21 |
Two-way cutting devices for planers |
US26449263 |
1963-03-12 |
US3136219A |
1964-06-09 |
JUZO HINO |
|
22 |
Double action cutting tool |
US82763259 |
1959-07-16 |
US3040632A |
1962-06-26 |
WALTER JOHN M; MARX GRAHAM E |
|
23 |
Toolholder |
US58777245 |
1945-04-11 |
US2466197A |
1949-04-05 |
WILLIAM BERTHIEZ CHARLES |
|
24 |
Double-acting planer head |
US49634343 |
1943-07-27 |
US2352132A |
1944-06-20 |
SOUTHWELL CHARLES E |
|
25 |
Planer-tool holder |
US43938321 |
1921-01-24 |
US1460681A |
1923-07-03 |
SARLANDT OSCAR J |
|
26 |
Tool-holder |
US31407619 |
1919-07-29 |
US1341206A |
1920-05-25 |
OTTO CRONAU |
|
27 |
Oscab j |
US1319250D |
|
US1319250A |
1919-10-21 |
|
|
28 |
Double-cutting-planer-tool holder. |
US14779617 |
1917-02-10 |
US1244302A |
1917-10-23 |
DUNSFORD CHARLES H |
|
29 |
Fourth to thomas sterling |
US627099D |
|
US627099A |
1899-06-20 |
|
|
30 |
parsons |
US471189D |
|
US471189A |
1892-03-22 |
|
|
31 |
Machines |
US298269D |
|
US298269A |
1884-05-06 |
|
|
32 |
Improvement in machines for planing the edges of sheet metal |
US145593D |
|
US145593A |
1873-12-16 |
|
|
33 |
Groove machining tool and scribing apparatus for a thin film solar cell using the same |
JP2012214150 |
2012-09-27 |
JP5469723B2 |
2014-04-16 |
正信 曽山 |
|
34 |
Groove machining tool and scribing apparatus for a thin film solar cell using the same |
JP2012214149 |
2012-09-27 |
JP5469722B2 |
2014-04-16 |
正信 曽山 |
|
35 |
Groove machining method of an integrated thin-film solar cell |
JP2012214148 |
2012-09-27 |
JP5351998B2 |
2013-11-27 |
正信 曽山 |
A manufacturing method for a solar cell according to which an integrated thin film solar cell can be manufactured with a high yield and a slotting tool are provided. The bottom (83) of the cutting edge portion (81) of the slotting tool (8) is rectangular that is long in the direction in which the slotting tool moves. The front surface (84) and the rear surface (85) of the cutting edge portion that are located along a line in the direction in which the slotting tool moves cross the bottom (83) at right angles so that the corner portions thereof form cutting edges (86) and (87). The left and right sides of the cutting edge portion are parallel to each other. The thus-formed slotting tool (8) is used in such a manner that the cutting edge portion is inclined in the direction in which the slotting tool moves while patterning so that the angle formed between the front surface (84) or the rear surface (85) of the cutting edge portion and the upper surface of a substrate (W) is in a range from 50 degrees to 80 degrees. |
36 |
Groove machining tool and scribing apparatus for a thin film solar cell using the same |
JP2011501594 |
2010-02-23 |
JP5269183B2 |
2013-08-21 |
正信 曽山 |
|
37 |
溝加工ツールおよびこれを用いた薄膜太陽電池の溝加工方法およびスクライブ装置 |
JP2011501594 |
2010-02-23 |
JPWO2010098306A1 |
2012-08-30 |
正信 曽山 |
集積型薄膜太陽電池を歩留まりよく製造することのできる太陽電池の製造方法、溝加工ツールを提供するために、溝加工ツール8の刃先部分81の底面83の形状が、移動方向に沿って細長く延びる長方形であり、底面83と移動方向に沿った軸線上に位置する刃先部分の前面84並びに後面85とが直角に交わってその角部が刃先86,87として形成され、刃先部分の左右側面が平行に形成されている形状の溝加工ツール8を使用し、パターニングする際の刃先部分の前面84若しくは後面85と基板Wの上面に対する角度が50度〜80度の範囲内で進行方向側に傾斜させて行う。 |
38 |
집적형 박막 태양 전지용의 홈 가공 툴과 홈 가공 방법 및, 스크라이브 장치 |
KR1020117017097 |
2010-02-23 |
KR101311292B1 |
2013-09-25 |
소야마마사노부 |
집적형 박막 태양 전지를 수율 좋게 제조할 수 있는 태양 전지의 제조 방법, 홈 가공 툴을 제공하기 위해, 홈 가공 툴(8)의 날끝 부분(81)의 저면(底面)(83)의 형상이, 이동 방향을 따라서 가늘고 길게 연장되는 장방형이며, 저면(83)과 이동 방향을 따른 축선상에 위치하는 날끝 부분의 전면(前面)(84) 그리고 후면(85)이 직각으로 교차하여 그 모서리부가 날끝(86, 87)으로서 형성되며, 날끝 부분의 좌우 측면이 평행으로 형성되어 있는 형상의 홈 가공 툴(8)을 사용하고, 패터닝할 때의 날끝 부분의 전면(84) 또는 후면(85)과 기판(W)의 상면에 대한 각도가 50도∼80도의 범위 내에서 진행 방향측으로 경사시켜 행한다.
|
39 |
BROACHING TOOL, IN PARTICULAR KEYWAY BROACHING TOOL |
US12526928 |
2008-02-13 |
US20100104390A1 |
2010-04-29 |
Hans Schaefer |
The invention relates to a broaching tool, in particular a keyway broaching tool, comprising a holder which defines a longitudinal axis and has a shank, extending in the longitudinal direction, as support for a cutting body which can be fixed in a seat of the shank by means of a clamping device. The seat has a passage which is at a distance from the free end of the shank and extends transversely to the longitudinal axis and the inside of which forms guide surfaces for bearing surfaces of the cutting body, which can be inserted into the passage in an insertion direction. An end-position limit for the inserted cutting body is formed on guide surfaces and on associated bearing surfaces. The clamping device produces a force component on the cutting body which presses the latter against the end-position limit. |
40 |
Planing tool |
US48761143 |
1943-05-19 |
US2358897A |
1944-09-26 |
WALTER JOHN M |
|