| 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 | Device for producing lattice bar | JP9049483 | 1983-05-23 | JPS59215232A | 1984-12-05 | TAKADA HIROBUMI |
| PURPOSE:To suppress the oscillation in a non-forming part and to prevent generation of torsion by providing respectively fixing parts for grasping the linear and curved parts of a reinforcing bar on the right and left of a bending part for the reinforcing bar having an angle-shaped pressing body and making changeable the spacing between the angle-shaped pressing body and the respective fixing parts. CONSTITUTION:A reinforcing bar I is grasped and fixed between a pressing body 8 of a fixing part 2 for grasping the linear part of the reinforcing bar and a stationary support 5 and if an angle-shaped pressing body 12 is advanced thereafter, the tip end thereof is curved. The curved part is then fed to a fixing part 14 for grasping the curved part of the reinforcing bar and after the curved part is grasped and fixed between a stationary support 17 and one side of an angle-shaped pressing body 26, the body 12 is advanced to bend further the bar I. The bar I is fed forward in succession to grasp and fix the curved parts at two points between the angle-shaped pressing bodies 26, 30 in the part 14 and the supports 17, 19 and thereafter the body 12 is advanced. These steps are repeated to obtain a lattice bar. The space between bases 3 and 15 is changed according to the forward and backward movement of the body 12 in each step so that the bar I is fed as required in the stage of bending. | ||||||
| 42 | Device for manufacturing pectinate wire binding material forpaper product and printing | JP2968084 | 1984-02-21 | JPS59158290A | 1984-09-07 | FURITSUTSU UITSUTE |
| 43 | JPS4993259A - | JP10741773 | 1973-09-21 | JPS4993259A | 1974-09-05 | |
| 44 | METHOD AND SYSTEM FOR BENDING SPACERS | EP13717980.0 | 2013-03-05 | EP2822714B1 | 2018-05-23 | Anagnostopoulos, Antonios |
| Systems and methods for producing spacers (2) from meshes (1) of wire or rods or tubes or other materials of prismatic cross section, or wires or rods or other materials of prismatic cross section. In end use, the spacers (2) are positioned inside molds for defining the position of the reinforcement of concrete plates. The spacer meshes are produced from a starting mesh (1). The formation of the starting mesh into a spacer is made by positioning the starting mesh, along its longitudinal direction, inside a mechanism that includes grippers (3, 4, 5, 6, 7) seated on carriers (8, 11, 16, 17) so as to move freely in the longitudinal direction. A central gripper (3) is stationary, while every movable second gripper (4, 5) may also be moved perpendicular to the longitudinal direction by a cylinder (22, 23). Thus, by the action of these cylinders (22, 23), from the starting product the final product is formed, and the carriers (8, 11, 16, 17) of the grippers (4, 5, 6, 7) are repositioned as a result of the pull of the longitudinal wires of the starting product during deformation. | ||||||
| 45 | A WIRE FORMING DEVICE | EP13895793.1 | 2013-10-15 | EP3057724A1 | 2016-08-24 | VAN RYSSELBERGE, Kurt; LI, Lingjun |
| A wire forming device (300) comprises a first and second deforming wheel (302,304) turnable on shafts (322, 324) in a holder (310), a synchronizing coupling (410) for coupling the first and second wheel such that the first and second deforming wheels are rotatable with synchronized circumferential speed at the gap between the first and second wheel. A composite wire forming device comprises two or more wire forming devices. A sawing wire can be formed by the composite wire forming device or the wire forming device. The wire forming device can be used to crimp wires, more particularly steel wires for use, in steel cord or as a sawing wire or as a brush wire. In this way the phase difference between the deforming wheels can be adjusted at will. | ||||||
| 46 | Method and machine for manufacturing continuous bent profiles | EP12193338.6 | 2012-11-20 | EP2614901B1 | 2013-12-11 | Bernardinis, Claudio; Benedetti, Sergio |
| 47 | Woven or knitted fabric prepared from a concave-convex patterned metal fiber yarn | EP10174831.7 | 2010-09-01 | EP2292817B1 | 2012-11-14 | Suk, Chang Hwan |
| 48 | Vorrichtung zum schleifenförmigen Biegen eines fortlaufenden Drahtes | EP09006671.3 | 2009-05-18 | EP2127776B1 | 2011-01-19 | Heinz, Wilhelm |
| 49 | "S" shaped cast in weld wire | EP02012852.6 | 2002-06-11 | EP1266717B1 | 2006-08-30 | Ferguson III, Otto; Hartman, Dennis K. |
| 50 | APPAREIL ET PROCEDE D'APPLICATION D'UNE BANDELETTE SUR UNE SURFACE ROTATIVE | EP03727440.4 | 2003-05-06 | EP1513673A1 | 2005-03-16 | MEYER, Daniel |
| The invention relates to a device and a method for applying (1) a reinforcing strip on a rotary receiving surface (2) having a circumferential speed V2, comprising means (10) for delivering the strip comprising at least on rotary capstan (11) having a circumferential speed V1, means for transversal displacement (20,30) of the strip in relation to the receiving surface performing an alternative movement and means for placement (40) on said receiving surface wherein the transversal displacement means perform said displacement when the orientation of the plane of the lap of thread or cables of said strip is substantially perpendicular to the axis of rotation of the receiving surface. The amplitude of transversal displacement of the strip is directly controlled in relation to the speeds V1 and V2 and can be modified continuously during the deposition of said strip. | ||||||
| 51 | TRUSS MACHINE | EP00903800.1 | 2000-02-10 | EP1152846B1 | 2003-11-26 | GOULD, Tom |
| A truss machine comprising wire supply means adapted to supply a plurality of wires (1, 2, 3) first wire feeder means, which first feeder means is adapted to feed a wire to wire forming means (10), which wire forming means (10) is adapted to form said wire into a zigzag shape. Wire incrementation means (15, 16) are provided to draw said wire through said wire forming means (10), wherein the apparatus includes control means. The control means are adapted to control the wire forming means such that the dimensions of the zigzag are alterable. The machine can be constructed in two halves, which are mirror images of each other so that an alternating node pattern can be obtained. | ||||||
| 52 | Machine for bending threadlike metallic elements, in particular round bars | EP01124020.7 | 2001-10-09 | EP1199117A3 | 2003-07-23 | Guerrieri, Giuliana |
A machine for bending threadlike metallic elements, in particular round bars, includes a bending station (1) for shaping the threadlike metallic elements (2). The bending station (1) includes a first working group (4), which moves along relative Cartesian axes, first (Y) and second (Z), and is equipped with means (4a) for striking the threadlike metallic elements (2). The first working group (4) moves between a rest position (N*), in which the striking means (4a) do not touch the threadlike metallic elements (2), and a working position (M), in which the striking means (4a) push the threadlike metallic elements (2). First motionless gripping means (5) clamp and/or release the threadlike metallic elements (2) in phase relation with the movement of the first working group (4). A second working group (3), substantially aligned with the first gripping means (5) has second gripping means (3a), which clamp and/or release the threadlike metallic elements (2) in phase relation with the movement of the first working group (4). The second working group (3) moves along a third axis (X), substantially parallel to the second axis (Z), in phase relation with the movement of the first working group (4) and with the clamping and/or releasing of the first gripping means (5). |
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| 53 | Vorrichtung zum zickzackförmigen Biegen gerader Drähte, insbesondere für Maschinen zum Herstellen von Diagonalgittern | EP81890172.0 | 1981-10-20 | EP0053601A1 | 1982-06-09 | Gött, Hans, Dipl.-Ing.; Ritter, Josef, Dipl.-Ing. Dr.; Ritter, Klaus, Dipl.-Ing.; Ritter, Gerhard, Dipl.-Ing. Dr. |
Bei dieser Vorrichtung sind zum Biegen der parallel zueinander in einer Ebene vorgeschobenen Drähte quer zur Drahtschar verschiebbare Schienen (83) vorgesehen, welche in den Drahtabständen entsprechenden Abständen Drahtumlenkstifte (86) tragen und während einer Arbeitsbewegung in Drahtvorschubrichtung mittels einer Steuereinrichtung (74, 75, 81, 82) alternierend gegensinnig quer zu dieser Richtung bewegt werden. Um ein Gleiten der Drähte an den Umlenkstiften bei den Biegevorgängen zu vermeiden, ist jede Schiene (83) an den einen Enden von mindestens zwei gleich langen, um senkrecht zur Biegeebene verlaufende Achsen (85) schwenkbar gelagerten, parallelen Tragarmen (84) angelenkt und es ist mittels der Steuereinrichtung (74, 75, 81, 82) für jeden Biegevorgang jeweils nur eine Schiene (83), und zwar um die volle Amplitude der gewünschten Zickzackform und unter gleichzeitiger Verschwenkung ihrer Tragarme (84) querverschiebbar. |
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| 54 | Method of and apparatus for increasing the fin density of heat exchanger sheet material | EP79300368.2 | 1979-03-09 | EP0007148A1 | 1980-01-23 | Miller, Kenneth J. |
The invention concerns an apparatus (40) and method for increasing the fin density of a serpentine sheet (10) having a plurality of fins (14a, 14b, 14c), each fin having two sides (16, 18)coupled together at one end (20)with a space (22) between the sides. Blocks (30,32) having recesses (30a, 32a) for receiving the end (20,24) of one side (16) of a fin (14a) are moved vertically from opposite sides (A,B) of the sheet (10) into contact with such ends. Simultaneously, blades (34, 36) are moved vertically into positions at the other side (18) of the fin (14a) from opposite sides (A, B) of the sheet. Then, the blades (34, 36) are moved transversely towards the blocks (30, 32), which are now held stationary, to compress the fin (14a) a predetermined amount by moving the other fin side towards the one fin side. The blocks and blades are then withdrawn from the sheet to move another fin (14b) into position for another compressing operation. |
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| 55 | Bending processing method | JP2009185248 | 2009-08-07 | JP5233901B2 | 2013-07-10 | 正樹 斉藤; 伸吾 橋本 |
| 56 | Apparatus for installing the cable on the rotating surface | JP2001402215 | 2001-11-28 | JP4422937B2 | 2010-03-03 | メイヤー ダニール |
| 57 | Apparatus and method for attaching a strip to the rotating surface | JP2004507053 | 2003-05-06 | JP2005527408A | 2005-09-15 | ダニエル メイヤー |
| 【課題】 本発明は補強ストリップを周速V2の回転受け入れ表面(2)に取り付けるための装置(1)に関する。
【解決手段】 この装置は、周速V1の少なくとも1つの回転キャプスタン(11)を備えているストリップを供給する手段(10)と、交互移動を行う、受け入れ表面に対してストリップを横方向に変位させる手段(20、30)と、前記受け入れ表面に載置する手段(40)とを備えており、前記ストリップの糸またはコードのプライの平面が受け入れ表面の回転軸線と実質的に垂直して配向されると、横方向変位手段が前記変位を行うことを特徴としている。 ストリップの横方向変位の振幅は速度V1およびV2に対して直接、制御され、ストリップが載置されると、変更を連続的に受けることが可能である。 |
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| 58 | Device for attaching cable to rotating surface | JP2001402215 | 2001-11-28 | JP2002205346A | 2002-07-23 | MEYER DANIEL |
| PROBLEM TO BE SOLVED: To provide a device for solving a conventional technical problem, especially, for attaching a cable to a rotating receiving surface during manufacturing of a tire. SOLUTION: This device (1) for attaching the cable to the rotating surface comprises a cable feeding means (10) equipped with at least one rotating capstan (11) for feeding the cable in a feed direction at a linear speed V1, means (20 and 30) for displacing the cable transversely in relations to the receiving surface (2) and a means (40) for positioning the cable on the receiving surface (2). Thus the device (1) functions to attach at least one piece of the cable to the rotating receiving surface (2) at a surface linear speed V2. Besides the device (1) is characterized in that the means (20 and 30) for displacing the cable transversely effects the displacement by combining a rotary movement around an axis perpendicular to the cable travel direction with a pivoting movement in a plane including the axis of the rotary movement, the magnitude of the pivoting movement being determined by the ratio between the speeds V1 and V2. COPYRIGHT: (C)2002,JPO | ||||||
| 59 | Strapping material that has been molded part waving, packing material in which the strapping material consisting of compression packings, molding apparatus of the strapping material | JP1009696 | 1996-09-18 | JP3067054U | 2000-03-21 | ダブリュ. ヒューソン ゲール; エム. ベラン ジョージ; アール. ビーチ ジョン |
| (57)【要約】 【課題】 圧縮梱包に用いる結束鋼帯の両端を連結するジョイントに梱包の膨張によって加わる最大張力が加わらない様にして従来より断面の小さい鋼帯を用いて安価で丈夫な結束鋼帯を提供する。 【解決手段】 例えば綿梱包物10の様な圧縮梱包物の回りに結束材30をかけ、その頂部36にジョイント3
4がくる様にする。 結束材30の両端は夫々ロッキング部32,32として成形され、両部をロックさせてジョイント34とする。 結束材30の2つの真直な部分4 2,42の間には一連の正弦波状凹凸44,44をプレス成形した2つの波打ち部分40,40をそなえている。 尚、結束帯はスチールストラップとしてロッキング部を成形せずに平らな両端をオーバーラップさせてスチールシールを施してもよい。 |
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| 60 | JPH0410440B2 - | JP2968084 | 1984-02-21 | JPH0410440B2 | 1992-02-25 | |
