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    • 2. 发明申请
    • Apparatus for Generating Fluorine Gas
    • 氟气产生装置
    • US20120318665A1
    • 2012-12-20
    • US13574177
    • 2011-02-24
    • Tatsuo MiyazakiAkifumi YaoTakuya Kita
    • Tatsuo MiyazakiAkifumi YaoTakuya Kita
    • C25B9/00C25B1/24
    • C25B1/245B01D53/0423B01D53/0446B01D53/685B01D2256/26B01D2257/2047C25B15/08
    • [Object] To provide a fluorine gas generating system which can stably supply high purity fluorine gas while preventing blockade of a purification apparatus for adsorbing and removing hydrogen fluoride.[Solving means] A fluorine gas generating system characterized by including a purification apparatus 20 for adsorbing and removing hydrogen fluoride vaporized from a molten salt of an electrolysis tank 1 and mixed in fluorine gas generated at an anode 7, in which the purification apparatus 20 includes a cylindrical member through which main-product gas containing fluorine gas generated in the electrolysis tank 1 flows, a temperature regulator for regulating temperature of the cylindrical member, and an adsorbent holder disposed inside the cylindrical member, the adsorbent holder being disposed to form an aperture for securing a flow passage of the main-product gas inside the cylindrical member.
    • 本发明提供一种能够稳定地供给高纯度氟气同时防止用于吸附除去氟化氢的净化装置的氟系气体发生系统。 [解决方案]一种氟气发生系统,其特征在于包括:净化装置20,其用于吸附除去由电解槽1的熔融盐蒸发的氟化氢,并混合在阳极7产生的氟气中,净化装置20包括 在电解槽1中产生的含有氟气的主要产物气体通过其流过的圆柱形构件,用于调节圆柱形构件温度的温度调节器和设置在圆柱形构件内部的吸附剂保持器,该吸附剂保持器设置成形成孔 用于将主产品气体的流路固定在圆柱形构件内。
    • 4. 发明申请
    • Fluorine Gas Generating Device
    • 氟气发生装置
    • US20120031752A1
    • 2012-02-09
    • US13258954
    • 2010-03-29
    • Isamu MoriTatsuo MiyazakiAkifumi YaoTakuya Kita
    • Isamu MoriTatsuo MiyazakiAkifumi YaoTakuya Kita
    • C25B15/00C25B9/00C25B1/24
    • C25B1/245C01B7/20C25B15/08
    • A fluorine gas generating device 100 is provided which facilitates the maintenance operation of recovery and replacement of an adsorbing material that adsorbs hydrogen fluoride and supplies fluorine gas in a stable manner. The device comprises a refining line 20 that includes refining devices that, with the aid of adsorbing material, remove hydrogen fluoride gas that has been evaporated from a molten salt of an electrolytic tank 1 and mixed to fluorine gas generated at a positive pole 103a of the electrolytic tank. The refining line 20 comprises a first refining section 21 that includes at least two refining devices arranged in parallel and a second refining section 22 that includes at least two refining devices arranged in parallel and is positioned downstream of the first refining section 21. Fluorine gas that has passed through either one of the refining devices of the first refining section 21 is selectively led to either one of the refining devices of the second refining section.
    • 提供了一种氟气发生装置100,其有助于回收和更换吸附氟化氢并以稳定的方式供应氟气的吸附材料的维护操作。 该装置包括精炼管线20,其包括精炼装置,该装置借助于吸附材料除去从电解槽1的熔融盐蒸发的氟化氢气体,并混合到在正极103a处产生的氟气体 电解槽。 精炼生产线20包括第一精炼部分21,其包括平行布置的至少两个精炼装置和第二精炼部分22,该第二精炼部分22包括平行排列并且位于第一精炼部分21的下游的至少两个精炼装置。氟气 已经通过了第一精炼部21的精炼装置中的任一个选择性地被引导到第二精炼部的精炼装置中的任一个。
    • 9. 发明授权
    • Method for welding corrugate portions by means of welding robot for
corrugation lap joint
    • 通过用于波纹搭接接头的焊接机器人焊接波纹部分的方法
    • US5597498A
    • 1997-01-28
    • US506242
    • 1995-07-24
    • Kazuyuki SunayamaKunio MiyawakiMinoru OhnoTatsuo Miyazaki
    • Kazuyuki SunayamaKunio MiyawakiMinoru OhnoTatsuo Miyazaki
    • B23K9/127B23Q35/128
    • B23K9/1274B23Q35/128G05B2219/42309G05B2219/4704G05B2219/4706
    • There is disclosed a method for the plasma arc welding of corrugate membranes, which can prevent a welding failure from occurring around the corrugate portion. In this welding method, NC data for robot control are modified so as to gradually change a torch angle around the R portions at a rate not greater than the maximum angular velocity and increase a welding speed around the R portions of foot regions of corrugate portions 1B and 2B and the R portion of an apex 22 before a welding torch 12 reaches the R portions. Three parameters are prepared for determining the deformation of the corrugate portions 1B and 2B in terms of height, width of the foot regions and the swell of the trunk portion. Data indicative of the height and foot width of the corrugate portion measured by a laser displacement sensor 15 are compared with standard corrugation NC data, and the NC data for robot control are modified to correct the height, foot width and swell degree thereof by utilizing the parameters.
    • 公开了一种用于等离子体电弧焊接波纹膜的方法,其可以防止在波纹部分周围发生焊接故障。 在这种焊接方法中,修改用于机器人控制的NC数据,以便以不大于最大角速度的速率逐渐改变围绕R部分的割炬角度,并且增加波纹部分1B的脚部区域周围的焊接速度 在焊炬12到达R部分之前,2B和顶点22的R部分。 准备三个参数用于确定波纹部分1B和2B在高度,脚部区域的宽度和躯干部分的膨胀方面的变形。 将表示由激光位移传感器15测量的波纹部分的高度和足部宽度的数据与标准波纹NC数据进行比较,并且通过利用用于机器人控制的NC数据来修正其数据,以校正其高度,脚宽和膨胀度 参数。