JPS62124808A - Machining jig for shaft member - Google Patents

Machining jig for shaft member

Info

Publication number
JPS62124808A
JPS62124808A JP26553285A JP26553285A JPS62124808A JP S62124808 A JPS62124808 A JP S62124808A JP 26553285 A JP26553285 A JP 26553285A JP 26553285 A JP26553285 A JP 26553285A JP S62124808 A JPS62124808 A JP S62124808A
Authority
JP
Japan
Prior art keywords
shaft member
jig
fitting
reference surface
processing
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
JP26553285A
Other languages
Japanese (ja)
Inventor
Tadashi Suzuki
正 鈴木
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.)
Fuji Tool and Die Co Ltd
Original Assignee
Fuji Tool and Die Co 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 Fuji Tool and Die Co Ltd filed Critical Fuji Tool and Die Co Ltd
Priority to JP26553285A priority Critical patent/JPS62124808A/en
Publication of JPS62124808A publication Critical patent/JPS62124808A/en
Pending legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23QDETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
    • B23Q3/00Devices holding, supporting, or positioning work or tools, of a kind normally removable from the machine
    • B23Q3/18Devices holding, supporting, or positioning work or tools, of a kind normally removable from the machine for positioning only

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Drilling And Boring (AREA)

Abstract

PURPOSE:To reduce a machining time, by adapting the end face of a shaft member to the reference surface of a machining jig so as to perform positioning in the axial direction and fitting a protrusive fitting streak of the machining jig to a fitting groove in the shaft end part so that the shaft member is set to a specified angle about an axis. CONSTITUTION:A fitting groove 16 is previously formed in an end face 1a of a shaft member 1, while a fitting protrusive streak 14 is formed from a reference surface 12 of a machining jig 10. The fitting protrusive streak 14 is fitted to the fitting groove 16, and the shaft member 1 determines its position in the axial direction by adapting the end face 1a to the reference surface 12. An angle about an axis of the shaft member 1 is positioned in a specified angular direction determined by the protrusive streak 14. Since positioning in the axial direction and about the axis can be performed only by adapting the end face of the shaft member to the reference surface, a machining time can be reduced.

Description

【発明の詳細な説明】 (産業上の利用分野) 本発明は、自動車用変速機の機構部品として使用される
シフトロッド等の軸部材を所定の加工位置に位置決めす
る軸部材の加工治具に関する。
DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to a shaft member machining jig for positioning a shaft member such as a shift rod used as a mechanical part of an automobile transmission at a predetermined machining position. .

(従来技術) 従来、変速機の機構部品として使用されるシフトロッド
を得るための軸部材の加工にあっては、軸部材に直交す
る方向にピン等の装着穴をドリル加工する必要があり、
この穴開は加工は、軸周部分おけるチェックボール溝等
の加工位置に対し所定の角度位置をもつことから、軸部
材を軸回りの規定角度となるように加工台に位置決め固
定して穴開は加工を行なう必要がおった。
(Prior Art) Conventionally, when processing a shaft member to obtain a shift rod used as a mechanical part of a transmission, it is necessary to drill a mounting hole for a pin or the like in a direction perpendicular to the shaft member.
Since this hole drilling process has a predetermined angular position relative to the machining position of check ball grooves etc. on the circumference of the shaft, the shaft member is positioned and fixed on the processing table at a specified angle around the axis, and the hole is drilled. It was necessary to carry out processing.

第5図は、このような軸部材の穴開は加工に使用される
従来の加工治具の一例を示し・た説明図であり、軸部材
1に加工基準となるピン穴2を加工して位置決めピン3
により加工治具5に対し規定の軸回り角度を得るように
位置決め固定し、ドリル4により穴開は加工するように
している。
FIG. 5 is an explanatory diagram showing an example of a conventional machining jig used for machining such a hole in a shaft member. Locating pin 3
It is positioned and fixed with respect to the machining jig 5 so as to obtain a prescribed angle around the axis, and the hole is drilled with the drill 4.

また第6図に示すように、軸部材1の軸周に加工基準と
なる溝6を予め加工しておき、この溝6に加工冶具7側
から位置決めピン8を嵌合して規定の軸回り角度を得る
ように位置決め固定してドリル4により穴開は加工する
ようにしている。
Further, as shown in FIG. 6, a groove 6 that serves as a machining reference is pre-machined on the periphery of the shaft member 1, and a positioning pin 8 is fitted into this groove 6 from the processing jig 7 side. It is positioned and fixed so as to obtain an angle, and the hole is drilled using a drill 4.

(発明が解決しようとする問題点) しかしながら、このような従来の加工治具にあっては、
軸部材を加工治具にセットした状態で位置決めピンを嵌
め入れて位置決め固定していることから、自動化が困難
であり、また軸部材の左右を間違えて加工治具にセット
してしまうことにより加工ミスを生じ易く、更に、軸部
材の装着及び取外しが手作業となることから加工に時間
がかかり、更にまた位置決めピンとピン穴または溝との
間には多少のガタがあることから、加工精度が落ちると
いう問題もあった。
(Problems to be solved by the invention) However, with such conventional processing jigs,
Automation is difficult because the shaft member is set in the processing jig and the positioning pin is inserted to position and fix it, and machining may be caused by setting the shaft member on the processing jig with the wrong left or right side. It is easy to make mistakes, and since the installation and removal of the shaft member must be carried out manually, it takes time to process. Furthermore, there is some play between the positioning pin and the pin hole or groove, which reduces the accuracy of the process. There was also the problem of falling.

(問題点を解決するための手段) 本発明は、このような従来の問題点に鑑みてなされたも
ので、軸部材の自動交換が容易にでき、且つ軸方向およ
び軸回りに正確に位置決めすることのできる軸部材の加
工治具を提供することを目的とする。
(Means for Solving the Problems) The present invention has been made in view of the above-mentioned problems of the conventional art, and it is possible to easily replace the shaft member automatically, and to accurately position the shaft member in the axial direction and around the shaft. It is an object of the present invention to provide a processing jig for a shaft member that can be used to process a shaft member.

この目的を達成するため本発明にあっては、軸部材の端
面を加工治具の基準面に当接することで軸方向に位置決
めすると共に、加工治具の基準面に規定の角度をもった
嵌合突条を形成し、この嵌合突条に軸部材の端面に予め
形成した嵌合溝を嵌着して軸部材を規定の軸回り角度に
設定できるようにしたものである。
In order to achieve this object, the present invention positions the end face of the shaft member in the axial direction by abutting against the reference surface of the processing jig, and also positions the end face of the shaft member at a specified angle on the reference surface of the processing jig. A fitting ridge is formed, and a fitting groove previously formed on the end face of the shaft member is fitted into the fitting ridge, so that the shaft member can be set at a prescribed angle around the axis.

(実施例) 第1図は本発明の一実施例を加工対象となる軸部材と共
に示した斜視図である。
(Embodiment) FIG. 1 is a perspective view showing an embodiment of the present invention together with a shaft member to be machined.

まず構成を説明すると、10は本発明の加工治具であり
、上部に治具ホルダに扱止め固定するための保持段部1
1を備えたブロック形状を持ち、前面に軸部材1の端面
1aを当接して軸方向に位置決めするための基準面12
を備え、この基準面12に軸部材1を指定の軸回り角度
で加工台に位置決めするための嵌合突条14を一体に形
成している。このような基準面12に形成した嵌合突条
14に対応して軸部材1の端面1aには嵌合溝16が予
め形成されている。
First, to explain the structure, numeral 10 is the processing jig of the present invention, and there is a holding step part 1 on the upper part for handling and fixing it to the jig holder.
1, and has a block shape with a reference surface 12 for positioning the shaft member 1 in the axial direction by abutting the end surface 1a of the shaft member 1 on the front surface.
A fitting protrusion 14 is integrally formed on this reference surface 12 for positioning the shaft member 1 on the processing table at a specified angle around the axis. A fitting groove 16 is formed in advance on the end surface 1a of the shaft member 1 in correspondence with the fitting protrusion 14 formed on the reference surface 12.

また加工治具10の上面には固定穴18が設けられ、加
工治具10を後の説明で明らかにする治具ホルダに組込
んだ状態で治具ホルダ側から固定ボルトを固定穴18に
ねじ込むようになる。
Further, a fixing hole 18 is provided on the upper surface of the processing jig 10, and a fixing bolt is screwed into the fixing hole 18 from the jig holder side while the processing jig 10 is assembled in a jig holder, which will be explained later. It becomes like this.

更に、加工冶具10の側面にはエアパイプ接続口20が
設けられ、このエアパイプ接続口20より加工治具10
の内部を通って基準面12のエアセンサ孔22が開口し
ている。エアセンサ孔22は加工冶具10に対する軸部
材1の着脱を検出するために設けられており、軸部材1
を加工治具10にセットした状態で軸部材1の端面1a
の基準面12に対する当接でエアセンサ孔22が閉鎖さ
れることから、この時のエアの流出の阻止を検知して軸
部材1の加工台への装着を検出し、また軸部材1を取り
外すとエアセンサ孔22からエアが流出することから、
このエアの流出に基づいて軸部材1の加工台からの取外
しを検出できるようになり、軸部材1を自動的に加工台
に着脱する時の着脱検知に利用される。
Furthermore, an air pipe connection port 20 is provided on the side surface of the processing jig 10, and the processing jig 10 is connected to the processing jig 10 from this air pipe connection port 20.
The air sensor hole 22 of the reference surface 12 opens through the inside of the reference surface 12 . The air sensor hole 22 is provided to detect attachment and detachment of the shaft member 1 to the processing jig 10.
The end face 1a of the shaft member 1 is set in the processing jig 10.
Since the air sensor hole 22 is closed by contact with the reference surface 12 of Since air flows out from the air sensor hole 22,
Based on this outflow of air, it becomes possible to detect whether the shaft member 1 is removed from the processing table, and this is used to detect when the shaft member 1 is automatically attached to or removed from the processing table.

第2図は第1図に示した本発明の加工治具10を用いた
軸部材1の加工台に対する装着状態を示した説明図であ
る。
FIG. 2 is an explanatory diagram showing a state in which the shaft member 1 is mounted on a processing table using the processing jig 10 of the present invention shown in FIG.

まず加工治具10は、加工台24上に摺動自在に設けた
治具ホルダ26に装着され、治具ホルダ26の前面に設
けた保持板28を加工冶具10の保持段部11に対しボ
ルト30により締付は固定することで固着しており、更
に治具ホルダ26の上部よりボルト32を加工治具10
の固定穴18にねじ込んで治具ホルダ26に位置決め固
定している。
First, the processing jig 10 is mounted on a jig holder 26 that is slidably provided on the processing table 24, and the holding plate 28 provided on the front side of the jig holder 26 is bolted to the holding step 11 of the processing jig 10. 30, the bolt 32 is fixed by fixing it, and the bolt 32 is attached to the processing jig 10 from the top of the jig holder 26.
The jig holder 26 is positioned and fixed by screwing into the fixing hole 18 of the jig holder 26.

治具ホルダ26に対し所定間隔離れた位置には、スペー
サ部材34を介してガイドホルダ36が配置され、ガイ
ドホルダ36の右側に軸部材1を自動的にクランプする
ためのクランプカム38が設けられる。クランプカム3
8は油圧、若しくは空圧シリンダにより回動され、図示
の回動状態で軸部材1をガイドホルダ36に押圧して位
置決め固定しており、クランプカム38の切欠部38a
を軸部材1に相対するように回動することでクランプを
解除することができる。またクランプカム38の回転方
向としては、クランプ時には矢印へのように時計回りに
回動させ、軸部材1を治具ホルダ26の加工治具10に
押付けるようにしてクランプさせる。
A guide holder 36 is arranged at a predetermined distance from the jig holder 26 via a spacer member 34, and a clamp cam 38 for automatically clamping the shaft member 1 is provided on the right side of the guide holder 36. . Clamp cam 3
8 is rotated by a hydraulic or pneumatic cylinder, and in the illustrated rotational state presses the shaft member 1 against the guide holder 36 to position and fix it, and the notch 38a of the clamp cam 38
The clamp can be released by rotating it relative to the shaft member 1. The clamp cam 38 is rotated clockwise in the direction of the arrow when clamping, and the shaft member 1 is pressed against the processing jig 10 of the jig holder 26 for clamping.

次に第2図を参照して本発明の加工冶具による軸部材1
の位置決め装着を説明する。
Next, with reference to FIG. 2, a shaft member 1 formed by the processing jig of the present invention
We will explain how to position and attach it.

第1図に示したように軸部材1の端面1aには予め嵌合
溝16が形成されていることから、自動挿入装置等によ
り第2図に示すように軸部材1をガイドホルダ36側か
ら治具ホルダ26の治具部材10に対し挿入する。この
時、クランプカム38はその切欠部38aが軸部材1に
相対する位置に回動している。軸部材1の先端を治具ホ
ルダ26の加工治具10に当接させると、軸部材1の端
面の基準面12に対する当接で加工台24に於ける軸部
材1の軸方向の位置が決まる。同時に基準面12の嵌合
突条14に軸部材1の端面に形成した嵌合溝16が嵌ま
り合うことで、軸部材1の軸回りの角度が嵌合突条14
で定まる規定の角度方向に位置決めされる。この軸部材
1の加工治具10に対する装着状態でクランプカム38
を矢印Aの方向に回動して図示のように円周部で押付け
ることで軸部材1を加工台24に固定保持する。
As shown in FIG. 1, since the fitting groove 16 is previously formed in the end surface 1a of the shaft member 1, the shaft member 1 is inserted from the guide holder 36 side using an automatic insertion device or the like as shown in FIG. Insert into the jig member 10 of the jig holder 26. At this time, the clamp cam 38 has rotated to a position where its notch 38a faces the shaft member 1. When the tip of the shaft member 1 is brought into contact with the processing jig 10 of the jig holder 26, the axial position of the shaft member 1 on the processing table 24 is determined by the contact of the end surface of the shaft member 1 with the reference surface 12. . At the same time, the fitting groove 16 formed on the end surface of the shaft member 1 is fitted into the fitting protrusion 14 of the reference surface 12, so that the angle around the axis of the shaft member 1 is adjusted to the fitting protrusion 14.
It is positioned in a specified angular direction determined by . When the shaft member 1 is attached to the processing jig 10, the clamp cam 38
The shaft member 1 is fixedly held on the processing table 24 by rotating it in the direction of arrow A and pressing it with its circumferential portion as shown.

この時、加工治具10の基準面12に開口したエアセン
サ孔22は軸部材1の端面の当接で閉鎖されることから
、エアセンサ孔22からのエアの流出が阻止され、この
エア流出の阻止により軸部材1の加工台24に対する装
着を検知することができる。
At this time, since the air sensor hole 22 opened in the reference surface 12 of the processing jig 10 is closed by the contact with the end surface of the shaft member 1, the outflow of air from the air sensor hole 22 is prevented. Thus, attachment of the shaft member 1 to the processing table 24 can be detected.

続いて加工台24により加工治具10による位置決め固
定をもってセットされた軸部材1の所定位置にドリル加
工等の所定の加工を行ない、この加工が終了するとクラ
ンプカム38が反時計回りに回動してクランプを解除し
、自動挿入装置の作動で加工済みの軸部材1が加工台2
4から取外されて次の新たな軸部材1が挿入されるよう
になる。
Subsequently, a predetermined process such as drilling is performed on the predetermined position of the shaft member 1, which has been fixed in position by the process jig 10, using the process table 24, and when this process is completed, the clamp cam 38 rotates counterclockwise. to release the clamp, and the machined shaft member 1 is placed on the processing table 2 by the operation of the automatic insertion device.
4, and the next new shaft member 1 is inserted.

この軸部材1の取外しはそれまで閉鎖されていた加工冶
具10のエアセンサ孔22が開かれることで検知される
This removal of the shaft member 1 is detected by opening the air sensor hole 22 of the processing jig 10, which had been closed until then.

第3図は本発明の加工治具10で位置決め固定される軸
部材1の端面に形成する嵌合溝16の他の実施例を示し
た説明図であり、この実施例にあっては嵌合溝16を軸
端面1aの中心線40を外れた位置に形成するようにし
たことを特徴する。
FIG. 3 is an explanatory view showing another embodiment of the fitting groove 16 formed on the end surface of the shaft member 1 to be positioned and fixed by the processing jig 10 of the present invention. A feature is that the groove 16 is formed at a position off the center line 40 of the shaft end surface 1a.

即ち、軸部材1の両側の端面に中心線40から外して嵌
合溝16を同じように形成した場合、第4図に示すよう
に加工治具10の基準面12に設けた嵌合突条14に正
しく軸部材1を嵌め合わせた場合には1Aに示すように
軸部材1が当接するが、軸部材1の左右を間違えて装着
した場合には1Bに示すように当接位置が変わることと
なり、例えばエアセンサ孔22を正しい当接位置1Aで
は閉鎖するが、誤った当接位置1Bでは閉鎖しない図示
の位置に開口させておくことにより、軸部材1が左右を
間違えて装着されてもエアセンサによる軸部材の装着が
検知できないことから、誤った装着状態でドリル加工等
の加ニジーケンスが行なわれてしまうことを未然に防ぎ
、軸部材1の誤った装着による加工ミスの発生を防ぐこ
とができる。
That is, when the fitting grooves 16 are formed in the same way on both end faces of the shaft member 1 apart from the center line 40, the fitting protrusions provided on the reference surface 12 of the processing jig 10 as shown in FIG. If the shaft member 1 is fitted correctly to the shaft member 14, the shaft member 1 will come into contact as shown in 1A, but if the right and left sides of the shaft member 1 are installed incorrectly, the contact position will change as shown in 1B. For example, if the air sensor hole 22 is closed at the correct abutment position 1A, but not at the incorrect abutment position 1B, as shown in the figure, the air sensor hole 22 can be closed even if the shaft member 1 is attached to the left or right side. Since the installation of the shaft member 1 cannot be detected, it is possible to prevent machining sequences such as drilling from being performed in an incorrectly installed state, and to prevent machining errors caused by incorrectly installing the shaft member 1. .

尚、上記の実施例は自動車用変速機に用いられるシフト
ロッドの加工を例にとるものであったが本発明はこれに
限定されず、適宜の軸部材を軸方向及び軸回り角度に位
置決めして加工する場合にそのまま適用することができ
る。
In addition, although the above embodiment takes as an example the machining of a shift rod used in an automobile transmission, the present invention is not limited thereto, and the present invention can be used to position an appropriate shaft member in the axial direction and at an angle around the shaft. It can be applied as is when processing.

(発明の効果) 以上説明してきたように本発明によれば、シフトロッド
等の軸部材を指定の軸回り角度に設定して加工位置に位
置決めする軸部材の加工治具として、軸部材の端面を当
接して軸方向に位置決めする基準面を有すると共に、こ
の基準面に軸部材の端面に予め形成した嵌合溝に嵌着し
て軸回りに位置決めする規定角度を持った嵌合突条を形
成するようにしたため、この加工治具を用いることによ
り軸部材を加工治具の基準面に当接させるだけで軸方向
及び軸回りに位置決めできることから、軸部材を着脱す
るための自動化が容易にでき、位置決めのための手作業
が不要になることから加工時間を大幅に短縮することが
できる。
(Effects of the Invention) As described above, according to the present invention, the end face of the shaft member can be used as a machining jig for a shaft member such as a shift rod to set the shaft member at a specified angle around the axis and position it at a machining position. The shaft member has a reference surface that abuts to position the shaft member in the axial direction, and a fitting projection having a prescribed angle that fits into a fitting groove pre-formed on the end surface of the shaft member and positions the shaft member around the axis. By using this processing jig, the shaft member can be positioned in the axial direction and around the axis simply by contacting the reference surface of the processing jig, making it easy to automate the attachment and detachment of the shaft member. This eliminates the need for manual positioning, significantly reducing processing time.

また加工治具の基準面に対し、軸部材を押付けるように
クランプカム等で固定保持させることで、常に加工治具
に対し軸部材1を正しく位置決めすることができ、位置
決めの際もガタ付きを生じないことから、高い加工精度
を得ることができる。
In addition, by fixing and holding the shaft member 1 with a clamp cam, etc. so as to press it against the reference surface of the processing jig, it is possible to always correctly position the shaft member 1 relative to the processing jig, and there is no wobble during positioning. Since this does not occur, high machining accuracy can be obtained.

更に加工治具の基準面に形成した嵌合突条に嵌まり合う
軸部材端面の嵌合溝として、軸中心を外れた端面位置に
嵌合溝を形成してあくことで軸部材の左右を間違えて装
着すると加工治具の基準面に対する軸部材の当接位置が
変わり、この当接位置の変化をエアセンサ等で検知する
ことで、誤った軸部材の装着を検知して加工ミスを確実
に防ぐことができる。
Furthermore, by forming a fitting groove on the end face of the shaft member at a position off the center of the shaft, which fits into the fitting protrusion formed on the reference surface of the processing jig, the left and right sides of the shaft member can be easily separated. If the shaft member is installed incorrectly, the contact position of the shaft member with respect to the reference surface of the processing jig will change, and by detecting this change in contact position with an air sensor, etc., incorrect installation of the shaft member will be detected and machining errors will be avoided. It can be prevented.

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

第1図は本発明の一実施例を軸部材と共に示した斜視図
、第2図は第1図の加工治具を用いた加工台の説明図、
第3図は本発明の加工治具に用いられる軸部材の端面嵌
合溝の他の例を示した説明図、第4図は第3図の軸部材
の左右を入れ代えたときの加工軸に対する当接状態の説
明図、第5゜6図は従来例を示した説明図である。 1:軸部材 1a:@面 10:加工治具 11:保持段部 12:基準面 14:嵌合突条 16:嵌合溝 18:固定穴 20:エアパイプ接続口 22:エアセンサ孔 24:加工台 26二治具ホルダ 28:保持板 30.32:ポルト 34ニスペ一サ部材 36:ガイドホルダ 38:クランプカム 40:中心線
FIG. 1 is a perspective view showing an embodiment of the present invention together with a shaft member, FIG. 2 is an explanatory diagram of a processing table using the processing jig shown in FIG. 1,
Fig. 3 is an explanatory diagram showing another example of the end face fitting groove of the shaft member used in the processing jig of the present invention, and Fig. 4 is a processing shaft when the left and right sides of the shaft member in Fig. 3 are swapped. FIGS. 5-6 are explanatory diagrams showing a conventional example. 1: Shaft member 1a: @ surface 10: Processing jig 11: Holding step 12: Reference surface 14: Fitting protrusion 16: Fitting groove 18: Fixing hole 20: Air pipe connection port 22: Air sensor hole 24: Processing table 26 Jig holder 28: Holding plate 30. 32: Port 34 Nice spacer member 36: Guide holder 38: Clamp cam 40: Center line

Claims (1)

【特許請求の範囲】 シフトロッド等の軸部材を規定の軸回り角度に設定して
加工位置に位置決めする軸部材の加工治具に於いて、 前記軸部材の端面を当接して軸方向に位置決めする基準
面を有すると共に、該基準面に前記軸部材の端面に予め
形成した嵌合溝に嵌着して軸回りに位置決めする規定角
度をもった嵌合突条を形成したことを特徴とする軸部材
の加工治具。
[Claims] In a shaft member machining jig that sets a shaft member such as a shift rod at a specified angle around the axis and positions it at a processing position, the shaft member is positioned in the axial direction by abutting the end face of the shaft member. The shaft member has a reference surface, and a fitting protrusion is formed on the reference surface with a prescribed angle for fitting into a fitting groove pre-formed on the end surface of the shaft member and positioning the shaft member around the shaft. Machining jig for shaft members.
JP26553285A 1985-11-26 1985-11-26 Machining jig for shaft member Pending JPS62124808A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP26553285A JPS62124808A (en) 1985-11-26 1985-11-26 Machining jig for shaft member

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP26553285A JPS62124808A (en) 1985-11-26 1985-11-26 Machining jig for shaft member

Publications (1)

Publication Number Publication Date
JPS62124808A true JPS62124808A (en) 1987-06-06

Family

ID=17418434

Family Applications (1)

Application Number Title Priority Date Filing Date
JP26553285A Pending JPS62124808A (en) 1985-11-26 1985-11-26 Machining jig for shaft member

Country Status (1)

Country Link
JP (1) JPS62124808A (en)

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5163070A (en) * 1974-11-29 1976-06-01 Nippon Musical Instruments Mfg JUKAKUMENBOJOTAIJIDOSENKOKINO SHISEIKISEIHOHO
JPS60213451A (en) * 1984-04-02 1985-10-25 Maruzen Seikou Kk Angle adjuster for vise
JPS61117042A (en) * 1984-11-12 1986-06-04 Matsushita Electric Ind Co Ltd Positioning for cylindrical parts

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5163070A (en) * 1974-11-29 1976-06-01 Nippon Musical Instruments Mfg JUKAKUMENBOJOTAIJIDOSENKOKINO SHISEIKISEIHOHO
JPS60213451A (en) * 1984-04-02 1985-10-25 Maruzen Seikou Kk Angle adjuster for vise
JPS61117042A (en) * 1984-11-12 1986-06-04 Matsushita Electric Ind Co Ltd Positioning for cylindrical parts

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