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 |
|---|---|---|---|---|---|---|
| 141 | 組織締付具の製造方法 | JP2011552253 | 2011-06-22 | JPWO2011162287A1 | 2013-08-22 | 怜 松永; 雅俊 佐藤; 梶 国英; 国英 梶; 高橋 慎治; 慎治 高橋 |
| 2つの生体組織を密着させて締め付ける組織締付具の製造方法であって、以下の工程を含む。金属からなる線材の一端を軸体に固定し、前記線材の軸回りに前記線材をねじりつつ、前記軸体の外周に前記線材を巻いてコイルを成形する工程。前記線材に超弾性を付与する熱処理を行う工程。超弾性が付与された前記線材を、前記線材が弾性変形可能な範囲で変形させて、前記コイルの巻き方向を前記コイルを成形する工程で巻いた前記コイルの巻き方向と逆にする工程。この製造方法においては、前記コイルの巻き方向を逆にする工程の後に、前記コイルの圧縮方向への初張力が前記コイルに作用している。 | ||||||
| 142 | 線ばね成形装置 | JP2011538152 | 2009-10-28 | JPWO2011052051A1 | 2013-03-14 | 赴仁 高橋 |
| 【課題】スライドプレートの数を増やすが、駆動源であるサーボモータの数を増やす必要がない線ばね成形装置を提供する。【解決手段】線材41を案内するクイル6周りに配置した旋回テーブル10と、テーブル10の周方向略等分複数箇所に放射状に配置した進退可能なスライドユニット15と、テーブル10外側のスライドユニット16と半径方向に対応する複数箇所に配置した、サーボモータM3の駆動で半径方向に進退可能なスライドプレート33を備え、所望のスライドプレート33の前進が、対応するスライドユニット16を突き押しして前進させ、スライドユニット16に装着した工具Tをクイル6から送り出される線材41に衝合させて線ばねを成形する装置で、スライドプレート33を接近させて円環状に配置し、隣接する一対のスライドプレート33,33毎に対応付けて設けた一のサーボモータM3の駆動により、一対のスライドプレート33,33を択一的に前進させる。 | ||||||
| 143 | Wire spring forming apparatus | JP2011538152 | 2009-10-28 | JP5148759B2 | 2013-02-20 | 赴仁 高橋 |
| 144 | Method of manufacturing a tissue fastening tool | JP2011552253 | 2011-06-22 | JP5096622B2 | 2012-12-12 | 怜 松永; 雅俊 佐藤; 国英 梶; 慎治 高橋 |
| 145 | Spring, and method for producing the same | JP2011081966 | 2011-04-01 | JP2012214859A | 2012-11-08 | TAKAMURA NORITOSHI; YAMAMOTO FUMIO; ONO YOSHIKI; SUZUKI TAKESHI; KUROKAWA SHINPEI |
| PROBLEM TO BE SOLVED: To provide a spring that has a high compression residual stress layer having improved fatigue resistance and that has increased simplicity of the production process and reduced materials cost, and to provide a method for producing the spring.SOLUTION: A steel material contains 0.5-0.7 mass% C, 1.0-2.0 mass% Si, 0.1-1.0 mass% Mn, 0.1-1.0 mass% Cr, ≤0.035 mass% P, ≤0.035 mass% S, and the remainder comprising iron and inevitable impurities. The steel material is processed by the following steps in sequence: a forming step of forming the steel material into spring shape; a heat treatment step of austenitizing it at a temperature in a range of (a temperature of Ac3 point) to (the temperature of Ac3 point +250°C), cooling it at a speed of ≥20°C/sec, isothermally holding it for 400 seconds or more at a temperature in a range of (Ms point -20°C) to (Ms point +60°C), and cooling it to a room temperature at cooling speed of ≥20°C/sec; a setting step of giving a permanent strain to it; and a shot peening step of impacting it with shot. | ||||||
| 146 | Compression coil spring and a method of manufacturing the same | JP2011175520 | 2011-08-11 | JP5064590B1 | 2012-10-31 | 和也 井海; 芳樹 小野; 裕一郎 小野; 透 白石 |
| 【課題】線材に適切な圧縮残留応力を付与することにより、安価な線材を用いて、高耐久性の圧縮コイルばねおよびその製造方法を提供する。
【解決手段】重量%で、Cを0.45〜0.85%、Siを0.15〜2.5%、Mnを0.3〜1.0%含む円相当直径が1.5〜9.0mmの鋼線材を用いた圧縮コイルばねにおいて、任意の線材横断面における硬さが570〜700HVであり、コイルばね内径側において、ばねに圧縮荷重を負荷した場合の略最大主応力方向における表面から0.2mm深さでの無負荷時の圧縮残留応力が200MPa以上であるとともに表面から0.4mm深さでの無負荷時の圧縮残留応力が100MPa以上である圧縮コイルばね。 【選択図】図4 |
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| 147 | Multi-layered gradient coil spring and related methods | JP2012508598 | 2010-04-27 | JP2012525555A | 2012-10-22 | ガシリ,マジド; シェパード,ディック; バルセルス,ピート; ビーマー,ラッセル; プーン,ダニエル |
| 多層状傾斜コイルばねおよび関連する方法は、傾斜コイルばねの機械的、電気的、および熱的特性を改善する。 いくつかの実施形態では、異種材料の特性は、種々の材料層を用いたばねにおいて組み合わされる。 例えば、一実施形態では、保護用または高強度の外層材料は、より敏感な内部コア材料を過酷な環境および条件から遮断する。 内部コア材料は高導電材料でもよく、外層材料はコアよりも低い導電率を有してもよい。 種々の実施形態では、ばねの以下の特性が改善される:導電率および/または熱伝導率、耐食性、生体適合性、耐温度性、応力緩和、可変摩擦力、および過酷な環境および条件での耐摩耗性。
【選択図】図7A |
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| 148 | Wire molding apparatus | JP2009162177 | 2009-07-08 | JP4880726B2 | 2012-02-22 | 一郎 板屋 |
| 149 | Method and device for producing spiral springs by means of spring winding machine | JP2011058680 | 2011-03-17 | JP2011218446A | 2011-11-04 | KALKAU VOLKER |
| PROBLEM TO BE SOLVED: To produce a spiral spring made of a wire material with considerably different qualities with high reliability within strict tolerance in the production of comparatively a long spiral spring.SOLUTION: First of all, a desired nominal geometry of the spiral spring and an NC control program which is suitable for production of the nominal geometry are defined. An actual position of a selected structural element of the spiral spring 200 relative to a preferably machine-fixed reference element is measured at a measurement area 254 in at least one measurement time which occurs after the start and before the end of the production of the spiral spring. The measurement area 254 is located at a finite distance 210 from a forming device 120 in the longitudinal direction of the spiral spring, wherein the distance is less than the overall length of the finished spiral spring. The measured actual position is compared with a nominal position of the structural element for the measurement time, in order to determine difference between the actual position and the nominal position at the measurement time. A pitch tool 130 of the forming device is controlled based on the positional difference. | ||||||
| 150 | Spring interior products and manufacturing method thereof | JP2000520932 | 1998-11-12 | JP4623827B2 | 2011-02-02 | グロイニンガー、ジークフリート |
| 151 | Wire forming apparatus | JP2009162177 | 2009-07-08 | JP2011016150A | 2011-01-27 | ITAYA ICHIRO |
| PROBLEM TO BE SOLVED: To attain a wire forming apparatus capable of enhancing the flexibility of selecting the cutting work and the cutting portion of a wire during a forming work.SOLUTION: This forming apparatus includes: a tool selection table 210 on which a plurality of forming tools which are different in operation and one cutting tool are arranged freely attachably, detachably and radially and, which is rotated about a driving shaft which forms a predetermined angle to the axis L of the wire so that a specified tool is selected among the plurality of forming tools and one cutting tool; and a selection table driving means 211 for rotating the tool selection table. | ||||||
| 152 | Method and its application to grant the initial tension to the coil spring | JP2009525484 | 2007-08-14 | JP2010501801A | 2010-01-21 | キム,ユン−バイ; ハン,ジョン−ヒョン; リー,クァン−ク |
| コイルスプリングのコイル巻回方向を変更することによって初張力をより高める方法を提供する。 コイルスプリングには大きな初張力が精度よく付与される。 形状記憶合金を用いることにより、性能の優れたアクチュエータを作成することができる。 コイルスプリングの高温時および低温時の形態は可逆形状記憶効果によって調整され得る。 | ||||||
| 153 | Wire forming machine | JP2008170692 | 2008-06-30 | JP2009012074A | 2009-01-22 | SPECK NORBERT |
| PROBLEM TO BE SOLVED: To provide a wire forming machine which has a simple configuration and attains low-vibrational operation of machine units. SOLUTION: Each of tools (15), (17) and (18) is moved by feeding motion from an initial position away from a wire (3) to a working position on the wire (3). The wire (3) passes through a reentrant (14) and is fed to the working area of the wire forming machine (1). Each tool is fixed to a tool plate (7) by tool feeding motion relative to the tool plate (7), and the feeding motion of each tool to the working position is made only by the motion of the corresponding tool plate. The tool plate is fitted into a second plate (8) and can be displaced in a first direction (x) relative to the second plate. The second plate (8) can be displaced in a second direction (y) relative to a machine frame (4). Both directions (x) and (y) are respectively inclined at an angle of 45 degrees to the perpendicular axis (H-H) of the wire forming machine (1) and intersect at a right angle. COPYRIGHT: (C)2009,JPO&INPIT | ||||||
| 154 | Coil spring forming apparatus and coil spring | JP2006300210 | 2006-11-06 | JP2008114263A | 2008-05-22 | ETO MASARU |
| PROBLEM TO BE SOLVED: To provide a coil spring forming apparatus capable of accurately producing even coil springs having various pitches and pitch angles. SOLUTION: The coil spring forming apparatus comprises: a core bar 2 rotating around an axis and further wound with a wire rod W fed from a wire rod feeding means; a clamp part 22 rotating integrally with the core bar 2 and further clamping one end of the wire rod W onto the core bar 2; and a first guide roller 30 and a second guide roller 40 guiding the wire rod W onto the core bar 2, and the first guide roller 30 and the second guide roller are provided movable in parallel to the axis of the core bar 2 independently each other. The coil spring is formed by the coil spring forming apparatus. COPYRIGHT: (C)2008,JPO&INPIT | ||||||
| 155 | Spring manufacturing machine | JP2005181017 | 2005-06-21 | JP2007000877A | 2007-01-11 | TSURITANI KATSUHIDE |
| PROBLEM TO BE SOLVED: To provide a spring manufacturing machine which can reduce the number of driving sources for driving slides for mounting bending dies as few as possible, and can accurately control relative positions of the bending dies in manufacturing the springs. SOLUTION: A second bending die mounting slide 32 and a third bending die mounting slide 52 are arranged so as to be symmetric with respective to a center line of a first bending die mounting slide 11 in the moving direction. The first bending die mounting slide 11 and the second bending die mounting slide 32 or the first bending die mounting slide 11 and the third bending die mounting slide 52 are mechanically connected with each other by means an arm member 37. The spring is manufactured by determining the winding direction of a wire material by interlocking the first bending die mounting slide 11 by any of the driving sources for driving the second bending die mounting slide 32 or the driving sources for driving the third bending die mounting slide 52 according to the mating member connected to the arm member 37. COPYRIGHT: (C)2007,JPO&INPIT | ||||||
| 156 | Multiple twisted coil spring | JP2005512628 | 2004-02-19 | JP2006518829A | 2006-08-17 | ダブリュ. キューヒェル,ベルンハルト; エフ. グラッドニー,リチャード |
| 本発明は、複数撚り線コードとして構成された複数の撚り線を含むコイルバネ組立品であって、前記複数撚り線コードが、4つ以上の有効巻線を備えた第1つる巻バネと、閉端を形成する少なくとも1つの無効巻線と、少なくとも約4インチの自由高さとに巻き取られた、コイルバネ組立品を提供することで、従来技術の欠点に対処する。 本発明の前記コイルには多数の潜在的用途があるが、1つの特徴によれば、マットレス又は他の家具などの安息面における支持を提供するよう特別に寸法設定してある。 幾つかの構成では、前記コードの前記撚り線が捻り合わされているが、他の構成では、前記撚り線は編み組みされている。 幾つかの実施形態によれば、3本以上の撚り線が捻り合わされて、前記複数撚り線コードを形成している。 他の実施形態では、3本以上の撚り線が編み組みされて、前記複数撚り線コードを形成している。 | ||||||
| 157 | Manufactring method and facility for spring | JP2000310558 | 2000-10-11 | JP2001150079A | 2001-06-05 | BOSCHIERO GIUSEPPE |
| PROBLEM TO BE SOLVED: To control stresses of a wire over all processes of forming a spring by changing the stresses continuously. SOLUTION: In the method for manufacturing a spring by using the winding equipment with one or two winding noses 6 and 8, firstly one of the winding noses 6 and 8 is rotated till the prescribed angle so as to apply an appropriate stress at a winding section of an equipment edge, then these winding noses 6 and 8 are rotated till the one or more angle position so as to apply a necessary stress to the next winding section. The rotation of the winding noses 6 and 8 is carried out by an appropriate means. In such a spring manufacturing equipment to carry out the method, a means for carrying out the angle control of the winding nose for winding the spring wir 3 such as a cam controlled lever, a pneumatically or hydraulically controlled lever and electric motor, is equipped. COPYRIGHT: (C)2001,JPO | ||||||
| 158 | Apparatus for bending a spring for spring interior mattresses | JP53190398 | 1998-01-22 | JP2001502608A | 2001-02-27 | アルゴット グレンダル,スヴェン |
| (57)【要約】 本発明はばね内部マットレス、車両クッション、クッション及びその類似物のための弾性ばねの製造装置に関する。 ばねは連続的な、互いの後に配置された螺旋形状部分の列から構成される。 装置はばねワイヤー(6)のための供給ツール(18)、ワイヤーの供給方向に実質的に垂直な平面内で調整可能なワイヤーのための曲げツール(20)、及び二つの平行なプレート(その間をワイヤーが弾性ばねの螺旋形状部分(図1)の製造中に進み、それはばね部分の傾斜角度の調整のために回転可能である)からなるばね成形ツール(21)を含む。 少なくとも一つのギヤー伝動装置(22)(それは遊星形伝動装置であることができる)は予め決められた回転位置で前記ばね成形ツール(21)の調整のために配置される。 調整ツール(21,42)は一方では曲げツール(20)の角度位置の調整のため、他方では予め決められた曲げ操作の実施のために配置される。 | ||||||
| 159 | Spring manufacturing device | JP23596398 | 1998-08-21 | JP2000061737A | 2000-02-29 | ITAYA ICHIRO |
| PROBLEM TO BE SOLVED: To provide a simple construction of low price by driving rollers through a gear train meshing with a second bevel gear rotating by meshing with a first bevel gear having the same rotary shaft as a wire axis. SOLUTION: In the interlocking gears 425 of respective feed roller shafts 424, upper and lower a pair of gears mesh with each other, and the lower side front and rear interlocking gears are respectively mesh with an idle gear 426. A driving gear 427 meshes with a driving gear 429 rotatably fitted to the bevel gear shaft 428 of a bevel gear 428a meshing with the bevel gear 423a of a bevel gear shaft 423 as a main shaft and meeting at about right angles with the bevel gear shaft 423, and by rotating the feed roller shaft 424 on the lower side of the rear frame side, the other feed roller shafts 424 are interlockingly rotated through the idle gear 426. Because the bevel gear shaft is coaxially rotated with a wire axis in this way, the bevel gear of large torque can be used, and wire feed force can be held and durability can be improved by a construction of low price. COPYRIGHT: (C)2000,JPO | ||||||
| 160 | Wire forming device | JP31994994 | 1994-12-22 | JP2690704B2 | 1997-12-17 | 一郎 板屋 |
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