会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 8. 发明专利
    • Dehydrating apparatus
    • 脱水装置
    • JP2009165994A
    • 2009-07-30
    • JP2008009092
    • 2008-01-18
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • YUKIMOTO ATSUHIROOZORA HIROYUKISEIKI YOSHIOHIRAYAMA HARUAKITANAKA YUKIOKASHIWAGI HIDEOINOUE YUBUN
    • B01D61/36B01D61/58C07C29/76C07C31/08
    • B01D61/362B01D61/58B01D2313/24B01D2317/022C07C29/76C07C31/08
    • PROBLEM TO BE SOLVED: To provide a dehydrating apparatus of low costs with avoiding excessive increase of the size of the appratus while keeping the suction efficiency at a desired level by a suction means. SOLUTION: The dehydrating apparatus 100 for separating water from a liquid to be treated 13 is equipped with at least two water-separating membrane units 1a and 1b in series in the flow direction of the liquid to be treated 13. The upstream water-separating membrane unit 1a of the water-separating membrane units 1a and 1b is connected to a suction means 7 that suctions a gas containing moisture via a condenser 4. While the moisture in the gas is condensed and separated in the condenser 4, the gas that is sucked from the condenser 4 by the suction means 7 is sent to at least one condenser 8 installed downstream from the condenser 4. The moisture in the gas is condensed and separated in the downstream condenser 8. The water-separating membrane unit 1b installed downstream from the water-separating membrane unit 1a is connected to a steam ejector 3. The moisture in the gas that passes through the steam ejector 3 is condensed and separated in the condenser 4. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供一种低成本的脱水装置,以避免吸附装置的吸入效率保持在期望水平的同时,大大减小装置的尺寸。 解决方案:用于从待处理液体13中分离水的脱水装置100在待处理液体13的流动方向上串联设置有至少两个水分离膜单元1a和1b。上游水 分离膜单元1a和1b的隔膜单元1a连接到抽吸装置7,抽吸装置7通过冷凝器4吸入含有水分的气体。当气体中的水分在冷凝器4中冷凝和分离时,气体 通过抽吸装置7从冷凝器4吸入的至少一个冷凝器8被送到安装在冷凝器4下游的至少一个冷凝器8.气体中的水分在下游冷凝器8中被冷凝和分离。水分离膜单元1b安装 水分离膜单元1a的下游与蒸气喷射器3连接。通过蒸汽喷射器3的气体中的水分在冷凝器4中冷凝和分离。版权所有(C)2009,JPO&I NPIT
    • 9. 发明专利
    • Dehumidification system and dehumidification method in booster piping
    • 除湿管道除湿系统及除湿方法
    • JP2009142800A
    • 2009-07-02
    • JP2007325653
    • 2007-12-18
    • Smc CorpSmc株式会社
    • SUZUKI TOSHIHIRO
    • B01D53/26B01D53/22B01D63/02F15B3/00
    • B01D53/268B01D53/22B01D63/02B01D63/024B01D2313/24
    • PROBLEM TO BE SOLVED: To efficiently save energy by reducing air volume of once compressed air released to the atmosphere from a membrane dryer and a booster, when using compressed air dehumidified in the membrane dryer by boosting it by the booster. SOLUTION: Compressed air at high pressure to be dehumidified is supplied to the inside flow passage of the hollow fiber membrane 15a of the membrane dryer 1 and dehumidified, the dehumidified compressed air is supplied to the boosting chambers 40a, 40b of the booster 3, and alternately supplied to driving chambers 41a, 41b. The compressed air boosted in the boosting chambers 40a or 40b by the pressure of the driving chambers 41a or 41b is supplied to a hydraulic apparatus, used low pressure discharge air used for boosting in the driving chamber is caused to flow from a discharge port 45 through a pipe 8, an incoming purge inlet port 16c and a purge flow passage inlet part 16a, to a purge flow passage 16 outside the hollow fiber membrane of the membrane dryer. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了通过减少从膜干燥器和助力器释放到大气中的一次压缩空气的空气体积来有效地节省能量,当通过增压器将其加热而在膜干燥器中除湿的压缩空气时。 解决方案:将要除湿的高压的压缩空气供给到膜干燥器1的中空纤维膜15a的内部流路中并进行除湿,将除湿压缩空气供给到助推器的增压室40a,40b 并且交替地供给到驱动室41a,41b。 通过驱动室41a或41b的压力在增压室40a或40b中升压的压缩空气被供应到液压装置,使用于驱动室中用于升压的低压排出空气从排出口45流过 管8,进入吹扫入口16c和吹扫流路入口部分16a,连接到膜干燥器的中空纤维膜外部的吹扫流动通道16。 版权所有(C)2009,JPO&INPIT