| 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 | 用于可压缩弹性体弹簧的板 | CN200880014016.0 | 2008-05-01 | CN101668961A | 2010-03-10 | 罗纳德·斯普雷尼斯; 迈克尔·E·林; 布拉德利·安德森; 乔纳森·马洛 |
| 本发明涉及一种用于可压缩弹性体弹簧的板,该板由预定材料形成,并且具有第一基本平坦表面、相对的第二基本平坦表面、预定厚度和预定形状。在所述板的至少一个表面上设有爪,并且所述爪相对于该表面以预定角度向外伸出,以便使所述板与邻接弹性体垫的轴向端部机械互锁。所述爪可以具有梯形形状。还可以设置轴向孔,并且所述爪设置在轴向孔的外周边缘上或者紧邻该外周边缘。在所述板的相对表面上也可以设有爪,以便使所述板与另一邻接弹性体垫的轴向端部机械互锁。还设置圆环形的突起,以便使所述板与至少一个弹性体垫机械互锁。 | ||||||
| 42 | 减震元件及其制造方法 | CN98813957.X | 1998-10-21 | CN1291263A | 2001-04-11 | 马丁·R·肖特恩; 约瑟夫·J·斯卡加 |
| 一种具有一对面板的减震元件,这对面板的上、底面板有多个内陷的凹坑。这些凹坑在面板间相对延伸而形成减震元件的支撑构件。至少部分凹坑是半球形的,所述面板可由网格材料制成,以允许气体或流体在其间流动。在凹坑中可设置一个或多个插塞。该减震元件可这样制成:在适于在上、底面板上形成凹坑的模具中模压形成减震元件的上下半边,然后将上下半边结合在一起而完成整个减震元件。 | ||||||
| 43 | 层叠体的预热方法以及层叠体的制造方法与制造装置 | CN98807987.9 | 1998-08-06 | CN1266399A | 2000-09-13 | 小川清; 吉田隆彦; 乾通显; 清水干也; 山本康二; 杉崎雄一; 永田恒雄 |
| 本发明涉及通过在层叠体的层叠方向上经电极施加高频电压而对聚合板进行介质加热的预热方法,以及以收容于围绕层叠体层叠面的环形收容体内的状态,在层叠体的层叠方向上经电极施加高频电压而对聚合板进行介质加热的同时,至少在高频电压施加结束后对层叠体向层叠方向加压的层叠体制造方法和装置。 | ||||||
| 44 | 弹性体的保险杆缓冲弹簧 | CN92114853.4 | 1992-12-23 | CN1076416A | 1993-09-22 | 尼尔·伊·怀德拉; 戴卫·乌·盖克 |
| 一种压缩弹簧,具有由塑性变形与弹性变形的比为1.5到1的弹性体形成的一个球形体,在球形体两端有截头锥形段,在弹簧位移的主要部分能保持基本恒定的弹性系数。弹簧经预压缩以克服弹性体的压缩硬化特性,并且使弹簧的分子结构经定向排列。这种弹簧特别适用于作为汽车的保险杆缓冲弹簧。 | ||||||
| 45 | 捩じれ振動ダンパのためのエラストマ条片設計、およびそのエラストマ条片設計を有する捩じれ振動ダンパ | JP2017537383 | 2016-01-15 | JP2018505359A | 2018-02-22 | スヘイル・マンズール |
| 捩じれ振動ダンパのためのエラストマ部材、そのエラストマ部材を作る方法、およびそのエラストマ部材を有する捩じれ振動ダンパが開示される。エラストマ部材は、第1の主表面および反対の第2の主表面を、反対の側が第1の主表面を第2の主表面に結合する状態で有し、第1の主表面および第2の主表面と平行に延びる中央矢状平面と、中央矢状平面に対して垂直な横断平面と、を有する。中央矢状平面および横断平面を二等分にする平面における断面形状において、エラストマ部材の厚さは、第1の厚さが反対の側同士の両方にあり、第2の厚さが横断平面にある状態で、横断平面に平行な方向において中央矢状平面に沿って変化し、第2の厚さは第1の厚さより大きい。 | ||||||
| 46 | 内部構造を有する3次元物体の製造方法 | JP2013526505 | 2011-09-05 | JP6021159B2 | 2016-11-09 | ゲスラー,モニカ; ガルバ,ミヒャエル ヤン; オベルホーファー,ヨハン |
| 47 | 複合材料のシートを製造するための方法および装置 | JP2011502002 | 2009-03-25 | JP5613928B2 | 2014-10-29 | ピルペル エドワード; ピルペル ベンジャミン |
| 48 | Method for producing a three-dimensional object having an internal structure | JP2013526505 | 2011-09-05 | JP2013536774A | 2013-09-26 | ゲスラー,モニカ; ヤン ガルバ,ミヒャエル; オベルホーファー,ヨハン |
| 3次元物体を造形材料からアディティブ積層造形法によって製造する方法であって、造形材料の材料パラメータと被製造物体の所定の性質とに基づいて、格子構造(1)を有する物体の内部構造が計算され、かつ、この内部構造(1)を備えた3次元物体が、所定の性質を含むようにアディティブ積層造形法によって製造される、方法。
【選択図】図2 |
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| 49 | Rotary damper and a method of manufacturing the same | JP2008024862 | 2008-02-05 | JP5090949B2 | 2012-12-05 | 秀則 菅野; 良彦 長島; 正典 板垣; 良太 志村; 孝雄 福川; 智 長坂 |
| <P>PROBLEM TO BE SOLVED: To provide a rotary damper capable of improving braking characteristics, by restraining deformation of a cover without reducing the volume of a chamber filled with a viscous liquid. <P>SOLUTION: The rotary damper has a partition wall 3 arranged between a body case 1 and a rotor 2, the viscous liquid filled in the chamber 4 partitioned by the partition wall 3, a vane 5 pressing the viscous liquid by rotating together with the rotor 2, and the cover 6 blocking up an opening part of the body case 1, and is characterized by welding the cover 6 not only to the body case 1 but also to the partition wall 3. <P>COPYRIGHT: (C)2008,JPO&INPIT | ||||||
| 50 | Method and apparatus for manufacturing a sheet of composite material | JP2011502002 | 2009-03-25 | JP2011515255A | 2011-05-19 | ピルペル エドワード |
| 【課題】複合ラミネート材料を含んだ複合材料のシートを製造するための方法および装置を提供する。
【解決手段】複合材料を互いに横方向に隣接するように(サイド・バイ・サイド)配置することによって、複合材料の製品シートが製造される。 複合材料(36a、36b)は、熱可塑性マトリックス材料の中に繊維を有する。 隣接する複合材料は、固着されて複合材料の製品シートを供給する。 好ましくは、複合材料のクロス層(60)が複合材料(36a、36b)の上に配置される。 クロス層は、例えば単一方向指向性のシートであり、またクロス層の中の繊維は、例えば複合材料の中の繊維に対して横断するような関係で配置されている。 【選択図】図3 |
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| 51 | Laminating apparatus and method for manufacturing laminated cloth | JP2007323150 | 2007-12-14 | JP2009143114A | 2009-07-02 | MATSUNAGA MIKIFUSA; NOGATA AKIHIRO |
| PROBLEM TO BE SOLVED: To provide an apparatus and a manufacturing method by which the thickness of a synthetic resin containing a provided adhesive becomes uniform, two sheets of cloth can be laminated with a good positional accuracy, especially which are suitable for manufacturing airbag bodies. SOLUTION: In the laminating apparatus having at least two suction table for sucking and fixing the cloth and a providing means for providing the synthetic resin with adhesiveness to at least one sheet of cloth sucked and fixed on the suction table, the suction table has sucking holes communicating from the surface to the inside of the same, the number of the suction holes are 100/m 2 or more, the intervals between the suction holes are 2 cm or more, the total area of the suction holes is 20% or less of the surface area of a suction surface in which the suction holes are formed, and the diameter of the suction holes is 1 to 5 mm. COPYRIGHT: (C)2009,JPO&INPIT | ||||||
| 52 | Rubber member including aluminum-based metal component and production method for the same | JP2007088937 | 2007-03-29 | JP2008248285A | 2008-10-16 | ASANO HIDEAKI; SUGIURA TAKANORI; TAGUCHI TAKEHIKO; TOYAMA TOYOHISA |
| <P>PROBLEM TO BE SOLVED: To provide a rubber member including an aluminum-based metal component provided with a chemically formed film which is free from deterioration in adhesion to the aluminum-based metal component occurring due to heat applied for vulcanization of a rubber material, and is excellent in followability to deformation of the aluminum-based metal component; and to provide a production method for the same, which makes it easy to visually check the presence of the film on a surface of the aluminum-based metal component. <P>SOLUTION: A chemically formed film A is formed on an outer peripheral surface of the aluminum-based inner metal tube 2 in a contact state, an adhesive layer B is formed on an outer peripheral surface of the film A in a contact state, and a vibration damping rubber 1 is formed on an outer peripheral surface of the adhesive layer B in a contact state. The film A contains manganese oxide and zirconium oxide. In the film A, manganese from the manganese oxide is present in a content of 10 to 30 mg/m<SP>2</SP>on a manganese atom weight basis, and zirconium from the zirconium oxide is present in a content of 5 to 40 mg/m<SP>2</SP>on a zirconium atom weight basis. <P>COPYRIGHT: (C)2009,JPO&INPIT | ||||||
| 53 | Rotary damper and its manufacturing method | JP2007137401 | 2007-05-24 | JP2008215606A | 2008-09-18 | SUGANO HIDENORI; NAGASHIMA YOSHIHIKO; ITAGAKI MASANORI; SHIMURA RYOTA |
| <P>PROBLEM TO BE SOLVED: To provide a rotary damper capable of improving braking characteristics, by restraining deformation of a cover without reducing the volume of a chamber filled with a viscous liquid. <P>SOLUTION: The rotary damper has a partition wall 3 arranged between a body case 1 and a rotor 2, the viscous liquid filled in the chamber 4 partitioned by the partition wall 3, a vane 5 pressing the viscous liquid by rotating together with the rotor 2, and the cover 6 blocking up an opening part of the body case 1, and is characterized by welding the cover 6 not only to the body case 1 but also to the partition wall 3. <P>COPYRIGHT: (C)2008,JPO&INPIT | ||||||
| 54 | Method of manufacturing a rubber bushing with stabilizer bar | JP2005117700 | 2005-04-15 | JP4004512B2 | 2007-11-07 | 和義 丹羽; 聡司 丹羽; 康裕 寺西 |
PROBLEM TO BE SOLVED: To provide a manufacturing method of a stabilizer bar with a rubber bush capable of enhancing the productivity while preventing occurrence of abnormal noise, avoiding troubles such as degradation of the rubber bush by reducing the load of the rubber bush, and demonstrating the desired characteristics of the rubber bush. SOLUTION: The manufacturing method comprises an adhesive coating step of coating an adhesive on at least one of a fitting surface of a fitting part of a rubber bush and a fitted surface of a fitted part of a stabilizer bar 4, a fitting step of housing the fitting part to the fitted part, and a high frequency induction heating step of heating the fitted surface by performing the high frequency induction heating of a stabilizer bar portion 13 on both outer sides J1 in the axial direction of the rubber bush while holding the rubber bush by a pair of holding members 2A, 2B, and generating the adhesion reaction of the adhesive by heating the fitting surface from the fitted surface side. COPYRIGHT: (C)2007,JPO&INPIT |
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| 55 | Shock-absorbing components and method of forming | JP2000518219 | 1998-10-21 | JP3887705B2 | 2007-02-28 | ショーテン,マーティン・アール; スカジャ,ジョゼフ・ジェイ |
| 56 | Shock absorbing member and a method of manufacturing the resin-made car | JP50719196 | 1995-08-10 | JP3684238B2 | 2005-08-17 | 弘志 上西; 哲也 中村; 勝彦 多田; 賢 福田; 稔 菅原; 欣秀 遠藤; 洋 高井 |
| 57 | Small precision viscous damper | JP2001122990 | 2001-04-20 | JP2002021903A | 2002-01-23 | DERR CALVIN |
| PROBLEM TO BE SOLVED: To provide a damper leaking no inside damping element and having the uniform height. SOLUTION: This viscous damper is formed of a body having a cylindrical wall part, and this wall part has an edge part having a circular projection part in an upper part. A cap having a corresponding circular groove part element is arranged in an upper part of the body, and thus, the projection part and a groove part are mutually aligned. A resultantly formed tongue and groove joint-shaped part forms an airtightly sealed part by ultrasonic welding. The extremely accurate height important for a small or microscopic damper can be obtained by this special shape. COPYRIGHT: (C)2002,JPO | ||||||
| 58 | Method of manufacturing a structure protection cushioning material | JP52278297 | 1996-11-07 | JP2000502295A | 2000-02-29 | エル.ジュニア オルンドルフ、ロイ |
| (57)【要約】 金型内に硬化エラストマーからなるスペーサーを配置し、金型内にクラムエラストマーとプラスチック粉末とからなるアロイ混合物を前記エラストマースペーサーを覆うように注ぎ、アロイ混合物上にプラスチック粉末層を設け、プラスチック層及びエラストマープラスチック混合物を硬化させることによりエラストマープラスチックアロイを形成し、エラストマースペーサーを取り外すことによりアロイ内のエラストマースペーサーがあった部分に空隙を形成する。 エラストマースペーサーが硬化ゴムとアロイとの間の熱膨張差に基づき容易に外れる。 | ||||||
| 59 | Method for producing a press fit has been torsional vibration damper | JP1809295 | 1995-02-06 | JP2653397B2 | 1997-09-17 | HANSUUERUNAA SHUERUTO; HERUMUUTO RAU |
| 60 | Manufacture of press-fitted torsion vibrating damper | JP1809295 | 1995-02-06 | JPH0866966A | 1996-03-12 | HANSUUBUERUNAA SHIYUBUERUTO; HERUMUUTO RAU |
| PURPOSE: To obtain comparatively softer spring properties which lower the intrinsic frequency of a spring/mass series by using an adhesive or an adhesive mixture which is of such a type as to be activated and is curable at a normal temperature or is catalytically activated. CONSTITUTION: An adhesive to be used in this method is a silicone adhesive which is modified by a catalyst containing tin, e.g. tin octanoate sand is curable at as normal temperature and further, can be activated under thermal action at temperatures of upto 70 deg.C. In addition, the adhesive is mixed with a polyacrylate which forms a crosslinked adhesive film with a transition metal ion with catalytic actin, for example, Cu or Ni separated from a hug material or an elastomer material when constituent parts are assembled. After the mixing procedure, the mixture is applied to an adhesive face or the mixture ingredients are individually brought to the adhesive faces positioned opposite to each other before the joining of the adhesive faces. In the case of a two-component epoxy resin which is curable at a normal temperature, a crosslinking action take place automatically after a while. However, it is advantageous to promote the crosslinking action at a maximum 90 deg.C temperature. | ||||||
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