| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | Metal porous body | JP2003355027 | 2003-10-15 | JP2004214171A | 2004-07-29 | FUKUNAGA HIROSHI; KISHIMI MITSUHIRO; MORISHIMA MASAO; YAMASHITA TOSHIHIKO |
| <P>PROBLEM TO BE SOLVED: To provide a metal porous body of a cross section three-dimensional structure without any flash or sharp jutted parts on the surface, with a number of micro pores arrayed in a micro pitch, and yet with a rigid skeleton structure in spite of its light weight. <P>SOLUTION: The metal porous body 1 has numerous juts 3 formed to protrude alternately in front and back of a metal plate 2. Each jut 3 is formed in a frustum of a pyramid with an area of its upper base 5 (a jutted part) smaller than that of its lower base 6. At the upper base 5 of each jut 3 is formed an opening part 8 punched out in a direction from the upper base 5 to the lower base 6 so that a shape of the upper side opening part become a polygon. Further, when a thickness of the metal porous body 1 is d, and a height of the punched part e, a size of each part is set so as to satisfy: 0.3 < e/d < 0.9. <P>COPYRIGHT: (C)2004,JPO&NCIPI | ||||||
| 62 | Method of manufacturing for seamless tube engraved mechanically | JP2001350184 | 2001-11-15 | JP2002178027A | 2002-06-25 | FENSKE WILLI |
| PROBLEM TO BE SOLVED: To produce a chimney-shaped hole having accurate size on a tubular member. SOLUTION: By mounting the intermediate layer of a material which can be etched on a core roll and mounting at least one layer of metallic layer on the intermediate layer, a metallic tube is formed on the core roll and, after performing each engraving step by repeating the engraving step, that is, mechanical engraving and forming of the chimney-shaped hole in the metallic tube by removing metal from a selected position of the metallic tube engraved by performing the engraving step. Thus, the chimney-shaped hole is formed in the metallic tube, and the intermediate layer is removed by etching and a mechanically engraved tube is dismounted from the core roll. | ||||||
| 63 | Rounded member for chain and method of manufacturing the same | JP2000119815 | 2000-04-20 | JP2001304346A | 2001-10-31 | NAKAGAWA TAKERO; MAEDA YUKIHIKO; TAMIYA ATSUHIRO; KIMURA TAKESHI; KONDO GOJI |
| PROBLEM TO BE SOLVED: To provide a rounded member for a chain and a method of manufacturing the rounded member, preventing the occurrence of a wavy phenomenon at the end face of the rounded member, impeding the leakage of a lubricant proceeding in the axial direction of the rounded member and improving oil retainability at a rotatory-sliding part. SOLUTION: This rounded member 4 for the chain is provided with a plurality of blind holes 2 for absorbing plastic deformation, at pushing through of a circular die, formed zigzag on at least one of the inner peripheral surface and the outer peripheral surface, and a plurality of recessed parts formed on any imaginary straight line in the axial direction of the rounded member by the blind holes 2. | ||||||
| 64 | Reinforcements that are obtained by the method and the method for producing a reinforcement for reinforcing concrete structures | JP50695190 | 1990-04-10 | JP2704042B2 | 1998-01-26 | ゲリン,ジョルジュ・ジョセフ・ミシェル; テメニデ,ミシェル |
| 65 | Method of manufacturing a seamless tube was mechanical engraving | JP51246394 | 1993-11-16 | JPH08503521A | 1996-04-16 | FENSKE WILLI |
| (57)【要約】 マンドレルで薄いステンレス管(10)を支え、この管(10)を貫く煙突形状の穴(12)を機械彫刻した後、この機械彫刻した管をそのマンドレルから取り外すことによる、穴の開いている管状部材を製造する方法。 代替態様では、アルミニウムの中間層(22)をコアロール(20)に取り付け、この中間層(22)に多数の金属層(24)を取り付け、この金属層(24)を貫く煙突形状の穴(12)を機械彫刻し、この中間層(22)をエッチングで除去し、そしてこの機械彫刻された管を取り出す。 3番目の態様では、剥離用化学品の層(32)をコアロール(30)に取り付け、多数の金属層(34)を電気メッキし、煙突形状の穴(12)をこの金属層(34)の中に機械彫刻し、その結果として得られる管をその剥離層(32)から剥離させ、そしてその結果として得られる管をそのコアロールから取り外す。 | ||||||
| 66 | JPH0431771B2 - | JP11164584 | 1984-05-30 | JPH0431771B2 | 1992-05-27 | |
| 67 | JPH0420800B2 - | JP19652787 | 1987-08-07 | JPH0420800B2 | 1992-04-06 | NOOMAN DEII BERU |
| 68 | JPH03500932A - | JP50931689 | 1989-08-17 | JPH03500932A | 1991-02-28 | |
| 69 | Forming device for slat with rib pattern or rugged pattern for shutter | JP1332682 | 1982-02-01 | JPS58343A | 1983-01-05 | KAGAWA TOKIYOSHI |
| PURPOSE:To obtian the titled forming device which forms a slat directly of a finished painted steel plate, by incorporating plural forming rolls and a forming roll, worked in such a way that a rib or pattern rugged pattern is formed on a slat surface, in a roll forming device. CONSTITUTION:In a forming device consisting of a known main roll group, forming rolls for a rib 3 and a forming roll for a rib pattern or unevenness pattern 4 are incorporated. To form both the rib 3 and the pattern 4, both rolls are used. To form only the rib 3 or pattern 4, one roll which is not in use is lifted and put off a pass line. During this period, a slat only slides on the lower roll, and causes no problem in roll formation. If the roll has unevenness, a difference in peripheral speed is generated and a beautiful surface is not obtained, so proportion parts having the pattern 4 are made to rotate. For this purpose, the main rolls are rotated only by frictional force by disengaging gears succeeding a driving source. | ||||||
| 70 | Embossing machine | JP7772681 | 1981-05-21 | JPS57193257A | 1982-11-27 | ISONISHI MINORU |
| PURPOSE:To eliminate the deviations and troubles of a device and to facilitate adjustment of roll gaps by moving a supporting roll vertically in adjusting the gap between the same and an embossing roll. CONSTITUTION:Bolts 18 of a coupling 16 are removed to disengage bevel gears 13 and 13' and the gap between an embossing roll 1 and a supporting roll 2 on the right side is adjusted with respect to the gap between the embossing roll and the roll 2 on the left side by turning a handle 14. Thereafter, the coupling 16 is joined, and again the position of the roll 2 with respect to the roll 1 is adjusted in accordance with the thickness of a plate material and the desired depth of embossing patterns. A speed change motor 3 is driven to revolve the roll 1, and the plate material is inserted between said roll and the roll 2. | ||||||
| 71 | METHOD FOR PRODUCING NETWORK-LIKE METAL MATS, APPARATUS FOR CARRYING OUT THE METHOD, AND METAL MAT PRODUCED BY SAID METHOD | PCT/DE2011001503 | 2011-07-20 | WO2012031577A3 | 2012-06-07 | STAHL KARL-HERMANN |
| The method serves for producing network-like metal mats from metallic strip material, for which purpose the strip material is first provided with notches (2), running parallel to one another, for the forming of metal wires (1), by means of notching rollers. The notches (2) are thereby formed to such depths, depending on the material, that as far as possible no sliding fractures are formed. The notches (2) are interrupted by unnotched regions - the mutual spacing of which in the respective notch (2) determines the later possible mesh width - at least in such a way that they later form network nodes (4). The network nodes (4) are offset by approximately half a network node spacing in the respectively adjacent notches (2). Then, the strip, formed in this manner, is subjected to a flexing process, in which the webs (3) adjoining the base of the notch and still connecting the metal wires (1) to one another undergo multiple bending deformation about the longitudinal axis thereof in such a way that incipient cracks occur as a result of fatigue fracture. This leads to the complete separation of the metal wires (1) in the region of the webs (3), while no incipient cracks form at the network nodes (4). Finally, the strip material is subjected to transverse tensile forces acting on both its peripheral metal wires (1), whereby a widening deformation of the wire strip (5) into a network-like structure takes place. The invention also relates to an apparatus for carrying out the method and to a metal mat produced by said method. | ||||||
| 72 | プロファイル | JP2017512703 | 2015-09-07 | JP2017530010A | 2017-10-12 | カステルッチ、マイケル |
| 第1の部分(2)および第2の部分(3)を有する長尺状のプロファイル(1)。第1および第2の部分(2、3)は、第1の接合部分(JP1)において一緒に接合されており、第1および第2の部分(2、3)は、同一線上になく、接合部分(JP1)は、持ち上がったまたは窪んだ複数の形成部(10a)からなるアレイを備え、それぞれの形成部は、プロファイルの主軸に対して平行でない方向に接合部分(JP1)を横切って延在しており、平坦なランド部がアレイ(10A)の連続する形成部同士の間に設けられており、アレイの連続する形成部同士の間のピッチ(P)は平坦なランド部の厚さ(G)の2倍から20倍、たとえば、5倍から15倍である。 | ||||||
| 73 | 網状金属シートの製造方法及び製造装置 | JP2013527469 | 2011-07-20 | JP6193123B2 | 2017-09-06 | シュタール, カール−ヘルマン |
| 74 | 摩擦継手のための鋼製摩擦層板を製造する方法 | JP2016171228 | 2016-09-01 | JP2017083007A | 2017-05-18 | SAMI OEZKAN; MICHAEL EISENSCHMID |
| 【課題】摩擦継手に用いられる鋼製層板本体の一番上の表面は、焼結コーティング又はモリブデンコーティングされている。これらは、全体的に多層構造で製造されているため製造工程を複雑にし、製造コストを高くする。本発明の目的は、良心的な価格/優れた性能比によって区別される摩擦層板を提供することである。【解決手段】摩擦層板(10)を製造する方法に関し、その方法は、少なくとも1つの面上にマクロ構造(20)を備えた鋼板を供給するステップ、及び摩擦層板ブランクを前記鋼板から分離して、環状層板本体(14)に加工処理するステップを含む。【選択図】図2 | ||||||
| 75 | 統合されたセキュリティ機能を有するアルミフォイルを製造するための方法 | JP2014531043 | 2012-08-27 | JP5996653B2 | 2016-09-21 | ブルンターラー、クリストフ; ハベル、ライナー; コーンフェルド、マルティン; シェデル、アドルフ; ネクラ、ラムベルト; ツゼル、ビルヘルム; シャルネル、エンゲルベルト |
| 76 | 処理を行うための装置で使用する表面改善壁部を形成する方法、表面改善壁部、及び、表面改善壁部を組み入れた装置 | JP2012548924 | 2010-08-27 | JP5905830B2 | 2016-04-20 | スミス、ザ サード、リチャード、エス.; フラー、ケヴィン; ククルカ、デイヴィッド、ジェイ. |
| 77 | 統合されたセキュリティ機能を有するアルミフォイルを製造するための方法 | JP2014531043 | 2012-08-27 | JP2015502254A | 2015-01-22 | ブルンターラー、クリストフ; ハベル、ライナー; コーンフェルド、マルティン; シェデル、アドルフ; ネクラ、ラムベルト; ツゼル、ビルヘルム; シャルネル、エンゲルベルト |
| 本発明は、アルミフォイル(1)を製造するための方法、および統合されたセキュリティ機能(6)を有するアルミフォイルに関する。アルミフォイル(4)を、冷間圧延の数回のパスで、150μm未満の厚さに圧延し、同時に、アルミフォイルの両方の表面側に、圧延方向に延びているテクスチャを形成し、これらのアルミフォイル(4)のうちの少なくとも2つから、緩い複合体を形成し、該緩い複合体を、冷間圧延の最後のパスで、作業ロール対(9)に供給し、該作業ロール対では、少なくとも1つのロール表面(11)上に、研削によって圧延方向に作られたレリーフ状の表面構造を、セキュリティ機能(6)のためのモチーフ(6?)を形成すべく、コントラストおよびモチーフに従って、平均粗さに対し10ないし50%の範囲で、減少し、モチーフを、アルミフォイルの、ロール表面に向いた表面側に転写し、その後、アルミフォイル(1)の緩い複合体を分離する。【選択図】図4a | ||||||
| 78 | Method and apparatus for manufacturing a reticulated metal sheet | JP2013527469 | 2011-07-20 | JP2013537851A | 2013-10-07 | カール−ヘルマン シュタール, |
| The method serves for producing network-like metal mats from metallic strip material, for which purpose the strip material is first provided with notches (2), running parallel to one another, for the forming of metal wires (1), by means of notching rollers. The notches (2) are thereby formed to such depths, depending on the material, that as far as possible no sliding fractures are formed. The notches (2) are interrupted by unnotched regions-the mutual spacing of which in the respective notch (2) determines the later possible mesh width-at least in such a way that they later form network nodes (4). The network nodes (4) are offset by approximately half a network node spacing in the respectively adjacent notches (2). Then, the strip, formed in this manner, is subjected to a flexing process, in which the webs (3) adjoining the base of the notch and still connecting the metal wires (1) to one another undergo multiple bending deformation about the longitudinal axis thereof in such a way that incipient cracks occur as a result of fatigue fracture. This leads to the complete separation of the metal wires (1) in the region of the webs (3), while no incipient cracks form at the network nodes (4). Finally, the strip material is subjected to transverse tensile forces acting on both its peripheral metal wires (1), whereby a widening deformation of the wire strip (5) into a network-like structure takes place. | ||||||
| 79 | Production method of packaging for strip | JP2011504479 | 2009-04-17 | JP2011520611A | 2011-07-21 | ジーメン アンドレアス; シェンケル ヴィルヘルム; エッティンク ヴォルフ; デンクマン フォルカー; カスペル ボリス |
| A method for producing a strip consisting of aluminum or an aluminum alloy for packaging purposes, in particular for cans, can lids or can closures, which provides an individualized aluminum strip for packaging purposes, with which decorative or identification elements can be reliably embossed without additional production steps being required, for example at the producer of the packaging means, is achieved in that decorative or other identification elements are embossed into the strip in the last rolling pass of cold rolling and in that the strip thickness is greater in the area of the decorative and identification elements than in the remaining areas of the strip. | ||||||
| 80 | Manufacturing method of an endless metal belt for a metal ring | JP2003048757 | 2003-02-26 | JP4319425B2 | 2009-08-26 | 克幸 中島; 仁司 今井; 弘 武田; 正信 石川; 知己 神阪 |
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