02 | 2003-01-14 | Kennametal Inc. | Cutting tool |
US6582164B1 (en) * | 2002-02-25 | 2003-06-24 | Kennametal Inc. | Roller twist drill |
-
2000
- 2000-09-01 DE DE10042990A patent/DE10042990A1/en not_active Ceased
-
2001
- 2001-08-29 AU AU2002210466A patent/AU2002210466A1/en not_active Abandoned
- 2001-08-29 JP JP2002523041A patent/JP2004507373A/en active Pending
- 2001-08-29 EP EP01978311A patent/EP1406741A1/en not_active Withdrawn
- 2001-08-29 WO PCT/EP2001/009916 patent/WO2002018082A1/en not_active Application Discontinuation
-
2003
- 2003-02-28 US US10/377,588 patent/US7048480B2/en not_active Expired - Lifetime
-
2006
- 2006-05-23 US US11/438,971 patent/US7306410B2/en not_active Expired - Lifetime
-
2007
- 2007-12-11 US US12/001,246 patent/US7591617B2/en not_active Expired - Fee Related
Non-Patent Citations (1)
Title |
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See references of WO0218082A1 * |
Also Published As
Publication number | Publication date |
---|---|
AU2002210466A1 (en) | 2002-03-13 |
US7306410B2 (en) | 2007-12-11 |
DE10042990A1 (en) | 2002-03-28 |
JP2004507373A (en) | 2004-03-11 |
US20030219321A1 (en) | 2003-11-27 |
US20060245836A1 (en) | 2006-11-02 |
US7048480B2 (en) | 2006-05-23 |
US7591617B2 (en) | 2009-09-22 |
US20080181741A1 (en) | 2008-07-31 |
WO2002018082A1 (en) | 2002-03-07 |
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