| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | One-touch chamfering-amount adjustment device for a chamfering machine | US13265234 | 2011-01-13 | US08961082B2 | 2015-02-24 | Byung-Woo Jeon; Byung-Kwon Jeon |
| The present invention relates to a one-touch chamfering-amount adjustment device for a chamfering machine which specifically carries out a chamfering process on the welding bead surfaces of objects to be processed (such as metal sheet materials and pipes). In the present invention, the moment after a chamfering-amount-adjustment piece has been manipulated so as to rotate, a position-setting pin is inserted into a securing recess in the chamfering-amount-adjustment piece and as this happens the chamfering amount is precisely adjusted in units and at the same time locking to the predetermined chamfering amount is automatically maintained, yet nevertheless the adjustment of the chamfering amount is achieved in a straightforward fashion with one touch, and, when the chamfering-amount-adjustment piece is manipulated, a cutter shaft moves vertically and as it does so the chamfering amount is adjusted in such a way that the chamfering amount can be immediately and rapidly adjusted even during working regardless of any cutter rotating action. | ||||||
| 82 | Severing and beveling tool | US12909296 | 2010-10-21 | US08961077B2 | 2015-02-24 | Jeffrey Swiatowy |
| A tool for both severing the end of a pipe and beveling the cut end includes a spiral cutting mill having an elongate end received in the bore of a frustoconical shell cutter. The shell cutter is locked for rotation with the cutting mill such that a single tool has two cutting surfaces, one for severing a length of pipe and one for beveling the outer edge thereof. | ||||||
| 83 | BEVELING / CHAMFERING TOOL - ROUTER HEAD FOR METAL | US14302021 | 2014-06-11 | US20140363251A1 | 2014-12-11 | Thomas M. Dieckilman |
| The present invention provides a beveling tool including: a body with a shaft hole formed through the center; a plurality of cutter blades arranged at predetermined distances on the circumferential surface of the body, each having a radial primary blade with a radial primary relief angle ranging from about 10 to about 20 degrees and a radial secondary blade with a radial secondary relief angle ranging from about 25 to about 35 degrees (or about 35 to about 45 degrees); discharge grooves formed longitudinally between the cutter blades to discharge chips produced in beveling; and a shank inserted in the shaft hole of the body, in which the body and the shank are connected by brazing. With the beveling tool of the present invention, it is possible to smoothly discharge chips produced in beveling and to prevent damage to the cutter blades. | ||||||
| 84 | MILLING METHOD FOR MACHINING METALLIC MEMBER | US14070736 | 2013-11-04 | US20140169901A1 | 2014-06-19 | MING-LU YANG; TIAN-EN ZHANG; WEI-CHUAN ZHANG; JIAN-SHI JIA; YANG-MAO PENG; JIAN QU; FENG-HUA CHEN; ZHEN-GUANG XU; JING-SHUANG SUI; DA-QING ZHUANG; JIE LI; YI LIU; JIAN-MIN YU |
| A milling method for machining a metallic member to provide a finished appearance is provided. A metallic member is positioned on a worktable. The metallic member includes a top portion and a peripheral sidewall. The peripheral sidewall includes an end edge. After rotation, the milling cutter is rotated and resists the peripheral sidewall of the metallic member. The milling cutter is moved along a predetermined path, and the milling cutter machines the metallic member to achieve a required shape and finish. The worktable rotates the metallic member to enable the end edge of the peripheral sidewall to face the milling cutter, and the milling cutter chamfers the end edge along a predetermined path, while simultaneously controlling a feed of the milling cutter relative to the metallic member. | ||||||
| 85 | COMPONENTS OF AN ELECTRONIC DEVICE AND METHODS FOR THEIR ASSEMBLY | US13610782 | 2012-09-11 | US20130321237A1 | 2013-12-05 | Charles B. Woodhull; David A. Pakula; Tang Y. Tan; Douglas Joseph Weber; Christopher D. Prest; Dale N. Memering; Bryan P. Kiple |
| Various components of an electronic device housing and methods for their assembly are disclosed. The housing can be formed by assembling and connecting two or more different sections together. The sections of the housing may be coupled together using one or more coupling members. The coupling members may be formed using a two-shot molding process in which the first shot forms a structural portion of the coupling members, and the second shot forms cosmetic portions of the coupling members. | ||||||
| 86 | METHOD OF REMOVING END-SURFACE BURR OF FORMED GROOVE AND FORMED ROTARY CUTTING TOOL FOR CHAMFERING | US13990471 | 2010-12-02 | US20130251472A1 | 2013-09-26 | Kosuke Mori |
| A method of removing an end-surface burr of a formed groove cut into a workpiece by rotationally driving around an axial center and moving a formed rotary cutting tool relative to the workpiece in a direction orthogonal to the axial center, by using a formed rotary cutting tool for chamfering acquired by deforming a radial shape of the formed rotary cutting tool used in cutting of the formed groove according to a predefined chamfer angle, and by rotationally driving around an axial center and moving the formed rotary cutting tool for chamfering relative to an end surface of the formed groove in a direction perpendicular to the axial center along an axial center movement locus forming the chamfer angle relative to an axial center movement locus of the formed rotary cutting tool in the cutting of the formed groove, chamfering for removing a burr on the end surface is performed. | ||||||
| 87 | IDENTIFICATION TAGS AND INSTALLATION TECHNIQUES | US13225242 | 2011-09-02 | US20130057387A1 | 2013-03-07 | Ian Rex Binmore |
| Various identification tags are disclosed. In one embodiment, a system includes a coupling with an extended skirt having an opening to receive an identification tag. The identification tag may be configured to be snapped into the opening, slid into the opening, or threaded into the opening, for example. The identification tag, such as an RFID tag, may include an electronics module to enable wireless communication with a reader. The electronics module may be received within a body to facilitate installation and retention of the tag and increase durability. The disclosed tags may also be installed in other components. Various other tags, systems, devices, and methods pertaining to identification tags are also disclosed. | ||||||
| 88 | Cutting Tool with a Replaceable Blade Edge | US13480183 | 2012-05-24 | US20120230790A1 | 2012-09-13 | Kazuyuki Uno; Naoto Nishiya |
| As viewed from a side opposing a bottom face (6) of an insert attachment seat, an angle (α) between first and second restraint wall faces (7a) and (7b) rising from the bottom face (6) is smaller than an angle (β) between two peripheral faces of a cutting insert contacting them respectively. A first peripheral face of the cutting insert contacts the first restraint wall face (7a) in a substantially parallel posture with the extending direction of the first restraint wall face (7a), while the second peripheral face contacts the second restraint wall face (7b) in an end portion of the second restraint wall face (7b). | ||||||
| 89 | Simultaneous pipe cutting and chamfering device | US12493694 | 2009-06-29 | US07775752B2 | 2010-08-17 | Philip Karow |
| A mobile device for simultaneously cutting and chamfering a pipe is provided having a frame, at least one pipe collet-clamp attached to the frame and defining a principal axis, a split carriage rotatably mounted with respect to the frame about the axis and adjacent to the clamp(s), a router affixed to the split carriage and having a cutting-chamfering bit, and a drive motor for rotating the carriage. The router orbits around the pipe and simultaneously cuts it into two chamfered pipes. A method is also provided for cutting through a pipe and chamfering the cut ends thereof. | ||||||
| 90 | DUCTILE IRON BEVELING TOOL | US11769552 | 2007-06-27 | US20080005907A1 | 2008-01-10 | Douglas Scheffer |
| A tool bevel member for ductile iron which is adapted to perform a cutting operation and also a beveling operation on a ductile metallic pipe such as a ductile iron pipe. There is a rotary power saw which has rotary drive member to which a saw blade can be mounted. The bevel section can be removably connected to the drive member of the power saw. | ||||||
| 91 | Two edge deburring tool | US11457268 | 2006-07-13 | US07278806B1 | 2007-10-09 | Stephen D. Clayton |
| A rotating tool for simultaneously deburring two surfaces of a workpiece is disclosed including a rotatable shaft having a first end and a second end with a first deburr surface on the first end facing towards the second end and having a first angle. A second deburr surface is formed between the first end and the second end facing towards the first end and having a second angle. The distance between a first mid-point of the first deburr surface and a second mid-point of the second deburr surface is substantially equal to a width of the workpiece. | ||||||
| 92 | Chamfering tool | US10527491 | 2004-08-20 | US20070122245A1 | 2007-05-31 | Osamu Yanagimoto |
| A circular truncated cone-shaped cutting section (3) of a chamfering tool (1) having a first blade section (31) which is tilted so that a chip is discharged to a side of a shank section (2), and a second blade section (32) which is tilted so that the chirp is discharged to a direction opposite to the side of the shank section (2) in a peripheral direction with a gap. The chamfering tool (1) is rotated, and the first blade section (31) and the second blade section (32) are alternately brought into contact with an edge of an object to be worked so that the edge is chamfered. As a result, occurrence of a secondary burr on the edge is suppressed. | ||||||
| 93 | Card edge chamfering system | US09604204 | 2000-06-27 | US06443041B1 | 2002-09-03 | Donato Pirovano; Luigi Penati; Paolo Zogno |
| A milling system to be used in the manufacturing of electronic card for chamfering the edge of a card (e.g. a SIMM card) to facilitate its insertion in a socket on a board. According to a preferred embodiment of the present invention, the card to be chamfered (e.g. a SIMM card) is linearly moved within a milling system including two motor mills. The two mills are inclined with respect to each other forming an angle of about 90°. The card passes through the apex of this angle. The mills are mounted on a bracket system having a guide which guarantees the correct positioning of the milling system with respect to the card edge. | ||||||
| 94 | Edge milling cutter with cutter inserts | US08773730 | 1996-12-21 | US06217262B1 | 2001-04-17 | Galen Ross Wright |
| This invention relates to a high speed milling tool for deburring or edge radiusing of machine parts. This tool comprises a plurality of cutter inserts having corresponding edges whereby each edge mills only a portion of the machine part radius. This requires a full revolution of the tool producing a faceted approximation of the cut radius to make a complete cut. The tool offers significant improvement in part feedrate in high speed milling applications requiring either a longer tool reach or set length or parts having taller or thinner edges without effects of deflection or chatter between the part and tool. | ||||||
| 95 | Cutting insert and tool | US73416 | 1998-05-06 | US6071045A | 2000-06-06 | Daniel Janness |
| A cutting insert (20) having a geometrical configuration comprising first and second oppositely facing, parallel faces interconnected by a V-shaped bottom (26) and side (28) and top (30) walls perpendicular to the faces with the side walls (28) being parallel to one another. The cutting insert (20) has first (32) and second (34) flutes disposed on opposite sides of a center axis with the first flute (32) extending in an arc from the top wall (30) to one of the side walls (28) and the second flute (34) extending in an arc from the top wall (30) to the other of the side walls (28). The first flute (32) presents a flute surface extending in the arc and is disposed at an angle sloping downwardly from the first face (22) to the second face (24) along the entire arc thereof to define intersections with the top wall (30) and one of the side walls (28) respectively which are disposed at an angle other than 90.degree. relative to the faces. The second flute (34) similarly presents a flute surface extending in the arc and is disposed at an angle sloping downwardly from the second face (24) to the first face (22) along the entire arc thereof to define intersections with the top wall (30) and the other side wall (28) respectively which are disposed at an angle other than 90.degree. relative to the faces. Each of the flute surfaces slopes downwardly at a greater angle at the center of the arc thereof than at the ends of the arc thereof. | ||||||
| 96 | Corner rounding milling and insert therefor | US265526 | 1999-03-08 | US06053673A | 2000-04-25 | Steven M. Swift; Larry R. Swift; Moses H. Sahagian |
| An improved corner-rounding milling cutter preformed indexable and insert therefor. A plurality of the inserts staggered around the axis of rotation of the cutter body cut segments of a composite arcuate cutting profile of uniform radius, together forming the complete arcuate cutting profile. The inserts are interchangeable between any of the positions provided on the milling cutter. | ||||||
| 97 | Profiling method | US72753 | 1993-06-07 | US6048142A | 2000-04-11 | Takeshi Hashimoto; Hiroyuki Fukuhara; Akiyasu Yonekawa; Yoshimi Yotutani |
| In a profiling method, a shank section of a rotary tool which has a cutter and a rotatable journal bearing provided at a tip of a cutter, is chucked, and a spindle for driving the tool is resiliently supported in such a way as to be movable perpendicularly to the tool axis, the rotatable journal bearing being pressed against a surface of a workpiece to perform machining thereon by using the surface as a reference. | ||||||
| 98 | Rotary cutter head | US503381 | 1995-07-17 | US5647699A | 1997-07-15 | Russ Martin; Ray Martin; Mike McMahon |
| A rotary cutter head includes integral clamping members for releasably securing cutting blades in recesses formed in the cutter head. Each clamping member is formed with a free end portion which defines one side of the recess. An end of the clamping member located oppositely of the free end portion is integrally connected to the cutter head and defines a resilient hinge portion. The free end portion is resiliently biased by the integral hinge portion to a position which allows the blade to be slidably received in the recess. Threaded fasteners are operable to cause the free end portion to pivot about the hinge portion and to drive the free end portion toward an oppositely located side of the recess so as to clamp the blade in the recess. | ||||||
| 99 | 使い捨て式カッティングツール | JP2018077049 | 2018-04-12 | JP2018187757A | 2018-11-29 | 張 新添 |
| 【課題】 使い捨て式カッティングツールを提供する。 【解決手段】 使い捨て式カッティングツールはアーバー10及び使い捨て式カッティングヘッド20を有する。アーバー10の一端には位置決め栓11を設置し、位置決め栓11の片側にはブレーキブロック12を設置し、ブレーキブロック12の両側には円弧凹溝121を設置する。位置決め栓11の中心位置にはネジ孔13を設置し、使い捨て式カッティングヘッド20の中心位置には位置決め孔22、貫通した穿孔を設置する。位置決め孔22には位置決め栓11を嵌めて入れ、使い捨て式カッティングヘッド20の位置決め孔22の片側には欠口を設置する。欠口にはブレーキ溝24を形成し、ブレーキ溝の両側には円弧状の凸ほぞ241を設置する。穿孔にはボルト30を螺合し、使い捨て式カッティングヘッド20をアーバー10に固定する。 【選択図】図1 |
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| 100 | 制御装置及び工作機械 | JP2018055159 | 2018-03-22 | JP2018134731A | 2018-08-30 | 高橋 光 |
| 【課題】ワークに形成されたクロス穴の開口縁部の面取加工を、円錐状の切削刃部を有する円錐工具を回転させながら行う面取加工方法を提供する。 【解決手段】円錐工具1のクロス穴2−1に対する加工点に接する仮想平面で切削刃部11−1、11−2を切断した際に生じる円錐曲線と、クロス穴2−1の開口縁部形状とに基づき、円錐工具1の高さおよび回転軸の位置のうちの少なくとも1つを制御して、クロス穴2−1の開口縁部に同一幅の面が形成されるよう面取加工をする。 【選択図】図1 |
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