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 |
|---|---|---|---|---|---|---|
| 41 | Forging method and forging equipment | JP2001230478 | 2001-07-30 | JP3955746B2 | 2007-08-08 | アラン アダムス,リチャード; ピー. グア,チャールズ; リチャード クロスビー,スティーブン; アンドリュー ストーン,ポール; ジェームス トーマス,リッキー; アール. ビエデルマン,ロナルド; ティー マッケンジー,ティモシー |
| 42 | Spade drilling bytes | JP52104296 | 1995-12-18 | JP3315988B2 | 2002-08-19 | アラン アダムス,リチャード; ピー. グア,チャールズ; リチャード クロスビー,スティーブン; アンドリュー ストーン,ポール; ジェームス トーマス,リッキー; アール. ビエデルマン,ロナルド; ティー. マッケンジー,ティモシー |
| 43 | Spade drilling bytes and metal parts molding method and apparatus | JP52104296 | 1995-12-18 | JPH10511896A | 1998-11-17 | アラン アダムス,リチャード; ピー. グア,チャールズ; リチャード クロスビー,スティーブン; アンドリュー ストーン,ポール; ジェームス トーマス,リッキー; アール. ビエデルマン,ロナルド; ティー. マッケンジー,ティモシー |
| (57)【要約】 スペード型穿孔バイト(10)は、中心長手軸心(14)を画定する延長されたシャンク(12)と、シャンク(12)の一端に結合されたブレード部(18)とを有する。 ブレード部(18)は、中心長手軸心(14)から横方向に延長したほぼ平坦の一対の側部セグメント(20)を有する。 本発明は、更に、連続した金属材料(80)から複数の部品(10)を鍛造するための方法及び装置(88)を提供する。 | ||||||
| 44 | JPS5935705B2 - | JP12528982 | 1982-07-19 | JPS5935705B2 | 1984-08-30 | SUGIMOTO HISASHI |
| 45 | JPS5927669B2 - | JP21149981 | 1981-12-29 | JPS5927669B2 | 1984-07-07 | SAKAMURA YOSHIICHI |
| 46 | Wire rod supplying stand of header | JP13674482 | 1982-08-04 | JPS5927745A | 1984-02-14 | HIRAI SHIMEJI; ITOU SHIGEO |
| PURPOSE:To adjust automatically and precisely the height of a supplied wire rod, by controlling by a timer the intermittent driving of a lift-driving device of a turntable being freely rotatable centering around a vertical shaft, on which a winding wire rod supplied in a stand is placed. CONSTITUTION:A wire rod (b) supplied from a layer of the uppermost stage of a coil (a) is supplied into a header (h) intermittently by an intermittent rotation of reforming rolls (d), (d), is cut to fixed size and is roll-formed. Also, when a motor M is driven, a female screw lever 7 is decelerated and rotated. A lifting body 20 is supported so that it cannot be rotated, and a lifting shaft 14 connected to said body cannot rotate, therefore, as the shaft 7 rotates, a male screw 15 of the shaft 14 lifts spirally by being guided by a female screw hole 9, and turntable 30 is lifted. Subsequently, a driving time and stop time of the motor M are set, its time limit is digested and also start and stop signals of the motor M are transmitted by a timer, by which a supply position of the wire rod (b) is corrected equally to a position between the rolls (d), (d). | ||||||
| 47 | Stand for feeding wire rod of header | JP7957582 | 1982-05-12 | JPS58196134A | 1983-11-15 | TANASE YUKIHIKO; TAKESHITA NAOTAKA |
| PURPOSE:To eliminate disorder of height by placing a turn table on which coiled wire rod is placed on a base stand in floating state by elasticity of an elastic body and thereby raising the turn table with consumption of the wire rod. CONSTITUTION:When a wire rod (b) is paid out successively from the uppermost layer of a coil (a) and the height of paying out becomes low, the weight of the coil (a) decreases and compression coil springs 5, 5 expand. Then, rods 3, 3 extend from cylinders 2, 2 are a turntable 19 goes up with a vertically moving body 9 and a rotating body 16. Accordingly, by determining the spring constant and free length at specified values, the turntable 19 goes up by a height corresponding to decrease of the height of paying out of the wire rod, and the wire rod (b) fed to the header C can be maintained horizontal at all times. The same effect can be obtained by holding the turntable in floating state by elasticity of a gas-filled cylinder compressed by the weight of the coil instead of using the compression coil spring. | ||||||
| 48 | Machine for continuously cutting wire material and for cold processing cut piece | JP19448082 | 1982-11-04 | JPS58173048A | 1983-10-11 | ARUBINO KASUCHIRIYOONI |
| 49 | Blank direction changing device in side-face headed parts former | JP21149981 | 1981-12-29 | JPS58116949A | 1983-07-12 | SAKAMURA YOSHIICHI |
| PURPOSE:To secure side-face heading without reference to the length of a blank by direction the blank longitudinally simultaneously with cutting work, and supplying the blank held longitudinally to dies for each stage through a transfer chuck. CONSTITUTION:The blank wire material W fed out of a quill 1 from its tip opening 1a by a feeder is received by a stopper 17. A moving knife 2 cuts the material W to obtain a blank 3 having specific length. A pusher 6 projects to press the blank 3 in a direction changing chuck 7. An elevation driving device 11 lowers a rack 9 and a supporting shaft 8 rotates to turn the chuck 7 by about 90 degrees. The blank 3 clamped by the chuck 7 is changed in direction from horizontal to longitudinal and then clamped by a transfer chuck 12 to be transferred to right before the 1st die 18. Then, the 1st punch 19 moves forth to press the blank 3 in the die, thus completing the 1st prescribed process of heading. | ||||||
| 50 | Method and device for feeding material to hot and semi-cold metal machining machine | JP14159482 | 1982-08-14 | JPS5838632A | 1983-03-07 | ROOGERU KURIBURETSUTSU; RAIMONDO SHIEENENBERUGERU |
| 51 | Wire feeding device for cold forging | JP13383481 | 1981-08-25 | JPS5835038A | 1983-03-01 | SUGIMOTO HISASHI |
| PURPOSE:To obtain the titled device which has excellent response during high- speed feeding while completely inhibiting the slide loss of a wire material, by holding wire materials in holding grooves which are formed in the opposed surfaces of a couple of feed belts made of elastic materials and arranged opposite to each other and have diameters less than wire material diameters. CONSTITUTION:A wire material L is placed on a holding groove 14 having a diameter less than the diameter of the wire material L and formed in a lower feed belt 12L, and an upper field belt 12U is lowered to hold the wire material L. Then, a DC servomotor 7 is put in operation at prescribed timing through a pulse oscillator 8 to transmit the driving force of the motor 7 to input gears G1-G4 through a reduction gear 10 and an internal gear 11. Consequently, feed pulleys P1-P4 are drive to turn. Further, teeth of the feed pulleys engage symmetric cogs of feed belts to drive the belts 12U and 12L securely, and the wire L is fed as shown by an arrow P by prescribed length to be supplied to a cutting mechanism. | ||||||
| 52 | ****** Ka *** ne *********** ne * ni ************* ka *** ni ******* ************ ne *** ni * no ******* ko ** | JP397376 | 1976-01-16 | JPS5196750A | 1976-08-25 | |
| 53 | DUAL FORGING SYSTEM AND METHOD | US15990621 | 2018-05-26 | US20180333767A1 | 2018-11-22 | Lucas Santiago Ribeiro Ferianci; Darci Primon Araujo; Marco Antonio Candido; Joao Benedito Silva |
| An apparatus includes an anvil having a first end and second end, and a press head reciprocally mounted relative to the anvil. The apparatus further includes an induction heater having a workpiece discharge end mounted adjacent the first end of the anvil, and a plurality of first station dies secured to the anvil. The first station dies each form at least a portion of a first contour. A plurality of second station dies are also secured to the anvil, the second station dies each defining at least a portion of a second contour. | ||||||
| 54 | Dual forging system and method | US14750093 | 2015-06-25 | US09981306B2 | 2018-05-29 | Lucas Santiago Ribeiro Ferianci; Darci Primon Araujo; Marco Antonio Candido; Joao Benedito Silva |
| An apparatus includes an anvil having a first end and second end, and a press head reciprocally mounted relative to the anvil. The apparatus further includes an induction heater having a workpiece discharge end mounted adjacent the first end of the anvil, and a plurality of first station dies secured to the anvil. The first station dies each form at least a portion of a first contour. A plurality of second station dies are also secured to the anvil, the second station dies each defining at least a portion of a second contour. | ||||||
| 55 | Billet transfer line clean-out device and method | US14676922 | 2015-04-02 | US09604274B2 | 2017-03-28 | Gary M. Gariglio; Edward P. Potoczak; Brian C. Smith; David J. Wagner; James W. Nankervis; Patrick H. McRee |
| A processing line material clear out devices and methods are disclosed. The device is particularly useful for clearing metal billets from induction heating units, but may be used for many other processes having sequentially ordered materials traveling down a conveyor or other processing line. In one example of the invention, a reciprocating push rod rack is used to sequentially deposit and remove at least two push rods used to abut and clear the downstream billets. A push rod advance device is used to interlink independent, sequential push rods positioned on the billet track. On clearing of the billets, the push rods are retracted, removed from the billet track and stored on the push rod rack for ready use. | ||||||
| 56 | DUAL FORGING SYSTEM AND METHOD | US14750093 | 2015-06-25 | US20160228939A1 | 2016-08-11 | Lucas Santiago Ribeiro Ferianci; Darci Primon Araujo; Marco Antonio Candido; Joao Benedito Silva |
| An apparatus includes an anvil having a first end and second end, and a press head reciprocally mounted relative to the anvil. The apparatus further includes an induction heater having a workpiece discharge end mounted adjacent the first end of the anvil, and a plurality of first station dies secured to the anvil. The first station dies each form at least a portion of a first contour. A plurality of second station dies are also secured to the anvil, the second station dies each defining at least a portion of a second contour. | ||||||
| 57 | BILLET TRANSFER LINE CLEAN-OUT DEVICE AND METHOD | US14676922 | 2015-04-02 | US20160023263A1 | 2016-01-28 | Gary M. Gariglio; Edward P. Potoczak; Brian C. Smith; David J. Wagner; James W. Nankervis; Patrick H. McRee |
| A processing line material clear out devices and methods are disclosed. The device is particularly useful for clearing metal billets from induction heating units, but may be used for many other processes having sequentially ordered materials traveling down a conveyor or other processing line. In one example of the invention, a reciprocating push rod rack is used to sequentially deposit and remove at least two push rods used to abut and clear the downstream billets. A push rod advance device is used to interlink independent, sequential push rods positioned on the billet track. On clearing of the billets, the push rods are retracted, removed from the billet track and stored on the push rod rack for ready use. | ||||||
| 58 | Penetrator and method of manufacturing same | US14322271 | 2014-07-02 | US09199299B2 | 2015-12-01 | David M. Rose; W. Matthew Duffield, Jr.; Edward C. Spanknoble; Michael Ledestich |
| Penetrators and methods of manufacturing penetrators are disclosed. One method of manufacturing a penetrator having arrowhead geometry and base geometry includes the steps: (a) cold heading a piece of material to form a blank; (b) machining the blank to create the arrowhead geometry; and (c) roll forming the blank to create the base geometry. Another method of manufacturing a penetrator having arrowhead geometry and base geometry includes the steps: (a) machining a piece of material to create the arrowhead geometry; and (b) roll forming the piece of material to create the base geometry. Yet another method of manufacturing a penetrator from a blank includes the steps: (a) machining the blank to create a first surface feature of the penetrator; and (b) roll forming the blank to create a second surface feature of the penetrator. | ||||||
| 59 | AUTOMATED RAPID DISCHARGE FORMING OF METALLIC GLASSES | US14081858 | 2013-11-15 | US20140130563A1 | 2014-05-15 | David S. Lee; Marios D. Demetriou; William L. Johnson; Joseph P. Schramm |
| An automated rapid capacitive discharge apparatus is provided for sequentially or simultaneously rapidly heating and shaping a plurality of metallic glass feedstock samples. 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 a second feedstock moves into a discharge position. | ||||||
| 60 | PENETRATOR AND METHOD OF MANUFACTURING SAME | US14044479 | 2013-10-02 | US20140076128A1 | 2014-03-20 | David M. Rose; W. Matthew Duffield, Jr.; Edward C. Spanknoble; Michael Ledestich |
| Penetrators and methods of manufacturing penetrators are disclosed. One method of manufacturing a penetrator having arrowhead geometry and base geometry includes the steps: (a) cold heading a piece of material to form a blank; (b) machining the blank to create the arrowhead geometry; and (c) roll forming the blank to create the base geometry. Another method of manufacturing a penetrator having arrowhead geometry and base geometry includes the steps: (a) machining a piece of material to create the arrowhead geometry; and (b) roll forming the piece of material to create the base geometry. Yet another method of manufacturing a penetrator from a blank includes the steps: (a) machining the blank to create a first surface feature of the penetrator; and (b) roll forming the blank to create a second surface feature of the penetrator. | ||||||
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