| 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 | 刀头更换式旋转切削工具 | CN201580010565.0 | 2015-02-25 | CN106061661A | 2016-10-26 | 阿曾孝洋 |
| 本发明提供一种刀头更换式旋转切削工具用的、具有旋转中心轴的大致圆柱形状的工具体(20)。在工具体的外周面(23)上,形成有螺旋槽(28),该螺旋槽(28)形成为,从前述工具体的基端侧向末端侧延伸。螺旋槽(28)具备从基端侧到末端侧以相互错开的方式配置形成的多个刀片座(30)。刀片座(30)具备底面(31)、和以相对于该底面(31)交叉的方式延伸的第1侧面(32)及第2侧面(33)。第1侧面(32)朝向工具体(20)的基端侧,第2侧面(33)朝向工具体20的末端侧并位于比第1侧面(32)靠基端侧的位置。在位于比位于工具体(20)的最末端侧的刀片座靠基端侧的位置的至少1个刀片座(30)中,第1侧面(32)的长度L1比第2侧面(33)的长度L2长。 | ||||||
| 2 | 一种用于飞机机身叠层结构机器人化螺旋制孔方法与系统 | CN201610248807.6 | 2016-04-20 | CN105728811A | 2016-07-06 | 单以才; 章婷; 颜玮; 郭丽 |
| 本发明公开了一种用于飞机机身叠层结构机器人化螺旋制孔方法与系统,首先利用压紧机构,压紧机身叠层制孔区域;其次,以匹配顶层构件材料的刀具的高自转转速ns1、低公转转速nω1、大进给螺距P1,对顶层构件进行螺旋制孔;接着,在叠层分界面处将刀具的高自转转速、低公转转速、大进给螺距由ns1、nω1、P1调至匹配底层构件材料的ns2、nω2、P2;最后,以ns2、nω2、P2对底层构件进行螺旋制孔。该系统主要包括具有第七轴的工业机器人和螺旋制孔执行器。本发明利于螺旋制孔执行器与机器人平台的可靠装接,能显著提高叠层结构螺旋制孔的效率与质量。 | ||||||
| 3 | 螺旋铣孔过程中切削力预报和稳定性判别方法 | CN201510875935.9 | 2015-12-02 | CN105414616A | 2016-03-23 | 李洲龙; 丁烨; 朱利民 |
| 本发明提供了一种螺旋铣孔过程中切削力预报和稳定性判定方法,包括如下步骤:依据待加工孔尺寸,选定刀具及加工参数,生成螺旋铣加工刀路;基于刀齿轨迹圆弧假设,依据相邻刀位的刀具几何位置关系,得到刀齿切入切出角及未变形切厚的解析计算表达式;采用三轴单齿铣削实验标定和三轴插铣实验分别标定得到侧刃与底刃切削力系数;将以上所求参数代入二元切削力模型计算得到侧刃与底刃切削力,并将两者求和实现螺旋铣孔过程的瞬态切削力的精确预报;建立了综合考虑铣刀结构模态耦合效应和动态切厚再生效应的三自由度铣削动力学方程,并基于数值积分方法判定加工过程的稳定性。本发明提高了螺旋铣孔过程中切削力预报和稳定性判定的准确性。 | ||||||
| 4 | INDEXABLE ROTARY CUTTING TOOL | US15120661 | 2015-02-25 | US20170014918A1 | 2017-01-19 | TAKAHIRO ASO |
| A cylindrical tool body has a peripheral surface provided with one or more spiral grooves extending from a base end side to a leading end side. The grooves each have a plurality of insert seats which are shifted relative to one another from the base end side toward the leading end side. The insert seats each have a bottom surface, a first side surface of length L1, and a second side surface of length L2. The first side surface faces the tool body's base end side, and the second side surface faces the tool body's leading end side and is located on the base end side with respect to the first side surface. In at least one insert seat located closer to the base end side than an insert seat located closest to the tool body's leading end side, the first side surface is longer than the second side surface. | ||||||
| 5 | ELBOW FORMED BY CUTTING AND METHOD FOR MANUFACTURING SAME | US14739748 | 2015-06-15 | US20150285422A1 | 2015-10-08 | Nobuo HORIGUCHI |
| A hole is formed in an elbow through the steps of: forming a starting hole in a material, the starting hole having an undercut remaining on a hole surface; finishing an inner diameter of the starting hole (11-3) on one end side by revolving aside cutter (II) including an arc-shaped cutting edge and having an outer diameter smaller than a finishing hole diameter while rotating the side cutter (II) in such a posture that the side cutter (II) is inclined in a predetermined direction relative to the material (12), the revolving being carried out so that the side cutter moves along a hole surface to be finished; and finishing the inner diameter of the starting hole (11-3) on another end side by revolving the side cutter (II) while rotating the side cutter (II). | ||||||
| 6 | Elbow formed by cutting and method for manufacturing same | US13807282 | 2010-06-28 | US09227252B2 | 2016-01-05 | Nobuo Horiguchi |
| A hole is formed in an elbow through the steps of: forming a starting hole in a material, the starting hole having an undercut remaining on a hole surface; finishing an inner diameter of the starting hole (11−3) on one end side by revolving a side cutter (II) including an arc-shaped cutting edge and having an outer diameter smaller than a finishing hole diameter while rotating the side cutter (II) in such a posture that the side cutter (II) is inclined in a predetermined direction relative to the material (12), the revolving being carried out so that the side cutter moves along a hole surface to be finished; and finishing the inner diameter of the starting hole (11−3) on another end side by revolving the side cutter (II) while rotating the side cutter (II). | ||||||
| 7 | ELBOW FORMED BY CUTTING AND METHOD FOR MANUFACTURING SAME | US13807282 | 2010-06-28 | US20130099477A1 | 2013-04-25 | Nobuo Horiguchi |
| A hole is formed in an elbow through the steps of: forming a starting hole in a material, the starting hole having an undercut remaining on a hole surface; finishing an inner diameter of the starting hole (11−3) on one end side by revolving a side cutter (II) including an arc-shaped cutting edge and having an outer diameter smaller than a finishing hole diameter while rotating the side cutter (II) in such a posture that the side cutter (II) is inclined in a predetermined direction relative to the material (12), the revolving being carried out so that the side cutter moves along a hole surface to be finished; and finishing the inner diameter of the starting hole (11−3) on another end side by revolving the side cutter (II) while rotating the side cutter (II). | ||||||
| 8 | Fixation Structure for a Blade Body of a Planing Cutter and a Spiral Planing Cutter | US11937556 | 2007-11-09 | US20080110526A1 | 2008-05-15 | Wei Cong; Jifu Zou |
| The present invention discloses a fixation structure for a blade body of a planing cutter, wherein the planing cutter comprises a cutter body, a blade body, and a plurality of screw connectors. The cutter body is provided on its outer peripheral surface with a cutter seat used for mounting the blade body on which a blade of hard alloy is welded, a cooperating and positioning structure is provided between the joint surfaces of the blade body and the cutter seat, and the blade body is directly threadedly connected on the mounting seat of the cutter body through a plurality of screw connectors. Such fixation structure is simple and the replacement of the blade body is convenient, and is adapted for flat planing cutters and spiral planing cutters. The present invention also discloses a spiral planing cutter which is adapted for driving devices such as manual or electric planers, wherein the spiral planing cuter comprises a spiral cutter body which is provided on its outer peripheral surface with a plurality of spiral surfaces at equal intervals and also comprises a flat and straight blade body on which a strip-shaped body of hard alloy is welded and a plurality of screw connectors through which the flat and straight blade is fixedly connected to the spiral surface, wherein a positioning structure is provided between the blade body and the spiral surface. | ||||||
| 9 | 面取ツール、ツール支持セット及び面取システム | JP2017047987 | 2017-03-14 | JP2018149642A | 2018-09-27 | 中田 周一 |
| 【課題】取り廻しが容易な面取ツールと、面取ツールを容易に取り廻すことができるツール支持セット及び面取システムとを提供する。 【解決手段】本発明の面取ツール10は、支持シャフト13から側方に突出する段差突部20の段差面20Dと側面20Sとが交差してなる稜線20R上に配置され、かつ、支持シャフト13の中心軸J2から離れる側に膨らんだ湾曲形状の刃筋21Sを有する刃部21とを備えている。刃部20のすくい面(段差突部20の段差面20D)と刃筋21Sとが、支持シャフト13の軸方向に対して傾斜する共に、刃部20の逃げ面(段差突部20の側面20S)と刃筋21Sとが、面取対象孔91の開口縁に対して交差する配置になっている。 【選択図】図2 |
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| 10 | CHAMFERING TOOL, TOOL SUPPORT SET AND CHAMFERING SYSTEM | US15724615 | 2017-10-04 | US20180264560A1 | 2018-09-20 | Syuichi NAKATA |
| A chamfering tool that chamfers an opening edge of a target hole formed in a work, the chamfering tool including a support shaft, a base shaft having the support shaft on a tip end side thereof and being eccentric with respect to the support shaft, and a blade portion having a rake face that is a step surface of a step protrusion portion protruded laterally from the support shaft or that is an end surface of the support shaft. The blade portion including an edge line in a shape of a curve and being bulged to a side away from a center axis of the support shaft, and the edge line being inclined with respect to an axial direction of the support shaft. | ||||||
| 11 | Indexable rotary cutting tool | US15120661 | 2015-02-25 | US09764397B2 | 2017-09-19 | Takahiro Aso |
| The present invention provides a tool body (20) for use in an indexable rotary cutting tool, the tool body (20) having a rotational axis and a substantially cylindrical shape. Spiral grooves (28) are formed so as to extend from a base end side of the tool body to a leading end side in a peripheral surface (23) of the tool body. The spiral grooves (28) each have a plurality of insert seats (30) formed so as to be shifted from each other from the base end side toward the leading end side. The insert seats (30) each have a bottom surface (31) and first and second side surfaces (32, 33) that extend so as to intersect with the bottom surface (31). The first side surface (32) faces the base end side of the tool body (20), and the second side surface (33) faces the leading end side of the tool body (20) and is located on the base end side with respect to the first side surface (32). In at least one insert seat (30) located closer to the base end side with respect to an insert seat (30) located closest to the leading end side of the tool body (20), a length (L1) of the first side surface (32) is longer than a length (L2) of the second side surface (33). | ||||||
| 12 | SPIRAL PROFILE CUTTING TOOL | US11682446 | 2007-03-06 | US20070272330A1 | 2007-11-29 | Philippe Turcot; Gabriel Fafard; Yvon Gauthier |
| A spiral profile cutting tool for cutting a profile in a wood piece comprises a body defining an axis of rotation. Typically, at least two cutting blades are provided on the body. The cutting blades extend radially from the body about the axis of rotation in a spiral formation and have a variable radius defining a cutting profile for shaping a profile in the wood piece. | ||||||
| 13 | Method for machining scroll member | US427962 | 1995-04-26 | US5581880A | 1996-12-10 | Junichi Iio; Yukio Yamaguchi; Norio Suzuki; Shigeki Iwanami; Masaaki Enya; Yukihisa Tsuchimoto; Tomomi Ohno; Shinya Yamamoto; Yasuhiro Miura |
| A method for shaping a scroll member for a scroll compressor, capable of increasing a service life of a cutter tool, while reducing the cost. At the corner between the base plate 2 and a scroll wall, a roundness 3a of a small radius R1 of curvature is first machined along an entire length of the scroll wall in its spiral direction. Then, a roundness 3b of a large radius R2 of curvature is machined only at a spirally inner end of the scroll wall. | ||||||
| 14 | 削り出しエルボとその製造方法 | JP2012522367 | 2010-06-28 | JP5646623B2 | 2014-12-24 | 展男 堀口 |
| 15 | 削り出しエルボとその製造方法 | JP2012522367 | 2010-06-28 | JPWO2012001761A1 | 2013-08-22 | 展男 堀口 |
| 穴面にアンダーカット部が残された下穴を素材にあける工程、円弧状の切れ刃を備える仕上げ穴径よりも外径の小さなサイドカッタ(II)を、素材(12)に対して所定の方向に相対的に傾けた姿勢で自転させながら公転させ、このときの公転を、仕上げ目標の穴面に沿ってカッタが移動するように行なって下穴(11−3)の一端側の内径を仕上げる工程、サイドカッタ(II)を自転させながら公転させて下穴(11−3)の他端側の内径を仕上げる工程を経てエルボの穴を形成するようにした。 | ||||||
| 16 | Molding method of the scroll member | JP9267294 | 1994-04-28 | JP3256078B2 | 2002-02-12 | 康弘 三浦; 幸久 土本; 正明 塩谷; 友己 大野; 幸雄 山口; 真也 山本; 重樹 岩波; 教夫 鈴木; 順一 飯尾 |
| 17 | INDEXABLE ROTARY CUTTING TOOL | EP15755192.0 | 2015-02-25 | EP3112067B1 | 2018-05-02 | ASO Takahiro |
| The present invention provides a tool body (20) for use in an indexable rotary cutting tool, the tool body (20) having a rotational axis and a substantially cylindrical shape. Spiral grooves (28) are formed so as to extend from a base end side of the tool body to a leading end side in a peripheral surface (23) of the tool body. The spiral grooves (28) each have a plurality of insert seats (30) formed so as to be shifted from each other from the base end side toward the leading end side. The insert seats (30) each have a bottom surface (31) and first and second side surfaces (32, 33) that extend so as to intersect with the bottom surface (31). The first side surface (32) faces the base end side of the tool body (20), and the second side surface (33) faces the leading end side of the tool body (20) and is located on the base end side with respect to the first side surface (32). In at least one insert seat (30) located closer to the base end side with respect to an insert seat (30) located closest to the leading end side of the tool body (20), a length (L1) of the first side surface (32) is longer than a length (L2) of the second side surface (33). | ||||||
| 18 | ELBOW FORMED BY CUTTING AND METHOD FOR MANUFACTURING SAME | EP10854058 | 2010-06-28 | EP2586551A4 | 2015-07-22 | HORIGUCHI NOBUO |
| A hole is formed in an elbow through the steps of: forming a starting hole in a material, the starting hole having an undercut remaining on a hole surface; finishing an inner diameter of the starting hole (11 -3 ) on one end side by revolving a side cutter (II) including an arc-shaped cutting edge and having an outer diameter smaller than a finishing hole diameter while rotating the side cutter (II) in such a posture that the side cutter (II) is inclined in a predetermined direction relative to the material (12), the revolving being carried out so that the side cutter moves along a hole surface to be finished; and finishing the inner diameter of the starting hole (11 -3 ) on another end side by revolving the side cutter (II) while rotating the side cutter (II). | ||||||
| 19 | 刃先交換式回転切削工具 | JP2016505275 | 2015-02-25 | JPWO2015129768A1 | 2017-03-30 | 孝洋 阿曽 |
| 本発明は、刃先交換式回転切削工具用の、回転中心軸を有する略円柱形状の工具ボデー(20)を提供する。工具ボデーの外周面(23)に、前記工具ボデーの基端側から先端側に延びるように形成されたらせん溝(28)が形成される。らせん溝(28)は、基端側から先端側に互いにずれるように配置形成された複数のインサート座(30)を備えている。インサート座(30)は、底面(31)と、この底面(31)に対して交差するように延在する第1および第2側面(32、33)とを備える。第1側面(32)は工具ボデー(20)の基端側を向き、第2側面(33)は工具ボデー20の先端側を向きかつ第1側面(32)よりも基端側に位置する。工具ボデー20の最も先端側に位置するインサート座よりも基端側に位置する少なくとも1つのインサート座(30)においては、第1側面(32)の長さL1が第2側面(33)の長さL2よりも長い。 | ||||||
| 20 | 刃先交換式回転切削工具 | JP2016505275 | 2015-02-25 | JP5954608B2 | 2016-07-20 | 阿曽 孝洋 |
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