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    • 5. 发明申请
    • Method of Producing a Drink Contained in a Container
    • 生产容器中饮料的方法
    • US20090007522A1
    • 2009-01-08
    • US12223578
    • 2006-02-02
    • Shigeru SakaiKatsumi SenbonTakeshi IwashitaAkira Abe
    • Shigeru SakaiKatsumi SenbonTakeshi IwashitaAkira Abe
    • B65B55/10B67C3/00B67C7/00B65B55/14
    • A23F3/163B65B55/10B65B55/18
    • A method of producing a drink contained in a container comprising steps of heating and thereby sterilizing a tea drink having pH of 4.6 or over and containing catechin in an amount of 30 mg % or over or an acidic drink having pH of less than 4.6 and thereafter maintaining the sterilized drink at a temperature within a range from 60° C. to 70° C. and, in the meanwhile, heating and thereby sterilizing and rinsing a container on at least its inner surface with heated water having a temperature within a range from 65° C. to 100° C., filling the drink in the sterilized container at a filling temperature within a range from 60° C. to 70° C. in an environment controlled space which is separated from an outside environment and in which filling and sealing apparatuses and an environment surrounding the filling and sealing apparatuses have been heated and thereby sterilized and rinsed with heated water having a temperature within a range from 65° C. to 100° C., and sealing the container filled with the drink and thereafter cooling the container to a normal temperature of 40° C. or below.
    • 一种容器中含有的饮料的制造方法,其特征在于,将pH为4.6以上,含有30mg%以上的儿茶素的茶饮料或pH值小于4.6的酸性饮料进行加热灭菌, 将灭菌的饮料保持在60℃至70℃的温度范围内,同时加热,从而在至少其内表面上用温度在 65℃至100℃,在与外部环境分离的环境控制空间中,在60℃至70℃的填充温度下将饮料填充到无菌容器中,并且其中填充 并且密封装置和填充和密封装置周围的环境已被加热,从而用温度在65℃至100℃范围内的加热水进行灭菌和冲洗,并且密封容器 充满饮料,然后将容器冷却至40℃或更低的常温。
    • 6. 发明授权
    • Cleaning container for photographic treatment composition
    • 用于摄影处理组合物的清洁容器
    • US07225926B2
    • 2007-06-05
    • US10224367
    • 2002-08-21
    • Akira Abe
    • Akira Abe
    • B65D85/84G03C7/413
    • B08B9/093Y10T428/1352
    • A method and apparatus for cleaning treatment composition containers are disclosed which are capable of taking out photographic treatment compositions in the form of powder, granules, tablets or slurry from the containers without adhesion of the components to the inner wall of the container and residue of the coagulated and solidified substances and as well as cleaning the inside portions of the containers. The method and apparatus for cleaning the containers for the photographic treatment compositions have the steps of mounting containers filled with treatment compositions in the form of powder, granules, tablets or slurry and comprising as a resin, only high-density polyethylene (HDPE) having a density of 0.941 to 0.969 g/cm3 and a melt index of 0.3 g/10 min to 5.0 g/10 min to a cleaning apparatus; opening an opening portion of the container to inject the treatment material into a dissolving tank, and spraying cleaning water into the empty container from a nozzle.
    • 公开了一种用于清洁处理组合物容器的方法和装置,其能够从容器中取出粉末,颗粒,片剂或浆料形式的照相处理组合物,而不将组分粘附到容器的内壁上, 凝固和固化的物质,以及清洁容器的内部。 用于清洁照相处理组合物的容器的方法和装置具有如下步骤:将填充有粉末,颗粒,片剂或浆料形式的处理组合物的容器装入,并且包含作为树脂的仅高密度聚乙烯(HDPE),其具有 0.941至0.969g / cm 3的密度和0.3g / 10min至5.0g / 10min的熔体指数至清洁装置; 打开容器的开口部分以将处理材料注入溶解槽中,并从喷嘴将清洁水喷射到空容器中。
    • 8. 发明授权
    • Liquid crystal display and electronic apparatus
    • 液晶显示器和电子设备
    • US5870158A
    • 1999-02-09
    • US3255
    • 1998-01-06
    • Akira AbeHyunho Shin
    • Akira AbeHyunho Shin
    • G02F1/133G02F1/1337G02F1/1343G02F1/136G02F1/1362G02F1/1368G02F1/1333
    • G02F1/1323G02F1/133753G02F1/136209
    • A liquid crystal display capable of freely changing between the state of having a large viewing angle and the state of having a small viewing angle according to one's need, and an electronic apparatus using the liquid crystal display. A pair of substrates having respective surfaces opposed to each other are provided and a liquid crystal is provided between the substrates. A common electrode and an alignment film are successively formed on the opposed surface of one of the pair of substrates. A multiplicity of pixel electrodes are provided on the opposed surface of the other substrate so as to cover display regions of the liquid crystal. An electroconductive black matrix is provided on the other substrate while being electrically insulated from the pixel electrodes, the black matrix being formed at peripheral portions of the pixel electrodes and over non-display regions of the liquid crystal. Another alignment film is provided over the pixel electrodes and the black matrix. A switch is provided to divide a pixel region formed corresponding to each pixel electrode into two by applying a potential to the black matrix. The switch changes the two pixel regions formed corresponding to each pixel electrode into one when no potential is applied to the black matrix.
    • 根据需要,可以在具有大视角的状态和具有小视角的状态之间自由地变化的液晶显示器和使用该液晶显示器的电子设备。 设置具有彼此相对的各个表面的一对基板,并且在基板之间设置液晶。 公共电极和取向膜依次形成在一对基板之一的相对表面上。 在另一基板的相对表面上设置多个像素电极,以覆盖液晶的显示区域。 在另一个基板上设置导电黑色矩阵,同时与像素电极电绝缘,黑色矩阵形成在像素电极的周边部分和液晶的非显示区域上。 在像素电极和黑矩阵之上提供另一取向膜。 提供开关,通过向黑矩阵施加电位将对应于每个像素电极形成的像素区域分成两个。 当没有电位施加到黑矩阵时,开关将对应于每个像素电极形成的两个像素区域改变为一个。