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 | 硬質熱可塑性発泡体の高密度化方法及び該高密度化された硬質熱可塑性発泡体を組み込む複合構造 | JP2016536520 | 2014-12-12 | JP2017504679A | 2017-02-09 | ファビオ・ドッタヴィアーノ |
1つまたは2つの高密度化された主表面を有するスチレン系ポリマー発泡体は、そのような表面に熱及び圧力(4)を適用して、ポリマーを軟化させ、該表面に隣接するセルを崩壊させて、そのような表面上に高密度化された被膜を形成することによって製作される。次いで、加熱された1つまたは複数の表面は、圧力下で冷却されて、高密度化されていない芯(7)及び片側または両側に高密度化された被膜(5)を有する発泡体を形成する。部分的に高密度化された発泡体は、発泡体が芯を形成する積層体を形成するのに特に有用である。外部層(30、32)への接着は、高密度化された層の存在によって改善される。【選択図】図1 | ||||||
142 | 真空断熱材およびこれを含む冷蔵庫 | JP2016537473 | 2014-12-10 | JP2017501350A | 2017-01-12 | ヒョ ジャン,チュン; キム,ヒョン−ソン; ウォン ユク,セ; カル,スン−フン; ジン オ,スン |
真空断熱材は、芯材(Core Material)、前記芯材の外側に配置される第1外皮材および前記第1外皮材と互いに異なる熱伝導度を有し、前記第1外皮材と結合して内部に前記芯材が収容される空間を形成する第2外皮材を含む。 | ||||||
143 | ガラス調意匠を有する物品 | JP2014549693 | 2012-11-28 | JP5990280B2 | 2016-09-07 | 塩田 智志 |
144 | 長繊維を用いた断熱材及びその製造方法 | JP2015505639 | 2013-04-09 | JP5896391B2 | 2016-03-30 | ジュン・ピル・ハン; スン・ソク・ファン; スン・ミン・ジョン; ビュン・フン・ミン |
145 | 赤外線反射フィルム | JP2011197860 | 2011-09-12 | JP5868084B2 | 2016-02-24 | 大森 裕; 津田 尚; 河▲崎▼ 元子 |
146 | 野菜ケースおよび冷蔵庫 | JP2014089751 | 2014-04-24 | JP2015209987A | 2015-11-24 | 鈴木 久美子; 大島 淳宏 |
【課題】青果物を長期間に亘って新鮮な状態で保存することができる野菜ケースおよび冷蔵庫を提供することを目的とする。 【解決手段】野菜収納部を構成する壁面の少なくとも1面に開口部3を有し、基材を用いずに形成した再生セルロース膜4を前記開口部3に備えたことにより、ビスコースの濃度の調整や、基材材料密度の調整など特別な処置を施す必要もなく、再生セルロースの原材料であるビスコースを一定の隙間を設けたスリットから押し出して加工をする再生セルロース膜4を感湿透湿膜として湿度制御に用いることができる。 【選択図】図7 |
||||||
147 | 複合体および複合体の製造方法 | JP2014516640 | 2013-03-15 | JP5801955B2 | 2015-10-28 | 奥村 浩士; 内田 公典; 木村 和樹; 井上 悟郎; 伊崎 健晴 |
148 | 真空断熱筐体 | JP2013236425 | 2013-11-15 | JP2015096740A | 2015-05-21 | 北野 智章; 平井 剛樹; 上門 一登; 平野 俊明; 林野 幸; 村上 秀樹; 福原 弘之 |
【課題】三次元形状や、鋭角な曲げ形状、部分的な凹凸や、貫通孔などの自由な形態を形成できる真空断熱筐体を形成し、内装筐体部材や外観筐体部材として使用することができる真空断熱筐体を提供すること。 【解決手段】外観を形成する外箱2と、内装を形成する内箱3と、前記外箱2と前記内箱3の内部に配置された断熱材4とを備え、前記外箱2と前記内箱3は、ガスバリア部材で構成され、内部を真空密閉して接合した筐体構造としたものである。 【選択図】図2 |
||||||
149 | 金属管、伝熱管、熱交換装置及び金属管の製造方法 | JP2013230094 | 2013-11-06 | JP2015090242A | 2015-05-11 | 境田 英彰; 細江 晃久; 西村 淳一; 奥野 一樹; 木村 弘太郎; 後藤 健吾; 本村 隼一 |
【課題】本発明は、熱交換効率に優れた金属管、更には、液体の潜熱の利用効率が高く、熱交換装置の小型化に寄与する熱交換用の金属管を提供することを目的とする。 【解決手段】金属基材と、前記金属基材の表面の少なくとも一部に設けられた金属多孔体と、を有する金属管であって、平板状の金属基材の表面の少なくとも一部に前記金属多孔体を接合する工程と、前記金属多孔体が接合された金属基材を管状に成形する工程と、 を経て得られた金属管。 【選択図】図1 |
||||||
150 | Complex element | JP2013555857 | 2012-02-29 | JP2014508057A | 2014-04-03 | シュッテ,マルクス; フェヒナー,フランク; ゲンツ,マンフレート |
本発明の対象は、
a)フォーム又は多孔性材料製の核、 b)核a)上に施された外層、及びc)外層b)とは異なる、熱可塑性合成物質製のホイル を含む複合要素である。 |
||||||
151 | Refrigerator door, method for manufacturing the same, decorative panel, and method and device for molding transparent synthetic resin-made panel | JP2013116958 | 2013-06-03 | JP2013250048A | 2013-12-12 | SHIM JINWOO; SEO BYEONGKYUN |
PROBLEM TO BE SOLVED: To provide a refrigerator door.SOLUTION: A refrigerator door includes: a door liner; an outer door to be connected to the door liner; a heat insulating material interposed between the door liner and the outer door; and a decorative panel which is attached to an outer surface of the outer door, and has a front surface and a side surface which extends from the front surface and is bent. | ||||||
152 | Vacuum insulation material and the heat insulating box | JP2007204400 | 2007-08-06 | JP4789886B2 | 2011-10-12 | 修一 岩田; 祥 花岡; 雅法 辻原; 京子 野村; 司 高木 |
153 | Separation structure, electric apparatus non-electric apparatus having separation structure, and separation method | JP2008289038 | 2008-11-11 | JP2010118776A | 2010-05-27 | YAMANAKA EIJI; KAWANISHI MICHIO; ANDO MASAHIKO; TOKUNAGA YASUYUKI; NAKAJIMA ATSUSHI |
<P>PROBLEM TO BE SOLVED: To easily separate combined portions of stuck bodies which are combined and stuck to each other. <P>SOLUTION: A double-sided adhesive tape 17 configured by forming adhesive layers 22, 23 containing a thermally foaming agent on both the surfaces of a base material 21 and a planar heating element 16 to be abutted on the double-sided adhesive tape 17 are laminated on a combined portion of a housing 2 configured by combining a front cover 2A and a rear cover 2B and power is supplied to the planar heating element 16 to heat the planar heating element 16 and thermally expand and foam the thermally foaming agent contained in the adhesive layers 22, 23. In the foaming processing, the adhesive layers 22, 23 containing the thermally foaming agent are expansively deformed, ruggedness is formed on an adhesive interface between the adhesive layers 22, 23 and both the covers 2A, 2B and the adhesion of both the adhesive layers 22, 23 are lost. <P>COPYRIGHT: (C)2010,JPO&INPIT | ||||||
154 | Vacuum heat insulating material and insulation box | JP2007204400 | 2007-08-06 | JP2009041592A | 2009-02-26 | NOMURA KYOKO; IWATA SHUICHI; TAKAGI TSUKASA; HANAOKA SHO; TSUJIHARA MASANORI |
<P>PROBLEM TO BE SOLVED: To provide a vacuum heat insulating material excellent in the easiness in handling and the heat insulating performance and provide an insulation box fitted with the vacuum heat insulating material. <P>SOLUTION: The vacuum heat insulating material is equipped with a gas barrier vessel (sheathing) having air shutoff property and a core material and gas adsorbent encapsulated in the sheathing decompressed to a prescribed degree of vacuum. The core material 5 has a laminate structure consisting of a laminate of organic fiber sheets (fiber gathering) 1 formed from a plurality of organic fibers arranged at a prescribed spacing and a plurality of organic fibers arranged at a prescribed spacing in the direction crossing the first named fibers. <P>COPYRIGHT: (C)2009,JPO&INPIT | ||||||
155 | Vacuum insulation material and manufacturing method thereof | JP2005287407 | 2005-09-30 | JP2006125631A | 2006-05-18 | KONDO DAISUKE; OCHIAI SHINICHI |
PROBLEM TO BE SOLVED: To provide a vacuum insulation material having heat insulation property and surface smoothness in a small number of processes at a low cost. SOLUTION: In this vacuum insulation material, a core material formed by stacking glass fibers is sheathed by a casing bag, and the interior of the casing bag is decompressed. A sheet-like material having a surface density of 20 to 400g/m 2 is inserted between at least one of both surfaces of the core material and the casing bag. COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
156 | Vacuum insulation panel and manufacture of the same | JP16036398 | 1998-06-09 | JPH11351493A | 1999-12-24 | SUGANO TOSHIYUKI; ABE CHISA; INUZUKA TAKAYUKI; NISHIMOTO YOSHIO; IWATA SHUICHI; YAMADA SHO |
PROBLEM TO BE SOLVED: To keep the arbitrary shape and to exercise the superior insulation characteristic for a long period in a vacuum insulation panel where an inside of a packaging material including a core material, is kept in vacuum, and the core material is manufactured by adhering the porous resin powder having the gas adsorbing function by using a binder. SOLUTION: A vacuum insulation panel 7 mounting inside of a wall of a refrigerator is formed into the shape of a plate of about 10-20 mm thickness by a packaging material 2 and a core material 3. The packaging material 2 is a multilayer sheet of preferably more than three layers, and a part of or all the core material 3 is manufactured by adhering the porous resin powder having the gas adsorbing function by a binder. The porous resin powder is a synthetic adsorbing material, an ion exchange resin or a mixture thereof, and has 10-200 μm of particle size. The synthetic adsorbing agent has at most 100 angstrom pore radius. The ion exchange resin is preferably a strongly acidic cation exchange resin. | ||||||
157 | Heat insulating wall structure for a method and a refrigerator cabinet of manufacturing a liner for the refrigerator insulation cabinet | JP14697892 | 1992-05-13 | JPH0686062B2 | 1994-11-02 | アーサー・イー・ベンフォード; ケネス・エル・ホーティン |
158 | Refrigerator liner structures | JP24513792 | 1992-09-14 | JPH05203338A | 1993-08-10 | SUTEIIBU MAATEIN HOOKU; JIEFURII PIITAA BUIORA |
PURPOSE: To obtain a cabinet liner which is restant to chemicals against Freon and a substitute thereof by arranging a specific core layer, a glossy patina applied on the external surface of the core layer, and a specific barrier layer applied on the internal surface of the core layer. CONSTITUTION: In an appliance cabinet of a refrigerator constituted of an external metal cabinet, an inner liner and a heat insulating foaming body core, the internal liner is made up of a glossy patina 9 laminated outside the core layer 7 and a barrier layer 8 laminated inside it. The core layer 7 comprises a high impact resisting polystyrene and/or (acrylonitrile-butadiene-styrene) copolymer, contains 5-35 wt.% of grainy rubber with an average particle size of at least 5 micron and is arranged to hold 30 wt.% of a composite. The barrier layer 8 comprises 0-40 wt.% of a block copolymer or a copolymer and is arranged to hold 4-50 wt.% of the composite. | ||||||
159 | JPS4986467A - | JP9322373 | 1973-08-20 | JPS4986467A | 1974-08-19 | |
160 | VACUUM PACKAGED 3D VACUUM INSULATED DOOR STRUCTURE AND METHOD THEREFOR USING A TOOLING FIXTURE | US16032451 | 2018-07-11 | US20180319094A1 | 2018-11-08 | Guolian Wu |
A method for creating a vacuum insulated panel including preforming a continuous insulation member having male and female engaging surfaces and providing a barrier film envelope having an opening. The insulation member is disposed within the barrier film envelope and a tooling fixture is pressed against the barrier film envelope to press the barrier film envelope against the male and female engaging surfaces to remove gas from between the barrier film envelope and the male and female engaging surfaces. Substantially all gas is removed from within the barrier film envelope so that the barrier film envelope substantially conforms to an exterior surface of the insulation member. The opening of the barrier film envelope is then hermetically sealed, wherein the barrier film envelope forms a continuous layer over the core insulation member to form a vacuum insulated panel. |