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    • 55. 发明授权
    • 1,2-Dioxetane derivatives and reagents employing them
    • 1,2-二氧杂环丁烷衍生物和使用它们的试剂
    • US06747160B2
    • 2004-06-08
    • US10382853
    • 2003-03-07
    • Masakatsu MatsumotoNobuko WatanabeMasashi Yamada
    • Masakatsu MatsumotoNobuko WatanabeMasashi Yamada
    • C07D40514
    • C07D493/04C07D321/00C07F7/1804
    • A 1,2-dioxetane derivative of the formula (I): wherein Ar is an aryl group which may have an alkyl group, an aryl group, a halogen atom, an alkoxyl group, a carboxyl group, a formyl group, an alkyl ester, an aryl ester, an alkylketone, an arylketone or a hetero ring bonded thereto, X is a substituent capable of labeling an organic compound or a biological molecule, or an ester, Y is a hydrogen atom, an acyl group or a group of the formula —Si(R4R5R6) (wherein each of R4, R5 and R6 which are independent of one another, is an alkyl group or an aryl group), Z is an alkyl group, an aryl group, an oxygen atom, a sulfur atom, a carbonyl group, —(CO)—O—, —O—(CO)—, —NH—, —NH—CO—, —CO—NH—, —OSi(R7R8)— (wherein each of R7 and R8 which are independent of each other, is an alkyl group or aryl group) or a group of the formula —(R9R10)SiO— (wherein each of R9 and R10 which are independent of each other, is an alkyl group or an aryl group), each of R1 and R2 is an alkyl group or an aryl group, and R3 is a spacer.
    • 式(I)的1,2-二氧杂环丁烷衍生物:其中Ar是可以具有烷基,芳基,卤素原子,烷氧基,羧基,甲酰基,烷基酯的芳基 ,芳基酯,烷基酮,芳基酮或与其结合的杂环,X是能够标记有机化合物或生物分子的取代基或酯,Y是氢原子,酰基或基团的基团 式-Si(R4R5R6)(其中R4,R5和R6各自独立地为烷基或芳基),Z为烷基,芳基,氧原子,硫原子, 羰基, - (CO)-O-,-O-(CO) - , - NH - , - NH-CO - , - CO-NH-,-OSi(R7R8) - (其中R7和R8各自 相互独立,为烷基或芳基)或式 - (R9R10)SiO - (其中R 9和R 10各自独立地为烷基或芳基)的基团, R 1和R 2各自是烷基或芳基,R 3 是间隔物。
    • 57. 发明授权
    • Insulated vessel and method of production therefor
    • 绝缘船及其生产方法
    • US06179155B2
    • 2001-01-30
    • US08890701
    • 1997-07-11
    • Yasuhiko KomiyaMasashi YamadaAtsuhiko TanakaSeiichi Ito
    • Yasuhiko KomiyaMasashi YamadaAtsuhiko TanakaSeiichi Ito
    • F16L5905
    • B65D81/3806A47J41/0072F16L59/06Y10T29/49879Y10T29/49885
    • The present invention relates to an insulated vessel which may be produced at low cost, has superior insulating capabilities and excellent volumetric efficiency, and which may be suitably employed in a thermos, cooler, icebox, insulated cup, thermal insulated lunch box, thermal insulated electric pot, heat retaining rice cooker, refrigerator or freezer box insulating material, or as an insulating layer in a bath tub. The insulated vessel of the present invention is characterized in the formation of an insulating layer in the space interval between the inner vessel and the outer vessel of a double walled vessel which is filled with a low thermoconductive gas consisting of at least one the gases of xenon, krypton, and argon, and in the disposition of a metallic heat radiation preventing material at the insulating layer.
    • 本发明涉及一种绝缘容器,其可以低成本生产,具有优异的绝缘性能和优异的体积效率,并且可以适用于保温瓶,冷却器,冰箱,隔热杯,隔热饭盒,热绝缘电 锅,保温电饭煲,冰箱或冷冻箱绝缘材料,或作为浴缸中的绝缘层。 本发明的绝缘容器的特征在于在双壁容器的内部容器和外部容器之间的空间间隔内形成绝缘层,该双壁容器填充有由至少一种氙气体组成的低导热气体 ,氪和氩,以及在绝缘层处设置金属防辐射材料。
    • 58. 发明授权
    • Thermally insulated synthetic resin container and thermally insulated
synthetic resin lid
    • 绝热合成树脂容器和合成树脂绝热盖
    • US6152319A
    • 2000-11-28
    • US101260
    • 1998-06-29
    • Hidefumi KamachiMasashi YamadaTakafumi FujiiKensuke FuruyamaAtsuhiko Tanaka
    • Hidefumi KamachiMasashi YamadaTakafumi FujiiKensuke FuruyamaAtsuhiko Tanaka
    • A47J41/02A47J41/00B65D90/00
    • A47J41/0077
    • The present invention relates to a thermally insulated synthetic resin container, which is a thermally insulated container having a double walled structure and being made of synthetic resin, which reduces the thermal conduction loss from the mouth portion, and which has excellent thermally insulating performance capabilities.The thermally insulated synthetic resin container 1 of the present invention has an inner container 4 and an outer container 3, which are both made of synthetic resin and which are both connected at their respective mouth portions 12, 11 while providing a space portion in between the two containers. According to this thermally insulated synthetic resin container which is formed by having the space portion between the inner container 4 and the outer container 3 be a thermally insulating layer 6, a reduced thermal conductive portion 14 having a wall of reduced thickness is formed in the vicinity of the mouth portion 12 of the inner container 4.
    • PCT No.PCT / JP97 / 04131 Sec。 371日期1998年6月29日第 102(e)日期1998年6月29日PCT 1997年11月13日PCT PCT。 WO98 / 22007 PCT出版物 日期1998年5月28日本发明涉及一种隔热合成树脂容器,其是具有双壁结构并由合成树脂制成的隔热容器,其减小了从口部的热传导损耗,并且具有优异的热 绝缘性能能力。 本发明的隔热合成树脂容器1具有内部容器4和外部容器3,它们均由合成树脂制成,并且在其各自的口部12,11处均连接,同时在其间的空间部分 两个容器。 根据通过在内部容器4和外部容器3之间具有空间部分而形成的隔热合成树脂容器为隔热层6,在附近形成具有厚度减小的壁的导热部14 的内容器4的口部12。
    • 59. 发明授权
    • Construction for attaching a radiant heat blocking metal foil of an
insulated container
    • 用于安装隔热容器的辐射热阻金属箔的结构
    • US6123218A
    • 2000-09-26
    • US160820
    • 1998-09-25
    • Takafumi FujiiMasashi YamadaKensuke FuruyamaAtsuhiko Tanaka
    • Takafumi FujiiMasashi YamadaKensuke FuruyamaAtsuhiko Tanaka
    • A47J41/00B65D81/38F16L59/08
    • B65D81/3823F16L59/08
    • The invention relates to a construction for attaching a radiant heat blocking metal foil to an insulating layer of an insulated container. Heretofore, a construction for attaching a radiant heat blocking metal foil involves positioning, an adhesive or adhesive tape on the rear face of the metal foil to thereby attach the foil at a predetermined position. However this has the problem that the foil can be attached at an unintended position, so that accurate positioning is not achieved, and the fixing takes time. The invention addresses such problems, with a construction enabling accurate fixing of the metal foil at a predetermined position, by forming at least one hole in a radiant heat blocking metal foil provided along the container wall face of a container formed with an insulating layer on the wall portion of the insulated container, and mounting the metal foil along a predetermined container wall face in a state wherein an adhesive or adhesive tape has not been applied, and after freely adjusting the arrangement position to a predetermined condition, affixing and securing the container wall face which can be seen via the hole to the metal foil at the peripheral portion of the hole, using adhesive tape.
    • 本发明涉及一种用于将辐射热阻金属箔附着到绝缘容器的绝缘层的结构。 迄今为止,用于安装辐射热阻金属箔的结构涉及在金属箔的后表面上定位,粘合或粘合带,从而将箔附着在预定位置。 然而,这样做的问题是,箔可以被安装在非预期的位置,从而不能实现精确的定位,并且固定需要时间。 本发明解决了这样的问题,其结构是能够通过在形成有绝缘层的容器的容器壁面上设置的辐射热阻金属箔中形成至少一个孔,从而将金属箔精确地固定在预定位置 绝缘容器的壁部,并且在未涂布粘合剂或粘合带的状态下将金属箔沿着预定的容器壁面安装,并且在将布置位置自由调节到预定条件之后,将容器壁 使用胶粘带在孔的周边部分可以通过孔与金属箔看到的面。
    • 60. 发明授权
    • Thermally insulated container and production process therefor
    • 隔热容器及其生产工艺
    • US5846371A
    • 1998-12-08
    • US843759
    • 1997-04-21
    • Masashi YamadaYasuhiko KomiyaAtsuhiko TanakaSeiichi Ito
    • Masashi YamadaYasuhiko KomiyaAtsuhiko TanakaSeiichi Ito
    • A47J41/00B65D8/16B32B11/00B65B31/04
    • A47J41/0077
    • A thermally insulated container of the present invention is a double-walled container in an integral body in which an inner casing is arranged in an outer casing so as to maintain a space therebetween, wherein the space is charged with a gas having a low thermal conductivity, and an opening having a diameter of 0.1 to 3 mm for charging gas in a wall of either of the inner casing and the outer casing is sealed. In a production process of the present invention, a double-walled container is obtained by arranging an inner casing in an outer casing so as to maintain a space therebetween, and by joining them into an integral body, a wall of either of the inner casing and the outer casing being provided with an opening for charging gas; then, the double-walled container is placed in a thermostatic chamber, a charging-evacuating tube which is switchably disposed to a vacuum evacuation apparatus and to a source of a gas having a low thermal conductivity is connected to the opening for charging gas, the space between the walls of the inner and outer casings is subjected to vacuum evacuation at a predetermined temperature, and thereafter a gas having a low thermal conductivity is introduced; and then, the opening for charging gas is sealed.
    • 本发明的隔热容器是一体式的双壁容器,其中内壳体设置在外壳体中以便在其间保持间隙,其中空间装有导热性低的气体 并且密封了用于在内壳和外壳中的任一个的壁中充入气体的直径为0.1至3mm的开口。 在本发明的制造方法中,通过将内壳体配置在外壳中以便保持其间的空间,并且通过将内壳体连接成一体而获得双壁容器,内壳体 并且所述外壳设置有用于充气的开口; 然后,将双壁容器放置在恒温室中,将切换设置在真空排气装置和具有低热导率的气体源的充电排气管连接到用于充气的开口, 在预定温度下对内壳和外壳的壁之间的空间进行真空排气,然后引入导热性低的气体; 然后将充气气体的开口密封。