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JPS60108218A - Wire electric-discharge machining device - Google Patents

Wire electric-discharge machining device

Info

Publication number
JPS60108218A
JPS60108218A JP21498783A JP21498783A JPS60108218A JP S60108218 A JPS60108218 A JP S60108218A JP 21498783 A JP21498783 A JP 21498783A JP 21498783 A JP21498783 A JP 21498783A JP S60108218 A JPS60108218 A JP S60108218A
Authority
JP
Japan
Prior art keywords
wire electrode
wire
machining
discharge energy
workpiece
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
JP21498783A
Other languages
Japanese (ja)
Inventor
Masashi Koyama
雅司 小山
Takeo Nakayama
中山 建夫
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.)
Mitsubishi Electric Corp
Original Assignee
Mitsubishi Electric Corp
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 Mitsubishi Electric Corp filed Critical Mitsubishi Electric Corp
Priority to JP21498783A priority Critical patent/JPS60108218A/en
Publication of JPS60108218A publication Critical patent/JPS60108218A/en
Pending legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23HWORKING OF METAL BY THE ACTION OF A HIGH CONCENTRATION OF ELECTRIC CURRENT ON A WORKPIECE USING AN ELECTRODE WHICH TAKES THE PLACE OF A TOOL; SUCH WORKING COMBINED WITH OTHER FORMS OF WORKING OF METAL
    • B23H7/00Processes or apparatus applicable to both electrical discharge machining and electrochemical machining
    • B23H7/02Wire-cutting
    • B23H7/04Apparatus for supplying current to working gap; Electric circuits specially adapted therefor

Landscapes

  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Electrochemistry (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Electrical Discharge Machining, Electrochemical Machining, And Combined Machining (AREA)

Abstract

PURPOSE:To prevent redisconnection from occurring after repairs, by controlling a discharge energy momentum in time of machining resumption from a disconnection spot of a wire electrode after repairing the snapped wire so as to make it smaller than that of energy in time of the disconnection. CONSTITUTION:In the case where a normal work 1 is machined, all relays 28, 29 and 30 are in a conductive state and therefore pulsative discharge energy is fed to the work 1 and a wire electrode 12 by means of on-off operations in transistors 22, 23 and 24. Repairing the snapped wire, when putting back to a disconnection spot and reopening the machining, a control circuit 18 of a numerical control system 17 outputs a signal, opening the relay 28, and a resistor, where an electric current to be turned to the discharge energy passes, is set to only relays 26 and 27, thereby reducing the electric current. With this constitution, the discharge energy is made smaller than that before the disconnection so that redisconnection of the wire after being repaired is preventable.

Description

【発明の詳細な説明】 〔発明の技術分野〕 この発明は微少間隙を介して被加工物にワイヤ電極を対
向させ、放電エネルギーにより上記の被加工物を切断加
工するようにしたワイヤ放電加工装置に関し、ワイヤ電
極が断線した場合に、修復後のワイヤ電極の断線全防止
するようにしたものである。
[Detailed Description of the Invention] [Technical Field of the Invention] The present invention relates to a wire electrical discharge machining device in which a wire electrode is opposed to a workpiece through a minute gap, and the workpiece is cut using electrical discharge energy. Regarding this, when the wire electrode is disconnected, the disconnection of the wire electrode after repair is completely prevented.

〔従来技術〕[Prior art]

一般に、微少間隙を介して被加工物にワイヤ電極を対向
させ、被加工物とワイヤ電極との間にパルス性の放電2
繰り返し発生させ、放電エネルギーにより、上記の被加
工物を切断加工するようにしたワイヤ放電加工装置が知
られている。このワイヤ放電加工装置は硬い金属等の複
雑な切断加工k D 4M Lにしかも容易に行うこと
ができる。
Generally, a wire electrode is placed opposite the workpiece through a small gap, and a pulsed electric discharge 2 is generated between the workpiece and the wire electrode.
A wire electrical discharge machining apparatus is known that cuts the workpiece described above using electrical discharge energy that is repeatedly generated. This wire electric discharge machining device can easily perform complex cutting of hard metals and the like.

上記の被加工物を放電加工する際には、ワイヤ電極を被
加工物の中に貫通させるようにして供給する。17!c
、このワイヤ電極は1通常細い金属製のものであり、放
電加工中に異常事態の発生等により、断線することがあ
る。
When performing electric discharge machining on the above-mentioned workpiece, the wire electrode is fed so as to penetrate into the workpiece. 17! c.
This wire electrode is usually made of thin metal, and may break due to an abnormal situation occurring during electrical discharge machining.

ワイヤ電極が断線すると、加工開始位i−,x軸テーブ
ルおよびY軸テーブルを移動させ、加工開始位置にてワ
イヤ電極を新しいものに代える修復作業を行う。
When the wire electrode is broken, repair work is performed by moving the machining start position i-, the x-axis table, and the Y-axis table, and replacing the wire electrode with a new one at the machining start position.

ワイヤ電極の修復完了後、ワイヤ電極全欠々と供給しつ
つ、縦加工の軌跡の間隙を通過し、ワイヤ電極を上記切
断位置へ復帰させる。この復帰後、上記切断位置から切
断前の切断加工を続行すべく。
After the repair of the wire electrode is completed, the wire electrode is returned to the above-mentioned cutting position by passing through the gap in the vertical machining trajectory while supplying the entire wire electrode intermittently. After this return, the cutting process before cutting should be continued from the above cutting position.

ワイヤ電極および被加工物に加工液全供給し、断線前と
同量のパルス性の放電エネルギーを供給する。
Fully supply machining fluid to the wire electrode and workpiece, and supply the same amount of pulsed discharge energy as before the wire breakage.

従来では、ワイヤ電極の断線後、加工を再開始する際に
、断線前と同量の放電エネルギーを供給していたので、
この加工を再開始したときに、再びワイヤ電極の切断を
生ずることがある、という欠点かあった。
Conventionally, when restarting machining after a wire electrode breakage, the same amount of discharge energy as before the wire breakage was supplied.
When this process is restarted, the wire electrode may be broken again, which is a drawback.

〔発明の概要〕[Summary of the invention]

この発明は上記した従来の欠点を除去するもので、微少
間隙を介して被加工物にワイヤ電極を対向させ、放電エ
ネルギーにより、上記の被加工物を切断加工するように
なし、上記ワイヤ電極の断線時には、自動的に被加工物
を加工開始の位置へ移動し、加工開始位置にてワイヤ電
極の修復を行い、その後読加工の軌跡における間隙にワ
イヤ電極を通過させながら、ワイヤ電極全上記した断線
位置へ復帰させ、その後放電エネルギー全発生させて加
工を続行するようにしたワイヤ放電加工装置において、
ワイヤ電極の断線位置での加工開始に際してワイヤ電極
に供給する放電エネルギー貴が前回の断線時における放
電エネルギーよりも少なくなるように制御し、これによ
り修復後のワイヤ電極の断fR’fr防とするようにし
たワイヤ放電加工装置を提供するものである。
This invention eliminates the above-mentioned drawbacks of the conventional technology, and includes a wire electrode facing the workpiece through a minute gap, and the workpiece being cut using electrical discharge energy. In the event of wire breakage, the workpiece is automatically moved to the machining start position, the wire electrode is repaired at the machining start position, and the wire electrode is then passed through the gap in the reading machining trajectory, and the wire electrode is completely restored. In wire electrical discharge machining equipment that returns to the disconnected position and then generates all the electrical discharge energy to continue machining,
When starting machining at the wire electrode breakage position, the discharge energy supplied to the wire electrode is controlled to be less than the discharge energy at the previous breakage, thereby preventing wire electrode breakage fR'fr after repair. The present invention provides a wire electrical discharge machining apparatus.

〔発明の実施例〕[Embodiments of the invention]

以下、この発明の一実施例を図について説明する。第1
図はワイ・ヤ放電加工装置の構成を示すものである。図
において、符号1は被加工物であり、水平面内で移動自
由なXテーブル2、Yテーブル3上にg置されている。
An embodiment of the present invention will be described below with reference to the drawings. 1st
The figure shows the configuration of a wire electric discharge machining device. In the figure, reference numeral 1 denotes a workpiece, which is placed on an X table 2 and a Y table 3, which are freely movable in a horizontal plane.

4は被加工物1の表面上に予め穿設された切断加工開始
孔である。5はワイヤ電極12t−支持しているガイド
であり、ワイヤ放電加工装置の本体(図示せず)に、Z
軸方向に移動可能な軸に固着されている。6はX軸方向
テーブル駆動モータ、7はY軸方向テーブル駆動モータ
である。Bitブレーキ、9は巻取りローラ、10は供
給リール、11は巻取りリールであり、ワイヤ電極12
を供給する働きをする。16は加工液タンクであり、そ
の中には脱イオン水が入っており、ポンプ14により被
加工物1に供給する。
Reference numeral 4 denotes a cutting start hole drilled in advance on the surface of the workpiece 1. 5 is a guide that supports the wire electrode 12t, and a Z
It is fixed to an axially movable shaft. 6 is an X-axis table drive motor, and 7 is a Y-axis table drive motor. Bit brake, 9 is a take-up roller, 10 is a supply reel, 11 is a take-up reel, wire electrode 12
It functions to supply. 16 is a machining liquid tank, which contains deionized water and is supplied to the workpiece 1 by a pump 14.

15は加工電源であり、ガイド16を通じて、ワイヤ′
IfL極12および被加工物1に放電エネルギー全供給
する。17は■〜C装置であり、制御回路18とテーブ
ル駆動モータを制御するサーボ回路19とにより構成さ
れている。2oはワイヤ′a極12の断線位置を示すも
のである。
15 is a processing power source, which connects the wire' through the guide 16.
Full discharge energy is supplied to the IfL pole 12 and the workpiece 1. Reference numeral 17 denotes devices (1) to (C), which are composed of a control circuit 18 and a servo circuit 19 that controls a table drive motor. 2o indicates the disconnection position of the wire 'a pole 12.

上記したワイヤ放電加工装置では、微少間隙を介して被
加工物1に対し、ワイヤ電極12を対向させ、加工液タ
ンク13内の脱イオン水をポンプ14により供給し、加
工電源15からワイヤ電極12と被加工物1とに放電エ
ネルギーを投入して、サーボ回路19によりXテーブル
2およびYテーブル3を制御し、切断加工開始孔4から
被加工物1の加工を開始する。その後、切断位置20で
ワイヤ電極12が断線すると自動的にX軸方向テーブル
駆動モータ6およびX軸方向テーブル駆動モータ7が起
動され、これにより加工開始位置へ移動されて、切断加
工開始孔4にて、ワイヤ電極12の修復が行われる。そ
の後、縦加工の軌跡の間隙にワイヤ電極12を通過させ
ながら、ワイヤ電極12の前記した断線位置20へ復帰
させる。その後、加工電源15から放電エネルギーを供
給し、加工を続行する。この放電を続行させるための放
電エネルギーとして、ワイヤ電極12の前記した切断時
と同量のエネルギーを投入すると、再度ワイヤ電極12
が断線する可能性が高いが、ここではワイヤ電極12の
断線位置20での加工開始に際してワイヤ電極12に供
給する放電エネルギー量が前回の断線時における放電エ
ネルギーよりも少な(なるように制御している。これに
より修復後のワイヤ電極12の断線が防止される。
In the wire electric discharge machining apparatus described above, the wire electrode 12 is opposed to the workpiece 1 through a small gap, deionized water in the machining fluid tank 13 is supplied by the pump 14, and the machining power supply 15 supplies the wire electrode 12 with the workpiece 1. and the workpiece 1 , the X table 2 and the Y table 3 are controlled by the servo circuit 19 , and machining of the workpiece 1 is started from the cutting start hole 4 . Thereafter, when the wire electrode 12 is disconnected at the cutting position 20, the X-axis table drive motor 6 and the X-axis table drive motor 7 are automatically started, and the machine is moved to the machining start position and inserted into the cutting machining start hole 4. Then, the wire electrode 12 is repaired. Thereafter, the wire electrode 12 is returned to the above-mentioned disconnection position 20 while passing through the gap of the vertical machining locus. Thereafter, discharge energy is supplied from the machining power source 15 to continue machining. When the same amount of energy as when cutting the wire electrode 12 is applied as discharge energy to continue this discharge, the wire electrode 12 is cut again.
However, in this case, the amount of discharge energy supplied to the wire electrode 12 when starting machining at the wire breakage position 20 of the wire electrode 12 is controlled to be less than the discharge energy at the previous breakage. This prevents disconnection of the wire electrode 12 after repair.

上記のように放電エネルギーを制御する具体的な回路を
第2図に示す。第2図において、第1図と同一符号は同
一または相当部分を示す。21は直流電源、22.23
.24はトランジスタ、25゜26.27は電流制限用
の抵抗器、28,29゜30はリレーを示すものである
。上記直流電の21からはスイッチング用のトランジス
タ22.25゜24、抵抗器25.26.27およびリ
レー28゜29.30を介してワイヤ電極12表被加工
物1に接続されている。また、リレー28.29.30
は前記制御回路1BによりON −OF F (7) 
ttj制御ができるように構成され、トランジスタ22
.23゜24は発振器OSCにより0N−OFFされる
ように構成されている。
FIG. 2 shows a specific circuit for controlling the discharge energy as described above. In FIG. 2, the same reference numerals as in FIG. 1 indicate the same or corresponding parts. 21 is a DC power supply, 22.23
.. 24 is a transistor, 25°26.27 is a current limiting resistor, and 28, 29°30 is a relay. The wire electrode 12 is connected to the workpiece 1 from the DC voltage 21 through a switching transistor 22, 25, 24, a resistor 25, 26, 27, and a relay 28, 29, 30. Also, relay 28.29.30
is turned on by the control circuit 1B (7)
The transistor 22 is configured to be able to perform ttj control.
.. 23 and 24 are configured to be turned ON and OFF by an oscillator OSC.

通常、被加工物1を加工する際には、全部のリレー28
.29.30は導通状態であり、トランジスタ22.2
3.24のON −OF’ Fにより、被加工物1とワ
イヤ電極12とにはパルス件の放電エネルギーが供給さ
れている。
Normally, when processing workpiece 1, all relays 28
.. 29.30 is conductive, transistor 22.2
3.24 ON-OF'F, pulsed discharge energy is supplied to the workpiece 1 and the wire electrode 12.

ワイヤ′直1歩12が断線したどきには、前記したよう
にワイヤ屯鴎12の・1ω復を行う。その後、前記した
ように、ワイヤ電極12の断線位置20b・ら被加工物
1の加工を再開始してこれを続行することになるが、こ
のときには、NC41i[17の制御回路18からの信
号により、例えばリレー28の接点を開く。これにより
、放電エネルギーと力る電流が通過する抵抗器は符号2
6.27で示すもののみとなり、該電流の流れる抵抗が
増大し、電流が減少する。このように、ワイヤ電極の断
線位置での加工開始に際(5てワイヤ電極に供給する放
電エネルギー量が前回の断線時における放電エネルギー
よりも少なくなるので、これにより修復後のワイヤ電極
の断線を防止することができる。
When the wire 1st step 12 is broken, the wire 1st step 12 is turned back 1ω as described above. Thereafter, as described above, processing of the workpiece 1 is restarted from the disconnection position 20b of the wire electrode 12 and continued. , for example, opens the contacts of relay 28. As a result, the resistor through which the discharge energy and force current pass has a sign of 2
6.27, the resistance through which the current flows increases, and the current decreases. In this way, when starting machining at the wire electrode breakage position (5), the amount of discharge energy supplied to the wire electrode will be less than the discharge energy at the previous breakage, so this will prevent the wire electrode breakage after repair. It can be prevented.

〔発明の効果〕〔Effect of the invention〕

この発明は上記したように、微少間隙ケ介し、て被加工
物にワイヤ電極全対向させ、放電エイ・ルギーにより、
上記の被加工物を切断加工するようになし、と記ワイヤ
電極の断線時には、自動的に被加工物を加工開始の位置
へ移動し、加工開始位置にてワイヤ電極の修復を行い、
その後読加工の軌跡における間隙にワイヤ電極を通過さ
せながら、ワイヤ電極を上記した断線位置へ復帰させ、
その後放電エネルギー全発生させて加工を続行するよう
に(5たワイヤ放電加工装置において、ワイヤ電極の断
線位置での加工開始に際してワイヤ電極に供給する放電
エネルギー量が前回の断線時にお←1−るIjk ’i
JX工X、ルギーよりも少な(なるように制御するよう
しこしたプ)・ら、修復後のワイヤ電極の断線を防止す
ることかでき、円滑な放電切断加工が可能とツユる。
As described above, this invention has the wire electrode completely facing the workpiece through a small gap, and by electric discharge energy,
When the wire electrode is disconnected, the workpiece is automatically moved to the machining start position, and the wire electrode is repaired at the machining start position.
While passing the wire electrode through the gap in the trajectory of the subsequent reading process, return the wire electrode to the above-mentioned disconnection position,
After that, the entire discharge energy is generated to continue machining (5) In wire electric discharge machining equipment, when machining is started at the wire electrode breakage position, the amount of discharge energy supplied to the wire electrode is ← 1- Ijk'i
It is believed that JX Engineering X has less power than Lugie, and can prevent the wire electrode from breaking after repair, making it possible to perform smooth electrical discharge cutting.

4 図面のf)rliIL す説明 第1図はこの発明の一実施例の説明に用いるワイーvノ
N屯加工装置の+;4[人間、第2図はこの発明の−実
b1n例を・示す回路図である。
4 f)rliIL Explanation of Drawings Fig. 1 shows a +;4 [human being] of a processing device used to explain an embodiment of this invention; Fig. 2 shows an actual b1n example of this invention. It is a circuit diagram.

1、彼加工物、12:ワイヤ゛電極、18;制御回路、
20:断線位置。
1. Workpiece, 12: Wire electrode, 18; Control circuit,
20: Disconnection position.

尚、各1ぶ1中同−符号12同−捷たは41A当部分奇
・示すものとする。
It should be noted that the same symbol in each 1 and 1 shall be shown as 12 and 12, or 41A and 41A as odd.

代理人 弁理士 木 村 三 朗 第1図 10 ++ 9 15 第2図 7Agent: Patent Attorney Sanro Kimura Figure 1 10 ++ 9 15 Figure 2 7

Claims (1)

【特許請求の範囲】[Claims] 微少間隙を介して被加工物にワイヤ電極を対向させ、7
fl[エネルギーにより、上記の被加工物を切断加工す
るようになし、上記ワイヤ電極の断線時には、自動的に
被加工物を加工開始の位置へ移動し、加工開始位置にて
ワイヤ電極の修復全行い、その後読加工の軌跡における
間隙にワイヤ電極全通過させながら、ワイヤ電極を上記
した断線位置へ復帰させ、その後放電エネルギーを発生
させて加工を続行するようにしたワイヤ放電加工装置に
おいて、ワイヤ電極の断線位置での加工開始に際してワ
イヤ電極に供給する放電工ネルキー量が前回の断線時に
おける放電エネルギーよりも少なく々るように制御する
ことを特徴とするワイヤ放電加工装置。
A wire electrode is placed opposite the workpiece through a small gap, and 7
fl [Energy is used to cut the workpiece, and when the wire electrode breaks, the workpiece is automatically moved to the machining start position, and the wire electrode is completely repaired at the machining start position. In a wire electrical discharge machining apparatus, the wire electrode is returned to the above-mentioned disconnection position while the wire electrode is passed through the gap in the machining locus, and then discharge energy is generated to continue machining. A wire electrical discharge machining apparatus characterized in that the amount of electrical discharge energy supplied to a wire electrode when starting machining at a wire breakage position is controlled so that it is less than the discharge energy at the time of a previous wire breakage.
JP21498783A 1983-11-17 1983-11-17 Wire electric-discharge machining device Pending JPS60108218A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP21498783A JPS60108218A (en) 1983-11-17 1983-11-17 Wire electric-discharge machining device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP21498783A JPS60108218A (en) 1983-11-17 1983-11-17 Wire electric-discharge machining device

Publications (1)

Publication Number Publication Date
JPS60108218A true JPS60108218A (en) 1985-06-13

Family

ID=16664823

Family Applications (1)

Application Number Title Priority Date Filing Date
JP21498783A Pending JPS60108218A (en) 1983-11-17 1983-11-17 Wire electric-discharge machining device

Country Status (1)

Country Link
JP (1) JPS60108218A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH01240220A (en) * 1988-03-18 1989-09-25 Mitsubishi Electric Corp Wire cut electric discharge machine
JPH01310822A (en) * 1988-06-08 1989-12-14 Sodick Co Ltd Wire-cut electric discharge machining method
US5113051A (en) * 1988-08-19 1992-05-12 Mitsubishi Denki K.K. Method of returning a wire electrode when broken in a wire cut electric discharging machine

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH01240220A (en) * 1988-03-18 1989-09-25 Mitsubishi Electric Corp Wire cut electric discharge machine
JPH01310822A (en) * 1988-06-08 1989-12-14 Sodick Co Ltd Wire-cut electric discharge machining method
US5113051A (en) * 1988-08-19 1992-05-12 Mitsubishi Denki K.K. Method of returning a wire electrode when broken in a wire cut electric discharging machine

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