| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 钢丝绕扣成型装置 | CN201510795708.5 | 2015-11-18 | CN105478623A | 2016-04-13 | 沈光生 |
| 本发明提供一种钢丝绕扣成型装置,包括底座、夹紧机构、推丝机构、换位机构、滚圆机构以及折弯机构,其中所述夹紧机构包括夹紧组件以及夹紧油缸,所述推丝机构包括推丝底板、推丝气缸、推头以及U型槽,所述换位机构包括滚圆小车、换位气缸以及滑轨,所述滚圆机构包括滚圆机本体,所述滚圆机本体设有空心轴,所述空心轴内设有滑动柱,所述滚圆机本体的上表面设有滚圆转盘,所述滚圆转盘的一侧设有滚圆轴承,所述折弯机构包括折弯固定结构以及折弯冲压结构。本发明钢丝绕扣成型装置,具有结构简单,操作方便,钢丝绕扣成型质量好,生产效率高的优点。 | ||||||
| 2 | 一种双钩箍筋自动成型机 | CN201410702915.7 | 2014-11-29 | CN104438512A | 2015-03-25 | 周光辉; 孙亚宾; 李向锋 |
| 一种双钩箍筋自动成型机,包括机架、设置在机架上驱动装置以及由驱动装置驱动的下料装置、弯折装置、推料装置和弯钩装置,在机架上位于弯钩装置的下方设有一个接料箱,下料装置的末端与弯折装置的工位槽对接,自下料装置运送至该工位槽中的长条形钢筋被弯折装置向下冲压为U型结构,该U型结构钢筋再由推料装置从弯折装置的工位槽推落至弯钩装置的工位槽内,弯钩装置将U型结构钢筋的两端弯折成钩状结构后,钢筋自动掉落至接料箱内,完成对钢筋的自动双钩箍筋作业。本发明提供了一种双钩箍筋自动成型机,通过冲压剪切力可一次性完成长条形钢筋到最终弯钩产品的多道加工工序,工序简单,自动化程度高,弯钩效果好。提高了生产效率。 | ||||||
| 3 | JPH0329493B2 - | JP11483683 | 1983-06-24 | JPH0329493B2 | 1991-04-24 | |
| 4 | JPS5038669A - | JP7550174 | 1974-07-03 | JPS5038669A | 1975-04-10 | |
| 5 | Method and apparatus for forming eyelet to sensing loop of intraoccullar lens | JP12658784 | 1984-06-21 | JPS6014853A | 1985-01-25 | IBAN GANDAASON |
| 6 | Automatic bender | JP2637983 | 1983-02-21 | JPS59153536A | 1984-09-01 | SUGITA GIICHI; HIRAYAMA NORIO; SOUMA HIDEO |
| PURPOSE:To provide a bender which automates a series of stages and to makes mass production of bent wires having uniform quality in bending of a metallic wire by combining mechanisms for conveying the wire to a bending base, positioning, pressing, roll bending under heating, taking out, etc. in bending the wire. CONSTITUTION:A wire 4 for a filament cut preliminarily to a specified length is conveyed by a vibrator feeder 11 and a rectilinear feeder 12, is placed on a bending base 14 by a loader 13 and is placed in the position where the wire contacts with a stopper 151. A pressing plate 161 of a pressing mechanism 16 is turned to press the wire 4 by a leaf spring 162. The wire 4 heated by a heater 142 is bent by a bending mechanism 17 when the bending means 171 of said mechanism turns. The bent part is pressed by a finishing hammer 18 and is formed into a prescribed bent shape. As the plate 161 turns, the bent wire is dropped and housed into a container. All these mechanisms are electrically controlled as a series of automate stages. The mass production of the bent wires having uniform quality is thus made possible. | ||||||
| 7 | JPH0429390B2 - | JP12658784 | 1984-06-21 | JPH0429390B2 | 1992-05-18 | |
| 8 | Bending tool for wire-shaped body | JP11483683 | 1983-06-24 | JPS606232A | 1985-01-12 | ONISHI YASUHIDE |
| PURPOSE:To improve workability and to bend a wire-shaped body to a semicircular shape with high accuracy by constituting a bending tool of a pair of specific bar-shaped operating members having the same constitution. CONSTITUTION:The operator inserts both ends of a wire-shaped body 4 into guiding holes 17, 22, holds operating parts 10, 11 with both hands and bends said parts until the parts are paralleled. The body 4 is bent to an arc shape within one plane running the axial line of the members 10, 11. The circular edges 12a, 18a at the ends 12, 18 of the members 10, 11 are in contact with each other in this stage. When the members 10, 11 are further displaced in the approaching direction as shown by reference codes 24, 25, the ends 14a, 20a of operating parts 14, 20 are displaced around the end edges 12b, 18b at the ends 12, 18 of the members 10, 11 until the ends 14a, 20a come into contact with each other. The bent arc shape of the body 4 is thus prevented from restoring the original shape and the exact semicircular shape is formed by plastic deformation. | ||||||
| 9 | WIRE FORMING MACHINE | EP18179890.1 | 2018-06-26 | EP3421152A1 | 2019-01-02 | NOJIMA, Takashi; TADA, Shingo |
A wire forming machine (10) forms or cuts, with a plurality of tools (80, 81, 87), a wire (99) fed in a wire feeding direction (HI), and includes a supporting base (28), a main tool holder (40) rotatably supported by the supporting base (28) about a main rotation axis (J3) perpendicular to the wire feeding direction (HI), the main tool holder (40) holding one of the plurality of tools (80), a first control drive source (40M) configured to control a position of the main tool holder (40) at an arbitrary rotation position; a holder supporting table (31) rotatably supported by the supporting base (28) about the main rotation axis (J3), a second control drive source (31M) configured to control a position of the holder supporting table (31) at an arbitrary rotation position about the main rotation axis (J3), a first sub tool holder (41) rotatably supported by the holder supporting table (31) about a first sub rotation axis (J1) parallel to the main rotation axis (J3), the first sub tool holder (41) holding another one of the plurality of tools (81), and a first interlock coupling means (40G, 41G, 42G, 43G) coupling interlockingly rotatably the first sub tool holder (41) to the main tool holder (40) to transfer drive force of the first control drive source (40M) to the first sub tool holder (41).
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| 10 | BENDING HEAD AND METHOD OF WIRE BENDING | EP09837930.8 | 2009-12-17 | EP2237905B1 | 2012-03-07 | CHRISTOFILIS, Tom, J.; GRAPSAS, Constantine, S. |
| A device and a method are disclosed which relate to a wire bending apparatus capable of both on and off-plane nose and mandrel bends. Exemplary embodiments of the present invention incorporate a center turret cluster (102; 202 etc.) with a plurality of radii possible, a nose-bending mandrel (106; 206 etc.), and a mandrel-bending mandrel (104; 204 etc.). This apparatus forms a bending head that is attached to a CNC wire bending machine. This combination allows increased flexibility in forming complex wire forms and cuts down secondary operations, such as operations from robot arms, sometimes associated with CNC wire bending. In addition, the turret cluster position in the center allows for bending support with mandrel bends or nose bending on the back side of the bending head, usually 180 degrees away from the normal bending area. This allows the manufacturing of double end-loop forms without the addition of external clamps or robotic manipulation. | ||||||
| 11 | DEVICE AND METHOD FOR AUTOMATED WIRE BENDING | EP17153057.9 | 2009-12-17 | EP3213836A1 | 2017-09-06 | CHRISTOFILIS, Tom J.; GRAPSAS, Constantine S. |
A device and a method are disclosed which relate to a wire bending apparatus capable of both on and off-plane nose and mandrel bends. Exemplary embodiments of the present invention incorporate a center turret cluster (102; 202 etc.) with a plurality of radii possible, a nose-bending mandrel (106; 206 etc.), and a mandrel-bending mandrel (104; 204 etc.). This apparatus forms a bending head that is attached to a CNC wire bending machine. This combination allows increased flexibility in forming complex wire forms and cuts down secondary operations, such as operations from robot arms, sometimes associated with CNC wire bending. In addition, the turret cluster position in the center allows for bending support with mandrel bends or nose bending on the back side of the bending head, usually 180 degrees away from the normal bending area. This allows the manufacturing of double end-loop forms without the addition of external clamps or robotic manipulation.
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| 12 | DEVICES, SYSTEMS AND METHODS FOR AUTOMATED WIRE BENDING | EP09837930.8 | 2009-12-17 | EP2237905A2 | 2010-10-13 | CHRISTOFILIS, Tom, J.; GRAPSAS, Constantine, S. |
| A device and a method are disclosed which relate to a wire bending apparatus capable of both on and off-plane nose and mandrel bends. Exemplary embodiments of the present invention incorporate a center turret cluster (102; 202 etc.) with a plurality of radii possible, a nose-bending mandrel (106; 206 etc.), and a mandrel-bending mandrel (104; 204 etc.). This apparatus forms a bending head that is attached to a CNC wire bending machine. This combination allows increased flexibility in forming complex wire forms and cuts down secondary operations, such as operations from robot arms, sometimes associated with CNC wire bending. In addition, the turret cluster position in the center allows for bending support with mandrel bends or nose bending on the back side of the bending head, usually 180 degrees away from the normal bending area. This allows the manufacturing of double end-loop forms without the addition of external clamps or robotic manipulation. | ||||||
| 13 | 정밀한 곡선 성형이 가능한 멀티 포밍기 | KR1020100069853 | 2010-07-20 | KR1020120010599A | 2012-02-06 | 정태영 |
| PURPOSE: A multi forming machine for a precise curved line is provided to produce a high-quality small component by processing a wire rod in a curved line shape. CONSTITUTION: A multi forming machine comprises rotation member(12) and drive members(13). Each rotation member comprises a pressing protrusion(10) and a supporting pin(11). The pressing protrusions press a wire rod through rotation. The supporting pins support the wire rod when the pressing protrusions press the wire rod and guide the rolling of the wire rod. The drive member rotates the rotation member. The rotation members hold the end of the wire rod and are rotated to roll the wire rod. | ||||||
| 14 | WIRE BENDING DEVICE | KR20060029281 | 2006-03-31 | KR100613249B1 | 2006-08-09 | SEO YONG GYO; CHOL CHANG HWAN |
| 본 발명은 와이어를 목적하는 형상으로 밴딩하기 위한 와이어 밴딩장치에 있어서, 상기 와이어가 외부로 공급되는 주하우징, 상기 주하우징의 일측에 결합되고, 상기 주하우징으로부터 공급되는 와이어를 소정 형상으로 밴딩하는 제 1 밴딩부 및 상기 와이어를 원형으로 밴딩하기 위한 제 2 밴딩부를 포함하는 보조하우징 및 목적하는 밴딩 형상에 따라 상기 보조하우징을 이동하여 상기 제 1 밴딩부 및 제 2 밴딩부를 선택적으로 상기 와이어의 공급 지점으로 위치시키는 이송수단을 포함하는 것을 특징으로 한다. 상기와 같은 본 발명에 따르면, 밴딩 형상에 따라 주하우징에 슬라이딩 결합된 보조하우징을 이동시켜 적합한 밴딩부를 위치시킴으로써 별도의 밴딩부를 교체 장착할 필요없이 여러가지 형상의 밴딩 와이어 제작이 가능해지고, 종래 와이어의 원형 또는 'U'자 형태 가공이 어려움을 해결하는 효과가 있다. 와이어 밴딩장치, 밴딩기, 밴딩부 | ||||||
| 15 | GESCHWEISSTER VERBINDUNGSABSCHLUSS UND DRAHTKORB HIERMIT SOWIE FERTIGUNGSVERFAHREN HIERFÜR | EP17173602.8 | 2017-05-31 | EP3251771A1 | 2017-12-06 | Friedhoff, Axel |
Die Erfindung betrifft einen geschweißten Verbindungsabschluss sowie ein Fertigungsverfahren hierfür, vorzugsweise für einen Drahtkorb, gebildet aus einem hakenförmigen Drahtende (1), wobei aus einem einzigen Draht (2) an einem Ende des Drahtes eine Schleife (3) gebogen ist, welche Schleife einen Innenschenkel (4) und einen umgebogenen Abschlussschenkel (6) aufweist, sodass der Abschlussschenkel den Innenschenkel an zumindest einer ersten Stelle (5) überlappt, und wobei der Draht die Schleife schließend mit sich selbst verschweißt ist. Erfindungsgemäß ist der Abschlussschenkel (6) zweifach umgebogen. Weiterhin betrifft die Erfindung einen Drahtkorb, insbesondere eine Gabione, mit einem solchen Verbindungsabschluss.
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| 16 | SYSTEM AND METHOD FOR MAKING TAPERED LOOPED SUTURE | EP13793791 | 2013-05-23 | EP2855043A4 | 2016-02-24 | MAIORINO NICHOLAS; KOSA TIMOTHY; BUCHTER MARK; KROEBER KEITH; HART RICHARD CASEY; SUSZYNSKI GARY |
| 17 | Device and method for automated wire bending | EP12158259.7 | 2009-12-17 | EP2514536A1 | 2012-10-24 | Christofilis, Tom J.; Grapsas, Constantine S. |
A device and a method are disclosed which relate to a wire bending apparatus capable of both on and off-plane nose and mandrel bends. Exemplary embodiments of the present invention incorporate a center turret cluster (102; 202 etc.) with a plurality of radii possible, a nose-bending mandrel (106; 206 etc.), and a mandrel-bending mandrel (104; 204 etc.). This apparatus forms a bending head that is attached to a CNC wire bending machine. This combination allows increased flexibility in forming complex wire forms and cuts down secondary operations, such as operations from robot arms, sometimes associated with CNC wire bending. In addition, the turret cluster position in the center allows for bending support with mandrel bends or nose bending on the back side of the bending head, usually 180 degrees away from the normal bending area. This allows the manufacturing of double end-loop forms without the addition of external clamps or robotic manipulation.
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| 18 | DEVICES, SYSTEMS AND METHODS FOR AUTOMATED WIRE BENDING | EP09837930 | 2009-12-17 | EP2237905A4 | 2011-02-02 | CHRISTOFILIS TOM J; GRAPSAS CONSTANTINE S |
| A device and a method are disclosed which relate to a wire bending apparatus capable of both on and off-plane nose and mandrel bends. Exemplary embodiments of the present invention incorporate a center turret cluster (102; 202 etc.) with a plurality of radii possible, a nose-bending mandrel (106; 206 etc.), and a mandrel-bending mandrel (104; 204 etc.). This apparatus forms a bending head that is attached to a CNC wire bending machine. This combination allows increased flexibility in forming complex wire forms and cuts down secondary operations, such as operations from robot arms, sometimes associated with CNC wire bending. In addition, the turret cluster position in the center allows for bending support with mandrel bends or nose bending on the back side of the bending head, usually 180 degrees away from the normal bending area. This allows the manufacturing of double end-loop forms without the addition of external clamps or robotic manipulation. | ||||||
| 19 | DEVICES, SYSTEMS AND METHODS FOR AUTOMATED WIRE BENDING | PCT/US2009068540 | 2009-12-17 | WO2010080522A2 | 2010-07-15 | CHRISTOFILIS TOM J; GRAPSAS CONSTANTINE S |
| Devices, systems and methods are disclosed which relate to a wire bending apparatus capable of both on and off-plane nose and mandrel bends. Exemplary embodiments of the present invention incorporate a center turret cluster with a plurality of radii possible, a nose-bending mandrel, and a mandrel-bending mandrel. This apparatus forms a bending head that is attached to a CNC wire bending machine. This combination allows increased flexibility in forming complex wire forms and cuts down secondary operations, such as operations from robot arms, sometimes associated with CNC wire bending. In addition, the turret cluster position in the center allows for bending support with mandrel bends or nose bending on the back side of the bending head, usually 180 degrees away from the normal bending area. This allows the manufacturing of double end-loop forms without the addition of external clamps or robotic manipulation. | ||||||
| 20 | Manual tool for precision forming of ear wires for jewelry | US14706443 | 2015-05-07 | US09888750B2 | 2018-02-13 | Ronald Carl Farnum; John C. Olson; David O. Meyers |
| A tool is provided for bending wire for use in earrings. The tool has a two handles; an anvil plate; two terraced floating bars; two forming links, each having a stanchion projecting therefrom and a forming link rod projecting from the first forming link; an upper and lower linkage arm; a translating pin; and a planetary gear having an eccentric forming rod projecting from its lower face. The anvil plate has a longitudinal slot and arcuate minor and major forming slots formed therethrough; a circumferential gear formed on one side of the anvil plate, adjacent and exterior to the major forming slot, spanning less than 360°; and a retaining wall and a forming anvil formed on the other side of the anvil plate. The handles are pivotally joined to the anvil plate such that the forming link rod and a stanchion engage a wire lying against the retaining wall. | ||||||
