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公开(公告)号:JP2014111820A
公开(公告)日:2014-06-19
申请号:JP2013135920
申请日:2013-06-28
Applicant: Nissan Motor Co Ltd , 日産自動車株式会社
Inventor: YAMADA MAKOTO , KOBAYASHI TAKUYA , YOSHIZAWA TAKAHIRO , HIRANO MASAYA , NAKABO TAKAAKI , INADA SHINYA
IPC: C25D13/00
Abstract: PROBLEM TO BE SOLVED: To provide a tool for subjecting an automotive body to electrodeposition coating, which can restrain a lid component from being deformed when the automotive body is subjected to the electrodeposition coating.SOLUTION: The tool 1 for subjecting the automotive body to electrodeposition coating is used, when the lid component 51-assembled automotive body 5 is subjected to the electrodeposition coating, and holds the lid component, which is turned to a closed position by self-weight in an unloaded state, at a predetermined position. The tool 1 for subjecting the automotive body to electrodeposition coating includes: a tool body part 11; fixed parts 12 which are arranged on both ends of the tool body part and each of which is fit in an automotive body-side opening 55 corresponding to the lid component; and support parts 13 each of which is arranged in the vicinity of each of the fixed parts of the tool body part and is contacted with the inside surface of a horizontal plane 511 of the lid component between a hinge 513 and a tip part 514 to support the lid component.
Abstract translation: 要解决的问题:提供一种用于使汽车车身进行电沉积涂覆的工具,其可以在汽车车身经受电沉积涂覆时抑制盖部件变形。解决方案:用于使汽车车身经受电沉积的工具1 当盖部件51组装的汽车体5经受电沉积涂覆时,使用涂层,并且将处于未加载状态的自重的关闭位置的盖部件保持在预定位置。 用于对车身进行电沉积涂覆的工具1包括:工具主体部分11; 固定部件12,其布置在工具主体部分的两端,并且每个固定部件12配合在与盖部件相对应的车身侧开口55中; 以及支撑部件13,每个支撑部件13布置在工具主体部分的每个固定部分附近,并且与铰链513和尖端部分514之间的盖部件的水平面511的内表面接触以支撑 盖子组件。
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42.发明专利
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44.发明专利Method for forming protection film, member for cell connection, and cell for solid oxide fuel battery use 有权用于形成保护膜的方法,用于电池连接的部件和用于固体氧化物燃料电池的电池
公开(公告)号:JP2014067491A
公开(公告)日:2014-04-17
申请号:JP2012209920
申请日:2012-09-24
Applicant: Osaka Gas Co Ltd , 大阪瓦斯株式会社 , Shimizu:Kk , 株式会社シミズ
Inventor: SAITO TEI , NONAKA HIDEMASA , INOUE SHUICHI , YODA MASAKAZU , TAKUWA YUYA , NISHIMURA SHIGEFUMI , TSUKAMOTO ZENZO
CPC classification number: Y02E60/525
Abstract: PROBLEM TO BE SOLVED: To provide a member for cell connection which has high durability, and can be used with stability over a long period of time, and to provide a cell for SOFC use.SOLUTION: A method for forming a protection film on a surface of a base material made of a Cr-containing alloy or oxide and used for a cell for solid oxide fuel battery use comprises a first electro-deposition step for forming a first electro-deposition coating film by use of an anion-type resin mixture solution including, in its solid content, 30 mass% or more of metal oxide fine particles, a water-rinse step for rinsing, by water, the first electro-deposition coating film formed in the first electro-deposition step, and a second electro-deposition step for forming a second electro-deposition coating film on a surface of the first electro-deposition coating film on which water rinse has been completed, provided the above steps are conducted in this order, and a calcination step for forming calcination films composed of the first and second electro-deposition coating films with resin components lost therein by calcining the electro-deposition coating films, and a sintering step for forming a protection film including a metal oxide by sintering the calcination films.
Abstract translation: 要解决的问题:提供一种具有高耐久性并且可以长时间稳定使用的电池连接部件,并提供用于SOFC使用的电池。解决方案:一种用于在保护膜上形成保护膜的方法 用于固体氧化物燃料电池用电池的由含Cr合金或氧化物制成的基材的表面包括:通过使用阴离子型树脂混合物形成第一电沉积涂膜的第一电沉积步骤 溶液,其固体含量为30质量%以上的金属氧化物微粒,通过水漂洗第一电沉积步骤中形成的第一电沉积涂膜的水漂洗步骤和第二电解 - 在第一电沉积涂膜的表面上形成第二电沉积涂膜的沉积步骤,其上完成了上述步骤,并且形成煅烧过程的煅烧步骤 由通过煅烧电沉积涂膜而损失在其中的具有树脂成分的第一和第二电沉积涂膜组成的ms,以及通过烧结煅烧膜形成包括金属氧化物的保护膜的烧结步骤。
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Patent Agency Ranking
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公开(公告)号:JP5372528B2
公开(公告)日:2013-12-18
申请号:JP2009002874
申请日:2009-01-08
Applicant: 富士重工業株式会社
Inventor: 建栄 沈
IPC: C25D13/00
Abstract: PROBLEM TO BE SOLVED: To predict dripping of a coating material adhered to an article to be coated such as a vehicle body. SOLUTION: Nodal points adjacent to each element are set eachry each element based on a numerical calculation model in which an article to be coated is divided into a plurality of elements (Step S3). The inclination angle α between adjacent nodal points is calculated based on the gravity direction (Step S8). The coating material flow-out amount V out and the coating material flow-in amount V in at each nodal point are calculated based on the inclination angle α between adjacent nodal points and the temperature applied to the vehicle body (Steps S9, 10). Subsequently, the adhesion amount V t+1 of the coating material at each nodal point after a predetermined time is calculated based on the initial adhesion amount V 0 , the coating material flow-out amount V out and the coating material flow-in amount V in (Step S11). Thereby, it becomes possible to predict the dripping of the coating material adhered to the vehicle body while taking account of viscosity change of the coating material associated with temperature change, by repeatedly performing the steps. COPYRIGHT: (C)2010,JPO&INPIT
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48.发明专利Masking material, masking method, and method of manufacturing coated member on which coating film is not partially formed 有权掩蔽材料,掩蔽方法和制造涂层成员的方法,其中涂层膜不被部分形成
公开(公告)号:JP2013233491A
公开(公告)日:2013-11-21
申请号:JP2012106356
申请日:2012-05-07
Applicant: Lintec Corp , リンテック株式会社
Inventor: ONO YOSHITOMO , KAWADA TOMOHITO , AMINO YUMIKO , IKEDA HANAKO
Abstract: PROBLEM TO BE SOLVED: To provide a masking material having superior heat resistance and capable of being repeatedly used, a method of manufacturing such a masking material, and a masking method using such a masking material.SOLUTION: A masking part 3 of a masking material 1 containing a magnetic component has a circular shape. The masking part 3 has a central part 4 that is more recessed than a circumferential part 5. In the masking material 1, a radius r (unit: mm) of a circle of the masking part 3, a maximum depth d (unit: mm) of the recess of the central part 4 relative to the circumferential part 5, a magnetic flux density B (unit: T) obtained by the measurement at a position separated by 1 cm in a direction parallel to a central axis of the circle of the masking part from a position giving the maximum depth in the masking part 3, and Shore D hardness Hs of the masking material 1 satisfy all of expressions of 0.045≤B...(1), 5.5≤B/(d/r)...(2), and 42≤Hs≤60...(3).
Abstract translation: 要解决的问题:提供具有优异耐热性并能够重复使用的掩模材料,制造这种掩模材料的方法以及使用这种掩模材料的掩蔽方法。解决方案:掩模材料的掩模部分3 1包含磁性部件具有圆形形状。 掩模部3具有比圆周部5凹陷的中央部4.掩蔽材料1中,掩模部3的圆的半径r(单位:mm),最大深度d(单位:mm) )中心部分4相对于圆周部分5的凹部的磁通密度B(单位:T),通过在平行于中心部分4的圆的中心轴的方向上分开1cm的位置处测量得到的磁通密度B 掩蔽部分3中掩蔽部分的最大深度,掩模材料1的肖氏D硬度Hs满足0.045≤B...(1),5.5≤B/(d / r)的全部表达式。 (2),42≤Hs≤60...(3)。
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公开(公告)号:JP5301269B2
公开(公告)日:2013-09-25
申请号:JP2008512507
申请日:2006-05-18
Applicant: フライズ メタルズ インコーポレイテッドFry‘S Metals, Inc.
Inventor: ハセレブ,オスカー , ルイス,ブライアン,ジー. , マーチ,マイケル , シン,バワ
CPC classification number: C25D13/00 , B23K3/0623 , B23K2201/42 , C25D5/022 , C25D13/22 , C25D15/00 , H01L21/2885 , H01L24/11 , H01L24/12 , H01L2224/05001 , H01L2224/05023 , H01L2224/05124 , H01L2224/05155 , H01L2224/05171 , H01L2224/05568 , H01L2224/11505 , H01L2224/13099 , H01L2924/00014 , H01L2924/01005 , H01L2924/01006 , H01L2924/01013 , H01L2924/01015 , H01L2924/01023 , H01L2924/01024 , H01L2924/01029 , H01L2924/01033 , H01L2924/01042 , H01L2924/01045 , H01L2924/01047 , H01L2924/01056 , H01L2924/01079 , H01L2924/01082 , H01L2924/014 , H01L2924/04953 , H01L2924/09701 , H01L2924/3025 , H05K3/3484 , H05K2203/0425 , H05K2203/0557 , H05K2203/0776 , H05K2203/09 , H05K2203/105 , H01L2224/05599
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