| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | 時計または宝飾品の部品のための装飾されたエレメントを作製する方法、およびこの方法によって作製されるエレメント | JP2015228598 | 2015-11-24 | JP6110924B2 | 2017-04-05 | グレゴリー・キスリング; ステファーヌ・ローペル; イゴール−エマニュエル・ウルドリ; マルク・ストランツル; ステファーヌ・キンキオ; セバスチャン・オステットレ; ジリアーヌ・ビュリ |
| 122 | 過酸化物架橋および高温溶融 | JP2016524502 | 2014-10-16 | JP2016536391A | 2016-11-24 | ムラトグル、オルフン、ケイ; オラル、エブル |
| 過酸化物架橋および高温溶融工程を用いて耐酸化性および耐摩耗性のあるポリマー材料を作る方法が開示される。また、このような材料の製造をサイズ制限なく可能にする複数ステップの手順も開示される。 | ||||||
| 123 | 多層構造成分、その製造方法及びその使用 | JP2016517537 | 2014-09-23 | JP2016534892A | 2016-11-10 | フィリップ、メーラー; ウルリヒ、グローサー; トーマス、グリム; ロルフ、アルバッハ; ローラント、ブランブリンク; ベルント、ブロイアー |
| 本発明は、第一及び第二繊維−複合体層(102、104、122、124、172、174)及び、それらの間に配置された、発泡プラスチック材料から製造された発泡体層(106、126、176)を含んでなる、多層構造成分(84、110、120、170)であって、第一及び第二繊維−複合体層(102、104、122、124、172、174)が、それぞれ少なくとも一つの、繊維材料から製造された繊維層(4、16、18、24)を有し、該繊維層が、熱可塑性プラスチック系マトリックス(8、20)の中に埋め込まれている、多層構造成分に関する。構造成分は、力−導入要素に取り付けるための固定構造(140)を有する。本発明は、さらに多層構造成分(84、110、120、170)の製造方法であって、第一及び第二繊維−複合体シート(2、12、48、52)を用意し、第一及び第二繊維−複合体シート(2、12、48、52)が、それぞれ少なくとも一つの、繊維材料から製造された繊維層(4、16、18、24)を有し、該繊維層が、熱可塑性プラスチック系マトリックス(8、20)の中に埋め込まれており、第一繊維−複合体シート(2、12、48、52)が、熱成形され、第一繊維複合体半加工製品(64、86、88)を形成し、第二繊維−複合体シート(2、12、48、52)が、熱成形され、第二繊維複合体半加工製品(64、86、88)を形成し、第一及び第二繊維複合体半加工製品(64、86、88)が、発泡型(90)の中に、第一及び第二繊維複合体半加工製品(64、86、88)の間にキャビティ(96)が形成される様に配置され、キャビティ(96)が、発泡プラスチック材料の注入により発泡する、方法に関する。さらに、固定構造(140)が構造成分の中に一体化される。 | ||||||
| 124 | 複数のブロー成形工程を経て形成された容器 | JP2014541399 | 2012-11-13 | JP2015502298A | 2015-01-22 | ウィルソン,ブラッドリー; ベイツ,ピーター; シー. ボイエリ,フレデリック; デイヴィッド リッシュ,ジョージ; スタイ,リチャード |
| プリフォームから容器を形成するシステムは、上記プリフォームを収容可能であり、また上記プリフォームから上記容器の第1フォームをブロー成形可能な、第1の型を備える。上記システムはまた、上記第1フォームを収容可能であり、また上記第1フォームから上記容器の第2の形状をブロー成形可能な、第2の型も備える。上記プリフォーム、上記第1フォーム、および上記第2フォームのそれぞれは実質的に共通する移行壁を有する。また、上記第1フォームは、材料が所望する通りに容器全体に分布すること、壁面強度が高いこと、結晶化度が高いこと、を確実にするための様々な特徴を備えることができる。 | ||||||
| 125 | 折り畳み式ボトル、そのようなボトルのブランクを製造する方法、および飲料充填ボトルの分配システム | JP2012516436 | 2010-06-21 | JP5645930B2 | 2014-12-24 | トーマス リードル ジョン |
| 126 | Electrospinning of ptfe including high-viscosity material | JP2013126693 | 2013-06-17 | JP2013231269A | 2013-11-14 | BRUCE L ANNEAUX; ROBERT BALLARD; DAVID P GARNER |
| PROBLEM TO BE SOLVED: To provide a method for electrospinning a high-viscosity PTFE dispersion and to provide a PTFE mat obtained thereby.SOLUTION: A dispersion including PTFE, a fiberizing polymer and a solvent and having a viscosity of at least 50,000 cP is supplied to an electrospinning apparatus including a charge source and a target at a fixed distance from the charge source. The dispersion is electrostatically charged by contact with the charge source. The charged dispersion is collected on the target to form a mat precursor. The mat precursor is heated to remove the solvent and the fiberizing polymer, thereby forming a PTFE mat. | ||||||
| 127 | Electrospinning of ptfe containing high viscosity material | JP2011546430 | 2010-01-19 | JP5300987B2 | 2013-09-25 | ブルース エル. アノー; ロバート バラード; デイビッド ピー. ガーナー |
| An improved process for forming a PTFE mat is described. The process includes providing a dispersion with PTFE, a fiberizing polymer and a solvent wherein said dispersion has a viscosity of at least 50,000 cP. An apparatus is provided which comprises a charge source and a target a distance from the charge source. A voltage source is provided which creates a first charge at the charge source and an opposing charge at the target. The dispersion is electrostatically charged by contact with the charge source. The electrostatically charged dispersion is collected on the target to form a mat precursor which is heated to remove the solvent and the fiberizing polymer thereby forming the PTFE mat. | ||||||
| 128 | Blow-molded bottle preform | JP2007012521 | 2007-01-23 | JP5127243B2 | 2013-01-23 | 俊三 宮崎; 泰祐 佐藤; 克正 冨澤; 浩司 小野; 尚浩 尾澤; 宏幸 仲根 |
| 129 | コンタクトレンズの製造方法 | JP2008555990 | 2007-02-01 | JPWO2008093421A1 | 2010-05-20 | 武司 杉山; 昌浩 松本; 克尋 岩井 |
| 本発明の課題は、製造コストの低減を図りうると共に、優れた形状安定性を有するレンズブランクを得ることの出来る、新規なコンタクトレンズの製造方法を提供することにある。かかる課題を解決するために、重合性材料32を成形型18の成形キャビティ30内に自由表面64を有する状態で注入した後に、鉛直方向に延びる回転中心軸49に対して該成形型18の底面26を外側に向けた状態で該成形型18を該回転中心軸49回りに回転せしめつつ重合成形することによってレンズブランク66を成形するようにした。 | ||||||
| 130 | Expandable styrene resin particles and styrene-based resin foam molded product obtained from the particles | JP15887994 | 1994-07-11 | JP2983435B2 | 1999-11-29 | YAMAGATA HIROYUKI; MORIOKA IKUO; SHIMADA MUTSUHIKO |
| 131 | Molding method of a multilayer molded article | JP5630595 | 1995-03-15 | JP2901051B2 | 1999-06-02 | OOTA TETSUYUKI; HARA MASAHIKO |
| 132 | In thin-walled thermoplastic elastomer, a closed end, the manufacturing method of the tubular article | JP51472495 | 1994-11-25 | JPH09505246A | 1997-05-27 | タンコビツツ,オスカー・テイ; ミラー,ウイリアム・シー; ミラー,ロバート・ジー |
| (57)【要約】 熱可塑性エラストマーの薄壁で、閉鎖末端の、チューブ状の物品をプラグアシストで圧伸成形する方法、並びに熱可塑性エラストマーおよびそのための装置が開示される。 本方法によれば、金型キャビティ(5)中に伸張できるプラグ(6)を、予備成形物の両表面間の種々の空気差圧と同時に使用して、金型の壁からの圧伸成形物品の流動をチューブ状金型の縦軸方向に偏向する。 物品が実質的にチューブ状金型の長さに圧伸成形された時点に、金型を排気して、最終的に物品は金型の壁にしたがって成形される。 かかる物品はコンドームまたは指サックとして有用に使用される。 | ||||||
| 133 | Method and apparatus for recycling plastic purge | JP7112994 | 1994-04-08 | JPH07276365A | 1995-10-24 | SHIIBORUTO HETSUTEINGA; PIITAA JIEI AATSU |
| PURPOSE: To provide a method and apparatus for recycling purges ejected from a plastic injection molding machine. CONSTITUTION: A purge recycling apparatus has the hopper 18 arranged under the ejection nozzle of an injection molding machine and purges 10 are discharged from the ejection nozzle 16 to fall into the hopper 18 and drawn out of the hopper 18 downwardly by two cooperating compression rollers 22. The compression rollers 22 have two functions compressing the purges 10 and molding the compressed purge into a regenerable shape. A compression-molded purge 30 is kept to be utilized for reuse. | ||||||
| 134 | Method for simultaneous production of many moldings | JP11850189 | 1989-05-11 | JPH0224106A | 1990-01-26 | OTSUTOO HOFUSUTETAA; RUISU FUERUNANDESU |
| PURPOSE: To avoid occurrence of an opaque fringe by making a distribution and/or supply to a cavity uniform across a specific tube section by heat conduction at a temperature distribution of a viscous material, thereby achieving uniformity of a crystalline part of the material supplied to the cavity. CONSTITUTION: When a liquid-like or viscous material G is fed via a tube having a circular section, an additional secondary vortex W occurs at a cross section 5 of a substantially deviated from a circular shape or triangular shape. The tube sectional shape is provided so that an additional vortex is generated as seen from the first vortex of the turbulent flow in the material flowing parallel to an axial direction in a tubular sleeve 2 having a substantially circular cross section 3. The vortex W is formed, and excited by a most simple means for mixing the material G by replacing the partially radial flow. The flow of the material G is observed to all the flow section, excited by various strengths, the vortex is excited around a center of the vortex discontinuously distributed and uniformly mixed. COPYRIGHT: (C)1990,JPO | ||||||
| 135 | Method and apparatus for preparing batch fitted to molding member to be produced of moldable fiber reinforced thermoplastic material | JP2782788 | 1988-02-10 | JPH01210315A | 1989-08-23 | GERUTO EENERUTO; RORUFU FUON PAUMUGARUTEN |
| PURPOSE: To adapt a starting material to succeeding processing and the treatment of an improper intermediate product on the assumption that the adjustment of the starting material corresponding to a molded member to be produced by heating a pre-product comprising a binder consisting of fibers and a thermoplastic resin and separating a fitted batch from a strand to supply the same to next processing. CONSTITUTION: A predetermined product comprising a binder consisting of fibers and a thermoplastic resin is heated as a strand and a fitted batch is separated from the strand to be supplied to a strand re-processing process. By this constitution, a production process is simplified and an automatizing ratio high in the production of a molded member is achieved. Since a large change becomes possible in relation to the use of high quality thermoplastic resin and reinforcing fibers and the batch quantity of the molding member in a press, the apparatus by this method can be succeedingly used in the production of a large number of molded members different in batch vol. COPYRIGHT: (C)1989,JPO | ||||||
| 136 | Post forming semimanufacture product | JP3542088 | 1988-02-19 | JPS63209810A | 1988-08-31 | EBAAHARUTO BORUN |
| 137 | Manufacturing device of resin tablet for sealing semiconductor | JP1826785 | 1985-02-01 | JPS61177210A | 1986-08-08 | YOSHIDA TETSUO; SHIMIZU SHINICHI; KANEDA MASARU |
| PURPOSE:To stably mold a high quality tablet, the specific gravity of which is 90% or more of that of each of transfer moldings by a method wherein a cooling box is annexed to the main spindle of a rotary tablet machine and at the same time cooling mechanism is provided on each one of a large number of molds attached on a rotary table in order to feed refrigerant through the main spindle. CONSTITUTION:A mold 1 is equipped with a holder 6, on which a spiral groove 7 is provided so as to be fed with refrigerant from a refrigerant cooler 8 by means of a circulating pump 9. As a result, the heat developed during the compression by an upper and a lower punches 4 and 5 is effectively removed and at the same time the frictional heat during the withdrawal of a tablet from the mold is also removed. Because a rotary table 10, on which the molds are mounted, rotates, a stationary cooling box 11 is attached to a main spindle 12 rotating together with the rotary table 10. The cooling box 11 is perfectly sealed with sealing parts 15 composing of oil seal, gland packing, O-ring or the like onto the main spindle 12 in order to prevent the refrigerant from leaking. | ||||||
| 138 | Apparatus for producing cake for disk with hole of large diameter | JP12066881 | 1981-08-03 | JPS5822140A | 1983-02-09 | IRIE KOUJI |
| PURPOSE:To cause strong power to be unnecessary for a center pin in order to obtain long durability life of said pin by following method in which a mold-cavity is formed by lowering a double cylinder like annular body with inner and outer walls and an upper cover of this annular body onto a lower stand, and the raw material for cake is poured into said cavity. CONSTITUTION:According to lowering an upper stand frame 10, a sliding transverse frame 13 being in contact with the stopper 7a of a rod 7 is also lowered. Next, the sliding transverse frame 13 is caused to be in contact with a stopper 12 and consequently its lowering is stopped, and further an upper cover 12 equipped to the lower part of a rod 11 is stopped in a predetermined position. In spite of the stop of the sliding transverse frame 13, the upper stand frame 10 is continued to be lowered with stretching a tension-spring 15 , and it is stopped when it becomes in contact with lower stands 3 and 4a. At this state, the dough-nut like cavity enclosed by the lower stand 3, 4a, the annular internal wall 10, the annular external wall 10b and an upper cover 12, is formed. According to the stop of said sliding transverse frame, an operative piece 13a equipped on its side pushes a switch 14, thereby pouring the raw material for the cake from the injecting port communicating with said cavity. Thus, the toroidal type cake is formed. | ||||||
| 139 | Method of manufacturing molding from powdery or granular thermoplastic plastic | JP1028081 | 1981-01-28 | JPS56123812A | 1981-09-29 | KAARU HAAGEN; KAARU HAINTSU SHIYORU |
| 140 | Process and apparatus for producing fiber-reinforced thermoplastic resin tape | US15503857 | 2015-08-17 | US10099436B2 | 2018-10-16 | Naoyuki Tashiro; Takayasu Fujiura; Kazuya Takamura; Seiji Zenke |
| Provided are a process and an apparatus for producing a fiber-reinforced thermoplastic resin tape, the process and the apparatus being capable of preventing fiber cut from occurring at the start of production of the fiber-reinforced thermoplastic resin tape. The provided process includes a resin impregnation step of opening a fiber bundle and impregnating the fiber bundle with molten thermoplastic resin and a through-nozzle passing step of passing the fiber bundle having undergone the resin impregnation step through a slit formed in a nozzle. The through-nozzle passing step includes setting, at the start of production, a gap dimension of the slit to a dimension larger than a normal dimension and changing the gap dimension of the slit to the normal dimension when a predetermined condition is satisfied, after the production start. | ||||||
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