| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | FIBER-REINFORCED EPOXY COMPOSITES AND METHODS OF MAKING SAME WITHOUT THE USE OF OVEN OR AUTOCLAVE | EP13895066 | 2013-10-18 | EP3052565A4 | 2017-07-12 | BARNELL THOMAS J; RAUSCHER MICHAEL D; STIENECKER RICK D; NICKERSON DAVID M; TONG TAT H |
| 82 | Heater for impulse heat sealer | EP12176695.0 | 2012-07-17 | EP2548717A3 | 2013-10-30 | Hashimoto, Yasuo; Hashimoto, Yumi |
A heater (11, 12) for an impulse heat sealer for melting a seal portion of an object to be sealed by heating so as to seal the object to be sealed, comprises a braided rope formed by braiding a plurality of thread shape heating elements (111a). The heating element is a metal wire having a diameter of 0.1 to 0.5 mm.
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| 83 | Heater for impulse heat sealer | EP12176695.0 | 2012-07-17 | EP2548717A2 | 2013-01-23 | Hashimoto, Yasuo; Hashimoto, Yumi |
A heater (11, 12) for an impulse heat sealer for melting a seal portion of an object to be sealed by heating so as to seal the object to be sealed, comprises a braided rope formed by braiding a plurality of thread shape heating elements (111a). The heating element is a metal wire having a diameter of 0.1 to 0.5 mm.
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| 84 | METHOD FOR MANUFACTURING FILTRATION UNITS AND ASSOCIATED APPARATUS | EP08759540.1 | 2008-05-13 | EP2150387B1 | 2011-12-28 | TRASCINELLI, Filippo; COLOMBO, Enrico; BRANZI, Filippo |
| A method for manufacturing filtration units (2), for example for biomedical use and the like, constituted by a box-like enclosure (3) and a filtration element (4) which can be mutually assembled, comprising a step of injecting a retention element (6) in the fluid state in a seat (5), which is associated with the box-like enclosure, for accommodating the filtration element (4); a step of embedding an end of the filtration element (4) in a portion of the retention element (6) kept in the fluid state; and a step of consolidation of the retention element (6) in order to lock the filtration element (4) in the seat (5), the retention element (6) being a thermoplastic polymeric material which can be applied by hot injection in a preset closed volume of the seat (5). | ||||||
| 85 | OPTICAL DISC MOLDING DIE HAVING STAMPER HOLDING SURFACE APPLIED WITH HEAT INSULATING LAYER AND DIAMOND-LIKE CARBON FILM, AND MOLDING METHOD USING IT | EP04746280.9 | 2004-06-23 | EP1640132A1 | 2006-03-29 | NAKAYAMA, Masatoshi |
A mold for molding optical discs is provided which has decreased molding cycle time and increased life of use of the mold, using a stamper-holding surface in a molding cavity of a mold, a heat insulation layer integrally formed on the surface and a diamond-like carbonaceous layer integrally formed on the heat insulation layer, said diamond-like carbonaceous layer has a composition represented by the following formula: CHaObNcFdBePf where a = 0.05 - 0.7, b = 0 - 1, c = 0 - 1, d = 0 - 1, e = 0 - 1 and f = 0 - 1, in terms of atomic ratio. |
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| 86 | Optical disc mold having diamond-like carbonaceous layer (DLC) and a molding method using the same | EP04026208.1 | 2004-11-04 | EP1547748A1 | 2005-06-29 | Ishikawa, Makoto, Technos Co.Ltd,Yokohama Factory |
In order to shorten the cycle time of the molding operation, the present invention provides a mold for molding optical discs wherein irregularity having a controlled surface roughness is formed on a stamper-holding surface (14) in a molding cavity (7) of a mold in such degree that said irregularity is not transferred to the stamper surface, and a diamond-like carbonaceous layer (15) is integrally formed on said surface. A method for molding optical discs comprising steps of mounting a stamper (1) having an information pattern surface onto a stamper holding surface (14) in a molding cavity (7) of a mold according to the present invention and injecting a molten resin material into the cavity (7). |
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| 87 | Mold and method for producing molded fluoroelastomer parts | EP00303612.6 | 2000-04-28 | EP1048432A1 | 2000-11-02 | Osawa, Yasuhisa, Silicone-Elect. Mat. Res. Center |
A mold for producing molded fluoroelastomer parts has a mold cavity, a gate, and a runner and a sprue through which the gate communicates with an injection molding machine wherein an inorganic filler-containing crosslinkable liquid fluoroelastomer composition is injected into the mold cavity through the gate. The gate portion of the mold is surface treated with diamond-like carbon and has a cross-sectional area where it opens out into the mold cavity of 0.075-10 mm2. This combination of features lowers wear at the mold gate, thereby increasing the useful life of the mold, and also improves the mold release properties. |
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| 88 | RIGID CORE FOR TIRE MOLDING AND TIRE MANUFACTURING METHOD | EP15761933 | 2015-02-18 | EP3117976A4 | 2017-08-30 | YAGUCHI MASASHI |
| There was a demand for: a rigid core for tire molding that is formed using lighter weight segments with sufficiently low coefficient of thermal expansion and sufficient hardness and strength instead of conventional segments that had a variety of problems; and a tire manufacturing method, which is capable of manufacturing tires with improved productivity without causing increased size of molding equipment or vulcanization equipment by using said rigid core for tire molding. A rigid core for tire molding having a core body on the outer surface of which a tire-molding surface is formed and a cylindrical core that is inserted in the central hole of the core body, the rigid core being characterized in that the core body is formed in a ring-shape by multiple core segments that are divided in the tire circumference direction and the core segments are manufactured using a carbon fiber-reinforced resin. | ||||||
| 89 | RIGID CORE FOR TIRE MOLDING AND TIRE MANUFACTURING METHOD | EP15761933.9 | 2015-02-18 | EP3117976A1 | 2017-01-18 | YAGUCHI, Masashi |
There was a demand for: a rigid core for tire molding that is formed using lighter weight segments with sufficiently low coefficient of thermal expansion and sufficient hardness and strength instead of conventional segments that had a variety of problems; and a tire manufacturing method, which is capable of manufacturing tires with improved productivity without causing increased size of molding equipment or vulcanization equipment by using said rigid core for tire molding. A rigid core for tire molding having a core body on the outer surface of which a tire-molding surface is formed and a cylindrical core that is inserted in the central hole of the core body, the rigid core being characterized in that the core body is formed in a ring-shape by multiple core segments that are divided in the tire circumference direction and the core segments are manufactured using a carbon fiber-reinforced resin. |
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| 90 | SCHWEIßSPIEGEL ODER VERSCHLEIßPLATTE | EP15703987.6 | 2015-02-11 | EP3107713A1 | 2016-12-28 | HAMER, Burkhard; SEITZ, Ferdinand |
| Welding mirror (1) or wear plate. The invention relates to a welding mirror for welding polyolefins, comprising a base material (4) which can be heated by heating elements; and a contact layer which is disposed on the base material (4) and is intended to come into contact with the polyolefins during melting thereof. The welding mirror according to the invention is characterised in that the contact layer (3) has a metal carrier matrix (5) having non-metallic particles (6) embedded therein. Moreover, the invention comprises a wear plate (7) for releasable connection to a welding mirror (1), wherein the wear plate (7) supports the contact layer. | ||||||
| 91 | FIBER-REINFORCED EPOXY COMPOSITES AND METHODS OF MAKING SAME WITHOUT THE USE OF OVEN OR AUTOCLAVE | EP13895066.2 | 2013-10-18 | EP3052565A1 | 2016-08-10 | BARNELL, Thomas J.; RAUSCHER, Michael D.; STIENECKER, Rick D.; NICKERSON, David M.; TONG, Tat H. |
| Method embodiments for producing a fiber-reinforced epoxy composite comprise providing a mold defining a shape for a composite, applying a fiber reinforcement over the mold, covering the mold and fiber reinforcement thereon in a vacuum enclosure, performing a vacuum on the vacuum enclosure to produce a pressure gradient, insulating at least a portion of the vacuum enclosure with thermal insulation, infusing the fiber reinforcement with a reactive mixture of uncured epoxy resin and curing agent under vacuum conditions, wherein the reactive mixture of uncured epoxy resin and curing agent generates exothermic heat, and producing the fiber-reinforced epoxy composite with a glass transition temperature of at least about 100°C by curing the fiber reinforcement infused with the reactive mixture by utilizing the exothermically generated heat, wherein curing is conducted inside the thermally insulated vacuum enclosure without utilization of an external heat source or an external radiation source. | ||||||
| 92 | Procédé de fabrication d'un moule pour pièces en matériau polymère nanostructurées | EP09354046.6 | 2009-11-02 | EP2181824B1 | 2011-07-13 | Gavillet, Jérôme; Juliet, Pierre |
| 93 | METHOD FOR MANUFACTURING FILTRATION UNITS AND ASSOCIATED APPARATUS | EP08759540.1 | 2008-05-13 | EP2150387A1 | 2010-02-10 | TRASCINELLI, Filippo; COLOMBO, Enrico; BRANZI, Filippo |
| A method for manufacturing filtration units (2), for example for biomedical use and the like, constituted by a box-like enclosure (3) and a filtration element (4) which can be mutually assembled, comprising a step of injecting a retention element (6) in the fluid state in a seat (5), which is associated with the box-like enclosure, for accommodating the filtration element (4); a step of embedding an end of the filtration element (4) in a portion of the retention element (6) kept in the fluid state; and a step of consolidation of the retention element (6) in order to lock the filtration element (4) in the seat (5), the retention element (6) being a thermoplastic polymeric material which can be applied by hot injection in a preset closed volume of the seat (5). | ||||||
| 94 | INJECTION MOULD | EP99902925.9 | 1999-01-25 | EP0979164A1 | 2000-02-16 | VAN HOUT, Petrus, Johannes, Frederik, Joseph; VOETS, Martinus, Henricus, Joseph; SMEETS, Jozef |
| An injection mould for manufacturing disc-like information carriers comprises: two mould parts (22, 25) mutually movable between a closed and an open position, which mould parts bound in closed position a mould cavity (7) into which in the closed position heated plasticized plastic can be injected by means of supply means, wherein one flat end surface of the mould cavity carries a mechanical pattern which corresponds with the information for arranging on the information carrier to be manufactured, wherein at least a part of the active surfaces is provided with a coating (72, 28) which does not consist of TiN and which reduces the coefficient of friction of the relevant surface to a value which amounts to a maximum of 60 % of the value obtainable with a coating of TiN, which coefficient of friction amounts for instance to a maximum of 0.3 with said insert disc consisting predominantly of nickel; wherein at least said cylindrical (8, 9, 10) inner surface or outer surface is provided with said coating. | ||||||
| 95 | 光反射部品及びその製造方法 | JP2014522359 | 2012-11-28 | JPWO2014002305A1 | 2016-05-30 | 史幸 大竹 |
| 連続成形性、耐熱性、及び表面性(低拡散反射率)に優れる光反射部品及びその製造方法を提供する。(A)ポリアリーレンスルフィド樹脂100質量部と、(B1)繊維長が1〜5mmの繊維状無機充填剤10〜120質量部と、(C)粉粒体充填剤10〜220質量部と、を含む混合物を溶融混練して得られる樹脂組成物を、ダイヤモンド状炭素被膜でキャビティ表面を表面処理した金型を用いて射出成形する工程を有する光反射部品の製造方法である。 | ||||||
| 96 | 複合材成形治具および複合材成形治具の製造方法 | JP2010283688 | 2010-12-20 | JP5709512B2 | 2015-04-30 | 清水 隆之; 永友 勇也; 三輪 大輔; 荒川 宗平 |
| 97 | カーボン薄膜、光学素子成形用金型及び光学素子の製造方法 | JP2012542896 | 2011-11-04 | JPWO2012063735A1 | 2014-05-12 | 恒一郎 岩堀 |
| ta−C薄膜(1A)は、基材(10)上に、第1の単位構造(11)及び第2の単位構造(12)がこの順に積層されてなる。前記第1の単位構造(11)は、第1層(11a)及び第2層(11b)でsp3結合の含有量が互いに異なり、第2層(11b)及び第3層(11c)でsp3結合の含有量が互いに異なる。前記第2の単位構造(12)は、第1層(12a)及び第2層(12b)でsp3結合の含有量が互いに異なり、第2層(12b)及び第3層(12c)でsp3結合の含有量が互いに異なる。 | ||||||
| 98 | スタンパ、物品およびそれらの製造方法 | JP2011545963 | 2011-09-28 | JPWO2012043607A1 | 2014-02-24 | 浩昭 北; 孝太 白井; 克宏 小嶋 |
| 本発明は、Tiの含有量が150〜500ppmであり、BまたはCの含有量が1〜50ppmである純度99.9%以上のアルミニウムからなるアルミニウム基材(10)の表面に、アスペクト比(細孔(12)の深さ/細孔(12)間の平均間隔)が1〜4である複数の細孔(12)からなる微細凹凸構造を有する酸化皮膜(14)が形成されたスタンパ(18)に関する。本発明によれば、結晶粒の痕跡に由来する模様の酸化皮膜の表面への出現が抑制され、かつ低コストであるスタンパ、及びこのスタンパを用いて製造された外観の良好な物品およびそれらの製造方法を提供することができる。 | ||||||
| 99 | Production method and associated apparatus of filtration unit | JP2010507900 | 2008-05-13 | JP2010527253A | 2010-08-12 | エンリコ コロンボ; フィリッポ トラシネリ; フィリッポ ブランジ |
| 相互に組み立てることができる、少なくとも一つの箱状のエンクロージャ(3)及び濾過要素(4)によって構成される、例えば生体医学用途等の濾過ユニット(2)の製造方法であって、濾過要素を収容するための箱状のエンクロージャと関連した座部(5)に、流体状態の保持要素(6)を注入するステップと、濾過要素(4)の少なくとも一端を、流体状態に保たれた保持要素(6)の一部分に埋設するステップと、座部(5)に濾過要素(4)をロックするために、保持要素(6)の固化のステップとを含み、保持要素(6)は、座部(5)の所定閉容積内に熱注入によって加えることができる、熱可塑性高分子材料である。 | ||||||
| 100 | Production method for mold for nanostructured polymer product | JP2009253066 | 2009-11-04 | JP2010115922A | 2010-05-27 | GAVILLET JEROME; JULIET PIERRE |
| PROBLEM TO BE SOLVED: To provide a production method for a mold with improved life time and low cost in regard to producing a nanopatterned product. SOLUTION: The production process for mold deposits a barrier thin layer 4 and a thin layer of diamond-like carbon 5 on a metal support 2 and performs nanopatterning on the thin layer of diamond-like carbon 5 as follows: a selective chemical etching is conducted in dry phase through a hard mask 8 where the etching stops at an interface between the thin layer of diamond-like carbon 5 and the barrier thin layer 4. The hard mask 8 used is a void lattice 11 whose outline is defined by nanoparticles 10 deposited beforehand on a free surface. A laminated coating composed of the barrier thin layer 4 and the patterned thin layer of diamond-like carbon 5 has a thickness between about 100 nm and about 10 μm. COPYRIGHT: (C)2010,JPO&INPIT | ||||||
