子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 201 | 棒材の移し変え方法及び搬送装置 | JP2013556436 | 2013-03-27 | JPWO2014155580A1 | 2017-02-16 | 崇宏 清水; 晋哉 遠藤; 高橋 修; 修 高橋 |
| 【課題】ワークとしての棒材の全長が短い場合であっても、その棒材を、その一方の端部から所定の位置決め孔に的確に挿入できる棒材の移し変え方法を提供する。【解決手段】電極チャック22から一次成形ワークW1を受け取るに際して、ロボットハンド62cにおけるチャック装置64A(64B)を用い、一次成形ワークW1の受け取り後であって、一次成形ワークW1をその軸部W11から鍛造プレス本体10における挿入孔12に挿入する前に、チャック装置64A(64B)とは異なるチャック装置65A(65B)をもって、一次成形ワークW1のうち、電極チャック22が保持していた保持部分W11aを把持し、一次成形ワークW1に対するチャック装置64A(64B)の把持を解除する。これにより、一次成形ワークW1の軸部W11側において、電極チャック22が保持していた保持部分W11aを挿入孔12へ挿入できる。 | ||||||
| 202 | 棒材の移し変え方法及び搬送装置 | JP2013556436 | 2013-03-27 | JP5707517B2 | 2015-04-30 | 清水 崇宏; 遠藤 晋哉; 高橋 修 |
| 203 | Automated rapid discharge forming of metallic glasses | JP2013236977 | 2013-11-15 | JP2014111279A | 2014-06-19 | DAVID LEE; WILLIAM L JOHNSON; MARIOS D DEMETRIOU; JOSEPH P SCHRAMM |
| PROBLEM TO BE SOLVED: To provide an automated rapid capacitive discharge apparatus for sequentially or simultaneously rapidly heating and shaping a plurality of metallic glass feedstock samples.SOLUTION: The apparatus includes a sample feeder defining a body for holding a plurality of samples and being capable of sequentially positioning at least one feedstock sample into a discharge position within the processing compartment. In the processing compartment, the sample is heated by a discharge of a quantum of electrical energy supplied via electrodes, then shaped into a desired shape by means of a shaping tool, and subsequently moved out of the discharge position as second feedstock moves into a discharge position. | ||||||
| 204 | Deforming press with device for supplying metal wire | JP2011097999 | 2011-04-26 | JP2011230191A | 2011-11-17 | TRABATTONI ROBERTO; ROCCO PAOLO; ROCCATO FABIO |
| PROBLEM TO BE SOLVED: To provide a device for supplying a metal wire, which is used in a deforming press and has a simple constitution.SOLUTION: The device 1 for supplying the metal wire includes: bottom guide discs 3, 4 and top guide discs 7, 8, on each of which an outer peripheral groove is arranged; wire supplying tubular guides 2; top and bottom shafts by which the bottom guide discs 3, 4 and top guide discs 7, 8, are supported and which are used for driving gears; controllable drive motors 15, 16 to which the bottom shaft is operatively connected; slides 11, 12 which can be slid with respect to a body of the device for supplying the metal wire and by which the top guide discs 7, 8 are supported; and driving cylinder piston units 13, 14 by which the slides are driven vertically and respectively. The metal wire to be supplied is held in the device 1 for supplying the metal wire. | ||||||
| 205 | Forging method and forging apparatus | JP2001230478 | 2001-07-30 | JP2002086245A | 2002-03-26 | STONE PAUL ANDREW; THOMAS RICKEY JAMES; CROSBY STEPHEN R; BIEDERMAN RONALD R; GURE CHARLES P; MCKENZIE TIMOTHY T; ADAMS RICHARD ALAN |
| PROBLEM TO BE SOLVED: To provide a method for forging plural parts from a connected long metallic material, such as a connected linear material. SOLUTION: The connected long metallic material is gradually advanced by a prescribed linear distance so as to advance the metallic material toward the downstream side in the longitudinal direction. Then, a portion of the connected long metallic material at the upstream side of the tip part is forged at each holding time to the fixed position by holding the metallic material. The extension in the longitudinal direction of the connected long metallic material developed at the interval between the respective forging processes, is compensated by permitting what a portion of the connected long metallic material at the upstream side to the fixed position is shifted toward the upstream side in the longitudinal direction. | ||||||
| 206 | JPH0358818B2 - | JP18663183 | 1983-10-04 | JPH0358818B2 | 1991-09-06 | TAKESHITA NAOTAKA; MATSURA TOMYASU |
| 207 | Hetsudaatonosenzaijidosetsutosochi | JP894283 | 1983-01-21 | JPH0233461B2 | 1990-07-27 | MATSURA TOMYASU |
| 208 | Stock feed apparatus and forging machine | JP20226289 | 1989-08-03 | JPH0284227A | 1990-03-26 | HARII EI DOMU; JIYON EI MESUTOROSU |
| PURPOSE: To accurately feed a stock by providing stationary grippers attached to a frame, movable grippers linearly moving between a grip position and a release position, and a cam driving means that opens/closes the movable grippers synchronously with the cycle motion. CONSTITUTION: This apparatus is equipped with a first cam driving body, which moves movable grippers 22 between a grip position and a release position, and a second cam driving body which releases the movable grippers 22 while they are moving from the release position to the grip position. In addition, the apparatus is provided with a third cam driving body which controls in the manner that stationary grippers are released while the movable grippers are moving from the grip position to the release position. These cam driving bodies are so timed as to fully control the position of the stock, with at least one of the grippers closing over the entire time of total cycle and gripping the stock. The two grippers 21, 22 are in contact with the stock over a sufficient length, preventing slippage, so that the quantity of the stock to be fed coincides accurately with the travelling distance of the movable grippers. As a result, workpieces can be accurately controlled without a stock gage. COPYRIGHT: (C)1990,JPO | ||||||
| 209 | JPH0129613B2 - | JP14159482 | 1982-08-14 | JPH0129613B2 | 1989-06-13 | ROOGERU KURIBURETSUTSU; RAIMONDO SHEENENBERUGERU |
| 210 | Automatic wire rod setting device using in header and the like | JP18663183 | 1983-10-04 | JPS6082241A | 1985-05-10 | TAKESHITA NAOTAKA; MATSUURA TOMIYASU |
| PURPOSE:To obtain a titled automatic setting device that can pull out the end remained in a working device such as a header and deliver automatically the tip of a new wire rod from a rotary carrier by constitution of a moving arm, a finger device etc. CONSTITUTION:A new wire rod 79 is set on a right side rotary carrier while a header 2 is operated by a wire rod 79 set to a left side rotary carrier 22. The tip of the wire rod 79 is clamped between the fixed claw 32 and movable claw 33 of a clamp 30 by an air cylinder 32. When the wire rod 79 on the left side rotary carrier 22 is used to the end, feeding operation to the header 2 is stopped by an end detector 70, and the tip of the wire rod 79 is pulled out by a discharging bar 74. Then, a carrier loader 3 is turned 180 deg., and the tip of a new wire rod is clamped by similar operation, and the header 2 is operated automatically continuously. | ||||||
| 211 | Blank material feeder in parts former | JP10696983 | 1983-06-14 | JPS59232637A | 1984-12-27 | NADA SHIYOUJIROU |
| PURPOSE:To make a blank material usable as a row material in place of a wire rod by mounting attachably and detachably a chute for feeding the blank material and a cross feeder of the blank material in place of a forward and backward moving cutter for the wire rod in the part corresponding to the route for said cutter. CONSTITUTION:A wire rod 25 fed from a feed path 8 is cut by moving a cutter 17 toward the left and at the same time the cut material is fed to an ejecting position where the material is ejected by a pusher 12 to a chuck 22 for conveyance and is subjected to several stages of preliminary forming and is made to a blank material 33. An approximately L-shaped chute 26 for supplying the blank material extending to the extruding position through the above-described position for cutting the wire rod is attached to the part corresponding to the forward and backward moving route of the cutter 17. A cross feeder 31 for the blank material is attached by means of a bolt 18 to a moving body 15 which drives the cutter 17. The material 33 is fed from the vertical passage of the chute 26 to the inside of the horizontal passage 27b and the feeder 31 is moved to the left to cross feed the material 33 to the above-described position for ejecting the cut row material. The parts former of an ordinary type is thus made usable as a parts former of a special type as well. | ||||||
| 212 | JPS5935704B2 - | JP13748782 | 1982-08-07 | JPS5935704B2 | 1984-08-30 | TAKESHITA NAOTAKA |
| 213 | JPS5935703B2 - | JP13674482 | 1982-08-04 | JPS5935703B2 | 1984-08-30 | HIRAI SHIMEJI; ITO SHIGEO |
| 214 | Device for setting automatically wire rod to header or the like | JP754483 | 1983-01-20 | JPS59133923A | 1984-08-01 | MATSUURA TOMIYASU |
| PURPOSE:To feed automatically the front end of a fresh wire rod when a wire rod is used to the terminal by forming a titled device in such a way that the front end of the coiled wire rod placed on a rotary carrier is set automatically in a feed section. CONSTITUTION:A wire rod 16 which is wound into a coiled shape is placed on a rotary carrier 15, and the front end of the rod 16 is held in a holder 18 provided to the carrier 15. Said carrier 15 is placed on stage 8 of a main carrier body 1. When the rotary carrier is rotated by a rotating mechanism 10, a mechanism 20 for stopping the carrier in a home position upon sensing with a position sensor controls the mechanism 10 to stop the carrier 15 in the specified position. Then, a mechanism 23 for feeding the wire rod receives the front end of the rod 16 from the holder 18 and feeds the frontend to a feed section 22. | ||||||
| 215 | Wire rod supplying device of header | JP13748782 | 1982-08-07 | JPS5927746A | 1984-02-14 | TAKESHITA NAOTAKA |
| PURPOSE:To execute easily the supply work of a supply end of a new wire rod roll to a header inlet, by installing a supporting device with a holding pipe of a wire rod so as to be movable up and down, to the front of a wire rod roll supply position on a turntable, and also providing a position setting member of the holding pipe. CONSTITUTION:When supply of a wire (b) on a turntable 13 is completed, a loaded object such as a carrier main body 6, etc. is removed from a placing plate 5, and a new main body 6 is loaded. In this case, a guide roll 32 of a wire rod supporting device 30 is fit-installed to guide pillars 26, 26, also the wire rod (b) supplied from a wire rod roll (a) is inserted through in the front and rear of holding pipes 34, 35, and the device 30 is held in a little lower part than the upper end supply position of the roll (a) by tension of the wire rod (b). Therefore, the main body 6 lowers gradually together with the plate 5, the device 30 is made to press-contact with a position setting member 47, and the pipes 34, 35 are held at a position coinciding with a supply position of a header 40. The main body 6 further lowers a little, the supplied wire rod (b) is made almost horizontal, a pair of feed rolls 43 pinch-hold the wire rod (b), and the wire rod is supplied to the header 40 intermittently. | ||||||
| 216 | Wire rod feeding stand of header | JP13015982 | 1982-07-26 | JPS5921443A | 1984-02-03 | TAKESHITA NAOTAKA; TANASE YUKIHIKO |
| PURPOSE:To obtain a titled stand which is capable of making the feed height of a wire rod coincide with a position of a material feed device, by providing a means for detecting gravity operating on a turntable, expressing it in terms of a decrease quantity of the wire rod, and driving and adjusting a position of the turntable, or the like. CONSTITUTION:A coil wire rod (a) is placed on a turntable 30. When a position of the turntable 30 is determined by rotating a driving shaft 32, and a wire rod (b) is supplied into a header (h), a load of the coil (a) is reduced, and an output to an operator from a pressure sensor 15 is varied. When decrease of a load of the coil (a) is detected, a command to a driving motor M is generated, and the turntable 30 rises to height corresponding to height which is equal to a diameter of the wire rod (b). When the driving shaft 32 is rotated in accordance with said rise, the operator detects it, and generates a stop signal of the driving motor M. As a result, the turntable 30 rises intermittently, and a feed position of the wire rod (b) is adjusted so as to be equal to a position between straightener rolls (d), (d). | ||||||
| 217 | Wire rod continuous supplying method of upsetter | JP12528982 | 1982-07-19 | JPS5916649A | 1984-01-27 | SUGIMOTO HISASHI |
| PURPOSE:To operate an upsetter continuously for many hours, by screwing and connecting the start part and the end part of wire rods of two windings or more by a connector, and supplying it. CONSTITUTION:The winding start part of the first wire rod A1 among wire rods of three windings hooked to a hooking rod 6 of a wire rod supply device 3 is pinched by a roll of a material feed device 2 and is fed into an upsetter 1. In this case, the winding end part of the wire rod A1 and the winding start part of the second wire rod A2, and the winding end of the second wire rod A2 and the winding start end of the third wire rod A3 are coupled by a connector 9, respectively, and the wire rods of three windings are connected consecutively. That is to say, the winding end parts of the wire rod A1 and A2 are thread-cut and an external thread 7 of left-hand is formed, respectively, and the winding start parts of the wire rods A2, A3 are thread-cout and an external thread of right-hand is formed, respectively, and they are butted to each other. Also, these butt parts are connected by the connector 9 which forms external threads 11, 12, respectively. In this way, when processing of the wire rod A1 by the upsetter 1 is ended, the wire rod A2 is fed into the upsetter 1 automatically, by which the continuous operation can be maintained. | ||||||
| 218 | Rod cutter | JP5892879 | 1979-05-14 | JPS55150914A | 1980-11-25 | YASUKAWA SHIYOUKICHI; NOGUCHI TAKUJI |
| PURPOSE: To cut rod members which are fed continuously one after one in their longitudinal directions into villets of specified length and to eject effectively billets which have a length shorter than the specified length. CONSTITUTION: When a rod member S1 stops by contacting with a stopper 13, dimension C measured by a measuring head 31 is read in a computer 34, and it calculates the dimension (=B+C) that is the dimension from the end of the rod member to a cutter 14. This dimention , (B+C), is then divided by cutting dimension A in a divider 35, and the number of cuttings is determined by a decision- making unit 36, outputting an ejection command signal G for an end stock to be ejected. By this signal, work clamps are deactivated and at the same time the end stock is pushed out of the line by an end stock ejector. COPYRIGHT: (C)1980,JPO&Japio | ||||||
| 219 | JPS5444254B2 - | JP8390876 | 1976-07-13 | JPS5444254B2 | 1979-12-25 | |
| 220 | TITANIUM ALLOY BOLT MANUFACTURING FACILITY AND METHOD FOR MANUFACTURING TITANIUM ALLOY BOLT USING SAME | EP09852089 | 2009-12-09 | EP2543453A4 | 2017-07-19 | LIM SUNG GEUN; KIM JAE HO; KWON DONG SUK; YEOM JONG TAEK; KIM JEOUNG HAN; HONG JAE KEUN; HYUN YONG TAEK |
| This invention relates to a method and apparatus for manufacturing a titanium alloy bolt through a warm forging process. The apparatus includes a feeding device (100) for supplying raw material (W) which is cut into a fixed length from a titanium alloy rod, a loader (200) for carrying the raw material (W) supplied from the feeding device (100), a heating device (300) for heating the raw material (W), a forging device (400) provided with a forging die (420) which fabricates a forging (F) from the heated raw material (W), a guiding device (500) for conducting the heated raw material (W) into the forging die (420), a heat-treating device for heat-treating the forging (F), a peeling device for removing the oxidized layer on the hear-treated forging (F), a machining device for machining the desired portions of the forging (F) from which the oxidized layer is peeled, a form rolling device for forming a thread on an outer surface of the machined forging (F) in order to obtain the titanium alloy bolt, and a cleaning device for cleaning the entire surface of the titanium alloy bolt. Dimensional accuracy and mechanical properties of the titanium bolt, and productivity are improved by the present invention. | ||||||
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