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    • 1. 发明申请
    • Electricity storage device and process for producing the same
    • 蓄电装置及其制造方法
    • US20070117017A1
    • 2007-05-24
    • US10582548
    • 2004-12-09
    • Minoru SugiyamaKenji KatoKazuo OnishiShingo Sewa
    • Minoru SugiyamaKenji KatoKazuo OnishiShingo Sewa
    • H01M4/58H01M10/04
    • H01G11/50H01M4/0407H01M4/38H01M4/387H01M4/405H01M10/052H01M10/0565Y02E60/13Y02T10/7011Y02T10/7022Y10T29/49115
    • There are provided an electricity storage device, comprising a polymer electrolyte and polarizable electrodes, the polarizable electrodes each comprising an interface with the polymer electrolyte, the polarizable electrodes being metal electrodes, a negative electrode of the polarizable electrodes having, at its interface with the polymer electrolyte, a lithium alloy with a metal component contained in the negative electrode, the lithium alloy being capable of releasing lithium ions through a reversible electrochemical oxidation-reduction reaction; and a method for producing an electricity storage device, comprising: a structure forming step of obtaining an electrode-electrolyte structure where each of the polarizable electrodes is formed on a polymer electrolyte through an electroless plating method; and a layer forming step of applying voltage to the polarizable electrode while the electrode-electrolyte structure obtained by the structure forming step includes a solution containing lithium ions, to form a layer containing lithium and a metal component of the polarizable electrodes at the negative electrode of the polarizable electrodes.
    • 提供了一种蓄电装置,其包括聚合物电解质和可极化电极,所述极化电极各自包含与所述聚合物电解质的界面,所述可极化电极为金属电极,所述可极化电极的负极在其与所述聚合物的界面处具有 电解质,含有负极中的金属成分的锂合金,锂合金能够通过可逆电化学氧化还原反应释放锂离子; 以及蓄电装置的制造方法,其特征在于,具备:通过无电解电镀法,在高分子电解质上形成各可极化电极的电极 - 电解质结构的结构形成工序; 以及在通过结构形成步骤获得的电极 - 电解质结构包括含有锂离子的溶液的同时将电压施加到可极化电极的层形成步骤,以形成含锂的层和可极化电极的负极上的金属成分 极化电极。
    • 2. 发明申请
    • Display device for appreciation
    • 显示设备欣赏
    • US20050224010A1
    • 2005-10-13
    • US10511678
    • 2003-04-17
    • Minoru NakayamaMinoru SugiyamaKenji KatoKazuo OnishiShingo Sewa
    • Minoru NakayamaMinoru SugiyamaKenji KatoKazuo OnishiShingo Sewa
    • A01K63/00A01K63/04A63H23/00
    • A01K63/003A01K63/042A63H23/00
    • A water tank for appreciation provided with a water storage, a water pipe, an air bubble generating member, wherein said water storage is provided with a water inlet port and an opening portion and said opening portion is so provided that the convection can be generated in said water tank for appreciation by the liquid current from a water tank through said opening portion, and said water storage is installed upwardly of a water tank for appreciation and one end of said water pipe is connected to an inlet water port of a water storage and the other end is so installed that it is in the liquid when the liquid is filled in a water tank for appreciation and an air bubble generating member is so installed that it can lead the air bubble inside of a water pipe in the peripheral portion of said other end of said water pipe and a display device for appreciation using said water tank for appreciation are used.
    • 一种用于欣赏的水箱,设有储水器,水管,气泡生成构件,其中所述储水器设置有进水口和开口部分,并且所述开口部分设置成可以在 所述水箱通过来自水箱的液体电流通过所述开口部分升高,并且所述储水器安装在水箱的上方,用于升高,并且所述水管的一端连接到储水器的入口水口, 另一端如此安装,使得当液体被填充在水箱中以便升高时,其处于液体中,并且气泡发生构件被安装成使得其可以将所述气体发生构件的周边部分内的水管内的气泡引导 使用所述水管的另一端和使用所述水箱欣赏的显示装置。
    • 3. 发明申请
    • ELECTRODE FORMING METHOD
    • 电极成型方法
    • US20110083785A1
    • 2011-04-14
    • US12975873
    • 2010-12-22
    • Kazuo OnishiShingo Sewa
    • Kazuo OnishiShingo Sewa
    • B05D5/12B31B1/60
    • C23C18/1648C23C18/1658C23C18/166C23C18/31C23C26/02Y10T156/10
    • The present invention provides an electrode forming method in which an electrode layer is formed on a solid electrolyte, capable of obtaining an electrode layer having a large electrode surface area, decreasing the number of steps required in formation of the electrode layer and reducing a human labor and time. The electrode forming method of the invention is an electrode forming method, in which a metal salt solution and a reducing agent solution are disposed on respective both sides of a solid electrolyte form and the metal salt solution is caused to pass through the solid electrolyte form by osmosis to thereby deposit a metal near the interface on the reducing agent solution side of the solid electrolyte form to thereby form the electrode on the solid electrolyte form.
    • 本发明提供一种电极形成方法,其中电极层形成在固体电解质上,能够获得具有大的电极表面积的电极层,减少形成电极层所需的步骤数量并减少人力 和时间。 本发明的电极形成方法是电极形成方法,其中金属盐溶液和还原剂溶液设置在固体电解质形式的两侧,并且使金属盐溶液通过固体电解质形式通过 从而在固体电解质形式的还原剂溶液侧的界面附近沉积金属,从而在固体电解质形式上形成电极。
    • 5. 发明申请
    • Electrode forming method
    • 电极成型方法
    • US20060225994A1
    • 2006-10-12
    • US10525202
    • 2003-08-25
    • Kazuo OnishiShingo Sewa
    • Kazuo OnishiShingo Sewa
    • H01H57/00B05D5/12
    • C23C18/1648C23C18/1658C23C18/166C23C18/31C23C26/02Y10T156/10
    • The present invention provides an electrode forming method in which an electrode layer is formed on a solid electrolyte, capable of obtaining an electrode layer having a large electrode surface area, decreasing the number of steps required in formation of the electrode layer and reducing a human labor and time. The electrode forming method of the invention is an electrode forming method, in which a metal salt solution and a reducing agent solution are disposed on respective both sides of a solid electrolyte form and the metal salt solution is caused to pass through the solid electrolyte form by osmosis to thereby deposit a metal near the interface on the reducing agent solution side of the solid electrolyte form to thereby form the electrode on the solid electrolyte form.
    • 本发明提供一种电极形成方法,其中电极层形成在固体电解质上,能够获得具有大的电极表面积的电极层,减少形成电极层所需的步骤数量并减少人力 和时间。 本发明的电极形成方法是电极形成方法,其中金属盐溶液和还原剂溶液设置在固体电解质形式的两侧,并且使金属盐溶液通过固体电解质形式通过 从而在固体电解质形式的还原剂溶液侧的界面附近沉积金属,从而在固体电解质形式上形成电极。
    • 6. 发明授权
    • Process for producing polymeric actuators
    • 生产聚合物致动器的方法
    • US06762210B1
    • 2004-07-13
    • US09253638
    • 1999-02-19
    • Keisuke OguroKinji AsakaTatsuhiro OkadaKazuo OnishiShingo Sewa
    • Keisuke OguroKinji AsakaTatsuhiro OkadaKazuo OnishiShingo Sewa
    • C08J520
    • B25J9/12B25J9/1075B25J9/1095H02N11/006
    • A process for producing a polymeric actuator including an ion-exchange resin product and metal electrodes which are formed on the surface of the ion-exchange resin product is provided. The process involves repeatedly conducting the following steps (i) to (iii) to form the metal electrodes ranging from the surface of the ion-exchange resin product to the inside thereof: (i) a step of allowing the ion-exchange resin product to adsorb a metal complex (adsorption step), (ii) a step of reducing the metal complex adsorbed on the ion-exchange resin product by a reducing agent to deposit a metal on the surface of the ion-exchange resin product (deposition step), and (iii) a step of washing the ion-exchange resin product having the deposited metal (washing step). Through the above steps, a polymeric actuator having simple structure, capable of being easily miniaturized, showing quick response and capable of generating large displacement can be obtained.
    • 提供了一种制造聚合物致动器的方法,所述聚合物致动器包括形成在离子交换树脂产品的表面上的离子交换树脂产物和金属电极。 该方法重复进行以下步骤(i)至(iii)以形成从离子交换树脂产物的表面到其内部的金属电极:(i)使离子交换树脂产物 吸附金属络合物(吸附步骤),(ii)通过还原剂还原吸附在离子交换树脂产物上的金属络合物以在离子交换树脂产品的表面上沉积金属(沉积步骤)的步骤, 和(iii)洗涤具有沉积金属的离子交换树脂产物的步骤(洗涤步骤)。 通过上述步骤,可以获得具有简单结构,能够容易地小型化,显示快速响应并且能够产生大位移的聚合物致动器。
    • 9. 发明授权
    • Control apparatus for sewing machine with automatic needle stopping means
    • 具有自动针停止装置的缝纫机控制装置
    • US4014277A
    • 1977-03-29
    • US576600
    • 1975-05-12
    • Shigeki MorinagaKazuo Onishi
    • Shigeki MorinagaKazuo Onishi
    • D05B65/02D05B69/26D05B69/36D05B69/18
    • D05B69/26
    • A control apparatus for sewing machine with automatic needle stopping means comprises a motor for supplying a driving force to a sewing machine, a speed control device for controlling the rotational speed of the motor by controlling a driving thyristor connected to the motor, a position detector unit for detecting the position of a sewing machine needle, a braking unit for applying a braking force to the motor to stop the motor and the sewing machine at a predetermined position, and a pedal manipulated by an operator for manipulating the sewing machine. The speed control device comprises a speed command means including a speed detector means resetable by an output signal from the position detector unit for detecting the motor speed, and a counter means having inputs setable by electrical signals generated in response to the manipulation of the pedal, a given sewing cycle being performed by output signals of the counter means.
    • 一种具有自动针停止装置的缝纫机控制装置,包括:向缝纫机提供驱动力的电动机;控制连接到电动机的驱动晶闸管控制电动机的转速的速度控制装置;位置检测器单元 用于检测缝纫机针的位置,用于向电动机施加制动力以将电动机和缝纫机停止在预定位置的制动单元和由操作者操纵的用于操纵缝纫机的踏板。 速度控制装置包括速度指令装置,该速度指令装置包括可通过来自位置检测器单元的用于检测电机速度的输出信号复位的速度检测器装置,以及具有可响应于踏板操纵而产生的电信号可设置的输入的计数装置, 给定的缝合循环由计数器装置的输出信号执行。