| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | 空気調和装置 | JP2016534323 | 2015-06-09 | JP6385436B2 | 2018-09-05 | 小川 瑞樹; 高松 亮平; 斉藤 浩二; 今泉 賢; 本村 祐治 |
| 182 | 空気調和装置 | JP2016534427 | 2015-07-13 | JP6188948B2 | 2017-08-30 | 東 幸志; ▲高▼下 博文; 森本 修; 畑中 謙作; 篠崎 万誉 |
| 183 | 熱交換面の保全方法および湿り空気の冷却方法 | JP2015542417 | 2013-10-15 | JPWO2015056285A1 | 2017-03-09 | 大久保 英敏; 英敏 大久保; 関 光雄; 光雄 関; 将 松下 |
| 【課題】周囲との温度差が大きい熱交換面上での物質移動を防止することにより、メンテナンスフリーな熱交換面を提供可能な熱交換面の保全方法を提供する。【解決手段】湿り空気に接する冷却のための熱交換面において、熱交換面の温度および気流に応じて定まる温度境界層BL内で、温度境界層BL内の空気温度が0℃以上では露点温度以下となる場合において、また0℃以下では氷点温度以下となる場合において、湿り空気より高い熱伝導率を有する担体Cを準備する段階を有し、その担体Cを熱交換面に対して対向させて温度境界層BL内に配置することにより、その担体C表面に湿り空気中の水蒸気を凝縮もしくは昇華させることにより、湿り空気を除湿する段階を有し、それにより、熱交換面上での結露または着霜を抑制することを特徴とする、熱交換面を介する湿り空気の冷却方法。【選択図】図1 | ||||||
| 184 | 熱交換器のコーティング | JP2016532608 | 2014-10-29 | JP2016537605A | 2016-12-01 | クリスチャン、カズナーブ; フランソワ、ビュッソン; マリーズ、フィリップ; ジャン−クリストフ、プレボ |
| 本発明は熱交換器、具体的には車両の空調回路用蒸発器に関する。熱交換器は、第1の流体と第2の流体との熱交換を可能にし、流体の一方と接触するよう意図された表面を有する。表面は、アルミニウムおよび/またはアルミニウム合金で形成されるとともに、アルミナ層と、アルミニウム本来の保護力を強化する強化層とも呼ばれる層とで覆われる。強化層は、有機物の部分と、無機物の部分とを含む。有機物の部分は少なくとも1つのポリマーを含み、無機物の部分はアルミニウムと反応して耐食材を形成可能な少なくとも1つの物質を含む。また、本発明は熱交換器の製造方法に関する。 | ||||||
| 185 | Air conditioner | JP2012145150 | 2012-06-28 | JP2014009832A | 2014-01-20 | MURAKAMI KENICHI |
| PROBLEM TO BE SOLVED: To provide an air conditioner in which a cleaning operation time of transition piping can be shortened as further as possible, the air conditioner being installed by diverting existent transition piping.SOLUTION: An air conditioner 1 comprises an outdoor unit 2 and at least one indoor unit 3 connected to the outdoor unit 2 via liquid coolant piping 5 and gas coolant piping 4 and for the air conditioner 1, existent transition piping can be diverted as the liquid coolant piping 5 and the gas coolant piping 4. The air conditioner 1 also comprises a piping cleaning control section 25 for cleaning the existent transition piping through intermittent liquid back by opening/closing an electronic expansion valve 11 for cooling cyclically multiple times between an aperture A for overheat control and an aperture B that is nearly full opening or full closing, in a cooling cycle, during the piping cleaning operation after connecting the outdoor unit 2 and the indoor unit 3. | ||||||
| 186 | Aluminum heat exchanger | JP2004034623 | 2004-02-12 | JP2004325063A | 2004-11-18 | NAGASHIMA HISAO; OTOBE JUNJI; ISHII KATSUYA |
| PROBLEM TO BE SOLVED: To provide an aluminum heat exchanger capable of positively preventing hydrogen generation, and not needing inspection of a film applied to an aluminum heat exchanger surface. SOLUTION: In an adsorber for an adsorption type freezer, a film preventing permeation of moisture such as an SiO 2 film, or an anodic oxide coating film is formed on surfaces of the aluminum heat exchangers 120 and 130 arranged in a casing 110, and several to hundred and several tens parts per million negative ions such as PO 4 3-, or SiO 3 2- are added to a refrigerant (water) sealed in the casing. COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
| 187 | Defrost heater | JP2003363092 | 2003-10-23 | JP3552715B1 | 2004-08-11 | 利樹 前田; 行男 森川 |
| 【課題】栓とリード線の隙間から外部の空気がガラス管内へ侵入するのを阻止し、ヒーター線が腐食、断線することを未然に防止することができる除霜ヒーターを提供する。
【解決手段】冷却器に付着・堆積した霜を融解する除霜ヒーター20において、ガラス管23と、ガラス管23内部に設置した金属抵抗体からなるヒーター線21と、リード線挿入孔が形成されガラス管23の両端開口部を覆う栓22と、リード線挿入孔22aを通り前記ヒーター線21の端部に接続されるリード線24とを備え、栓22のリード線挿入孔22aの内壁面にリード線24の外径よりリード線挿入孔22aの径が小さくなる様な突起22b、22cを設けてリード線24の挿入時に栓22とリード線24との隙間を封止する為、リード線と栓の隙間からの外部空気侵入が防止でき、ヒーター線の腐食、断線を未然に防止できる。 【選択図】図2 |
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| 188 | Plasma polymerization enhancement of surface of metal for use in refrigerating and air conditioning | JP2003056326 | 2003-03-03 | JP2003268533A | 2003-09-25 | KOH SEOK-KEUN; JUNG HYUNG JIN; CHOI WON KOOK; KANG BYUNG HA; KIM KI HWAN; HA SAM CHUL; KIM CHEOL HWAN; CHOI SUNG-CHANG |
| <P>PROBLEM TO BE SOLVED: To provide a metal coated with a polymer film having excellent hydrophilicity or hydrophobicity. <P>SOLUTION: The polymer film having excellent hydrophilicity or hydrophobicity and having high adhesive strength is formed on a metal base material by plasma polymerization. <P>COPYRIGHT: (C)2003,JPO | ||||||
| 189 | Improvement by plasma polymerization of the metal surface for use in cooling and air conditioning | JP2000523400 | 1998-12-03 | JP2001525493A | 2001-12-11 | ハー カン,ビュン; フワン キム,キー; フワン キム,チョル; コー,ソク−クン; ジン ジュン,ヒュン; コーク チョイ,ウォン; チョイ,スン−チャン; チュル ハー,サム |
| (57)【要約】 本発明によると、DC放電プラズマを使用することによる、熱交換器を製造するときのような冷却およびエアコンディショニング装置における使用のための有用性を改良するための、金属のプラズマ重合表面改質法が提供される。 この方法は、(a)表面改質しようとする金属から実質的になる陽極電極、および、陰極電極をチャンバー内に配置すること、(b)チャンバー内の圧力を予め決められた真空レベルに維持すること、(c)予め決められた圧力の不飽和脂肪族炭化水素モノマーガスまたはフッ素含有モノマーガスおよび珪素含有モノマーガス、および、予め決められた圧力の非重合性ガスを含む反応ガスをチャンバー内に吹き込むこと、および、(d)電極に電圧を課してDC放電を得て、それにより、前記不飽和脂肪族炭化水素モノマーガスおよび非重合性ガスから生じる陽イオンおよび陰イオン並びにラジカルからなるプラズマを得て、その後、プラズマ蒸着により、陽極電極の表面上に親水性または疎水性を有するポリマーを形成させること、の工程を含む。 RFプラズマを使用することによる、熱交換器を製造するときのような冷却およびエアコンディショニング装置における使用のための有用性を改良するための、金属のプラズマ重合表面改質法も提供される。 | ||||||
| 190 | Corrosion inhibition solutions and methods of the refrigeration system | JP20965598 | 1998-07-24 | JP2947793B2 | 1999-09-13 | SHAMU KUMAARU UAAMA; MANYUERU SAAKISU MEKUJAN; JOOJI ROBAATO SANDAA; FUIRITSUPU JON BUUN |
| 191 | Absorption refrigerating machine and initial corrosion-proof film forming method therefor | JP29684798 | 1998-10-19 | JPH11218361A | 1999-08-10 | KURODA TETSUO; MIYASAKA MATSUSUKE; TAKAHASHI NORIO |
| PROBLEM TO BE SOLVED: To obtain an initial corrosion-proof film forming method for absorption refrigerator in which absorbing liquid, surface of steel member and conditions of film forming operation are selected optimally. SOLUTION: At least as a part of steel members constituting an absorption refrigerating machine touching an absorbing liquid of 100 deg.C or above, a steel member of metallic texture having surface roughness of 1.0 μm or less in arithmetic means is employed along with an absorbing liquid principally comprising lithium bromide with solubility of corrosion inhibitor, i.e., lithium molybdate, being conditioned in the range of 450-750 ppm. Initial anti-corrosion film forming operation is carried out under such operating conditions as the solubility of lithium molybdate of absorbing liquid working in the system is kept at 200 ppm or above thus forming an initial anti-corrosion film having extremely high corrosion proofing power. Surface of steel member is subjected to machining, e.g. polishing, grinding or drawing, or bright heat treatment. | ||||||
| 192 | Lamination type heat exchanger | JP9825297 | 1997-03-31 | JPH10281691A | 1998-10-23 | INOUE SEIJI; NISHISHITA KUNIHIKO; OKUBO FUMIO |
| PROBLEM TO BE SOLVED: To improve a corrosion resistance by providing a sacrificing layer having a potential lower than that of a core material on the outer surface of a flat plate in a lamination type heat exchanger in which a tube element forming one end part in the direction of lamination has the flat plate. SOLUTION: Protruding parts 25 and 26 are expanded in parallel on an inlet/outlet passage plate 24 by a press working. In one end part of the protruding part 25, an inlet port is provided with an annular protrusion formed by a burring working. In the end part at the same side of the protruding part 26, an outlet port is provided with an annular protrusion formed by a burring work. Then, the inlet/outlet passage plate 24 is connected to a flat plate 16, so that an inlet passage communicating with the inlet port and an outlet passage communicating with the outlet port are formed between the inlet/outlet passage plate 24 and the flat plate 16. A sacrificing layer 36 having a low potential is provided on the outer side surface of the inlet/outlet passage plate 24 and a brazing material 37 is provided on an inner side surfaces. Thus, the corrosion of the sacrificing layer is prevented so that a core material is prevented from being corroded. COPYRIGHT: (C)1998,JPO | ||||||
| 193 | Air conditioning device | JP4263597 | 1997-02-26 | JPH10236150A | 1998-09-08 | YOSHII KEIICHI; KAMIYA SADAYUKI |
| PROBLEM TO BE SOLVED: To restrain generation of corrosion due to adhesion of foreign matter in an evaporator. SOLUTION: A part 7a recessed downwards is formed at an area on the air flow upstream side of a tank part 22b positioned at the lower part of an evaporator 2 in a case 7 which stores the evaporator 2, and a covering wall 7b which covers the surface on the air flow upstream side of the tank part 22b is provided at the recessed part 7a. It is thus possible to inhibit foreign matter such as dust included in the blowing air from adhering directly around the lower tank part 22b of the evaporator 2 with the covering wall 7b for restraint of corrosion even if the foreign matter drops and deposits around the lower part of the evaporator 2. COPYRIGHT: (C)1998,JPO | ||||||
| 194 | Expansion valve and refrigerating system | JP17898996 | 1996-07-09 | JPH1026440A | 1998-01-27 | KOBAYASHI KAZUTO; WATANABE KAZUHIKO; YANO KIMIMICHI |
| PROBLEM TO BE SOLVED: To prevent the occurrence of corrosion to the valve element of an expansion valve incorporated in a refrigerating cycle system. SOLUTION: An expansion valve is provided with an orifice 30 and a valve element 9, which are arranged at a valve body 10 and the valve element 9 is mounted integrally with a moving body 18. Movement of a diaphragm 4 is transmitted to an actuating rod 17 through a member 16 and the actuating rod 17 operates a moving body 18 to control the opening of a flow passage between the valve element 9 and the orifice 30. An orifice member fixed at the orifice 30 is formed of a material having hardness higher than that of the valve body 10. Further, the valve element 9 is formed of brass, and a high rigid plating layer 9a is formed on a surface and damage due to corrosion occurring owing to a refrigerant is prevented from occurring. | ||||||
| 195 | Surface treatment of heat transfer pipe of absorption type refrigerating machine | JP24681883 | 1983-12-27 | JPS60140100A | 1985-07-24 | YAJIMA TOSHIO; SUZAI TAKASHI |
| PURPOSE:To protect heat transfer pipe from corrosion due to the contact with and stagnation of lithium bromide solution by a method wherein electroless nickel plating is applied onto the finned surface of copper heat transfer pipe. CONSTITUTION:A bath composition containing nickel salt such as nickel chloride or the like, reducing agent such as sodium hypophosphite or the like and buffering agent consisting of alkaline salts such as acetic acid or the like is used as the plating bath of electroless nickel plating method. The preferable plating conditions are normally bath pH 4-6, bath temperature 85-90 deg.C, process time 5- 10min. The minimum thickness of plating film developed to manifest corrosion- resisting effect is about 0.2mum and the preferable thickness is about 1.0-10mum. Only the immersion of copper heat transfer pipe into the predetermined plating bath containing nickel salt, reducing agent and buffering agent is enough for plating. Thus, the corrosion, which tends to develop at the lower part of fins due to the stagnation of lithium bromide solution serving as absorbent and to the deposit of corrosion product, can be surely prevented from developing. | ||||||
| 196 | JPS5539738B2 - | JP2104776 | 1976-02-27 | JPS5539738B2 | 1980-10-14 | |
| 197 | Method of and apparatus for monitoring antiicorrosion characteristic of cooling liquid | JP9778 | 1978-01-04 | JPS5493737A | 1979-07-25 | ROBAATO BABOIAN; GAADONAA ESU HAINESU |
| 198 | Kyushureitosochinimochiirukyushuyoekinoarukarikiteidoogenshosuruhoho | JP2104776 | 1976-02-27 | JPS51110750A | 1976-09-30 | HAWAADO UIRIAMU SHIBUREI |
| 199 | 열교환면의 보전 방법 및 습한 공기의 냉각 방법 | KR1020167012596 | 2013-10-15 | KR101722650B1 | 2017-04-03 | 오쿠보히데토시; 세키미츠오; 마츠시타쇼 |
| [과제] 주위와의온도차가큰 열교환면상에서의물질이동을방지함으로써, 메인터넌스프리의열교환면을제공가능한열교환면의보전방법을제공한다. [해결수단] 습한공기에접하는냉각을위한열교환면에있어서, 열교환면의온도및 기류에따라정해지는온도경계층(BL) 내에서, 온도경계층(BL) 내의공기온도가 0℃이상에서는노점온도이하가되는경우에, 또한 0℃이하에서는빙점온도이하가되는경우에, 습한공기보다높은열전도율을갖는담체(C)를준비하는단계를갖고, 그담체(C)를열교환면에대하여대향시켜온도경계층(BL) 내에배치함으로써, 그담체(C) 표면에습한공기중의수증기를응축혹은승화시킴으로써, 습한공기를제습하는단계를갖고, 그것에의해, 열교환면상에서의결로또는착상을억제하는것을특징으로하는, 열교환면을통한습한공기의냉각방법. | ||||||
| 200 | 열교환기 코팅 | KR1020167016054 | 2014-10-29 | KR1020160088354A | 2016-07-25 | 카제나브크리스티앙; 부손프랑소와; 필리프마리즈; 프레보스트장-크리스토프 |
| 본발명은열교환기, 특히차량의공조회로용증발기에관한것이며, 상기열교환기는제 1 유체와제 2 유체사이의열교환을가능하게하고, 상기유체중 하나와접촉하도록의도된표면을가지며, 상기표면은알루미늄및/또는알루미늄합금으로형성되고, 알루미나층으로, 그리고알루미늄의고유내성을강화시키는강화층으로코팅되고, 상기강화층은유기물의부분과미네랄물질의부분을포함하며, 상기유기물의부분은적어도하나의폴리머를포함하고, 상기미네랄물질의부분은내식성물질을형성하기위해알루미늄과반응할수 있는적어도하나의물질을포함한다. 본발명은또한열교환기제조방법에관한것이다. | ||||||
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