| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 沟槽加工工具及使用该沟槽加工工具的薄膜太阳电池的沟槽加工方法及划线装置 | CN201080009004.6 | 2010-02-23 | CN102325621A | 2012-01-18 | 曾山正信 |
| 为了提供一种可高良率地制造集成型薄膜太阳电池的太阳电池的制造方法、沟槽加工工具,使沟槽加工工具(8)的刃尖部分(81)的底面(83)的形状为沿着移动方向细长地延伸的长方形,底面(83)与位于沿着移动方向的轴线上的刃尖部分的前侧面(84)及后侧面(85)相交成直角,所述角部形成为刃尖(86、87),且刃尖部分的左右侧面平行地形成,使用所述形状的沟槽加工工具(8),在进行图案化时的刃尖部分的前侧面(84)或后侧面(85)与基板(W)的上侧面所成的角度为50度~80度的范围内向前进方向侧倾斜而进行加工。 | ||||||
| 2 | 切削工具及花键加工方法 | CN201480047621.3 | 2014-09-01 | CN105492151A | 2016-04-13 | 今井亮介; 钲打荣治; 山田芳正; 锅岛弘一 |
| 在本发明中,提供了一种用于对沿轴向形成在柱状构件的外周上的花键进行加工的筒状的切削工具,所述切削工具具有在内周上形成为花键形状的刃部。刃部设置有第一刃部和第二刃部,其中,第一刃部在沿轴向方向上的第一方向的端部上形成为大致面向第一方向,第二刃部在沿第二方向的端部上形成为大致面向第二方向,所述第二方向是与轴向方向上的第一方向相反的方向。 | ||||||
| 3 | 沟槽加工工具及使用该沟槽加工工具的薄膜太阳电池的沟槽加工方法及划线装置 | CN201080009004.6 | 2010-02-23 | CN102325621B | 2015-11-25 | 曾山正信 |
| 本案发明是一种沟槽加工工具及使用该沟槽加工工具的薄膜太阳电池的沟槽加工方法及划线装置。为了提供一种可高良率地制造集成型薄膜太阳电池的制造方法、沟槽加工工具,使沟槽加工工具(8)的刃尖部分(81)的底面(83)的形状为沿着移动方向细长地延伸的长方形,底面(83)与位于沿着移动方向的轴线上的刃尖部分的前侧面(84)及后侧面(85)相交成直角,所述角部形成为刃尖(86、87),且刃尖部分的左右侧面平行地形成,使用所述形状的沟槽加工工具(8),在进行图案化时的刃尖部分的前侧面(84)或后侧面(85)与基板(W)的上侧面所成的角度为50度~80度的范围内向前进方向侧倾斜而进行加工。 | ||||||
| 4 | CUTTING TOOL AND SPLINE PROCESSING METHOD | EP14840075.7 | 2014-09-01 | EP3040147A1 | 2016-07-06 | IMAI, Ryousuke; KANEUCHI, Eiji; YAMADA, Yoshimasa; NABESHIMA, Koichi |
A cylindrical cutting tool for processing splines formed on an outer circumference of a shaft member to extend in an axial direction includes blade portions which are formed in a spline shape on an inner circumference. The blade portions include: a first blade portion which is formed in a terminal end portion in a first direction along the axial direction and which is directed substantially toward the first direction; and a second blade portion which is formed in a terminal end portion in a second direction along the axial direction and opposite to the first direction and which is directed substantially toward the second direction. |
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| 5 | STOSSWERKZEUG, INSBESONDERE NUTSTOSSWERKZEUG | EP08707689.9 | 2008-02-13 | EP2125278B1 | 2011-06-08 | SCHÄFER, Hans |
| A punching tool, in particular a slotting tool, comprising a holder (1) that defines a longitudinal axis (4) and has a shank (5) extending in the longitudinal direction as a carrier for a cutting body (31, 33), which can be fixed in a seat of the shank (5) by means of a clamping device (51), is characterized in that the seat has a passage that is at a distance from the free end (7) of the shank (5), extends transversely in relation to the longitudinal axis (4) and the inner side of which forms guiding surfaces for abutting surfaces of the cutting body (31, 33) that can be pushed into the passage in the direction of insertion, wherein an end position limitation for the pushed-in cutting body (31, 33) is formed on guiding surfaces and on associated abutting surfaces and the clamping device (51) on the cutting body (31, 33) produces a force component pressing the latter against the end position limitation. | ||||||
| 6 | 切削工具およびスプライン加工方法 | JP2013178863 | 2013-08-30 | JP2015047647A | 2015-03-16 | IMAI RYOSUKE; KANEDA EIJI; YAMADA YOSHIMASA; NABESHIMA KOICHI |
| 【課題】雄スプラインシャフトに雄スプラインより径が大きい部分が一端にあっても、切削工具を往復動作させて雄スプラインを加工する、切削工具および、その切削工具を使用した、スプライン加工方法を提供する。【解決手段】スプラインシャフト1の外周に軸方向に形成されたスプラインの表面の樹脂層1bを加工する円筒状の切削工具2であって、内周にスプライン状に形成された刃部を備え、前記刃部は、軸方向の一端側に一端側に向けて形成された第1の刃部3と、軸方向の他端側に他端側に向けて形成された第2の刃部4とを備えた。【選択図】図1 | ||||||
| 7 | Slotting tool and scribing device for thin film solar cell using the same | JP2012214150 | 2012-09-27 | JP2013056414A | 2013-03-28 | SOYAMA MASANOBU |
| PROBLEM TO BE SOLVED: To provide a slotting tool and a scribing device capable of manufacturing integrated thin film solar cells with a favorable yield.SOLUTION: The slotting tool includes a bar-like body 81, and a blade region 82 of a rectangular parallelepiped shape formed at the tip of the body 81. The blade region 82 is formed of five flat planes of a rectangular bottom face 83 surrounded by a pair of short edges and a pair of long edges, a front face 84 and a rear face 85 orthogonal to the bottom face 83 on two short edge sides of the bottom face 83, respectively, and a right side face 89 and a left side face 88 orthogonal to the bottom face 83 on the two long edge sides of the bottom face 83, respectively. Blades in the vertical direction are formed at a corner 94 of the front face 84 and the right side face 89 and a corner 93 of the front face 84 and the left side face 88, a blade in the lateral direction is formed at a corner of the front face 84 and the bottom face 83, and a slope 90 is formed at a corner of the bottom face 83 and the front face 84. | ||||||
| 8 | 切削工具 | JP2013178863 | 2013-08-30 | JP6264784B2 | 2018-01-24 | 今井 亮介; 鉦打 栄治; 山田 芳正; 鍋島 弘一 |
| 9 | Slotting tool, and scribing device for thin film solar cell using the same | JP2012214149 | 2012-09-27 | JP2013049131A | 2013-03-14 | SOYAMA MASANOBU |
| PROBLEM TO BE SOLVED: To provide a slotting tool and a scribing device that enable an integrated thin film solar cell to be manufactured with a high yield rate.SOLUTION: The slotting tool includes a rod-like body 81 and a cutting edge region 82 having a shape of a rectangular parallelepiped formed at a tip of the rod-like body 81. The cutting edge region 82 is formed of five planes including: a rectangular bottom face 83 surrounded by a pair of short sides and a pair of long sides; a front face 84 and a rear face 85 orthogonal to the rectangular bottom face 83 at two short sides of the rectangular bottom face 83, respectively; and a right side face 89 and a left side face 88 orthogonal to the rectangular bottom face 83 at two long sides of the rectangular bottom face 83, respectively. In this cutting edge region, longitudinal cutting edges are formed in a corner 94 formed of the front face 84 and the right side face 89 and in a corner 93 formed of the front face 84 and the left side face 88, and a lateral cutting edge is formed in a corner formed of the front face 84 and the rectangular bottom face 83. A corner 92 formed of the rectangular bottom face 83 and the right side face 89 and a corner 91 formed of the rectangular bottom face 83 and the left side face 88 are chamfered. | ||||||
| 10 | Groove processing method of integrated thin film solar cell | JP2012214148 | 2012-09-27 | JP2013042153A | 2013-02-28 | SOYAMA MASANOBU |
| PROBLEM TO BE SOLVED: To provide a groove processing method using a groove processing tool capable of manufacturing an integrated thin film solar cell at a good yield.SOLUTION: A shape of a bottom face 83 of a blade tip region 82 of a groove processing tool 8 is a rectangle shape extending in a moving direction. Corner parts, at which the bottom face 83 and a front face 84 and a rear face 85 of the blade tip region 82 positioned on an axial line in the moving direction are crossed with each other at a right angle, are formed as blade tips 86, 87. Using a groove processing tool 8 of such a shape that right and left side faces 88, 89 at a blade tip portion are formed in parallel, an angle of the front face 84 or the rear face 85 at the blade tip portion during patterning to an upper face of a substrate W is in a range of 50 to 80 degrees diagonally toward a traveling direction. | ||||||
| 11 | CUTTING TOOL AND SPLINE PROCESSING METHOD | EP14840075 | 2014-09-01 | EP3040147A4 | 2017-04-05 | IMAI RYOUSUKE; KANEUCHI EIJI; YAMADA YOSHIMASA; NABESHIMA KOICHI |
| A cylindrical cutting tool for processing splines formed on an outer circumference of a shaft member to extend in an axial direction includes blade portions which are formed in a spline shape on an inner circumference. The blade portions include: a first blade portion which is formed in a terminal end portion in a first direction along the axial direction and which is directed substantially toward the first direction; and a second blade portion which is formed in a terminal end portion in a second direction along the axial direction and opposite to the first direction and which is directed substantially toward the second direction. | ||||||
| 12 | STOSSWERKZEUG, INSBESONDERE NUTSTOSSWERKZEUG | EP08707689.9 | 2008-02-13 | EP2125278A1 | 2009-12-02 | SCHÄFER, Hans |
| A punching tool, in particular a slotting tool, comprising a holder (1) that defines a longitudinal axis (4) and has a shank (5) extending in the longitudinal direction as a carrier for a cutting body (31, 33), which can be fixed in a seat of the shank (5) by means of a clamping device (51), is characterized in that the seat has a passage that is at a distance from the free end (7) of the shank (5), extends transversely in relation to the longitudinal axis (4) and the inner side of which forms guiding surfaces for abutting surfaces of the cutting body (31, 33) that can be pushed into the passage in the direction of insertion, wherein an end position limitation for the pushed-in cutting body (31, 33) is formed on guiding surfaces and on associated abutting surfaces and the clamping device (51) on the cutting body (31, 33) produces a force component pressing the latter against the end position limitation. | ||||||
| 13 | Vorrichtung und verfahren zum gratarmen Schneiden | EP06007115.6 | 2006-04-04 | EP1710035A1 | 2006-10-11 | Arcidiacone, Franco; Huperz, Ulrich |
Bei einem Schneidwerkzeug (i) zum spanabhebenden Bearbeiten einer Schnittfläche (10) eines Körpers aus Metall, wobei das Schneidwerkzeug (1) mindestens eine erste und eine zweite Schneidkante (3,4) aufweist, sind zur Vermeidung einer Gratbildung am Werkstück beide Schneidkanten (3,4) zur Bearbeitung mindestens von Abschnitten derselben Schnittfläche (10) bestimmt und die Schnittrichtung der zweiten Schneidkante (4) ist ungleich der Schnittrichtung der ersten Schneidkante (3).
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| 14 | SLOTTING TOOL, AND THIN FILM SOLAR CELL SLOTTING METHOD AND SCRIBING DEVICE USING SAME | EP10746187.3 | 2010-02-23 | EP2402100B1 | 2017-05-31 | SOYAMA, Masanobu |
| 15 | SLOTTING TOOL, AND THIN FILM SOLAR CELL SLOTTING METHOD AND SCRIBING DEVICE USING SAME | EP10746187 | 2010-02-23 | EP2402100A4 | 2015-05-06 | SOYAMA MASANOBU |
| 16 | SLOTTING TOOL, AND THIN FILM SOLAR CELL SLOTTING METHOD AND SCRIBING DEVICE USING SAME | EP10746187.3 | 2010-02-23 | EP2402100A1 | 2012-01-04 | SOYAMA, Masanobu |
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. |
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| 17 | Vorrichtung und Verfahren zum gratarmen Schneiden | EP06007115.6 | 2006-04-04 | EP1710035B1 | 2010-06-09 | Arcidiacone, Franco; Huperz, Ulrich |
| 18 | Surface cutting machine tool | US3636815D | 1969-11-05 | US3636815A | 1972-01-25 | KOEHLER WALTER |
| This invention is directed to a planar type of machine tool in which a plurality of cutting tools are individually mounted on the respective links of continuously driven endless chain that is bodily oscillatable about an axis transverse to the path of travel of the workpiece so that the cutting tools on one flight of the chain engage the workpiece during one direction of travel thereof and the cutting tools on the other flight of the chain engage the workpiece during its opposite direction of travel. The workpiece is progressively pivoted in one direction as it is advanced and progressively pivoted in the opposite directions as it is returned so that the tool cuts will be in straight lines substantially parallel to the sides of the workpiece.
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| 19 | Tool mounting arrangement for forward and rearward planing | US27114263 | 1963-04-08 | US3163088A | 1964-12-29 | HEINZ LANGE |
| 20 | Shaping and slotting machines | US13070161 | 1961-05-23 | US3146677A | 1964-09-01 | RAJ KOCHAR |
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