Method of making partially welded spots in wire-cut electrical discharge machining
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B23H-007/02
B23H-007/04
B23H-007/06
B23K-009/00
B23K-037/00
출원번호
US-0241177
(2013-05-22)
등록번호
US-9724775
(2017-08-08)
우선권정보
JP-2012-134030 (2012-06-13)
국제출원번호
PCT/JP2013/064272
(2013-05-22)
국제공개번호
WO2013/187201
(2013-12-19)
발명자
/ 주소
Kawano, Masatoshi
Tasaki, Keisuke
Mitsuyasu, Takashi
출원인 / 주소
SEIBU ELECTRIC & MACHINERY CO., LTD.
대리인 / 주소
Browdy and Neimark, PLLC
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
In a method of welding a cut-out part with a workpiece at a preselected area in a thickness direction of the workpiece in a wire electrical discharge machining to retain temporarily or tentatively the part on the workpiece, a wire electrode 5 tilted in posture cuts the workpiece 6 to form a slant cu
In a method of welding a cut-out part with a workpiece at a preselected area in a thickness direction of the workpiece in a wire electrical discharge machining to retain temporarily or tentatively the part on the workpiece, a wire electrode 5 tilted in posture cuts the workpiece 6 to form a slant cutting surface 30 at a spark discharge location in a desired contour 21 in the workpiece 6. The wire electrode 5 after kept in an upright posture executes the welding process on the workpiece 6 along the slant cutting surface. A plurality of the welded spots is formed over a preselected length at preselected areas in the thickness direction of the workpiece 6. Even if the cut-out part 26 weighs more or the spark discharge is executed on the workpiece 6 overlapped one on the other, the welding spot 20 is formed in the thickness direction of the workpiece 6 adequately depending on the working situation to tentatively retain the cut-out part 26 on the workpiece 6.
대표청구항▼
1. A method of welding a cut-out part with a workpiece in wire electrode discharge machining, comprising of the steps of cutting a part to be separated from the workpiece with electrical discharge using spark energy generated by application of an inter-electrode voltage which occurs across a wire el
1. A method of welding a cut-out part with a workpiece in wire electrode discharge machining, comprising of the steps of cutting a part to be separated from the workpiece with electrical discharge using spark energy generated by application of an inter-electrode voltage which occurs across a wire electrode and the workpiece lying in opposition to the wire electrode and, in doing so, changing an electrical processing condition applied across the wire electrode and the workpiece from a cutting phase to a welding phase at a preselected spot in a cutting path or kerf of the part, fusing at least partially the wire electrode and welding the part with the workpiece at the spot in a preselected contour of the part to retain the part on the workpiece, and further comprising of the steps of changing the electrical processing condition to the cutting phase at a preselected spot to weld the part with the workpiece, thereby carrying out the discharge machining to rough cut the workpiece in a thickness direction of the workpiece along a cutting contour in the workpiece to form a rough cut surface on the part, and then tilting the wire electrode in posture with respect to the rough cut surface lying in the thickness direction of the workpiece, subsequently changing the electrical processing condition to the welding phase to execute a welding process on the workpiece along the rough cut surface thereby forming the welded spot to weld the part with the workpiece along the rough cut surface at an ingress side of the workpiece for the wire electrode, the welded spot extending over a preselected length at a preselected area in the thickness direction of the workpiece to retain the part on the workpiece with the welded spot. 2. A method of welding a cut-out part with a workpiece in wire electrode discharge machining, as set forth in claim 1, wherein the rough cut surface on the workpiece is a slant cutting surface which is rough cut with the wire electrode while tilting or kept tilted with respect to the upper and lower surfaces of the workpiece, and then after wire electrode is changed from a posture lying on the slant cutting surface to a substantially upright posture perpendicular to the upper and lower surfaces of the workpiece, the welding process is carried out along the slant cutting surface at an ingress side of the workpiece for the wire electrode upward from a lower end of the slant cutting surface to form the welded spot of the preselected length at the preselected area in the thickness direction of the workpiece. 3. A method of welding a cut-out part with a workpiece in wire electrode discharge machining, as set forth in claim 2, wherein the welded spot to join the cut-out part with the workpiece is formed at a preselected location lying upward from a lower side of the slant cutting surface over a preselected length in the thickness direction of the workpiece. 4. A method of welding a cut-out part with a workpiece in wire electrode discharge machining, as set forth in claim 2, wherein the slant cutting surface on the workpiece is spark charge machined with using the wire electrode kept in a tilted posture in which an upper head goes ahead of a lower head along a desired cutting contour in the workpiece. 5. A method of welding a cut-out part with a workpiece in wire electrode discharge machining, as set forth in claim 2, wherein the slant cutting surface spark discharged on the workpiece is composed of two partially slant cutting surfaces intersected each other to form an uncut peak midway between the upper and lower surface of the workpiece, and the welded spot is formed at the uncut peak. 6. A method of welding a cut-out part with a workpiece in wire electrode discharge machining, as set forth in claim 1, wherein the rough cut surface on the workpiece is a substantially upright surface rough cut in the workpiece by the wire electrode kept at an upright posture substantially perpendicular to the upper and lower surfaces of the workpiece, and wherein the welding process is executed on the workpiece along the rough cut surface thereby forming the welded spot to weld the part with the workpiece along the rough cut surface at an ingress side of the workpiece for the wire electrode, the welded spot extending over a preselected length at a preselected area in the thickness direction of the workpiece. 7. A method of welding a cut-out part with a workpiece in wire electrode discharge machining, as set forth in claim 6, wherein the upper head to feed the wire electrode is moved to go back of the lower head along the cutting path or kerf made in the workpiece to get the wire electrode tilted in posture. 8. A method of welding a cut-out part with a workpiece in wire electrode discharge machining, as set forth in claim 6, wherein the upper head to feed the wire electrode is advanced ahead of the lower head to increase an angle of inclination of the wire electrode relative to the upper surface and the lower surface of the workpiece thereby to form the welded spot along the upright rough cutting surface while varying the angle of inclination of the wire electrode. 9. A method of welding a cut-out part with a workpiece in wire electrode discharge machining, as set forth in claim 1, wherein the welded spot on the rough cut surface is formed at one or more locations along the rough cut surface of the workpiece. 10. A method of welding a cut-out part with a workpiece in wire electrode discharge machining, as set forth in claim 1, wherein the spark discharge is carried out in the thickness direction of the workpiece composed of a plurality of layers overlapped one on the other to form the welded spot to join the part with the workpiece at least an undermost layer to retain the part on the workpiece.
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