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    • 1. 发明专利
    • Air conditioning system
    • 空调系统
    • JP2011226770A
    • 2011-11-10
    • JP2011070660
    • 2011-03-28
    • Shimizu Corp清水建設株式会社
    • MIURA YASUHIROTSUJI YUJIKAJIMA TOMOAKIYAMAGUCHI HAJIMETANAKA ISAOIZAWA KOICHI
    • F24F7/06A61G10/00F24F9/00
    • PROBLEM TO BE SOLVED: To provide an air conditioning system for an operating room with good energy efficiency and inexpensive maintenance cost.SOLUTION: The air conditioning system for air-conditioning an operating room with an operating table 205 is prepared on a ceiling part of the operating table 205, and includes a supply opening 210 with a built-in HEPA filter which blows off air purified by the HEPA filter at a first wind speed and an air curtain supply opening 220 with the built-in HEPA filter which is prepared around the supply opening 210 with the built-in HEPA filter and blows off air at a second wind speed lower than the a first wind speed, wherein, when projection is performed in vertical direction, a projected plane of the supply opening 210 with built-in the HEPA filter formed by the supply opening 210 with the built-in HEPA filter includes the projected plane of the operating table 205 formed by the operating table 205.
    • 要解决的问题:提供具有良好能量效率和廉价维护成本的手术室的空调系统。 解决方案:在操作台205的顶部准备用于对具有手术台205的手术室进行空调的空调系统,并且包括具有内置HEPA过滤器的供给开口210,其吹送空气 通过HEPA过滤器以第一风速净化,并且具有内置HEPA过滤器的气帘供应开口220,其内置HEPA过滤器围绕供应开口210制备并以低于第二风速的第二风速吹出空气 第一风速,其中当在垂直方向上进行投影时,内置由内置HEPA过滤器的供给开口210形成的HEPA过滤器的供给口210的投影平面包括投影面 操作台205由操作台205形成。版权所有(C)2012,JPO&INPIT
    • 3. 发明专利
    • Local cleaning air-conditioning system
    • 本地清洁空调系统
    • JP2006112755A
    • 2006-04-27
    • JP2004303173
    • 2004-10-18
    • Shimizu Corp清水建設株式会社
    • SUZUKI YOSHINOBUSHIRATANI TAKESHIKOMATSUBARA MASAYUKIKAJIMA TOMOAKI
    • F24F7/06
    • PROBLEM TO BE SOLVED: To provide a local cleaning air-conditioning system for locally cleaning a necessary range.
      SOLUTION: A heat exchange device 2 sucks air within a clean room 10 and blows out air having executed cooling load into the clean room 10, and an air cleaning device 3 sucks the air blown by the heat exchanger 2, and blows out cleaned air toward a local place within the clean room 10. Consequently, since the air cleanliness of the desired local place is increased, compared with the circumference, wastes of facility cost and energy consumption by supplying clean air to an unnecessary place to clean it can be eliminated. Since a partition for providing a return space for returning the air to the air cleaning device 3 is dispensed with, the waste of facility cost can be eliminated, and space efficiency such as story height of the clean room 10 can be improved. Further, the construction cost can be reduced, and the construction term can be also shortened.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供用于局部清洁必要范围的局部清洁空调系统。 解决方案:热交换装置2吸入洁净室10内的空气,将执行的冷却负荷的空气吹出到清洁室10内,空气净化装置3吸入由热交换器2吹出的空气,吹出 清洁空气朝向洁净室10内的本地。因此,由于与周围相比,与周围相比,通过向不需要的地方供应清洁空气来清洁设备成本和能量消耗的浪费,可以增加期望的局部位置的空气清洁度 被淘汰。 由于省去了用于将空气返回到空气净化装置3的返回空间的分隔件,可以消除设备成本的浪费,并且可以提高洁净室10的空间效率如故事高度。 此外,可以减少施工成本,也可以缩短施工期限。 版权所有(C)2006,JPO&NCIPI
    • 5. 发明专利
    • 封入対象物の封入システム及び封入対象物の封入方法
    • 用于封装对象的封装系统和封装对象的方法
    • JP2015058938A
    • 2015-03-30
    • JP2013192342
    • 2013-09-17
    • 清水建設株式会社Shimizu Corp
    • SAKAMOTO SADASHISAITO HIROKITOBE YOSHIAKITANAKA ISAOKAJIMA TOMOAKIYAMAGUCHI HAJIME
    • B65B31/00
    • 【課題】より確実且つ効率的に悪影響物質を除去して、効率的に封入対象物を容器に封入することを可能にする封入対象物の封入システム及び封入対象物の封入方法を提供する。【解決手段】封入対象物を封入作業空間H1の内部で容器4に供給して封入する封入対象物の封入方法において、外気G1を導入するとともに、外気G1に含まれ、封入対象物に悪影響を及ぼすガス状の悪影響物質をケミカルフィルタ13a、13b、13cで外気G1から除去し、ケミカルフィルタ13a、13b、13cで外気G1を処理した後の清浄気体G4で充満するように清浄気体G4を封入作業空間H1に供給しつつ、封入作業空間H1の内部で容器4に封入対象物を供給するようにした。【選択図】図1
    • 要解决的问题:提供一种可封装物体的封装系统,其可以更可靠地和更有效地去除具有不利影响的物质并将物体有效地封装在容器中,以及封装物体的方法。 通过将对象提供给封装空间H1内的容器4并封装,封装待封装的对象,包括:引入环境空气G1; 通过化学过滤器13a,13b和13c去除对周围空气G1对物体有不利影响的气体不良物质; 并将物体供给到封装空间H1内的容器4,同时将化学过滤器13a,13b,13c处理后的清洁气体G4供给到封装空间H1,以将填充空间H1充满清洁气体 G4。
    • 7. 发明专利
    • Device for measuring contamination concentration
    • 用于测量污染浓度的装置
    • JP2009300095A
    • 2009-12-24
    • JP2008151612
    • 2008-06-10
    • Shimizu Corp清水建設株式会社
    • TANAKA ISAOIZAWA KOICHIKAJIMA TOMOAKI
    • G01N5/02
    • PROBLEM TO BE SOLVED: To provide a device for measuring contamination concentration, capable of reducing adhesion of particles onto a thin film of a silicon wafer, and measuring more accurately a contamination concentration of a chemical contaminant. SOLUTION: In this device for measuring contamination concentration equipped with a casing 2 provided on one end with an air introduction part 21 for introducing the air which is a measuring object, and provided on the other end with an air discharge part 22 for discharging the introduced air, and a quartz oscillator 3 loaded inside the casing 2, a filter 21a for removing particles from the introduced air is provided on the air introduction part 21, to thereby remove particles such as dust from the introduced air. Consequently, adhesion of particles onto the silicon wafer is reduced, and the contamination concentration of the chemical contaminant can be measured more accurately. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种用于测量污染物浓度的装置,其能够降低颗粒粘附到硅晶片的薄膜上,并且更精确地测量化学污染物的污染浓度。 解决方案:在这种用于测量污染浓度的装置中,其具有设置在一端的壳体2,其具有用于引入作为测量对象的空气的空气引入部21,并且在另一端设置有排气部22,用于 排出引入空气,并且在空气导入部21中设置有装载在壳体2内的石英振荡器3,从引入空气中除去微粒的过滤器21a,从而从引入的空气除去灰尘等微粒。 因此,颗粒在硅晶片上的粘附力降低,可以更准确地测量化学污染物的污染浓度。 版权所有(C)2010,JPO&INPIT
    • 8. 发明专利
    • Low-outgas coating
    • 低功耗涂层
    • JP2009051977A
    • 2009-03-12
    • JP2007221694
    • 2007-08-28
    • Abc Kenzai Kenkyusho:KkAbc Trading Co LtdShimizu Corp株式会社エービーシー商会株式会社エービーシー建材研究所清水建設株式会社
    • TANAKA ISAOKAJIMA TOMOAKINOSE TAKAHIROMORIKAWA MASASHI
    • C09D163/00C09D5/24
    • PROBLEM TO BE SOLVED: To provide a low-outgas coating, in which the release amount of outgas is equal to or less than that in the case of conventional low-outgas coating, produced by using a simply treatable curing agent.
      SOLUTION: The low-outgas coating is an epoxy resin-based low-outgas coating forming a cured coating film by adding a curing agent to a liquid base material. The base material comprises a liquid epoxy resin and a reactive diluent reacting with the curing agent. The curing agent for curing the base material comprises two or more amines selected from an alicyclic polyamine, an aliphatic polyamine and an epoxy adduct-modified polyamine obtained by modifying the alicyclic polyamine or the aliphatic polyamine with an epoxy adduct, an aromatic amine and a modified amine obtained by modifying the aromatic amine with an organic component.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供一种低通气性涂层,其中排气的释放量等于或小于通过使用简单可处理的固化剂产生的常规低排气涂层的情况。 解决方案:低放气涂层是通过向液体基材添加固化剂而形成固化涂膜的环氧树脂基低脱气涂层。 基材包括液体环氧树脂和与固化剂反应的反应性稀释剂。 用于固化基材的固化剂包含两种或更多种选自脂环族多胺,脂族多胺和通过用环氧加合物,芳族胺和芳族胺改性脂环族多胺或脂族多胺获得的环氧加合物改性多胺 通过用有机组分改性芳族胺而获得的胺。 版权所有(C)2009,JPO&INPIT
    • 9. 发明专利
    • 手術用局所排気システム
    • 手术当地排气系统
    • JP2014204901A
    • 2014-10-30
    • JP2013084987
    • 2013-04-15
    • 清水建設株式会社Shimizu Corp
    • YAMADA YOKOKAJIMA TOMOAKI
    • A61B19/00F24F7/007F24F7/06
    • 【課題】生体への外科的処置時に発生するガスが手術室内に滞留することを防止することができる手術用局所排気システムを提供する。【解決手段】手術用局所排気システム10は、生体に外科的処置を施した際に発生する煙霧G1を吸引する吸引口26と、吸引口26から吸引された煙霧G1を脱臭してから排気する脱臭フィルタ部28と、吸引口26と脱臭フィルタ部28との間を連通し、吸引口26を煙霧G1の発生位置に臨ませて配置可能な吸引チューブ30とを備え、例えば、電気メス20による生体組織の焼灼によって発生した煙霧G1を吸引し清浄化する。【選択図】図1
    • 要解决的问题:提供一种外科局部排气系统,其能够防止在手术治疗期间产生的气体残留在手术室内。解剖:外科局部排气系统10包括:吸入烟雾和雾G1的吸入口26 当手术治疗应用于生物体时产生; 除臭过滤器部分28,在排出从吸入口26吸入的烟雾和雾G1之前对烟雾和雾G1进行除臭; 以及吸入管30,其将吸入口26与除臭过滤器28连通,并且能够将吸入口26设置为面对烟雾G1的产生位置。 例如,外科局部排气系统10通过电刀20吸收并净化由生物组织的烧灼产生的烟雾和雾G1。
    • 10. 发明专利
    • Qcm sensor
    • QCM传感器
    • JP2013205238A
    • 2013-10-07
    • JP2012074830
    • 2012-03-28
    • Shimizu Corp清水建設株式会社
    • TANAKA ISAOKAJIMA TOMOAKIYAMADA YOKO
    • G01N5/02
    • PROBLEM TO BE SOLVED: To provide a QCM sensor which is improved in sensitivity.SOLUTION: In a QCM sensor 10 which introduces gas to be measured from gas introduction ports 22a, 22b of a flow cell in which a crystal oscillator 12 is incorporated and exhausts the gas to be measured in contact with the surface of the crystal oscillator 12 from a gas exhausting port 24 of the flow cell 20, an angle θ formed by a central axis of the gas introduction ports 22a, 22b and the surface of the crystal oscillator 12 is made within a range of 45 to 90 degrees. Thus, sensitivity of the QCM sensor can be improved.
    • 要解决的问题:提供灵敏度提高的QCM传感器。解决方案:在其中结合有晶体振荡器12的流动池的气体导入口22a,22b引入待测量气体的QCM传感器10中, 从流动池20的排气口24测量与晶体振荡器12的表面接触的气体,角度和角度; 由气体导入口22a,22b的中心轴和晶体振子12的表面形成在45〜90度的范围内。 因此,可以提高QCM传感器的灵敏度。