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    • 2. 发明授权
    • Movable backing system
    • 可移动支撑系统
    • US5590829A
    • 1997-01-07
    • US495653
    • 1995-10-18
    • Akitoshi MasamuraYuichi KimuraAkio Iwasaki
    • Akitoshi MasamuraYuichi KimuraAkio Iwasaki
    • B23K9/035B23K37/06B23K37/02
    • B23K37/06
    • A movable backing system enables it to continuously, easily perform full penetration welding along a weld line in a confined space, irrespective of the length, configuration and other factors of a weld zone. A weld backing, which has a backing member disposed on the side facing a workpiece and cooling means disposed inside the weld backing for cooling the backing member, is so supported on a wheeled carriage as to be movable toward the workpiece. The weld backing is provided with follower elements which are always in contact with the underside of the workpiece and which turn following the movement of the workpiece to keep a predetermined gap between the underside of the workpiece and the weld backing so that desired bead thickness can be obtained. The wheeled carriage is moved synchronously with the movement of the welder to continuously perform full penetration welding.
    • PCT No.PCT / JP93 / 00093 Sec。 371 1995年10月18日第 102(e)日期1995年10月18日PCT提交1993年1月27日PCT公布。 公开号WO94 / 16856 日期1994年8月4日可移动支承系统使其能够连续地,容易地在密闭空间内沿着焊接线进行全穿透焊接,而与焊接区域的长度,构造和其他因素无关。 具有设置在面向工件的一侧的背衬构件和设置在焊接背衬内部以冷却背衬构件的冷却装置的焊接背衬被支撑在轮式滑架上以朝向工件移动。 焊接背衬设置有随动元件,其随动件与工件的下侧接触,并随着工件的移动而转动,以保持工件的下侧与焊接背衬之间的预定的间隙,使得期望的焊道厚度可以为 获得。 轮式滑架与焊机的运动同步移动,以连续进行全焊接。
    • 5. 发明授权
    • Microorganism capable of microbially decomposing chloro-, methylthio- and methoxy-triazine agrichemicals
    • 微生物能够微量分解氯,甲硫基和甲氧基三嗪农药
    • US08168420B2
    • 2012-05-01
    • US12513573
    • 2007-11-20
    • Kazuhiro TakagiKunihiko FujiiNaoki HaradaAkio Iwasaki
    • Kazuhiro TakagiKunihiko FujiiNaoki HaradaAkio Iwasaki
    • C12N1/20C02F3/34A62D3/02
    • B09C1/10A62D3/02A62D2101/26C02F3/34C02F2101/306C12R1/01Y10S435/822
    • Disclosed are: a novel microorganism which can decompose a methylthiotriazine compound (particularly, simetryn, dimethametryn, prometryn), a chlorotriazine compound (particularly, simazine, atrazine, propazine) and a methoxytriazine compound (particularly, simeton, atraton, prometon) which have been frequently used as agrichemicals or the like; and a method for decomposing a methylthiotriazine compound, a chlorotriazine compound and/or a methoxytriazine compound by using the microorganism. Specifically disclosed are: a novel bacterium Nocardioides sp. strain MTD22 which is capable of decomposing a methylthiotriazine compound, a chlorotriazine compound and a methoxytriazine compound; and a method for decomposing a methylthiotriazine compound, a chlorotriazine compound and/or a methoxytriazine compound, particularly simetryn, dimethametryn, prometryn, simazine, atrazine, propazine, simeton, atraton and/or prometon, by using the microorganism.
    • 公开了一种可以分解甲基硫代三嗪化合物(特别是西米特,二甲基丙烯酸甲酯,prometryn),氯代三嗪化合物(特别是西马拉嗪,莠去津,丙嗪)和甲氧基三嗪化合物(特别是西蒙特,阿特拉津,普罗特酮)的新型微生物, 经常用作农药等; 以及通过使用微生物分解甲基硫代三嗪化合物,氯代三嗪化合物和/或甲氧基三嗪化合物的方法。 具体公开的是:新型细菌诺卡氏菌属 能够分解甲基硫代三嗪化合物,氯代三嗪化合物和甲氧基三嗪化合物的菌株MTD22; 以及通过使用该微生物分解甲基硫代三嗪化合物,氯代三嗪化合物和/或甲氧基三嗪化合物,特别是西蒙特,二甲基丙烯酸,衍生物,西马拉平,莠去津,丙嗪,西蒙,阿特拉津和/或前导子的方法。