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
    • 2. 发明申请
    • SELECTIVE RECOVERY METHOD FOR RARE METALS
    • 稀有金属的选择性回收方法
    • WO2012011770A3
    • 2012-05-03
    • PCT/KR2011005418
    • 2011-07-22
    • UNIV TOKUSHIMALEE KI DOCKYABUTANI TOMOKI
    • YABUTANI TOMOKI
    • C22B34/34C22B34/22C22B34/36
    • C22B3/24C22B3/42C22B3/44C22B7/006C22B34/22C22B34/34C22B34/36Y02P10/234
    • (Problem) Provided is a recovery method for rare metals of a novel kind, which allows a specific metal component to be recovered with good selectivity from among rare metals, and which imposes little stress on the environment. (Means of resolution) A selective recovery method for rare metals which comprises the following process (1) and process (2): (1) a process wherein a metal component comprising a rare metal is adsorbed or stored in solid phase by means of a method in which an aqueous solution that contains the metal component comprising the rare metal is brought into contact with a chelating resin or an adsorption agent, or a method in which a precipitate of a metal compound is formed in an aqueous solution containing the metal component comprising the rare metal, and (2) a process wherein the solid phase resulting from the adsorption or storage of the metal component comprising the rare metal, obtained in process (1), is brought into contact with an aqueous solution containing a peroxy compound.
    • (问题)提供一种新型稀有金属的回收方法,其允许从稀有金属中以良好的选择性回收特定的金属成分,并且对环境施加的应力很小。 (分辨方法)一种稀有金属的选择性回收方法,其特征在于,包括下述工序(1)和工序(2):(1)将含有稀有金属的金属成分以固相吸附或保​​存的工序 其中使含有包含稀有金属的金属成分的水溶液与螯合树脂或吸附剂接触的方法,或者在包含金属成分的水溶液中形成金属化合物沉淀的方法 (2)使由工序(1)中得到的含有稀有金属的金属成分的吸附或保存所产生的固相与含有过氧化合物的水溶液接触的工序。
    • 3. 发明申请
    • POWER SUPPLY DEVICE AND CHARGE CIRCUIT
    • 电源设备和充电电路
    • WO2011142369A3
    • 2012-02-02
    • PCT/JP2011060788
    • 2011-05-10
    • UNIV TOKUSHIMAOHNISHI TOKUO
    • OHNISHI TOKUO
    • H02J7/00H01M2/10H01M10/44H02J7/02
    • H02J7/0016H01M10/0525H01M10/24H01M10/441H02J7/0026H02J7/0054H02J2007/0037Y02B40/90Y02E60/122Y02E60/124Y02E70/40Y02T10/7055
    • [Problem] To prevent the overcharging of secondary batteries and to carry out optimal charging in response to the electrical characteristics of each secondary battery. [Solution] A selecting-switch switching circuit (30) has thyristors (32) respectively connected to each secondary battery (10), and a control circuit (40) which controls the ON/OFF switching of the plurality of thyristors (32). By the control circuit (40) controlling the ON/OFF switching of the thyristors (32), a charge path is formed to an arbitrary secondary battery (10) and the charge path to the other secondary batteries is cleared. A constant current supply generation circuit (20) is provided with a chopper circuit configured from: an inductor (L) connected between a supply output terminal (OT) and a supply input terminal (IT); and a charge switch (22) which is connected in serial to the inductor (L) and of which the ON/OFF switching is controlled by the control circuit (40). The chopper circuit is connected to an external power supply (EP) and charges the secondary batteries (10).
    • [问题]为了防止二次电池的过充电,并且响应于每个二次电池的电特性进行最佳充电。 [解决方案]选择开关切换电路(30)具有分别连接到每个二次电池(10)的晶闸管(32)和控制多个晶闸管(32)的导通/截止切换的控制电路(40)。 通过控制晶闸管(32)的导通/截止开关的控制电路(40),对任意二次电池(10)形成充电路径,并且清除到其他二次电池的充电路径。 恒流源生成电路(20)具备由连接在电源输出端子(OT)和电源输入端子(IT)之间的电感器(L)构成的斩波电路。 以及与所述电感器(L)串联连接的所述充电开关(22),所述充电开关(22)由所述控制电路(40)进行控制。 斩波电路连接到外部电源(EP)并对二次电池(10)充电。
    • 7. 发明专利
    • 医療用材料
    • JP2019017795A
    • 2019-02-07
    • JP2017140003
    • 2017-07-19
    • UNIV TOKUSHIMAGUNZE KK
    • KUROBE HIROTSUGUSATO HIDEKINAKAE AYAISHIKAWA MIEKO
    • A61B17/00
    • 【課題】心房中隔欠損症に対して、遠隔期の不具合の可能性がほとんどない、低侵襲の治療を実現する欠損孔閉鎖材を提供する。【解決手段】欠損孔閉鎖材100は、生体吸収性材料の編み目状組織の2つの筒体(第1の筒部110および第2の筒部120)により形成され、砂時計型の形状を備え、第1の端部112と第2の端部122とにそれぞれ両端が係合され、第1の端部112側から略中央部130を介して第2の端部122側まで第1の筒部110および第2の筒部120の内部に通されたコイルばね140を備える。第1の筒部110の長手方向における略中央部130側に第1の多孔質層161が、第2の筒部120の長手方向における略中央部130の反対側に第2の多孔質層162が、第1の筒部110の長手方向における略中央部130の反対側に第3の多孔質層163が、それぞれ配置されている。【選択図】図4