序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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61 | Method for manufacturing pamphlet with arbitrary paper size and thickness by wire-comb binding | JP2001364928 | 2001-11-29 | JP2002200875A | 2002-07-16 | BLATTNER THOMAS; FREUND MICHAEL; HERRMANN KLAUS; HIRSCH ALEXANDER; LITSCHE MARIO; REIBL BERND; RIEGER ALBERT; SAUM HERBERT; STEHLE KURT; WUERSCHUM HANS-PETER |
PROBLEM TO BE SOLVED: To provide a method for allowing to directly manufacturing wire binding elements during a binding process in response to the respective paper size and thickness of a pamphlet to bind and the requirements of the wire binding elements by improving a method for accepting the wire binding element through a hole train 12 provided along the edge part of sheet-like materials to be printed 11 in order to loosely bind the pamphlet consisting of a plurality of sheet-like materials to be printed in a method for producing the pamphlet with the arbitrary paper side and thickness by a wire-comb binding. SOLUTION: At least one wire binding element 41 harmonized with the respective paper size and thickness of the pamphlet is produced just before a binding process, when necessary. COPYRIGHT: (C)2002,JPO | ||||||
62 | Clip and its manufacture | JP28171798 | 1998-10-02 | JPH11190313A | 1999-07-13 | ROOM DAVID; GRASZER MATTHEW; LACKLER PAUL |
PROBLEM TO BE SOLVED: To surely receive a cord to a clip at a low cost by providing a circular crown part and a suspended leg part on a body made of metallic material, and providing a projection for receiving an elastic cord on the slot opening side surface of the former. SOLUTION: This clip 12 has a U-shaped metallic body 18, which is provided with a circular crown part 20 and leg parts 22, 23 suspended from both ends thereof. The leg part 22 has a forked structure having a pair of leg projections 26. When a slot is provided on the crown part 20 since the clip 12 forms a parallel assembly, and a cord 14 of elastic plastic material is inserted thereto, the cord 14 is pressed to the side walls 48, 50 and frictionally engaged therewith. A pair of projections 58, 60 are provided on the side walls 48, 50 to prevent the cord 14 from being separated from the clip body 18. According to the above structure, the assembly can be provided at a low cost through each station of slot punching, material cutting, clip formation, and cord insertion. | ||||||
63 | Method of manufacturing an aneurysm clip | JP51171495 | 1992-12-18 | JPH09506793A | 1997-07-08 | ジェイ. シュミット,フェレンク; マーガン,ピー.ケビン |
(57)【要約】 コイルスプリング(22)、第1鉗搾あごで終わる第1アーム(26)、および第2鉗搾あごで終わる第2アーム(34)を有する、動脈瘤クリップ(10)の製造プロセス。 本発明の方法は、以下を包含する:(a)チタンまたはチタン合金の円筒状開始ロッド(1)を提供する工程;(b)ロッドを冷間引抜してその直径を減少させ、そしてその強度を増加させる工程;(c)ロッドを切断して、単一の弾性部材(12)を形成する工程;(d)部材をマンドレルの周りに巻き付けて、コイルスプリングを形成し、そのときに、アームのたわみをクリップの鉗搾力に組み込む工程;(e)鉗搾あごを形成する2つの末端セクション(16)、およびあごのための接続要素を形成する2つの接続セクション(18)に部材を成形する工程;(f)約900°Fと約1000°Fとの間の温度で、部材の2つの末端セクションを圧印する工程;および(g)組織(70)を締める際に鉗搾あごが平行であることを確実にする位置に、鉗搾あごを曲げる工程を包含する。 | ||||||
64 | Device for manufacturing pectinate wire binding material forpaper product and printing | JP2968084 | 1984-02-21 | JPS59158290A | 1984-09-07 | FURITSUTSU UITSUTE |
65 | Device for winding wire spiral | JP18129181 | 1981-11-13 | JPS57107369A | 1982-07-03 | PAURU FUABURITSUHI |
66 | Coil winding manufacturing device | JP11102179 | 1979-08-30 | JPS5533898A | 1980-03-10 | GUIDO NEGURO |
67 | VORRICHTUNG UND VERFAHREN ZUM HERSTELLEN VON AUS DRAHTABSCHNITTEN GEBOGENEN KLAMMERN | EP14706783.9 | 2014-02-21 | EP2969295B1 | 2017-03-29 | ALBRECHT, Christoph; GOLDMANN, Philipp |
68 | ANEURYSM TREATMENT COILS | EP13703660.4 | 2013-01-18 | EP2804543B1 | 2016-11-30 | DIVINO, Vince; RHEE, Richard; KUSLEIKA, Richard |
Systems and devices for endovascular treatment of intracranial aneurysms are described. Various configurations of coiled implants may be used as stenting devices or aneurysm coils. The implants include one or more filaments wound about a longitudinal axis to form a generally tubular shape. Lateral flexibility of the implants may be manipulated by, for example, adjusting a pitch between adjacent filaments, using different materials for the filaments, employing different filament cross-sectional shapes, grouping filaments into pluralities of varying flexibilities, and nesting inner coils within outer coils. | ||||||
69 | VORRICHTUNG UND VERFAHREN ZUM HERSTELLEN VON AUS DRAHTABSCHNITTEN GEBOGENEN KLAMMERN | EP14706783.9 | 2014-02-21 | EP2969295A1 | 2016-01-20 | ALBRECHT, Christoph; GOLDMANN, Philipp |
The invention relates to a device (1) for producing clamps (3) bent from wire sections (2), in particular surgical clamps, having a bending device (22) for bending a wire section (2), having a feed device (4) for a wire (5) having a cutting device (6) for separating a wire section (2) from the fed wire (5). The cutting device (6) has two cutting stamps (11) for cutting the wire (5). A holding device (14) is provided for gripping and holding the wire section (2) between the two cutting stamps (11) before separating the wire section (2) and for positioning the separated wire section (2) on a bending device (22) and for feeding the wire section (2) bent into the clamp to a device (33) for inserting the clamp (3) into a cartridge (34) or a clamp storage (35). | ||||||
70 | ANEURYSM TREATMENT COILS | EP13703660.4 | 2013-01-18 | EP2804543A2 | 2014-11-26 | DIVINO, Vince; RHEE, Richard; KUSLEIKA, Richard |
Systems and devices for endovascular treatment of intracranial aneurysms are described. Various configurations of coiled implants may be used as stenting devices or aneurysm coils. The implants include one or more filaments wound about a longitudinal axis to form a generally tubular shape. Lateral flexibility of the implants may be manipulated by, for example, adjusting a pitch between adjacent filaments, using different materials for the filaments, employing different filament cross-sectional shapes, grouping filaments into pluralities of varying flexibilities, and nesting inner coils within outer coils. | ||||||
71 | STEEL WIRE FOR BOLT, BOLT, AND MANUFACTURING PROCESSES THEREFOR | EP12837933.6 | 2012-10-01 | EP2765213A1 | 2014-08-13 | CHIBA, Masamichi; MATSUMOTO, Yousuke; SUGITA, Ichiro; TANIMOTO, Masaru |
A steel wire for high-strength bolts is used for a non heat-treatment bolt with an excellent cold forgeability for which quenching and tempering steps have been omitted after bolt formation, and which has a tensile strength of 1200 MPa or more and an excellent delayed fracture resistance. The steel wire includes C, Si, Mn, P, S, Cr, Al, N, and B, at least one selected from the group consisting of Ti, V, and Nb with the balance consisting of iron and inevitable impurities. The steel wire has a microstructure wherein ferrite and perlite have a total area rate of 98% or more, perlite lamellar spacing is 250 nm or less, and an area rate of the perlite is more than 40%, and 80% or less. The steel wire has a tensile strength of 1300 MPa or less. |
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72 | Vorrichtung zum schleifenförmigen Biegen eines fortlaufenden Drahtes | EP09006671.3 | 2009-05-18 | EP2127776B1 | 2011-01-19 | Heinz, Wilhelm |
73 | PAPER SHEET HANDLING DEVICE AND COIL FORMING DEVICE | EP08720749.4 | 2008-02-19 | EP2116388A1 | 2009-11-11 | YOSHIE, Toru; KISHI, Kazuhiko |
A paper-sheet-handling apparatus 100, as shown in |
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74 | Helical connector | EP06015877.1 | 2001-08-10 | EP1710372B1 | 2009-04-22 | Ollis, William Henry |
75 | COLD HEAD STAMPED FASTENER INSERTS INCLUDING SELECTIVELY REMOVABLE TANGS | EP02719304.4 | 2002-03-22 | EP1372882B1 | 2009-02-18 | GIANNAKAKOS, William; CARVALHO, John, F.; ZITNAY, Roger; FERREIRA, J., Peter |
The present invention provides for fastener inserts and methods of manufacturing the same. The fastener inserts include selectively removable tangs (18) which can be broken away more cleanly than with other commercially available fastener inserts. Further, the methods of manufacture offer a significant improvement in the production process. | ||||||
76 | STEEL WIRE WITH THICK POLYMER COATING | EP06793177.4 | 2006-09-04 | EP1954422A1 | 2008-08-13 | LEPLAE, Alain; POELMAN, Peter; GROB, André |
A steel wire (10) provided with a coating (14) of an extrudable polymer has a diameter of the steel core (12) which is at least 0,2 mm and a thickness of the coating is at least 50 % of the steel core diameter. The steel wire combines the elasticity of a pure polymer wire without having its drawbacks such as the slow method of manufacturing. | ||||||
77 | Vorrichtung zum schleifenförmigen Biegen eines fortlaufenden Drahtes | EP07006476.1 | 2007-03-29 | EP1842606A1 | 2007-10-10 | Reusch, Hartmut |
Beschrieben wird eine Vorrichtung zum schleifenförmigen Biegen eines fortlaufenden Drahtes (10) zu einem Drahtkamm mit schleifenförmigen Abschnitten aus im wesentlichen haarnadelförmig gebogenen und nebeneinander liegenden Zinken und mit die schleifenförmigen Abschnitte verbindenden, in Längsrichtung des Drahtkammes verlaufenden und hintereinander angeordneten Drahtabschnitten, mit zwei voneinander beabstandeten und synchron zueinander bewegten Stiftträgern (2, 4), die jeweils eine Reihe von in Bewegungsrichtung hintereinander liegenden Stiften (6, 8) tragen, wobei die Stiftreihen im wesentlichen dieselbe Teilung haben, jedoch die Stifte (6, 8) der beiden Stiftreihen in Bewegungsrichtung der Stiftträger (2, 4) gegeneinander versetzt sind, mit einem drehbar gelagerten Schlingenzieher (12) zum schleifenförmigen Legen des Drahtes (10) nacheinander abwechselnd um einen Stift (6) der einen Stiftreihe und einen Stift (8) der anderen Stiftreihe und mit einer ersten Antriebseinrichtung zum drehbaren Antrieb des Schlingenziehers (12). Das Besondere der Erfindung besteht darin, dass die erste Antriebseinrichtung ein Planetengetriebe (32) mit einem im wesentlichen konstant angetriebenen ersten Rad (44), mindestens einem mit dem ersten Rad (44) in Eingriff befindlichen und auf einem Planetenradträger (50) als Planetenrad drehbar gelagerten zweiten Rad (48) und einem koaxial zum ersten Rad (44) drehbar gelagerten, mit dem mindestens einen zweiten Rad (48) in Eingriff befindlichen und den Schlingenzieher (12) drehbar antreibenden dritten Rad (52), wobei der Planetenradträger (50) um eine koaxial zum ersten und dritten Rad (44, 52) angeordnete Drehachse (53) drehbar gelagert ist, und einen Antrieb (30) zum reziproken Verschwenken des Planetenradträgers (50) aufweist. |
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78 | Vorrichtung zum flexiblen Herstellen von Drahtbindeelementen für das Binden von Broschüren beliebiger Formate und Dicken mittels Drahtkammbindung | EP01122587.7 | 2001-09-26 | EP1211097B1 | 2007-01-03 | Litsche, Mario |
79 | METHOD OF MANUFACTURING CONNECTING DEVICES | EP01955457.5 | 2001-08-10 | EP1307303A1 | 2003-05-07 | Ollis, William Henry |
The invention relates to a method of manufacturing a connecting device having common axial core material and a plurality of helical fins, flanges or ridges that extend outwards from the core. The method uses an elongate preform member, and comprises forcing the preform member in the axial direction of its core through a helical deformation arrangement (22) in order to deform the preform member helically. | ||||||
80 | Vorrichtung zum flexiblen Herstellen von Drahtbindeelementen für das Binden von Broschüren beliebiger Formate und Dicken mittels Drahtkammbindung | EP01122587.7 | 2001-09-26 | EP1211097A3 | 2003-01-29 | Litsche, Mario |
Die Erfindung betrifft eine Vorrichtung zum Herstellen von Drahtbindeelementen (41, 41', 41") zum Binden von Broschüren unterschiedlicher Formate und Dicken mittels Drahtkammbindung, wobei die Drahtbindeelemente (41, 41', 41") direkt vor dem Binden entsprechend ihres Bedarfs und des jeweiligen gewählten Formats und Dicke der zu bindenden Broschüre hergestellt werden können. Es ist eine vollautomatische Herstellung von Drahtbindeelementen (41, 41', 41") für das Binden von Broschüren mit beliebiger Schlaufenlänge (L), Schlaufenabstand (A) und vorzugsweise Drahtdurchmesser (D), sowie in einer Schlaufenanzahl (N) möglich, die bis zu der maximal zu verarbeitenden Broschürenlänge entsprechen kann. Eine Umrüstung oder Anpassung der Vorrichtung zum Herstellen der Drahtbindeelemente (41, 41', 41") ist nicht erforderlich. |