161 |
Friction stir welding method |
JP14913899 |
1999-05-28 |
JP4334060B2 |
2009-09-16 |
章弘 佐藤; 昌邦 江角; 一成 福寄 |
|
162 |
Controlled cutting end face (cutedge) method and apparatus for separating the product (product) in and thereby separate the product |
JP2008502936 |
2006-03-21 |
JP2008537511A |
2008-09-18 |
レオナルドゥス ユリアン ザイル,ヨハネス; エグモント,ヘンリ ヨーゼフ ファン |
本発明は、レーザー切断によって、共有の(shared)キャリア(carrier)から製品、特に半導体回路を分離する方法に関する。 また、本発明は、この方法に用いる装置に関する。 さらに、本発明は、そのような方法を用いて、レーザービームによって分離された製品、特にキャリア上に載せられた(mounted)半導体に関する。 |
163 |
Method of manufacturing a structural body |
JP2000049098 |
2000-02-25 |
JP3868695B2 |
2007-01-17 |
章弘 佐藤; 昌邦 江角; 一成 福寄 |
|
164 |
Manufacturing methods such as liquefied natural gas for the spherical tank |
JP16650695 |
1995-06-30 |
JP3793592B2 |
2006-07-05 |
ヘイノ カレビ; グスタフソン ユッカ |
|
165 |
Deburring method and apparatus |
JP2000583662 |
1999-10-28 |
JP3721507B2 |
2005-11-30 |
進 大川; 浩二 奥嶋; 浩二 山下; 宏優 林 |
|
166 |
Mechanical conical deburring machine for removing gas cutting burr and cutting bead after thermochemically cutting steel material such as slab, bloom and billet in lateral direction or longitudinal direction |
JP2002209833 |
2002-07-18 |
JP2005305554A |
2005-11-04 |
LOTZ HORST K |
<P>PROBLEM TO BE SOLVED: To inexpensively provide a mechanical conical deburring machine for removing a cutting burr of a slab or billet-like steel material, having high efficiency, inexpensive in maintenance service cost, easy in installation and incorporation, and reducing noise. <P>SOLUTION: One or a plurality of peeling cutters 4 are extendedly arranged at an angle of 0° to 45° in a spiral shape to the axis of a conical body in a truncated cone body 1 horizontally supported at an angle of 45° to 75°, and are constituted so as to be movable by compressed air, a hydraulic mechanism or a coil spring 8 on a shaft 6 for arranging a hub 5 or a segmental spoke of the truncated cone body at 45° to 75°. The rigid shaft is supported by a double bearing 7. <P>COPYRIGHT: (C)2006,JPO&NCIPI |
167 |
Nondestructive inspecting method |
JP2001290668 |
2001-09-25 |
JP2003098161A |
2003-04-03 |
ISHIDA RYOJI; ESUMI MASAKUNI; FUJII TAKESHI; OGATA MASAMI |
PROBLEM TO BE SOLVED: To automate nondestructive inspecting work on a friction stir welded part. SOLUTION: While relatively moving a rotating tool 140 to members 30 and 30 to be joined, performing friction stir welding, and cutting a joint part by a blade 145 of the rotating tool 140 and a rotating brush 220, chips are sucked from a cut surface by a suction opening 225, and a medium liquid is supplied from a supply opening 240. The a roller 250 for inspection is rotated to perform inspection. A probe 251 is installed inside the roller 250. When a defect is detected, a paint is applied to the location of the defect by a marking device 270. On the basis of the marking, the joint is cut, and repaired by welding. |
168 |
Friction stir welding methods and friction stir welding equipment |
JP33793496 |
1996-12-18 |
JP3333411B2 |
2002-10-15 |
圭典 ▲吉▼崎; 良二 石田; 一成 福寄 |
|
169 |
Extruded material joining method |
JP21897098 |
1998-08-03 |
JP3329738B2 |
2002-09-30 |
正樹 熊谷; 直 田中 |
|
170 |
Tool for friction stirring welding |
JP14576099 |
1999-05-26 |
JP2000334578A |
2000-12-05 |
ESUMI MASAKUNI; FUKUYORI KAZUNARI; SATO AKIHIRO |
PROBLEM TO BE SOLVED: To provide a tool having a cutter to remove burrs developed during a friction stirring welding. SOLUTION: A first member 20 and a second member 30 are butted on their welded ends 40, and the upper faces of protruding parts 22 and 23 formed on each member are welded with a tool for friction stirring welding 100. The tool for friction stirring welding 100 has a cylindrically formed main body 110 and a bur cutter 150 which is integrally formed with the peripheral part of the main body 110. By rotating the tool 100, the burrs developed during the friction stirring welding are removed as chips 62. |
171 |
Friction-stir welding method |
JP2000060517 |
2000-03-06 |
JP2000263251A |
2000-09-26 |
SATO AKIHIRO; ESUMI MASAKUNI; ISHIMARU YASUO; OKAMURA HISANOBU; AOTA KINYA |
PROBLEM TO BE SOLVED: To prevent the recess of a joining part from occurring in friction-stir welding by the revolution of a rotary body. SOLUTION: The tip parts of the jointing part of hollow shapes 50, 60 have thick-walled parts 56, 66 projecting on the outside. When butting the two thick- walled parts, they form a trapezoid. By inserting rotary bodies 70, 70 into the thick-walled parts 56, 66 and by rotating them, joining is performed. While positioning the large diameter parts 71 of the rotary bodies 70 on the outside from the prolonged lines of the outside surfaces of the plates 51, 52, 61 and 62 of general parts, the rotary bodies are rotated. Even when there is a gap between the two thick-walled parts, desired joining can be performed. After joining, the thick-walled parts 56, 66 are machined to make them flat. |
172 |
Friction stir welding method |
JP2298898 |
1998-02-04 |
JP3070735B2 |
2000-07-31 |
章弘 佐藤; 久宣 岡村; 昌邦 江角; 靖男 石丸; 欣也 青田 |
|
173 |
Extruding mold jointing method and extruding mold |
JP21897098 |
1998-08-03 |
JP2000052065A |
2000-02-22 |
KUMAGAI MASAKI; TANAKA SUNAO |
PROBLEM TO BE SOLVED: To obtain an extruding mold jointing method wherein the extruding mold is friction bonded while a joint face is pressed to a proper extent.
SOLUTION: Protrusions 16-19 protruding in a thickness direction along joint faces 12, 14 are extrusion formed on both front and back sides of extruding molds 1, 2. At that time, inclined faces 20-23 are extruded to the protrusions 16-19 at the opposite side to the joint faces 12, 14, and both of the joint faces 12, 14 are butted while the inclined faces 20-23 are pressed by rollers 24-27. Probes 28, 30 are inserted between the joint faces 12, 14 and friction bonded. The protrusions 16-19 are cut by a cutting blade moving in a manner to follow up immediately after the probes 28 and 30.
COPYRIGHT: (C)2000,JPO |
174 |
Joining method for metal stock |
JP3782397 |
1997-02-21 |
JPH10230374A |
1998-09-02 |
ENOMOTO MASATOSHI; TAZAKI SEIJI; NISHIKAWA NAOKI; HASHIMOTO TAKENORI |
PROBLEM TO BE SOLVED: To provide a composition original to a metal base stock not containing any heterogeneous constituent in a joined layer and to obtain high joining quality by grinding the surface of the joining part of the metal stock with the grinding member which advances in precedence to the probe of the rotor in frictional agitation joining wherein both metal stocks are mutually joined and integrated while rotating and advancing the probe under the embedded state.
SOLUTION: The probe 3 is embedded into the butting part 10 while rotating a rotor 2A. The grinding members 6A in the lower end of respective rods 5 are abutted to the surfaces of metal plates 1, the inclined angles toward the outside of rods are enlarged against the energized power of a coil spring 7, grinding members 6A are made to execute a circular movement making the probe 3 the center in accordance with the rotation of the rotor 2A under this state, whereby the surfaces of metal plates 1 are ground. When the rotor 2A is advanced along the butting part 10 as an arrow (a), the grinding member 6A making the circular motion is always preceded to grind the surfaces of metal plates 1 in the front side in the advancing direction of the probe 3, whereby an oxide film 11 is removed.
COPYRIGHT: (C)1998,JPO |
175 |
Deburring method of the weld |
JP2793087 |
1987-02-09 |
JPH0692031B2 |
1994-11-16 |
忠義 寺園; 勝 正木; 茂生 深谷 |
|
176 |
JPH0320304B2 - |
JP13185087 |
1987-05-29 |
JPH0320304B2 |
1991-03-19 |
MORIKI YASUMITSU; NUMAKURA HIROTOMO; SAKURAI MASAHIRO |
|
177 |
JPH0242036B2 - |
JP3327384 |
1984-02-22 |
JPH0242036B2 |
1990-09-20 |
|
|
178 |
Method for removing burr of welded zone |
JP2793087 |
1987-02-09 |
JPS63194881A |
1988-08-12 |
FUKAYA SHIGEO; MASAKI MASARU; TERASONO TADAYOSHI |
PURPOSE:To accurately shear and remove annular inner burrs without damaging a pipe material by inserting a blade tool formed to segmental blades into a hole of the pipe material and applying the shearing load to divide the annular inner burrs and afterward, displacing one blade to repeat the shearing. CONSTITUTION:Blade face forming angles alpha (dividing angles alpha') of the segmental blades 20 and 20 are set larger than forming angles beta of sectorial burrs (b), namely, so as to exceed 90 deg. so that the remaining sectorial burrs (b) can be completely sheared and removed at the time of another shearing stage. The blade tool 10 is inserted into the pipe material P and the necessary shearing load is applied to its one end in the arrow direction in the diagram, by which the burrs are sheared and removed. The annular inner burrs B are abutted on the blade tip 12 of the segmental blade 20 and the local shearing stress is caused and further, the burrs B are completely divided at two places on the circumference by continuing the load. Afterward, the blade tool 10 is moved back till the position before the shearing and the pipe material P is displaced by 90 deg. and the remaining sectorial burrs (b) are also sheared by the segmental blade 20 by again applying the shearing load. In this way, the annular inner burrs B which are fragmented into four pieces and separated by the shearing of two times before and after are easily ejected from the pipe end. |
179 |
Pressure welding equipment for small sized rail with split type excess metal punching shear |
JP24688386 |
1986-10-17 |
JPS63101086A |
1988-05-06 |
OISHIBASHI KOJI; OHARA MUNEYUKI; HAGIWARA KENZO; YOSHIDA HISASHI; KITAGAWA KUNIO; SHIMIZU KIMIO |
PURPOSE:To facilitate a pressure welding work by providing the rail pressurizing unit performing a butt pressurizing by clamping the bottom part of the rail to be press-welded and arranging the excess metal punching unit removable therefor as well. CONSTITUTION:A gas pressure welding device is composed of a rail pressurizing unit A and excess metal punching unit B. The end part bottom face of rails R1, R2 to be press-welded is placed on a stationary rail seat 5a and mobile rail seat 5b and the rail end face are horizontally abutted. Each rail R1, R2 is held by a bolt 9 between the rail seats 5a, 5b and clamping plates 8a, 8b, a cylinder 11 is actuated and heating pressure welding is performed by a burner by strongly pressurizing the rail end face. After releasing a key 19, the cylinder 11 is re-worked and the excess metal is removed by the punching blade of an excess metal punching unit B. The device is decomposed in units, so the press-welding work is facilitated and the device is made small sized and light. |
180 |
Connection method for metal strip and its device |
JP12649186 |
1986-05-31 |
JPS62282783A |
1987-12-08 |
UOMORI AKIYOSHI; TAJIRI HIROMI; NAKATANI NOBUMI; DAIZUMOTO MASABUMI |
PURPOSE:To miniaturize a device, remove a bead and make a laser beam welding efficient by equipping a cutting device, laser beam machining head and bead removing device movably independently respectively. CONSTITUTION:The end part of the preceding and succeeding stop 1, 2 is cut by the rotary shears 43, 44 moving in the traverse direction with holding it by clampers 14, 16 respectively. Strips 1, 2 are abutted by moving a mobile platform 18 to a stationary platform 19. The strips 1, 2 are subjected to a laser beam welding by moving a laser beam machining head 39 along the butt part. The welding bead caused therefor is removed by the bit of a bead removing device 36. With completion of the connection of the strips 1, 2 the clampers 14, 16 release the strips 1, 2 and the mobile platform 18 is apart from the stationary platform 9. In case of a flash welding, it is performed by passing a flash current between the clampers 14, 16. |