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    • 2. 发明专利
    • 皮膜付き基材およびその製造方法
    • 涂层基材及其生产方法
    • JP2014198898A
    • 2014-10-23
    • JP2014036310
    • 2014-02-27
    • 群馬県Gunma Prefectureリバストン工業株式会社Riverstone Kogyo Kk
    • YAMAMOTO RYOICHIISHIDA KAZUNARIKAWAI TAKASHIISHIKAWA TETSUYAISHIKAWA KOICHI
    • C23C4/10C23C4/12
    • 【課題】耐電圧が高く(概ね100MV/m以上)、かつ、熱伝導率が高い(概ね50W/mK以上)金属窒化物の皮膜を形成することができる皮膜付き基材の製造方法の提供。【解決手段】昇華性を備え、溶融相を持たない金属窒化物の粒子を主成分とする原料粉末を、有機溶媒に分散させてスラリーを得るスラリー調製工程と、溶射装置から噴出するフレーム中における前記原料粉末の温度が前記金属窒化物の昇華温度よりも低く、かつ、前記フレーム中における前記原料粉末の速度が500〜1500m/sとなるように、前記フレームへ前記スラリーを供給してフレーム溶射し、基材の表面に皮膜を形成する皮膜形成工程と、を備える、皮膜付き基材の製造方法。【選択図】図1
    • 要解决的问题:提供一种能够形成具有约100MV / m以上的高耐电压和约50W / mK的高导热性的金属氮化物的涂层的涂布用基板的制造方法 或更高。解决方案:提供涂布基材的方法包括:浆料制备步骤,将具有升华性的原料粉末分散在有机溶剂中的基于没有熔融态的金属氮化物的颗粒,以获得浆料和膜 在将火焰喷射装置喷射的火焰中的原料粉末的温度低于金属氮化物的升华温度,并且火焰中的原料粉末的速度为500℃的条件下将浆料供给到火焰的形成步骤 -1,500m / s或更高,以便进行火焰喷涂,从而在基材的表面上形成涂层。
    • 3. 发明专利
    • Mask structural body and patterning method
    • 掩蔽结构体和方式
    • JP2005148668A
    • 2005-06-09
    • JP2003390093
    • 2003-11-20
    • Gunma Prefecture群馬県
    • YAMAMOTO RYOICHIMIYASHITA KIYOSHITOKUDA KEIJI
    • B01J35/02G03F1/38G03F1/50G03F7/20G03F1/14
    • PROBLEM TO BE SOLVED: To provide a mask structural body which suppresses diffusion of a reactive substance in the plane direction and makes finer patterning possible in patterning techniques using a photocatalyst, and to provide a patterning method using the above mask structural body. SOLUTION: The mask structural body has a photocatalytic effect in the process of patterning a material to be etched which is disposed in the position opposing to the mask, by irradiating with light to induce the photocatalytic effect. The structural body has a portion comprising a substance which has a photocatalytic effect and a portion comprising a substance which has easy reactivity with a reactive substance produced by the photocatalytic effect, on at least a part of the substrate. COPYRIGHT: (C)2005,JPO&NCIPI
    • 解决问题:提供一种掩模结构体,其能够抑制反应性物质在平面方向的扩散,并且可以在使用光催化剂的图案化技术中进行更精细的图案化,并提供使用上述掩模结构体的图案化方法。 解决方案:通过照射光以引起光催化效果,掩模结构体在布置在与掩模相对的位置上的待蚀刻材料的图案化过程中具有光催化效果。 结构体具有包含具有光催化作用的物质的部分和包含与由光催化作用产生的反应性物质容易反应的物质的部分至少部分基材。 版权所有(C)2005,JPO&NCIPI
    • 6. 发明专利
    • Air shower device
    • 空气淋浴设备
    • JP2013156014A
    • 2013-08-15
    • JP2013097262
    • 2013-05-07
    • Fujita Engineering Co Ltd藤田エンジニアリング株式会社Gunma Prefecture群馬県
    • TOMITA MIYOSHISUDO HIDEKAZUKAIHARA TOSHIOTAJIMA SOTAKAHASHI KIMIESUZUKI TAKASHIYAMAMOTO RYOICHI
    • F24F7/06A61L2/18F24F6/00F24F6/14
    • PROBLEM TO BE SOLVED: To provide an air shower device for spraying sanitary water to a necessary place of an object to be sterilized/deodorized by sufficiently atomizing and diffusing the sanitary water, in carrying out sterilization and deodorization by atomizing the sanitary water and jetting the same toward the object to be sterilized/deodorized.SOLUTION: In an air shower device A, a sanitary water nozzle 8 for spraying out sanitary water is provided inside of an air jet nozzle 7 in a state that a jetting hole end face of the air jet nozzle 7 jetting air and an injection hole end face of the sanitary water nozzle 8 are in a predetermined positional relationship. The air shower device includes a weight measuring mechanism for measuring a weight of an object to be sterilized/deodorized, and a length measuring mechanism for measuring a height of the object to be sterilized/deodorized, and further includes a mechanism for deciding a spraying condition of the sanitary water on the basis of a result of the measurements of the weight measuring mechanism and the length measuring mechanism. On/off switching means are vertically disposed in the air shower device so that the object to be sterilized/deodorized can select the on/off switching means of the height corresponding to a length of one's body.
    • 要解决的问题:提供一种空气淋浴装置,用于通过充分雾化和扩散卫生水将卫生用水喷洒到要消毒/除臭的物体的必要位置,通过雾化卫生水进行灭菌和除臭,并喷射 与待灭菌/除臭的物体相同。解决方案:在空气淋浴装置A中,在空气喷嘴7的内部设置用于喷射卫生水的卫生用水喷嘴8,其状态为空气的喷射孔端面 喷射喷嘴7喷射空气和卫生水喷嘴8的喷射孔端面处于预定的位置关系。 空气淋浴装置包括:用于测量待消毒/除臭的物体的重量的重量测量机构,以及用于测量要被灭菌/除臭的物体的高度的长度测量机构,还包括用于确定喷射条件的机构 基于重量测量机构和长度测量机构的测量结果的卫生水。 开/关切换装置垂直设置在空气淋浴装置中,使得要消毒/除臭的物体可以选择与身体长度相对应的高度的开/关切换装置。
    • 8. 发明专利
    • Microminiature needle and its manufacturing method
    • 微丝针及其制造方法
    • JP2006010421A
    • 2006-01-12
    • JP2004185849
    • 2004-06-24
    • Gunma PrefectureKurita Seisakusho:Kk株式会社栗田製作所群馬県
    • YAMAMOTO RYOICHIHAYASHI HIROSHIINOUE KAZUHISA
    • G01N1/28A61B5/15A61M37/00B81B1/00B81C99/00
    • PROBLEM TO BE SOLVED: To solve the problem of a conventional technology wherein a microminiature needle used for a liquid spray nozzle, a nozzle for an ink jet printer or a painless needle does not satisfy all of mechanical strength, chemical stability and a low price. SOLUTION: This microminiature needle is characterized by forming at least its tip part from hard amorphous carbon. This manufacturing method of the microminiature needle has at least a process for forming a master model of the microminiature needle in the first material, a process for forming a mold of the microminiature needle in the second material, a process for depositing a hard amorphous carbon film on the mold comprising the second material, and a process for exfoliating a mold comprising the hard amorphous carbon film and the second material from the mold comprising the second material on which the hard amorphous carbon film is formed. COPYRIGHT: (C)2006,JPO&NCIPI
    • 解决的问题为了解决用于液体喷嘴的微型针,喷墨打印机的喷嘴或无痛针的常规技术的问题不能满足机械强度,化学稳定性和 低价。

      解决方案:该微型针的特征在于至少从硬的无定形碳形成其尖端部分。 微型针的这种制造方法至少具有形成第一材料中的微型针的主模型的方法,第二材料中形成微型针的模具的方法,沉积硬质无定形碳膜的方法 在包含第二材料的模具上,以及从包含形成硬质非晶碳膜的第二材料的模具剥离包含硬质非晶碳膜和第二材料的模具的方法。 版权所有(C)2006,JPO&NCIPI

    • 9. 发明专利
    • Method for measuring cation exchange capacity in soil and soil analyzer
    • 用于测量土壤和土壤分析仪中的交替容量的方法
    • JP2012026803A
    • 2012-02-09
    • JP2010164258
    • 2010-07-21
    • Gunma PrefectureAkira Mugishima群馬県昌 麦島
    • TAJIMA SOKIMURA NORIHISAYAMAMOTO RYOICHIIGARASHI AKIRAMUGISHIMA AKIRA
    • G01N33/24G01N21/27G01N21/59
    • PROBLEM TO BE SOLVED: To provide a method for measuring cation exchange capacity in the soil capable of easily, and promptly determining cation exchange capacity in the soil and a soil analyzer suitable for measurement of cation exchange capacity in the soil.SOLUTION: The present invention provides the method for measuring the cation exchange capacity in the soil for measuring an index value corresponding to content of humus materials in the soil to convert a measured value of the index value into the cation exchange capacity, and the soil analyzer 1 which includes: data input means 3a-3d for inputting data regarding the soil to be measured; absorbance measurement means 4, 5, 6, 6a for measuring absorbance of an extract 7 containing the humus materials; storage means for showing correlation between the absorbance of a solution containing the humus materials and the content of the humus materials or the cation exchange capacity and storing a relational expression to be selected on the basis of pH of the soil to be measured; selection means for selecting a relational expression to be used on the basis of the pH of the soil to be measured; operation means for calculating the cation exchange capacity based on a measured value of the absorbance and a weighed value of the soil; and display means 2 for displaying the calculated value of the cation exchange capacity.
    • 要解决的问题:提供一种测量土壤中阳离子交换能力的方法,能够容易地,及时地确定土壤中的阳离子交换能力和适合测量土壤中阳离子交换能力的土壤分析仪。 解决方案:本发明提供了测量土壤中阳离子交换容量的方法,用于测量与土壤中腐殖质材料含量相对应的指数值,将指标值的测量值转换为阳离子交换容量,以及 土壤分析装置1,其包括:数据输入装置3a-3d,用于输入关于待测土壤的数据; 用于测量含有腐殖质材料的提取物7的吸光度的吸光度测量装置4,5,6,6a; 存储装置,用于显示含有腐殖质材料的溶液的吸光度与腐殖质材料的含量或阳离子交换容量之间的相关性,并存储根据待测土壤的pH选择的关系式; 选择装置,用于基于要测量的土壤的pH选择要使用的关系表达式; 基于吸光度的测量值和土壤的称重值计算阳离子交换容量的操作手段; 以及显示装置2,用于显示计算出的阳离子交换容量的值。 版权所有(C)2012,JPO&INPIT
    • 10. 发明专利
    • Method for measuring disinfection rate, method for transplanting fungi, method for measuring transplanting and recovering rates of fungi, fungi-transplanting system and system for measuring disinfection rate
    • 用于测量消毒率的方法,用于转运真菌的方法,用于测量真菌的转运和恢复速率的方法,真菌传递系统和用于测量消毒速率的系统
    • JP2011130672A
    • 2011-07-07
    • JP2009290348
    • 2009-12-22
    • Fujita Engineering Co LtdGunma Prefecture群馬県藤田エンジニアリング株式会社
    • TOMITA MIYOSHISUDO HIDEKAZUKAIHARA TOSHIOTAJIMA SOTAKAHASHI KIMIEYAMAMOTO RYOICHISUZUKI TAKASHI
    • C12Q1/06C12N1/20
    • PROBLEM TO BE SOLVED: To provide a method for measuring a disinfection rate by which a specimen obtained by assuming a condition in which disinfection treatment is actually carried out can be formed, and which can evaluate the disinfection effects by a test model agreeing the actuality, when evaluating the disinfection effects by various kinds of disinfection devices or the like, to provide a method for transplanting fungi, to provide a method for measuring a transplanting and recovering rates of the fungi, to provide a fungi-transplanting system and to provide a system for measuring the disinfection rate.
      SOLUTION: The method for measuring the disinfection rate includes a fungi-transplanting step for transplanting the fungi by spraying a fungi liquid containing the fungi so as to contain a prescribed number of the fungi on a medium 13 for the transplantation, having air permeability by a compression-air atomizing device 11, a transplanted fungi-counting step for obtaining the number of the transplanted fungi transplanted on the medium for the transplantation, a disinfection treatment step for disinfecting the medium for the transplantation to which the fungi have been transplanted, a remaining fungi-recovering step for recovering the fungi remaining on the medium for the transplantation after the disinfection treatment, and a remaining fungi-counting step for measuring the number of the fungi after the culture by coating the fungi recovered from the medium for the transplantation on a medium for culture, to calculate the disinfection rate from the number of the transplanted fungi, and the number of the remaining fungi.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种测定消毒率的方法,通过该方法可以形成通过假设实际进行消毒处理的条件获得的样本,并且可以通过测试模型一致来评估消毒效果 在评价各种消毒装置等的消毒效果时的实际情况,提供移植真菌的方法,提供测定真菌的移栽和回收率的方法,提供真菌移植系统,以及 提供测量消毒率的系统。 解决方案:用于测量消毒率的方法包括真菌移植步骤,用于通过喷雾含有真菌的真菌液体来移植真菌,以便在培养基13上含有规定数量的真菌用于移植,具有空气 通过压缩空气雾化装置11的渗透性,用于获得移植在用于移植的培养基上的移植真菌的数量的移植真菌计数步骤,消毒真菌移植培养基的消毒处理步骤 剩余的真菌回收步骤,用于回收在消毒处理后用于移植的培养基上剩余的真菌,以及剩余的真菌计数步骤,用于通过将从培养基中回收的真菌涂覆培养后的真菌数量 在培养基上移植,从移植真菌的数量计算消毒率,a d剩余真菌的数量。 版权所有(C)2011,JPO&INPIT