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    • 7. 发明申请
    • Method of manufacturing glass particulate stacked body
    • 制造玻璃颗粒堆叠体的方法
    • US20060086147A1
    • 2006-04-27
    • US10511547
    • 2003-04-18
    • Toshihiro OoishiMotonori NakamuraTomohiro IshiharaTatsuro Sakai
    • Toshihiro OoishiMotonori NakamuraTomohiro IshiharaTatsuro Sakai
    • C03B37/07C03B37/018
    • C03B37/0142C03B2207/52C03B2207/66C03B2207/70
    • An object of the present invention is to provide a method for manufacturing a glass particle deposited body in which a taper portion formed at an end portion of the glass particle deposited body is reduced without increasing the number of burners. The invention allows the glass particle deposited body to be manufactured in such a manner that a plurality of glass particle synthesizing burners are arranged to be opposed to a rotating starting rod, wherein the starting rod and the glass particle synthesizing burners are relatively reciprocated to move a turn-back location of reciprocating movement in a certain direction, and then move the turn-back location of reciprocating movement in the reverse direction if the turn-back location is moved to a predetermined position, until each burner is returned to an initial position, which operation is defined as one set of operation, with an average reciprocating movement distance of one set being less than double a burner-to-burner interval, whereby the glass particles are deposited on the starting rod by repeating one set of operation.
    • 本发明的目的是提供一种制造玻璃颗粒沉积体的方法,其中形成在玻璃颗粒沉积体的端部处的锥形部分减少而不增加燃烧器的数量。 本发明允许玻璃颗粒沉积体以多个玻璃颗粒合成燃烧器布置成与旋转起始杆相对的方式制造,其中起始杆和玻璃颗粒合成燃烧器相对往复运动, 如果将回转位置移动到预定位置,直到每个燃烧器返回到初始位置,则往复运动的往复运动的反向位置沿相反方向移动, 该操作被定义为一组操作,一组的平均往复运动距离小于燃烧器至燃烧器间隔的两倍,由此玻璃颗粒通过重复一组操作而沉积在起始杆上。
    • 10. 发明授权
    • Optical fiber splicing method and optical fiber
    • 光纤拼接方法和光纤
    • US06705772B2
    • 2004-03-16
    • US10161624
    • 2002-06-05
    • Motonori NakamuraOsamu KasuuDaisuke YokotaYuichi Ohga
    • Motonori NakamuraOsamu KasuuDaisuke YokotaYuichi Ohga
    • G02B6255
    • G01N21/67G01N21/72
    • An optical fiber splicing method capable of fully reducing the splice loss at room temperature is provided. In the optical fiber splicing method in accordance with the present invention, respective end faces of optical fibers are fused together in a splicing step (S101). In a condition setting step (S102), a set value &agr;0 is set. Thereafter, a heating step (S103), a measuring step (S104), and a termination determining step (S105) are carried out repeatedly. In the heating step, a region including the fusion-spliced point is heated under a predetermined heating condition. In the measuring step, splice loss is measured. In the termination determining step, the splice loss &agr;n measured in the measuring step and the set value &agr;0 set in the condition setting step are compared with each other in terms of magnitude. If the splice loss &agr;n is not greater than the set value &agr;0, then it is determined that the alternation should be terminated, whereby the optical fiber connecting operation is terminated.
    • 提供能够完全降低室温下的接头损耗的光纤接合方法。 在根据本发明的光纤拼接方法中,光纤的各个端面在拼接步骤中熔合在一起(S101)。 在条件设定步骤(S102)中,设定设定值α0。 此后,重复执行加热步骤(S103),测量步骤(S104)和终止确定步骤(S105)。 在加热步骤中,在预定加热条件下加热包含熔接点的区域。 在测量步骤中,测量接头损耗。 在终止确定步骤中,在测量步骤中测量的拼接损耗色差和在条件设置步骤中设置的设置值α0在幅度方面彼此进行比较。 如果接头损失字母不大于设定值α0,则确定应该终止交替,从而终止光纤连接操作。