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JPH0929577A - Method for preventing center deviation of tool - Google Patents

Method for preventing center deviation of tool

Info

Publication number
JPH0929577A
JPH0929577A JP19910095A JP19910095A JPH0929577A JP H0929577 A JPH0929577 A JP H0929577A JP 19910095 A JP19910095 A JP 19910095A JP 19910095 A JP19910095 A JP 19910095A JP H0929577 A JPH0929577 A JP H0929577A
Authority
JP
Japan
Prior art keywords
tool
spindle
tool holder
cleaning
holder
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.)
Pending
Application number
JP19910095A
Other languages
Japanese (ja)
Inventor
Masashi Hasegawa
正史 長谷川
Hiroshi Fujimoto
洋 藤本
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Isuzu Motors Ltd
Original Assignee
Isuzu Motors Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Isuzu Motors Ltd filed Critical Isuzu Motors Ltd
Priority to JP19910095A priority Critical patent/JPH0929577A/en
Publication of JPH0929577A publication Critical patent/JPH0929577A/en
Pending legal-status Critical Current

Links

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  • Automatic Tool Replacement In Machine Tools (AREA)

Abstract

PROBLEM TO BE SOLVED: To prevent the center of a tool from deviating during change of tools in a machine tool in which a plurality of tools are automatically changed so as to successively carry out given working steps. SOLUTION: In an automatically controlled machine tool in which tool holders 5 each having a tapered part 5b adapted to be fitted in and positioned at a tapered part 5a formed on the inner surface of a spindle 2 are automatically changed so as to successively carry out given working steps, there are provided a measuring means 8 for measuring rotational oscillation of the outer periphery of a tool holder 5 which is fitted to the spindle, and a means for cleaning the tapered part of the spindle. Oscillation of the tool holder 5 is measured by the measuring means 8, and when the degree of the oscillation exceeds a predetermined value, the tool holder 5 is removed from the spindle, and the tapered part of the spindle is cleaned by the cleaning means under the control of an operation control program.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【発明の属する技術分野】本発明は、工具の自動交換を
行う工作機械において、交換工具の芯ずれを自動的に防
止する方法に関するものである。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for automatically preventing misalignment of a replacement tool in a machine tool for automatically changing tools.

【0002】[0002]

【従来の技術】マシニングセンターやNC工作機械にお
いて、従来切削工具の取付けは、図3に示すように切削
工具6を工具ホルダー5に固定し、この工具ホルダー5
の円錐状のテーパ部5bを主軸2のテーパ部2aに嵌合
位置決めし、工具ホルダー5の先端のプルスタッド5a
を矢印方向に引き込んで固定するようにしている。マシ
ニングセンターは、例えばドリル、タップ、フライス、
ボーリング工具等のような切削工具を自動交換しながら
様々な加工を行える特徴があり、工具の交換の際は、プ
ルスタッド5aを開放し、工具ホルダー5のV溝に一点
鎖線で示す工具交換アーム10を係合させて工具ホルダ
ー5を主軸2から引き抜き、次に別の工具を固定した工
具ホルダー5を主軸2に差込み、同様にして固定するよ
うにしている。
2. Description of the Related Art In a machining center or an NC machine tool, a conventional cutting tool is mounted by fixing a cutting tool 6 to a tool holder 5 as shown in FIG.
The conical tapered portion 5b of the tool holder 5 is fitted and positioned to the tapered portion 2a of the spindle 2, and the pull stud 5a at the tip of the tool holder 5 is positioned.
Is pulled in the direction of the arrow and fixed. Machining centers include drills, taps, mills,
There is a feature that various processing can be performed while automatically exchanging cutting tools such as boring tools. When exchanging tools, the pull stud 5a is opened and the tool exchange arm shown in the V groove of the tool holder 5 is shown by a chain line. The tool holder 5 is pulled out from the main shaft 2 by engaging 10 and then the tool holder 5 to which another tool is fixed is inserted into the main shaft 2 and fixed in the same manner.

【0003】特開平3−35952号公報には、前記の
ようなテーパ部を有する工具ホルダー5を用いた切削工
具の交換装置において、工具ホルダーが主軸に正しく嵌
合されないためなどで加工時に発生する振動を、加速度
変換器等の振動計を用いて主軸の機械振動を測定し、そ
の測定値が所定値以上となったときに、主軸に対する工
具ホルダーの位置を180度異なる割出し位置に取付け
直す工具取付け装置が記載されている。
Japanese Unexamined Patent Publication No. 3-35952 discloses a device for exchanging a cutting tool which uses the tool holder 5 having a tapered portion as described above, which occurs during machining because the tool holder is not properly fitted to the spindle. For the vibration, mechanical vibration of the spindle is measured using a vibrometer such as an acceleration converter, and when the measured value exceeds a predetermined value, the position of the tool holder with respect to the spindle is re-installed at an index position that differs by 180 degrees. A tool mounting device is described.

【0004】特開昭57−194852号公報には、機
械主軸の内部円錐部を掃除するための装置として、工具
ホルダーと外形が似た円錐体の表面にブラシ又は皮革を
取付けた掃除具を用い、この掃除具を主軸のテーパ部に
取付けた状態で圧縮空気で駆動されるモータで回転する
ようにしたものが記載されている。また、同公報には、
前記掃除具の一端に回転質量体を取付け、主軸を回転、
停止したときの回転質量体との回転速度のずれを利用し
て主軸の内部円錐テーパ部を掃除するようにした他の実
施例や、この回転質量体にレバーを固定し、このレバー
がストッパーに当って掃除具と主軸内面テーパ部とに相
対運動を生ずるようにしたものが記載されている。
Japanese Patent Application Laid-Open No. 57-194852 discloses a cleaning tool having a brush or leather attached to the surface of a conical body having an outer shape similar to that of a tool holder as a device for cleaning the inner conical portion of a machine spindle. , The cleaning tool is attached to the taper portion of the main shaft and is rotated by a motor driven by compressed air. The publication also states that
Attach a rotating mass to one end of the cleaning tool, rotate the main shaft,
Another embodiment in which the internal conical taper portion of the main shaft is cleaned by utilizing the deviation of the rotation speed from the rotating mass when stopped, and the lever is fixed to this rotating mass, and this lever serves as a stopper. It is disclosed that the cleaning tool and the taper portion on the inner surface of the main shaft are caused to move relative to each other.

【0005】[0005]

【発明が解決しようとする課題】加工時には切削油を使
用することが多く、主軸2の周りには、切削油や切り屑
が付着しており、工具交換の際に、切り屑や粉塵が工具
ホルダー5のテーパ部又は主軸2の内面テーパ部に付着
する。工具交換アーム10を使用して自動工具交換装置
でそのまま工具ホルダー5を主軸2に取付け固定する
と、図3に示すように、主軸2と工具ホルダー5のテー
パ部に切り屑や粉塵Dが詰まり、主軸2の中心線に対し
て工具ホルダー5の中心線が偏心又は捩れを生ずる。こ
のような芯ずれのある工具の取付け状態で加工を行う
と、例えば孔明け加工においては、孔径が大きくなった
り、楕円孔に加工されたりする問題が生ずる。
Cutting oil is often used at the time of machining, and cutting oil and chips adhere to the periphery of the spindle 2. When exchanging tools, chips and dust are generated. It is attached to the taper portion of the holder 5 or the inner surface taper portion of the main shaft 2. When the tool holder 5 is attached and fixed to the spindle 2 as it is by the automatic tool exchanging device using the tool exchanging arm 10, as shown in FIG. 3, the tapered portions of the spindle 2 and the tool holder 5 are clogged with chips and dust D, The center line of the tool holder 5 is eccentric or twisted with respect to the center line of the spindle 2. When machining is performed with the tool having such a misalignment attached, problems occur that the hole diameter becomes large or the hole is machined into an elliptical hole, for example, in drilling.

【0006】前記特開平3−35952号公報には、加
速度変換器等の振動計を用いて主軸の機械振動を測定
し、工具ホルダーが主軸に正しく嵌合されないなどの検
出を可能とする装置が記載されているが、主軸と工具ホ
ルダーのテーパ嵌合部の切り屑や粉塵の除去を示唆する
ところがない。また、前記特開昭57−194852号
公報には、機械主軸の内部円錐部を掃除するための装置
が記載されているが、工具の自動交換を行うマシニング
センターと組合せて、交換工具の芯ずれを自動的に防止
する点については示唆するところがない。
Japanese Patent Laid-Open Publication No. 3-35952 discloses an apparatus that measures mechanical vibration of a spindle by using a vibrometer such as an acceleration converter, and can detect that a tool holder is not correctly fitted to the spindle. Although described, there is no suggestion of removing chips and dust from the taper fitting portion of the spindle and the tool holder. Further, the above-mentioned Japanese Patent Laid-Open Publication No. 57-194852 discloses a device for cleaning the inner conical portion of the machine spindle, but in combination with a machining center for automatically changing the tool, misalignment of the tool to be replaced is performed. There is no suggestion of automatic prevention.

【0007】工具の交換等をプログラムに従って自動運
転する工作機械においては、従来は交換工具に芯ずれが
あってもプログラムに従ってそのまま加工を続行してし
まうので、大量の加工不良品が発生してしまい、これら
の不良品を後工程に流さないためには、全数検査の必要
があった。本発明は、工具交換の際に工具の芯ずれを測
定し、所定値以上の芯ずれを検出したときに、自動的に
主軸のテーパ嵌合部の清掃を行い、工具の芯ずれがない
ことを確認してから加工に移行することで、前記の問題
点を解消することを目的とするものである。
In a machine tool that automatically operates a tool change or the like according to a program, conventionally, even if the tool change has a misalignment, the machining is continued as it is according to the program, resulting in a large number of defective products. However, in order to prevent these defective products from being sent to the subsequent process, it was necessary to perform 100% inspection. The present invention measures the misalignment of a tool when exchanging the tool, and when the misalignment of a predetermined value or more is detected, the taper fitting portion of the spindle is automatically cleaned so that there is no misalignment of the tool. It is intended to solve the above-mentioned problems by shifting to the processing after confirming.

【0008】[0008]

【課題を解決するための手段】本発明は、主軸の内面に
テーパ部を形成し、該テーパ部に嵌合位置決めするテー
パ部を有する工具ホルダーを自動的に交換して順次所定
の加工を行う自動制御工作機械において、前記工具ホル
ダーを主軸に取付けた状態で該工具ホルダーの外周の回
転振れを測定する測定手段と、前記主軸の内面テーパ部
を清掃する手段とを備え、工具交換の際に前記測定手段
により工具ホルダーの振れを測定し、該振れ量が所定値
を超えたときに、該工具ホルダーを主軸から取外して前
記清掃手段により主軸のテーパ部の清掃を行う運転制御
プログラムとした工具の芯ずれ防止方法であって、前記
主軸のテーパ嵌合部の清掃は、テーパ付き工具ホルダー
と近似する外形を有しテーパ部にブラシを形成した清掃
具を用いて行うことができる。工具交換の際に工具の芯
ずれを測定し、所定値以上の芯ずれを検出したときに、
主軸のテーパ嵌合部の清掃を行い、工具の芯ずれがない
ことを確認してから加工に移行するので、工具の自動交
換を行う工作機械において、交換工具の芯ずれによる大
量の加工不良品が発生するのを防止する。
According to the present invention, a taper portion is formed on the inner surface of a main shaft, and a tool holder having a taper portion for fitting and positioning the taper portion is automatically replaced to perform predetermined machining in sequence. In an automatically controlled machine tool, the tool holder is attached to a main shaft, the measuring means for measuring the rotational runout of the outer periphery of the tool holder, and the means for cleaning the inner surface taper portion of the main spindle are provided. A tool as an operation control program for measuring the deflection of the tool holder by the measuring means, and removing the tool holder from the spindle and cleaning the taper portion of the spindle by the cleaning means when the deflection exceeds a predetermined value. In the method for preventing the misalignment of the main shaft, the taper fitting portion of the main shaft is cleaned by using a cleaning tool having an outer shape similar to that of a tool holder with a taper and a brush formed on the taper portion. Can. When the tool misalignment is measured when the tool is changed and a misalignment of a predetermined value or more is detected,
Since the taper fitting part of the spindle is cleaned and it is confirmed that there is no misalignment of the tool before processing is started, in machine tools that automatically change tools, a large amount of defective products due to misalignment of the replacement tool To prevent the occurrence of.

【0009】[0009]

【発明の実施の形態】図1は、本発明の実施の形態の説
明図で、主軸2に工具ホルダー5を取付けた状態の一部
を断面として示す。図1において、切削工具6を固定し
た工具ホルダー5を工具ホルダー5のV溝5cに一点鎖
線で示す工具交換アーム10を係合させて主軸2の円錐
状のテーパ嵌合部2aに挿入し、工具ホルダー5の円錐
テーパ部5bを位置決め嵌合し、工具ホルダー5の先端
のプルスタッド5aをチャック3で挟持し、図において
左方向に引き込んで固定した状態を示し、4は工具ホル
ダー5を取外すときに使用する押出し具である。以上の
構成は、前記特開平3−35952号公報に記載されて
いるのと同様な公知の切削工具の交換装置である。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is an explanatory view of an embodiment of the present invention and shows a part of a state in which a tool holder 5 is attached to a spindle 2 as a cross section. In FIG. 1, the tool holder 5 to which the cutting tool 6 is fixed is inserted into the conical taper fitting portion 2a of the main spindle 2 by engaging the V-shaped groove 5c of the tool holder 5 with the tool exchanging arm 10 indicated by a chain line. The conical taper portion 5b of the tool holder 5 is positioned and fitted, and the pull stud 5a at the tip of the tool holder 5 is clamped by the chuck 3 and is pulled in the left direction in the figure to be fixed, and 4 is the tool holder 5 is removed. It is an extruding tool that is sometimes used. The above configuration is the same known cutting tool exchanging device as described in the above-mentioned Japanese Patent Laid-Open No. 3-35952.

【0010】図2は、本発明に使用する清掃具の1例を
示す正面図で、この掃除具11は、工具ホルダー5と近
似した外形を有し、その円錐部の表面にブラシ12を形
成したものであり、プルスタッド11aとV溝11cと
を備え、工具ホルダー5と同様にチャック3、押出し具
及び工具交換アーム10とにより主軸2のテーパ部2a
に自動的に着脱するものである。また、この掃除具11
には軸線方向に延びる回り止めピン13を設け、掃除具
11を主軸2に取付けたときに、回り止めピン13が機
体1の孔1aに嵌入するようにしてある。
FIG. 2 is a front view showing an example of the cleaning tool used in the present invention. The cleaning tool 11 has an outer shape similar to that of the tool holder 5, and a brush 12 is formed on the surface of the conical part thereof. The pull stud 11a and the V groove 11c are provided, and the taper portion 2a of the main spindle 2 is formed by the chuck 3, the pushing tool, and the tool exchange arm 10 like the tool holder 5.
It is to be automatically attached and detached. Also, this cleaning tool 11
An anti-rotation pin 13 extending in the axial direction is provided on the shaft 1, and the anti-rotation pin 13 is fitted into the hole 1a of the machine body 1 when the cleaning tool 11 is attached to the main shaft 2.

【0011】図1において、7はNC装置で、工作機械
に加工指令、工具の交換指令を出すとともに、振れ測定
器8の待機位置と切削工具6に近接する測定位置との移
動制御指令を出し、振れ測定器8の振れ測定値が所定値
を超えたか否かをコントローラー9で判別し、その信号
を受けて工具ホルダー5と掃除具11との交換指令を出
す。振れ測定器8としては、電気マイクロメータ、渦電
流変位センサ、可視光レーザ式変位センサ等が使用でき
る。
In FIG. 1, an NC device 7 issues a machining command and a tool replacement command to the machine tool, and a movement control command between the standby position of the shake measuring instrument 8 and the measurement position close to the cutting tool 6. The controller 9 determines whether or not the shake measurement value of the shake measuring device 8 exceeds a predetermined value, and receives a signal from the controller 9 to issue a command to replace the tool holder 5 and the cleaning tool 11. As the shake measuring device 8, an electric micrometer, an eddy current displacement sensor, a visible light laser displacement sensor, or the like can be used.

【0012】前記の装置を用いた工具の芯ずれ防止方法
について以下説明する。主軸2とともに回転する工具ホ
ルダー5の外周を振れ測定器8で計測する。この工具ホ
ルダー5の外周部は、テーパ部5bと同心に仕上げ加工
させれている。その振れ測定値が所定値を超えると、そ
のことをコントローラー9が判別し、その信号を受けた
NC装置が工具ホルダー5と掃除具11との交換指令を
出し、振れ測定器8を待機位置に戻し、工具交換アーム
10が工具ホルダー5を主軸2から取外し、代わりに掃
除具11を装着する。この際、掃除具11の回り止めピ
ン13が機体1の孔1aに嵌入する。掃除具11に交換
した後、主軸2を低速で1〜2回転させると、掃除具1
1はその回り止めピン13が機体1で止められているの
で、ブラシ12で主軸2のテーパ部2aを清掃する。清
掃後、掃除具11をもとの工具ホルダー5と交換し、再
度振れ測定器8で測定し、その振れ測定値が所定値内に
あることを確認して加工運転に移行する。
A method for preventing misalignment of a tool using the above-mentioned device will be described below. The outer circumference of the tool holder 5 rotating with the spindle 2 is measured by the shake measuring device 8. The outer peripheral portion of the tool holder 5 is finished and processed concentrically with the tapered portion 5b. When the shake measurement value exceeds a predetermined value, the controller 9 discriminates this and the NC device receiving the signal issues a command to replace the tool holder 5 and the cleaning tool 11, and sets the shake measuring device 8 to the standby position. Returning, the tool change arm 10 removes the tool holder 5 from the spindle 2 and mounts the cleaning tool 11 instead. At this time, the detent pin 13 of the cleaning tool 11 is fitted into the hole 1a of the machine body 1. After the cleaning tool 11 is replaced, the main shaft 2 is rotated at a low speed for one to two revolutions, and the cleaning tool 1
In No. 1, since the detent pin 13 is stopped by the machine body 1, the taper portion 2 a of the main shaft 2 is cleaned with the brush 12. After cleaning, the cleaning tool 11 is replaced with the original tool holder 5, and the shake measuring device 8 measures again. After confirming that the shake measured value is within a predetermined value, the processing operation is started.

【0013】図4に、工具の芯ずれ防止に関するプログ
ラム運転のフローチャートを示す。工具を交換した際、
振れ測定器を計測位置に移動させ、#1で主軸を1回転
させて振れ量を測定する。#2の振れ量が所定値内であ
れば、振れ測定器を待機位置に戻し、#3で直ちに加工
運転に移る。#2の振れ量が所定値を超えている場合
は、#4でその振れ測定が1回目かどうかを判定し、1
回目のときには掃除具に交換し、主軸を緩やかに1〜2
回転させて嵌合テーパ面を清掃し、次に工具ホルダーに
交換して#1の振れ測定を再度行う。このときの#2の
振れ量も所定値を超えたときは、#4で異常があるもの
と判定し、機械を停止して点検する。
FIG. 4 shows a flowchart of a program operation for preventing misalignment of the tool. When changing tools
The shake measurement device is moved to the measurement position, and the main shaft is rotated once in # 1 to measure the shake amount. If the shake amount of # 2 is within the predetermined value, the shake measuring device is returned to the standby position, and the machining operation is immediately started in # 3. If the shake amount of # 2 exceeds the predetermined value, it is determined whether or not the shake measurement is the first time in # 4.
At the time of the first turn, replace it with a cleaning tool and loosen the main shaft by 1-2.
Rotate to clean the fitted taper surface, then replace with tool holder and repeat # 1 runout measurement. If the shake amount of # 2 at this time also exceeds the predetermined value, it is determined that there is an abnormality in # 4, and the machine is stopped and checked.

【0014】振れ測定器としては、前記の接触型の電気
マイクロメータや、非接触型の市販の渦電流変位セン
サ、可視光レーザ式変位センサ等が使用できるが、デジ
タル式電気マイクロメータである(株)ミツトヨ製の
「デジタルランアウトチェッカM−400」は、振れの
上限値及び下限値設定用スイッチと公差判定用ランプが
装備されており、本発明の振れ測定器として好適であ
る。また、掃除具は、図2に示す方式にものに限らず、
自動エアブローを採用することもできる。
As the shake measuring device, the above-mentioned contact type electric micrometer, non-contact type commercially available eddy current displacement sensor, visible light laser type displacement sensor or the like can be used, but it is a digital type electric micrometer ( The "Digital Runout Checker M-400" manufactured by Mitutoyo Co., Ltd. is equipped with a switch for setting the upper limit value and the lower limit value of the shake and a lamp for determining the tolerance, and is suitable as the shake measuring device of the present invention. Further, the cleaning tool is not limited to the one shown in FIG.
An automatic air blow can also be adopted.

【0015】[0015]

【発明の効果】本発明は、工具交換の際に工具の芯ずれ
を測定し、所定値以上の芯ずれを検出したときに、自動
的に主軸のテーパ嵌合部の清掃を行い、工具の芯ずれが
ないことを確認してから加工に移行するので、工具の自
動交換を行う工作機械において、交換工具の芯ずれによ
る大量の加工不良品が発生するのを防止し、深夜の無人
運転も可能となる。
According to the present invention, when tool misalignment is measured during tool replacement, and when a misalignment of a predetermined value or more is detected, the taper fitting portion of the spindle is automatically cleaned, After confirming that there is no misalignment, the process shifts to machining.Therefore, in machine tools that automatically change tools, it is possible to prevent the occurrence of a large number of defective products due to misalignment of the replacement tool, and to perform unattended operation even at midnight. It will be possible.

【図面の簡単な説明】[Brief description of drawings]

【図1】本発明の実施の形態の説明図。FIG. 1 is an explanatory diagram of an embodiment of the present invention.

【図2】本発明に使用する清掃具の説明図。FIG. 2 is an explanatory view of a cleaning tool used in the present invention.

【図3】従来の問題点を示す一部断面図。FIG. 3 is a partial cross-sectional view showing a conventional problem.

【図4】本発明のプログラム運転のフローチャートを示
す図。
FIG. 4 is a diagram showing a flowchart of a program operation of the present invention.

【符号の説明】[Explanation of symbols]

1 機体 2 主軸 5 工具ホルダー 6 切
削工具 7 NC装置 8 振れ測定器 9 コントローラー 11 掃除
具 12 ブラシ 13 回り止めピン
1 Airframe 2 Spindle 5 Tool holder 6 Cutting tool 7 NC device 8 Run-out measuring device 9 Controller 11 Cleaning tool 12 Brush 13 Lock pin

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】 主軸の内面にテーパ部を形成し、該テー
パ部に嵌合位置決めするテーパ部を有する工具ホルダー
を自動的に交換して順次所定の加工を行う自動制御工作
機械において、前記工具ホルダーを主軸に取付けた状態
で該工具ホルダーの外周の回転振れを測定する測定手段
と、前記主軸の内面テーパ部を清掃する手段とを備え、
工具交換の際に前記測定手段により工具ホルダーの振れ
を測定し、該振れ量が所定値を超えたときに、該工具ホ
ルダーを主軸から取外して前記清掃手段により主軸のテ
ーパ部の清掃を行う運転制御プログラムとしたことを特
徴とする工具の芯ずれ防止方法。
1. An automatic control machine tool for forming a tapered portion on an inner surface of a spindle and automatically exchanging a tool holder having a tapered portion for fitting and positioning the tapered portion to sequentially perform predetermined machining. A measuring means for measuring the rotational runout of the outer periphery of the tool holder with the holder attached to the spindle, and means for cleaning the taper portion of the inner surface of the spindle.
The operation of measuring the deflection of the tool holder by the measuring means at the time of exchanging the tool, and removing the tool holder from the spindle when the amount of the deflection exceeds a predetermined value, and cleaning the taper part of the spindle by the cleaning means. A method for preventing misalignment of a tool, which is characterized by a control program.
【請求項2】前記テーパ付き工具ホルダーと近似する外
形を有しテーパ部にブラシを形成した清掃具を用いて、
前記主軸のテーパ部の自動清掃を行う請求項1記載の工
具の芯ずれ防止方法。
2. A cleaning tool having an outer shape similar to that of the tapered tool holder and having a brush formed on the tapered portion,
The tool misalignment prevention method according to claim 1, wherein the taper portion of the spindle is automatically cleaned.
JP19910095A 1995-07-12 1995-07-12 Method for preventing center deviation of tool Pending JPH0929577A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP19910095A JPH0929577A (en) 1995-07-12 1995-07-12 Method for preventing center deviation of tool

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP19910095A JPH0929577A (en) 1995-07-12 1995-07-12 Method for preventing center deviation of tool

Publications (1)

Publication Number Publication Date
JPH0929577A true JPH0929577A (en) 1997-02-04

Family

ID=16402130

Family Applications (1)

Application Number Title Priority Date Filing Date
JP19910095A Pending JPH0929577A (en) 1995-07-12 1995-07-12 Method for preventing center deviation of tool

Country Status (1)

Country Link
JP (1) JPH0929577A (en)

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001198761A (en) * 2000-01-12 2001-07-24 Nippei Toyama Corp Tool magazine and method for measuring deflection and washing of tool
US7033308B2 (en) 2003-07-07 2006-04-25 Fanuc Ltd Automatic tool changing device for machine tool
US7037248B2 (en) 2000-10-27 2006-05-02 Tokyo Seimitsu Co., Ltd. Machine tool
US8142118B2 (en) * 2006-08-16 2012-03-27 Grob-Werke Gmbh & Co. Kg Working machine
US20170312875A1 (en) * 2016-04-28 2017-11-02 Fanuc Corporation Machining system
JP6297128B1 (en) * 2016-12-16 2018-03-20 Dmg森精機株式会社 Machine Tools

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001198761A (en) * 2000-01-12 2001-07-24 Nippei Toyama Corp Tool magazine and method for measuring deflection and washing of tool
US7037248B2 (en) 2000-10-27 2006-05-02 Tokyo Seimitsu Co., Ltd. Machine tool
US7175374B2 (en) 2000-10-27 2007-02-13 Tokyo Seimitsu Co., Ltd. Machine tool
US7033308B2 (en) 2003-07-07 2006-04-25 Fanuc Ltd Automatic tool changing device for machine tool
US8142118B2 (en) * 2006-08-16 2012-03-27 Grob-Werke Gmbh & Co. Kg Working machine
JP2017196721A (en) * 2016-04-28 2017-11-02 ファナック株式会社 Processing system
US20170312875A1 (en) * 2016-04-28 2017-11-02 Fanuc Corporation Machining system
CN107336082A (en) * 2016-04-28 2017-11-10 发那科株式会社 System of processing
US10406644B2 (en) 2016-04-28 2019-09-10 Fanuc Corporation Machining system
CN107336082B (en) * 2016-04-28 2019-11-08 发那科株式会社 System of processing
JP6297128B1 (en) * 2016-12-16 2018-03-20 Dmg森精機株式会社 Machine Tools
JP2018094697A (en) * 2016-12-16 2018-06-21 Dmg森精機株式会社 Machine tool
WO2018109974A1 (en) * 2016-12-16 2018-06-21 Dmg森精機株式会社 Machine tool

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