JP2011194500A - Tool holder - Google Patents

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JP2011194500A
JP2011194500A JP2010062643A JP2010062643A JP2011194500A JP 2011194500 A JP2011194500 A JP 2011194500A JP 2010062643 A JP2010062643 A JP 2010062643A JP 2010062643 A JP2010062643 A JP 2010062643A JP 2011194500 A JP2011194500 A JP 2011194500A
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ring member
tool holder
tool
arbor
adjustment ring
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JP2010062643A
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JP5383569B2 (en
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Masaichi Matsumoto
政一 松本
Masahiro Taguchi
正博 田口
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Nikken Kosakusho Works Ltd
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Nikken Kosakusho Works Ltd
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Abstract

PROBLEM TO BE SOLVED: To provide a tool holder with a function of correcting cutting edge sway, capable of easily correcting sway of a cutting edge of a tool with small force, also stably maintaining high sway correction accuracy, and reducing a weight and a size of the holder.SOLUTION: The tool holder 100 includes an adjust ring member 32 rotatably fitted into a coupling base 3103a with a flange 3102 of an arbor 3103 of a holder body 31. The adjust ring member 32 has a slit 37 formed, which separates the adjust ring member 32 into a first ring 3201 and a second ring 3202 in a thickness direction and extends in a radial direction of the adjust ring member 32. A tapered threaded hole 33 reducing in diameter toward an axis from an outer peripheral surface of the adjust ring member 32 is formed at a position located in the middle of the circumferential direction of the slit 37. Further, the tool holder is structured such that an adjust screw 34 with a taper for correcting the cutting edge sway is screwed in the tapered threaded hole 33.

Description

本発明は、工作機械の主軸にホルダを介して装着されたバニッシングリーマやドリル等の切削工具の刃先振れを修正することができる工具ホルダに関するものである。   The present invention relates to a tool holder capable of correcting runout of a cutting tool such as a burnishing reamer or a drill attached to a main spindle of a machine tool via a holder.

工作機械加工において、高精度の加工を実現するには、切削工具の取付け精度を高精度に維持する必要がある。   In order to achieve high-precision machining in machine tool machining, it is necessary to maintain the cutting tool mounting accuracy with high accuracy.

一般に切削工具を工具ホルダでチャッキングする場合の精度は、切削工具のチャック部分から刃先方向へ所定距離離れた先端の振れ精度を指標としており、高精度の工具ホルダであっても、その振れ精度は3〜5μmである。すなわち、バニッシングリーマやドリル等の工具ホルダに高精度のチャックを用いても工具の刃先の振れを限りなくゼロに近づけることは困難である。そこで、工具の刃先の振れを修正できる工具ホルダが提案され実用に供されている(非特許文献1参照)。   In general, the accuracy when chucking a cutting tool with a tool holder is based on the deflection accuracy of the tip that is a predetermined distance away from the chuck part of the cutting tool in the direction of the cutting edge. Is 3-5 μm. In other words, even if a high-precision chuck is used for a tool holder such as a burnishing reamer or a drill, it is difficult to make the tool edge runout as close to zero as possible. Therefore, a tool holder that can correct the runout of the cutting edge of the tool has been proposed and put into practical use (see Non-Patent Document 1).

従来の刃先振れ修正機構付き工具ホルダについて、図1を参照して説明する。   A conventional tool holder with a blade edge correction mechanism will be described with reference to FIG.

工具ホルダ1は、図1に示すように、図示省略の工作機械の主軸に装着されるテーパ付きのシャンク部2と、このシャンク部2の大径側端に形成された掴持用のフランジ3と、このフランジ3の反シャンク部側端に軸線を一致させて一体に設けられたアーバ4とを有し、このアーバ4の先端部にはコレットチャック5によりドリル等の切削工具6が取り付けられている。   As shown in FIG. 1, the tool holder 1 includes a tapered shank portion 2 attached to a spindle of a machine tool (not shown), and a gripping flange 3 formed at the large-diameter side end of the shank portion 2. And an arbor 4 provided integrally with the opposite end of the flange 3 on the side opposite to the shank. A cutting tool 6 such as a drill is attached to the tip of the arbor 4 by a collet chuck 5. ing.

また、アーバ4のフランジ3との連接部分にはアーバ4より径の大きい段部4aが形成され、この段部4aには刃先振れ修正機構を構成する回転リング7が回転可能に嵌合されている。また、回転リング7の段部4aと対向する箇所には固定ボルト8が半径方向に貫通して螺合され、この固定ボルト8により回転リング7を段部4aに固定できるようになっている。さらに、回転リング7のアーバ4の根元部分と対向する円周方向の4箇所には刃先振れ修正ねじ9がそれぞれ半径方向に貫通して螺合されている。   Further, a step portion 4a having a diameter larger than that of the arbor 4 is formed at a portion where the arbor 4 is connected to the flange 3, and a rotating ring 7 constituting a blade edge correction mechanism is rotatably fitted to the step portion 4a. Yes. In addition, a fixing bolt 8 is threaded through and screwed to a portion of the rotating ring 7 facing the step portion 4a in the radial direction, and the rotating ring 7 can be fixed to the step portion 4a by the fixing bolt 8. Further, blade runout correction screws 9 are threaded through the radial direction at four locations in the circumferential direction facing the root portion of the arbor 4 of the rotating ring 7.

このような工具ホルダ1において、切削工具6の刃先振れを修正する場合は、切削工具6がチャッキングされた工具ホルダ1のシャンク部2を工作機械の主軸に装着し、次に切削工具6の先端外周面にテストインジケータ10を押し当てて主軸の回転中におけるテストインジケータ10の読みの最大差を切削工具6の刃先振れとして測定する。そして、この測定値から切削工具6の刃先振れが一番高くなる角度位置を検出する。その後、主軸の回転を止めて回転リング7を回転し、その刃先振れ修正ねじ9の1つを刃先振れが一番高くなった角度位置と対応するアーバ4の根元部分に合わせ、この位置に回転リング7を固定ボルト8より固定する。しかる後、刃先振れの一番高くなった角度位置のアーバ根元部に合わせた刃先振れ修正ねじ9を締付け、アーバ4を修正ねじ9の締付け方向に弾性変形させて切削工具6の刃先の芯ずれをその刃先振れが限りなくゼロに近づくように、テストインジケータ10を見ながらアーバ4を弾性変形させる。これにより、切削工具6の刃先振れを修正することができる。   In such a tool holder 1, when correcting the cutting edge runout of the cutting tool 6, the shank portion 2 of the tool holder 1 to which the cutting tool 6 is chucked is mounted on the spindle of the machine tool, and then the cutting tool 6 The test indicator 10 is pressed against the outer peripheral surface of the tip, and the maximum difference in reading of the test indicator 10 during the rotation of the spindle is measured as the runout of the cutting tool 6. Then, the angular position at which the cutting edge runout of the cutting tool 6 is highest is detected from the measured value. Thereafter, the rotation of the main shaft is stopped and the rotary ring 7 is rotated. One of the blade runout correction screws 9 is aligned with the root portion of the arbor 4 corresponding to the angular position where the blade runout becomes the highest, and rotated to this position. The ring 7 is fixed by the fixing bolt 8. Thereafter, the blade runout correction screw 9 aligned with the arbor root portion at the highest angular position of the blade runout is tightened, and the arbor 4 is elastically deformed in the tightening direction of the correction screw 9 to decenter the cutting edge of the cutting tool 6. The arbor 4 is elastically deformed while observing the test indicator 10 so that the blade runout approaches zero as much as possible. Thereby, the edge runout of the cutting tool 6 can be corrected.

次に、図2により従来の刃先振れ修正機構付き工具ホルダの他の例について説明する。   Next, another example of a conventional tool holder with a blade runout correction mechanism will be described with reference to FIG.

図2において、工具ホルダ12は、図示省略の工作機械の主軸に装着されるテーパ付きのシャンク部13と、このシャンク部13の大径側端に形成された掴持用のフランジ14と、このフランジ14の反シャンク部側端に軸線を一致させて一体に設けられたアーバ15とを有し、このアーバ15の先端部にはコレットチャック16によりドリル等の切削工具17が取り付けられている。   In FIG. 2, a tool holder 12 includes a tapered shank portion 13 attached to a spindle of a machine tool (not shown), a gripping flange 14 formed at the large-diameter side end of the shank portion 13, The flange 14 has an arbor 15 integrally provided at the end opposite to the shank portion of the flange 14, and a cutting tool 17 such as a drill is attached to the tip of the arbor 15 by a collet chuck 16.

また、図2において、18は前記工具ホルダ12にコレットチャック16によりチャッキングされた切削工具17の刃先の振れを修正する振れ修正器である。   In FIG. 2, reference numeral 18 denotes a runout corrector that corrects runout of the cutting edge of the cutting tool 17 chucked by the collet chuck 16 on the tool holder 12.

振れ修正器18は、アーバ15の先端部外周及びコレットチャック16のロックナット161の外周に着脱可能に装着されるリング部材181と、このリング部材181にリング部材181を半径方向に貫通するように螺合された押しねじ182とを備えている。   The shake corrector 18 includes a ring member 181 that is detachably attached to the outer periphery of the distal end portion of the arbor 15 and the outer periphery of the lock nut 161 of the collet chuck 16, and the ring member 181 penetrates the ring member 181 in the radial direction. And a press screw 182 screwed together.

このような振れ修正器18を用いて切削工具6の刃先振れを修正する場合は、切削工具17がチャッキングされた工具ホルダ12のシャンク部13を工作機械の主軸に装着し、切削工具17の先端外周面にテストインジケータ19を押し当てて主軸の回転中におけるテストインジケータ19の読みの最大差を切削工具17の刃先振れとして測定する。この測定値から切削工具17の刃先の振れが一番高くなる角度位置を検出する。その後、主軸の回転を止めてリング部材181を回転し、その押しねじ182を刃先振れの一番高くなった角度位置と対応するロックナット161の外周部位に合わせる。その後、この外周部位を押しねじ182の締付けにより矢印方向に加圧する。これにより、切削工具17の刃先の芯ずれをその刃先振れが限りなくゼロに近づくように、テストインジケータ19を見ながら加圧する。これにより、切削工具6の刃先振れを修正できる。そして、振れの修正終了後は、振れ修正器18を工具ホルダ12から取り外す。   When correcting the runout of the cutting tool 6 using such a shake corrector 18, the shank portion 13 of the tool holder 12 to which the cutting tool 17 is chucked is attached to the spindle of the machine tool, and the cutting tool 17 The test indicator 19 is pressed against the outer peripheral surface of the tip, and the maximum difference in the reading of the test indicator 19 during the rotation of the spindle is measured as the runout of the cutting tool 17. From this measurement value, the angular position at which the deflection of the cutting edge of the cutting tool 17 is highest is detected. Thereafter, the rotation of the main shaft is stopped, the ring member 181 is rotated, and the push screw 182 is aligned with the outer peripheral portion of the lock nut 161 corresponding to the angular position where the blade edge swing is the highest. Thereafter, the outer peripheral portion is pressurized in the direction of the arrow by tightening the push screw 182. Thereby, the misalignment of the cutting edge of the cutting tool 17 is pressurized while looking at the test indicator 19 so that the fluctuation of the cutting edge approaches zero as much as possible. Thereby, the blade runout of the cutting tool 6 can be corrected. After the shake correction is completed, the shake corrector 18 is removed from the tool holder 12.

「21世紀のツーリング」平成12年11月2日発行 発行元・主催「日本工作機器工業会・技術振興委員会」“21st Century Touring” issued on November 2, 2000 Publisher / Organizer “Japan Machine Tool Manufacturers Association / Technology Promotion Committee”

本発明は、工具の刃先振れを小さい力で容易に修正できるとともに高い振れ修正精度を安定に維持でき、かつホルダを軽量化とコンパクト化を可能にした刃先振れ修正機能付きの工具ホルダを提供する。   The present invention provides a tool holder with a blade runout correction function that can easily correct the runout of a tool with a small force, maintain high runout correction accuracy stably, and reduce the weight and size of the holder. .

しかしながら、図1に示す工具ホルダ1では、アーバ4の根元部分に設けた刃先振れ修正機構の修正ねじ9によりアーバ4の根元部分をアーバ4のラジアル方向から押圧してアーバ4をラジアル方向に弾性変形させることで工具の刃先の芯ずれを修正するものであるため、刃先の振れ修正に大きな力が必要になる。したがって、このような従来の刃先振れ修正方式は小径刃物用の工具ホルダにしか適用できないという不具合があった。   However, in the tool holder 1 shown in FIG. 1, the base part of the arbor 4 is pressed from the radial direction of the arbor 4 by the correction screw 9 of the cutting edge correction mechanism provided at the base part of the arbor 4, and the arbor 4 is elastic in the radial direction. Since deformation is to correct the misalignment of the cutting edge of the tool, a large force is required to correct the deflection of the cutting edge. Therefore, there is a problem that such a conventional cutting edge correction method can be applied only to a tool holder for a small diameter cutter.

また、図2に示す工具ホルダ12では、刃先の振れが修正された後に振れ修正器18を工具ホルダ12から取り外す方式になっているため、折角修正した刃先が元の振れ位置に戻ってしまう場合があり、刃先の振れ修正位置を安定に維持できないという問題がある。   Moreover, in the tool holder 12 shown in FIG. 2, since the runout corrector 18 is removed from the tool holder 12 after the runout of the cutting edge is corrected, the corrected cutting edge returns to the original runout position. And there is a problem that the vibration correction position of the cutting edge cannot be stably maintained.

本発明は,上記のような従来の問題を解決するためになされたもので、その目的は、工具の刃先振れを小さい力で容易に修正できるとともに高い振れ修正精度を安定に維持でき、併せてホルダのコンパクト化及び軽量化を可能にした刃先振れ修正機能付きの工具ホルダを提供することにある。   The present invention has been made in order to solve the above-described conventional problems. The object of the present invention is to easily correct the tool edge runout of the tool with a small force and stably maintain high runout correction accuracy. It is an object of the present invention to provide a tool holder with a blade runout correction function that makes it possible to reduce the size and weight of the holder.

上記目的を達成するために発明は、工作機械の主軸に装着されるテーパ付きのシャンク部と、前記シャンク部の大径側端に該シャンク部の中心軸と軸線を一致して設けられたフランジ部と、前記フランジ部の反シャンク部側に該フランジ部の中心軸と軸線を一致して設けられたアーバと、前記アーバの反フランジ部側端部に設けられ前記端部に切削工具を着脱可能に掴持するチャックとを有し、前記切削工具の刃先振れを修正可能にした工具ホルダであって、前記アーバの前記フランジ部との連結基部の外周に回転可能に嵌合された刃先振れ修正用の調節リング部材と、前記アーバに設けられ前記調節リング部材を前記連結基部に回転可能に保持する止めリングを備え、前記調節リング部材に、該調節リング部材を厚さ方向に第1リング部と第2リング部に分離するスリットが前記調節リング部材の直径方向に延在して形成され、前記スリットの周方向の中間に位置する箇所に前記調節リング部材の外周面から軸心に行くに従い径が小さくなるテーパねじ孔が前記第1及び第2リング部の両者に亘って形成され、前記テーパねじ孔に螺合され前記調節リング部材の外周面から軸心に行くに従い径が小さくなるテーパ付きの刃先振れ修正用の調節ねじを更に備え、前記調節ねじを回転して前記テーパねじ孔に対しねじ込み方向及びねじ込み方向と逆の方向に移動することによる前記調節ねじのくさび作用で発生する前記第1リング部の押圧力により前記アーバを前記切削工具の刃先振れがゼロに近づくようにラジアル方向に弾性変形させるよう構成したことを特徴とする。   In order to achieve the above object, the invention provides a tapered shank portion mounted on a main shaft of a machine tool, and a flange provided at the large-diameter side end of the shank portion so as to coincide with the central axis of the shank portion. , An arbor provided on the side opposite to the shank part of the flange part so as to coincide with the center axis of the flange part, and a cutting tool attached to and removed from the end part on the side opposite to the flange part of the arbor A tool holder having a chuck that can be gripped and capable of correcting the cutting edge runout of the cutting tool, the runout of the cutting edge that is rotatably fitted to the outer periphery of the connection base with the flange portion of the arbor The adjustment ring member for correction, and a stop ring provided on the arbor for rotatably holding the adjustment ring member on the connection base, the adjustment ring member having a first ring in the thickness direction. Department and A slit that separates into two ring parts is formed extending in the diameter direction of the adjustment ring member, and the diameter increases from the outer peripheral surface of the adjustment ring member to the axial center at a position located in the middle of the circumferential direction of the slit. A taper screw hole that decreases is formed over both the first and second ring portions, and is tapered with a diameter that is screwed into the taper screw hole and decreases in diameter from the outer peripheral surface of the adjustment ring member toward the axis. The adjusting screw for correcting blade runout is further provided, and the first screw generated by the wedge action of the adjusting screw by rotating the adjusting screw and moving the adjusting screw in a screwing direction and a direction opposite to the screwing direction. The arbor is configured to be elastically deformed in the radial direction so that the cutting edge runout of the cutting tool approaches zero due to the pressing force of the ring portion.

本発明の工具ホルダによれば、工具の刃先振れを小さい力で容易に修正できるとともに高い振れ修正精度を安定に維持でき、かつ刃先振れ修正機構を簡単にでき、ホルダをコンパクト化及び軽量化することができる。   According to the tool holder of the present invention, the tool edge runout of the tool can be easily corrected with a small force, high runout correction accuracy can be stably maintained, and the blade runout correction mechanism can be simplified, and the holder can be made compact and lightweight. be able to.

従来における刃先振れ修正機構付き工具ホルダの一例を示す一部切り欠きの側面図である。It is a partially cutaway side view showing an example of a conventional tool holder with a blade runout correction mechanism. 従来における刃先振れ修正機構付き工具ホルダの他の例を示す一部切り欠きの側面図である。It is a partially cutaway side view showing another example of a conventional tool holder with a blade edge correction mechanism. 本発明にかかる刃先振れ修正機構付き工具ホルダの一例を示す一部切り欠きの側面図である。It is a partially cutaway side view showing an example of a tool holder with a blade runout correction mechanism according to the present invention. 本発明の工具ホルダに適用される刃先振れ修正用の調節リング部材の斜視図である。It is a perspective view of the adjustment ring member for cutting edge run-off correction applied to the tool holder of the present invention. の5−5線に沿う拡大断面図である。FIG. 5 is an enlarged cross-sectional view taken along line 5-5 in FIG. 図5の6−6線に沿う拡大断面図である。It is an expanded sectional view which follows the 6-6 line of FIG. 図5の7−7線に沿う拡大断面図である。It is an expanded sectional view which follows the 7-7 line of FIG.

以下、本発明にかかる刃先振れ修正機構付き工具ホルダの実施の形態について、図3及び図4を参照して詳細に説明する。なお、本発明にかかる刃先振れ修正機構付き工具ホルダは、以下に述べる実施の形態に限定されるものではない。   Hereinafter, embodiments of a tool holder with a blade runout correction mechanism according to the present invention will be described in detail with reference to FIGS. 3 and 4. The tool holder with a blade runout correction mechanism according to the present invention is not limited to the embodiment described below.

図3において、ドリルやバニッシングリーマ等の切削用の工具29を掴持する工具ホルダ100は、ホルダ本体31、及び刃先振れ修正用の調節リング部材32を有する。   In FIG. 3, a tool holder 100 that holds a cutting tool 29 such as a drill or a burnishing reamer has a holder main body 31 and an adjustment ring member 32 for correcting blade edge deflection.

ホルダ本体31は、図示省略した工作機械の主軸に挿着されるテーパ付きのシャンク部3101と、このシャンク部3101の大径側端部にシャンク部3101の中心軸と軸線を一致して形成したフランジ部3102と、このフランジ部3102の反シャンク部側端にフランジ部3102の中心軸と軸線を一致して設けられたアーバ3103と、このアーバ3103の反フランジ部側の先端部外周に形成された雄ねじ部3105に螺着され切削工具29を着脱可能に掴持するチャック3104とから構成されている。   The holder body 31 is formed with a tapered shank portion 3101 that is inserted into the main shaft of a machine tool (not shown), and the central axis of the shank portion 3101 coincides with the axis at the large diameter side end portion of the shank portion 3101. It is formed on the flange portion 3102, an arbor 3103 provided at the opposite end of the flange portion 3102 on the side opposite to the shank portion and the axis of the flange portion 3102 is aligned with the axis, and on the outer periphery of the tip portion of the arbor 3103 on the side opposite to the flange portion. And a chuck 3104 that is screwed to the male thread portion 3105 and detachably holds the cutting tool 29.

調節リング部材32は、図3に示すように、アーバ3103のフランジ部3102との連結基部3103aの外周に回転可能に嵌合されている。また、アーバ3103の反フランジ部側で連結基部3103aと隣接する箇所の外周面には雄ねじ部3103bが形成され、この雄ねじ部3103bには止めリング36が螺着されている。この止めリング36は、調節リング部材32を連結基部3103aに回転可能に保持するものである。   As shown in FIG. 3, the adjustment ring member 32 is rotatably fitted to the outer periphery of the connection base portion 3103 a with the flange portion 3102 of the arbor 3103. Further, a male screw portion 3103b is formed on the outer peripheral surface of the arbor 3103 on the side opposite to the connecting base portion 3103a on the side opposite to the flange portion, and a retaining ring 36 is screwed to the male screw portion 3103b. The retaining ring 36 rotatably holds the adjustment ring member 32 on the coupling base 3103a.

調節リング部材32には、図4に示すように、調節リング部材32を厚さ方向に第1リング部3201と第2リング部3202に分離するスリット37が調節リング部材32の直径方向に延在して形成されている。このスリット37は、調節リング部材32の円周方向に全体の3/4の範囲にわたり形成される。そして、スリット37が形成されない残りの1/4の部分が第1リング部3201と第2リング部3202とを結合する結合部3204となる。   As shown in FIG. 4, the adjustment ring member 32 has a slit 37 that divides the adjustment ring member 32 into a first ring portion 3201 and a second ring portion 3202 in the thickness direction and extends in the diameter direction of the adjustment ring member 32. Is formed. The slit 37 is formed over the entire range of 3/4 in the circumferential direction of the adjustment ring member 32. The remaining ¼ portion where the slit 37 is not formed becomes a coupling portion 3204 that couples the first ring portion 3201 and the second ring portion 3202.

結合部3204から調節リング部材32の円周方向に180度離れたスリット37の周方向の中間に位置する箇所には、図4に示すように、調節リング部材32の外周面から軸心に行くに従い径が小さくなるテーパねじ孔33が第1リング部3201と第2リング部3202の両者に亘って形成されている。また、テーパねじ孔33には、調節リング部材32の外周面から軸心に行くに従い径が小さくなるテーパ付きの刃先振れ修正用の調節ねじ34が螺合されている。   As shown in FIG. 4, as shown in FIG. 4, the center of the adjustment ring member 32 goes from the outer peripheral surface to the axial center at a position located in the middle of the slit 37 that is 180 degrees away from the coupling portion 3204 in the circumferential direction of the adjustment ring member 32. Accordingly, a tapered screw hole 33 whose diameter is reduced is formed over both the first ring portion 3201 and the second ring portion 3202. The tapered screw hole 33 is screwed with an adjustment screw 34 having a tapered cutting edge with a diameter that decreases from the outer peripheral surface of the adjustment ring member 32 toward the axial center.

さらに、調節ねじ34の螺合位置から調節リング部材32の円周方向に90度離れた2箇所には、調節リング部材32を連結基部3103aに固定するための固定ねじ35がそれぞれ螺合されている。   Furthermore, fixing screws 35 for fixing the adjustment ring member 32 to the connection base 3103a are respectively screwed at two positions 90 degrees apart from the screwing position of the adjustment screw 34 in the circumferential direction of the adjustment ring member 32. Yes.

第1リング部3201と第2リング部3202との結合部3204には、調節リング部材32の回転のアンバランスを解消するための複数のバランス調整孔38が形成されている。このバランス調整孔38の個数及びその深さは、スリット37及び調節ねじ34が設けられることによって生じる調節リング部材32の回転方向の重量アンバランス状態に応じて適正に設定される。   A coupling portion 3204 between the first ring portion 3201 and the second ring portion 3202 is formed with a plurality of balance adjustment holes 38 for eliminating the rotation imbalance of the adjustment ring member 32. The number and depth of the balance adjustment holes 38 are appropriately set according to the weight unbalance state in the rotation direction of the adjustment ring member 32 generated by the provision of the slit 37 and the adjustment screw 34.

また、工具ホルダ100は、調節ねじ34のテーパねじ孔33からの外方への抜け出しを防止する抜け止め機構39と、調節ねじ34のテーパねじ孔33へのねじ込み位置を保持する緩み止め機構40を備える。   Further, the tool holder 100 includes a retaining mechanism 39 that prevents the adjusting screw 34 from coming out from the tapered screw hole 33 and a loosening preventing mechanism 40 that maintains the screwing position of the adjusting screw 34 into the tapered screw hole 33. Is provided.

抜け止め機構39は、図5及び図6に示すように、テーパねじ孔33の入り口寄りの内壁面に全周に亘り形成されたリング状溝3902と、このリング状溝3902に係合されたスナップリング3904とから構成されている。調節ねじ34の大径側外周縁部がスナップリング3904に係止することで、調節ねじ34のテーパねじ孔33からの抜け止めを可能にしている。   As shown in FIGS. 5 and 6, the retaining mechanism 39 is engaged with the ring-shaped groove 3902 formed on the inner wall near the entrance of the taper screw hole 33 over the entire circumference, and the ring-shaped groove 3902. And a snap ring 3904. The outer peripheral edge portion on the large diameter side of the adjustment screw 34 is locked to the snap ring 3904, so that the adjustment screw 34 can be prevented from coming off from the taper screw hole 33.

緩み止め機構40は、図5及び図7に示すように、テーパねじ孔33の軸線と直角に第2リング部3202側から第2リング部3202を厚さ方向に貫通して第1リング部3201内に達するように調節ねじ34と接する接線方向に延在して形成された有底の孔4002と、この孔4002に挿着され、調節ねじ34の外周面と圧接することで調節ねじ34の緩み止めを行う円柱状の緩み止め部材4004と、孔4002の開口に螺着され緩み止め部材4004の抜け出しを防止する押えねじ4006とから構成されている。緩み止め部材4004は、合成樹脂や硬質ゴムなどから構成される。   As shown in FIGS. 5 and 7, the locking mechanism 40 passes through the second ring portion 3202 from the second ring portion 3202 side in the thickness direction at right angles to the axis of the taper screw hole 33, and the first ring portion 3201. A bottomed hole 4002 formed so as to extend in a tangential direction so as to reach the inside of the adjusting screw 34, and is inserted into the hole 4002 and press-contacted with the outer peripheral surface of the adjusting screw 34 so that the adjusting screw 34 It is composed of a columnar locking member 4004 that prevents locking, and a presser screw 4006 that is screwed into the opening of the hole 4002 to prevent the locking member 4004 from coming off. The locking member 4004 is made of synthetic resin or hard rubber.

上記のように構成された本実施の形態に示す工具ホルダ100に掴持された切削工具29の刃先振れを修正する場合について説明する。   A case will be described in which the blade runout of the cutting tool 29 held by the tool holder 100 configured as described above is corrected.

まず、アーバ3103の先端に切削工具29をチャック3104により掴持しておく。次いで、切削工具29が掴持された工具ホルダ30を図示省略した工作機械の主軸に装着する。しかる後、図3に示すように、切削工具29の刃部29bの先端外周面にテストインジケータ28を押し当て、主軸の回転中におけるテストインジケータ28の読みの最大差を切削工具29の刃先振れとして測定する。そして、この測定値から切削工具29の刃先振れが一番高くなる角度位置を検出する。   First, the cutting tool 29 is held by the chuck 3104 at the tip of the arbor 3103. Next, the tool holder 30 holding the cutting tool 29 is mounted on the spindle of the machine tool (not shown). After that, as shown in FIG. 3, the test indicator 28 is pressed against the outer peripheral surface of the tip 29 b of the cutting tool 29, and the maximum difference in reading of the test indicator 28 during the rotation of the spindle is defined as the blade runout of the cutting tool 29. taking measurement. Then, the angular position at which the cutting edge runout of the cutting tool 29 is highest is detected from this measured value.

刃先振れが一番高くなる角度位置が検出されたならば、主軸の回転を止めて切削工具29の刃先振れが一番高くなった角度位置、例えば図5で示す角度位置P1で矢印A1に示す方向へ刃先が破線に示すように振れ、その振れが一番高くなって、切削工具29の刃先が図3の仮想線に示す位置にずれているとすると、まず、調節リング部材32をアーバ3103の軸回りに回転して、調節ねじ34を角度位置P1に合わせる。その後、調節リング部材32を固定ねじ35によりアーバ3103に固定する。この状態で、調節ねじ34を棒スパナ等の工具(図示せず)により、テーパねじ孔33に対しねじ込み方向またはねじ込み方向と逆の方向に回転させる。この場合、調節ねじ34がテーパねじ孔33にねじ込まれると、調節ねじ34のくさび作用により、第1リング部3201にこれを第2リング部3202から離間する方向の押圧力が発生する。この押圧力が止めリング36を介してアーバ3103に作用すると、アーバ3103は、フランジ部3102との連結基部3103aを支点にして図3の矢印A2で示すラジアル方向に弾性変形する。すなわち、切削工具29の刃先振れが限りなくゼロに近づくように、テストインジケータ28を見ながら調節ねじ34をねじ込み方向またはねじ込み方向と逆の方向に回転することにより、図3の仮想線に示す芯ずれ位置にあった切削工具29の刃先を実線に示す位置にくるように修正する。これにより、切削工具29の刃先振れ量d(μm)を限りなくゼロに近づくように修正することができる。   If the angular position at which the blade runout becomes the highest is detected, the rotation of the spindle is stopped, and the angular position at which the blade runout of the cutting tool 29 becomes the highest, for example, the angle position P1 shown in FIG. Assuming that the cutting edge sways in the direction as shown by the broken line, and the swaying becomes the highest and the cutting edge of the cutting tool 29 is displaced to the position shown in the phantom line in FIG. 3, first, the adjustment ring member 32 is moved to the arbor 3103. The adjustment screw 34 is adjusted to the angular position P1. Thereafter, the adjustment ring member 32 is fixed to the arbor 3103 with the fixing screw 35. In this state, the adjusting screw 34 is rotated with respect to the taper screw hole 33 in a screwing direction or a direction opposite to the screwing direction by a tool (not shown) such as a bar spanner. In this case, when the adjusting screw 34 is screwed into the tapered screw hole 33, a pressing force is generated in the first ring portion 3201 in a direction in which the adjusting screw 34 is separated from the second ring portion 3202 due to the wedge action of the adjusting screw 34. When this pressing force acts on the arbor 3103 via the stop ring 36, the arbor 3103 is elastically deformed in the radial direction indicated by the arrow A2 in FIG. 3 with the connection base 3103a to the flange 3102 as a fulcrum. That is, by rotating the adjusting screw 34 in the screwing direction or the direction opposite to the screwing direction while looking at the test indicator 28 so that the cutting edge runout of the cutting tool 29 approaches zero as much as possible, the core shown by the phantom line in FIG. The cutting edge of the cutting tool 29 that was in the shifted position is corrected so as to come to the position indicated by the solid line. As a result, the cutting edge deflection d (μm) of the cutting tool 29 can be corrected to approach zero as much as possible.

このような本実施の形態に示す工具ホルダよれば、調節ねじ34をテーパねじ孔33に対しねじ込み方向またはねじ込み方向と逆の方向に回転することにより、調節ねじ34のくさび作用で第1リング部3201に第2リング部3202から離間する方向の押圧力を発生させ、この押圧力を加減することにより、アーバ3103を切削工具29の刃先振れがゼロに近づくようにラジアル方向に弾性変形させるよう構成したので、切削工具29の刃先振れを小さい力で修正することができるとともに高い振れ精度を安定に維持することができる。   According to such a tool holder shown in the present embodiment, the adjustment screw 34 is rotated in the screwing direction with respect to the taper screw hole 33 or in the direction opposite to the screwing direction, so that the first ring portion is caused by the wedge action of the adjustment screw 34. 3201 is configured to generate a pressing force in a direction away from the second ring portion 3202, and by adjusting the pressing force, the arbor 3103 is elastically deformed in the radial direction so that the cutting edge deflection of the cutting tool 29 approaches zero. Therefore, the runout of the cutting tool 29 can be corrected with a small force, and high runout accuracy can be stably maintained.

また、本実施の形態における刃先振れを修正機構は、厚さ方向に第1リング部3201と第2リング部3202に分離するスリット37を有する調節リング部材32と、テーパねじ孔33に螺合された調節ねじ34とから構成されるため、刃先振れ修正機構が簡単かつシンプルにでき、工具ホルダを軽量化及びコンパクト化できるほか、工具ホルダの低コスト化が可能になる。   The blade runout correction mechanism according to the present embodiment is screwed into the adjustment ring member 32 having the slit 37 that separates the first ring portion 3201 and the second ring portion 3202 in the thickness direction, and the taper screw hole 33. Therefore, the blade runout correction mechanism can be made simple and simple, the tool holder can be made lighter and more compact, and the cost of the tool holder can be reduced.

また、本実施の形態によれば、第1リング部3201と第2リング部3202の結合部3204にバランス調整孔38を設けるだけで、調節リング部材32の回転方向の重量アンバランスを容易に調整することができる。   Further, according to the present embodiment, the weight unbalance in the rotational direction of the adjustment ring member 32 can be easily adjusted simply by providing the balance adjustment hole 38 in the coupling portion 3204 of the first ring portion 3201 and the second ring portion 3202. can do.

また、本実施の形態に示す工具ホルダよれば、抜け止め機構39を備えているので、調節ねじ34のテーパねじ孔33からの外方への抜け出しを防止することができる。   Further, according to the tool holder shown in the present embodiment, since the retaining mechanism 39 is provided, it is possible to prevent the adjusting screw 34 from coming out from the tapered screw hole 33 outward.

さらに、緩み止め機構40を備えているので、切削時の振動により調節ねじ34が抜け出し方向に回転するなどの調節ねじ34の緩みを防止でき、これにより、高い振れ精度を安定に維持することができる。   Further, since the loosening prevention mechanism 40 is provided, it is possible to prevent the adjustment screw 34 from being loosened such that the adjustment screw 34 rotates in the pull-out direction due to vibration during cutting, thereby stably maintaining high runout accuracy. it can.

100 工具ホルダ
28 テストインジケータ
29 切削工具
31 ホルダ本体
3101 シャンク部
3102 フランジ部
3103 アーバ
3103a 連結基部
3103b 雄ねじ部
3104 チャック
32 調節リング部材
3201 第1リング部
3202 第2リング部
3204 結合部
33 テーパねじ孔
34 調節ねじ
35 固定ねじ
36 止めリング
37 スリット
38 バランス調整孔
39 抜け止め機構
40 緩み止め機構 DESCRIPTION OF SYMBOLS 100 Tool holder 28 Test indicator 29 Cutting tool 31 Holder main body 3101 Shank part 3102 Flange part 3103 Arbor 3103a Connection base part 3103b Male thread part 3104 Chuck 32 Adjustment ring member 3201 1st ring part 3202 2nd ring part 3204 Coupling part 33 Tapered screw hole 34 Adjustment screw 35 Fixing screw 36 Retaining ring 37 Slit 38 Balance adjusting hole 39 Retaining mechanism 40 Locking mechanism

Claims (6)

工作機械の主軸に装着されるテーパ付きのシャンク部と、前記シャンク部の大径側端に該シャンク部の中心軸と軸線を一致して設けられたフランジ部と、前記フランジ部の反シャンク部側に該フランジ部の中心軸と軸線を一致して設けられたアーバと、前記アーバの反フランジ部側端部に設けられ前記端部に切削工具を着脱可能に掴持するチャックとを有し、前記切削工具の刃先振れを修正可能にした工具ホルダであって、
前記アーバの前記フランジ部との連結基部の外周に回転可能に嵌合された刃先振れ修正用の調節リング部材と、
前記アーバに設けられ前記調節リング部材を前記連結基部に回転可能に保持する止めリングを備え、
前記調節リング部材に、該調節リング部材を厚さ方向に第1リング部と第2リング部に分離するスリットが前記調節リング部材の直径方向に延在して形成され、
前記スリットの周方向の中間に位置する箇所に前記調節リング部材の外周面から軸心に行くに従い径が小さくなるテーパねじ孔が前記第1及び第2リング部の両者に亘って形成され、
前記テーパねじ孔に螺合され前記調節リング部材の外周面から軸心に行くに従い径が小さくなるテーパ付きの刃先振れ修正用の調節ねじを更に備え、
前記調節ねじを回転して前記テーパねじ孔に対しねじ込み方向及びねじ込み方向と逆の方向に移動することによる前記調節ねじのくさび作用で発生する前記第1リング部の押圧力により前記アーバを前記切削工具の刃先振れがゼロに近づくようにラジアル方向に弾性変形させるよう構成したことを特徴とする工具ホルダ。 A tapered shank portion to be mounted on the main shaft of the machine tool, a flange portion provided at the large-diameter side end of the shank portion so as to coincide with the central axis of the shank portion, and an anti-shank portion of the flange portion An arbor provided on the side with the axis of the flange portion aligned with the axis, and a chuck provided at the end of the arbor on the side opposite to the flange to removably grip the cutting tool. , A tool holder capable of correcting the cutting edge runout of the cutting tool,
An adjustment ring member for cutting edge correction, which is rotatably fitted to the outer periphery of the connecting base portion with the flange portion of the arbor,
A stop ring provided on the arbor and rotatably holding the adjustment ring member on the connection base;
A slit for separating the adjustment ring member into a first ring portion and a second ring portion in the thickness direction extends in the diameter direction of the adjustment ring member, and is formed in the adjustment ring member.
A taper screw hole whose diameter decreases as it goes from the outer peripheral surface of the adjustment ring member to the axial center at a position located in the middle in the circumferential direction of the slit is formed across both the first and second ring portions,
An adjustment screw for correcting blade runout with a taper that is screwed into the taper screw hole and has a diameter that decreases from the outer peripheral surface of the adjustment ring member toward the axis;
The arbor is cut by the pressing force of the first ring portion generated by the wedge action of the adjusting screw by rotating the adjusting screw and moving the adjusting screw in the screwing direction and the direction opposite to the screwing direction. A tool holder configured to be elastically deformed in a radial direction so that the tool tip runout approaches zero. 前記スリットは、前記調節リング部材の円周方向に全体の3/4の範囲にわたり形成されていることを特徴とする請求項1記載の工具ホルダ。   2. The tool holder according to claim 1, wherein the slit is formed over a total range of 3/4 in a circumferential direction of the adjustment ring member. 前記調節リング部材は、該調節リング部材を前記連結基部に固定する固定ねじを備えることを特徴とする請求項1または2記載の工具ホルダ。   The tool holder according to claim 1, wherein the adjustment ring member includes a fixing screw that fixes the adjustment ring member to the connection base. 前記スリットが形成されない残りの部分を前記第1リング部と第2リング部とを結合する結合部とし、前記結合部に前記調節リング部材の回転のアンバランスを解消するバランス調整孔が形成されていることを特徴とする請求項1乃至3の何れか1項に記載の工具ホルダ。   The remaining portion where the slit is not formed is a coupling portion that couples the first ring portion and the second ring portion, and a balance adjustment hole that eliminates the rotation imbalance of the adjustment ring member is formed in the coupling portion. The tool holder according to any one of claims 1 to 3, wherein the tool holder is provided. 前記調節ねじの前記テーパねじ孔からの抜け出しを防止する抜け止め機構を備えることを特徴とする請求項1乃至4の何れか1項に記載の工具ホルダ。   The tool holder according to any one of claims 1 to 4, further comprising a retaining mechanism that prevents the adjusting screw from coming out of the tapered screw hole. 前記調節ねじの前記テーパねじ孔へのねじ込み位置を保持する緩み止め機構を備えることを特徴とする請求項1乃至5の何れか1項に記載の工具ホルダ   The tool holder according to any one of claims 1 to 5, further comprising a locking mechanism that holds a screwing position of the adjusting screw into the tapered screw hole.
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JP2013103281A (en) * 2011-11-10 2013-05-30 Kyoritsu Seiki Kk Runout adjusting device of tool holder and runout adjusting method of the same
CN109719314A (en) * 2019-01-11 2019-05-07 深圳大学 The alignment methods of cutter, truning fixture in a kind of turnery processing
WO2019167242A1 (en) * 2018-03-02 2019-09-06 Big Daishowa株式会社 Balance and oscillation adjustment system for rotary tool, balance and oscillation measurement device, balance and oscillation adjustment method, and tool holder
US12032351B2 (en) 2018-03-02 2024-07-09 Big Daishowa Co., Ltd System for adjusting balance and runout of rotary tool, device for determining the balance and runout, method of adjusting the balance and runout, and tool holder

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JPH07276111A (en) * 1994-04-05 1995-10-24 Shinkikai Giken:Kk Knife-edge position correcting device of cutting tool
JP2004009244A (en) * 2002-06-10 2004-01-15 Nikken Kosakusho Works Ltd Tool holder
JP2004066443A (en) * 2002-06-10 2004-03-04 Nikken Kosakusho Works Ltd Tool holder

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JPS59167605U (en) * 1983-04-21 1984-11-09 住友電気工業株式会社 Fine adjustment boring bit
JPH07276111A (en) * 1994-04-05 1995-10-24 Shinkikai Giken:Kk Knife-edge position correcting device of cutting tool
JP2004009244A (en) * 2002-06-10 2004-01-15 Nikken Kosakusho Works Ltd Tool holder
JP2004066443A (en) * 2002-06-10 2004-03-04 Nikken Kosakusho Works Ltd Tool holder

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JP2013103281A (en) * 2011-11-10 2013-05-30 Kyoritsu Seiki Kk Runout adjusting device of tool holder and runout adjusting method of the same
WO2019167242A1 (en) * 2018-03-02 2019-09-06 Big Daishowa株式会社 Balance and oscillation adjustment system for rotary tool, balance and oscillation measurement device, balance and oscillation adjustment method, and tool holder
US12032351B2 (en) 2018-03-02 2024-07-09 Big Daishowa Co., Ltd System for adjusting balance and runout of rotary tool, device for determining the balance and runout, method of adjusting the balance and runout, and tool holder
CN109719314A (en) * 2019-01-11 2019-05-07 深圳大学 The alignment methods of cutter, truning fixture in a kind of turnery processing

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