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    • 11. 发明申请
    • Process for producing purified anthocyanin and crystalline anthocyanin
    • 生产纯化花青素和结晶花青素的方法
    • US20060166330A1
    • 2006-07-27
    • US11392599
    • 2006-03-30
    • Hitoshi MatsumotoSatoshi HanamuraMasao Hirayama
    • Hitoshi MatsumotoSatoshi HanamuraMasao Hirayama
    • C12P19/58
    • C07H17/00C07H17/065C09B61/00C12P19/14C12P19/44
    • Provided are a process for producing purified anthocyanidin glucoside in which a rhamnose end of anthocyanidin rutinoside is cleaved using rhamnosidase to convert the anthocyanidin rutinoside component into anthocyanidin glucoside, the anthocyanidin glucoside component being then purified and isolated; or a crystalline anthocyanidin glucoside salt obtained by further crystallizing the purified anthocyanidin glucoside and a process for producing the same. Also provided are a process for producing purified anthocyanidin rutinoside in which a glucose end of anthocyanidin glucoside is cleaved using β-glucosidase to degrade and remove the end, the anthocyanidin rutinoside component being then purified and isolated; or a crystalline anthocyanidin rutinoside salt obtained by further crystallizing the purified anthocyanidin rutinoside and a process for producing the same.
    • 提供了使用鼠李糖苷酶将花色素芸香糖苷成分转化为花色素苷葡糖苷的花青素芸香糖苷的鼠李糖末端切割纯化花青素葡糖苷的方法,然后纯化和分离花色素苷苷组分; 或通过进一步结晶纯化的花青素葡糖苷获得的结晶花色素苷糖苷及其制备方法。 还提供了生产纯化的花青素芸香糖苷的方法,其中使用β-葡糖苷酶切割花青素葡糖苷的葡萄糖末端以降解和除去末端,然后纯化和分离花色素芸香糖苷组分; 或通过进一步结晶纯化的花青素芸香苷获得的结晶花色素芸香糖苷盐及其制备方法。
    • 16. 发明授权
    • Process for producing purified anthocyanin and crystalline anthocyanin
    • 生产纯化花青素和结晶花青素的方法
    • US07211413B2
    • 2007-05-01
    • US10380056
    • 2001-09-11
    • Hitoshi MatsumotoSatoshi HanamuraMasao Hirayama
    • Hitoshi MatsumotoSatoshi HanamuraMasao Hirayama
    • C12P19/60
    • C07H17/00C07H17/065C09B61/00C12P19/14C12P19/44
    • Provided are a process for producing purified anthocyanidin glucoside in which a rhamnose end of anthocyanidin rutinoside is cleaved using rhamnosidase to convert the anthocyanidin rutinoside component into anthocyanidin glucoside, the anthocyanidin glucoside component being then purified and isolated; or a crystalline anthocyanidin glucoside salt obtained by further crystallizing the purified anthocyanidin glucoside and a process for producing the same.Also provided are a process for producing purified anthocyanidin rutinoside in which a glucose end of anthocyanidin glucoside is cleaved using β-glucosidase to degrade and remove the end, the anthocyanidin rutinoside component being then purified and isolated; or a crystalline anthocyanidin rutinoside salt obtained by further crystallizing the purified anthocyanidin rutinoside and a process for producing the same.
    • 提供了使用鼠李糖苷酶将花色素芸香糖苷成分转化为花色素苷葡糖苷的花青素芸香糖苷的鼠李糖末端切割纯化花青素葡糖苷的方法,然后纯化和分离花色素苷苷组分; 或通过进一步结晶纯化的花青素葡糖苷获得的结晶花色素苷糖苷及其制备方法。 还提供了生产纯化的花青素芸香糖苷的方法,其中使用β-葡糖苷酶切割花青素葡糖苷的葡萄糖末端以降解和除去末端,然后纯化和分离花色素芸香糖苷组分; 或通过进一步结晶纯化的花青素芸香苷获得的结晶花色素芸香糖苷盐及其制备方法。
    • 17. 发明授权
    • Method for smoothly evaginating a tubular material under pressure
    • 用于在压力下平稳地将管状材料拉制的方法
    • US4334943A
    • 1982-06-15
    • US173656
    • 1980-07-29
    • Katsuaki ZenbayashiAkio MorinagaMasao HirayamaAkira Morita
    • Katsuaki ZenbayashiAkio MorinagaMasao HirayamaAkira Morita
    • B29C63/36B29C67/00F16L55/165H02G1/08B29C27/16F16L55/18
    • F16L55/1651B29C63/36B29C67/0018H02G1/086
    • A method for smoothly evaginating a tubular material under pressure, if necessary, within a pipe line with simultaneous bonding the evaginated tubular material onto the inner surface of the pipe line, which comprises placing in a pressure container having a discharge pipe a part or whole of a tubular material, if necessary, with one terminal end thereof being connected to a first like material rope having a length at least equal to that of the tubular material, if necessary forming a reservoir of a binder enclosed in the interior of the tubular material placed in the pressure container to apply the binder onto the inner surface of the tubular material, fixing the other open terminal end in evaginated state to an annular fastener of said discharge pipe, and applying a pressurized fluid to the pressure container to evaginate the tubular material over its full length as it is propelled from the discharge pipe and, if necessary, moved forward within the pipe line and at the same time bonding the evaginated tubular material onto the inner surface of the pipe line with the binder being interposed therebetween, characterized in that a second rope-like material previously passed through said tubular lining material beyond its full length is drawn out while applying said pressurized fluid. This method is effective for overcoming drawbacks seen in the conventional methods for evaginating tubular materials and is advantageously utilized for the lining treatment of extremely long pipe lines or pipe lines with a number of curved portions without damaging the apparatus and/or lining materials and narrowing the flow path.
    • 一种用于在压力下平稳地将管状材料压入管线内的方法,该方法包括将具有排放管的压力容器放置在具有排出管的压力容器中,部分或全部 管状材料,如果需要,其一个末端连接到长度至少等于管状材料的长度的第一类似材料绳索,如果需要,形成封闭在放置的管状材料内部的粘合剂储存器 在压力容器中将粘合剂施加到管状材料的内表面上,将处于分离状态的另一个开口终端固定到所述排放管的环形紧固件上,并将加压流体施加到压力容器以将管状材料翻过来 其全长从排放管道推进,如有必要,在管道内向前移动,同时保持 将分散的管状材料夹在管线的内表面上,其间插入有粘合剂,其特征在于,预先通过所述管状衬里材料超过其全长的第二绳状材料在施加所述加压流体的同时被抽出。 该方法对于克服用于分离管状材料的常规方法中看到的缺陷是有效的,并且有利地用于具有多个弯曲部分的极长管线或管线的衬里处理,而不损坏设备和/或衬里材料并使 流路。