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    • 5. 发明授权
    • Hot and cold water mixing valve
    • 冷热水混合阀
    • US08746582B2
    • 2014-06-10
    • US12745415
    • 2008-12-01
    • Kensaku TodakaHideyuki MatsuiEiji SekiIsao Negishi
    • Kensaku TodakaHideyuki MatsuiEiji SekiIsao Negishi
    • G05D23/185
    • F16K11/07F16K11/044G05D23/025
    • The hot and cold water mixing valve having a cylindrical casing is provided with a control valve member which adjusts a ratio between hot and cold water inlets by balancing loads applied by a biasing member and an actuator, and cylindrical temperature adjuster which adjusts a position of the control valve member when rotated. In the temperature adjuster, an upper surface is formed at one end, a knob is provided in the center of the upper surface, and a ring-shaped recess is formed around the knob at the upper surface. The temperature adjuster is arranged inside the casing and the knob is inserted, coaxially with the casing, into the hole which opens at one end of the casing. A spacer which covers the recess is interposed and held between the upper surface of the temperature adjuster and one end of the casing.
    • 具有圆柱形壳体的冷热水混合阀设置有控制阀构件,其通过平衡由偏压构件和致动器施加的负载来调节热水和冷水入口之间的比率;以及圆柱形温度调节器,其调节 旋转时控制阀构件。 在温度调节器中,在一端形成上表面,在上表面的中心设置有把手,并且在上表面围绕旋钮形成环形凹部。 温度调节器设置在壳体内部,并且把手与壳体同轴地插入到在壳体的一端开口的孔中。 覆盖凹部的间隔件插入并保持在温度调节器的上表面和壳体的一端之间。
    • 6. 发明授权
    • Lithium secondary battery and production method of the same
    • 锂二次电池及其制作方法相同
    • US08192871B2
    • 2012-06-05
    • US12388580
    • 2009-02-19
    • Hiroshi HarunaKazushige KohnoEiji SekiYoshiaki Kumashiro
    • Hiroshi HarunaKazushige KohnoEiji SekiYoshiaki Kumashiro
    • H01M4/13
    • H01M10/0525H01M10/0569H01M10/446H01M2300/004Y10T29/4911
    • To provide a lithium secondary battery which suppresses a decrease in the charge and discharge efficiency during a battery storage test and which is excellent in maintaining the battery capacity after the storage test. There are disclosed a nonaqueous lithium battery, comprising: a positive electrode active material comprising a lithium-containing oxide capable of inserting and detaching lithium ions; a negative electrode active material comprising a carbon material capable of inserting and detaching lithium ions; and an electrolytic solution containing a lithium ion, wherein the surface of the negative electrode active material after initializing charging is coated with a compound derived from vinylene carbonate, and wherein a weight power density of the lithium battery is no less than 100 Wh/kg, and a method of producing a nonaqueous lithium battery comprising a step of sealing a positive electrode active material, a negative electrode active material, and a nonaqueous electrolytic solution using a sealed container, wherein a predetermined amount of vinylene carbonate is added into the nonaqueous electrolytic solution, and the initializing charging is carried out to form a coating on the surface of the negative electrode active material, the coating being derived from the vinylene carbonate.
    • 提供一种锂二次电池,其抑制电池存储试验期间的充放电效率的降低,并且在保存试验后保持电池容量优异。 公开了一种非水锂电池,其包括:正极活性物质,其包含能够插入和分离锂离子的含锂氧化物; 包含能够插入和分离锂离子的碳材料的负极活性材料; 以及含有锂离子的电解液,其中,初始化充电后的负极活性物质的表面涂布有碳酸亚乙烯酯衍生的化合物,其中锂电池的重量功率密度为100Wh / kg以上, 以及一种制造非水锂电池的方法,包括使用密封容器密封正极活性物质,负极活性物质和非水电解液的步骤,其中将预定量的碳酸亚乙烯酯加入到非水电解液 ,并进行初始化充电以在负极活性材料的表面上形成涂层,该涂层源自碳酸亚乙烯酯。
    • 7. 发明申请
    • Hot water supply device
    • 热水供应装置
    • US20070108304A1
    • 2007-05-17
    • US11526716
    • 2006-09-26
    • Eiji Seki
    • Eiji Seki
    • F24D1/00
    • F24H7/0433F24D17/00
    • To obtain a hot water supply device that can be made small and compact, for which there is excellent freedom, for example, of installation of each part, and for which hot water at a predetermined temperature can be instantaneously obtained using a heat storage medium and the hot water can be supplied to the hot water supply side. A heat storage device 10 with a heating function is provided on hot water supply pipe 4 for indirectly heating the water in the pipe to obtain hot water using a heat storage medium 13. The device comprises: a piping portion 11 connected to the hot water supply pipe; a heat storage medium that exchanges heat with the piping portion; and a casing 12 disposed so as to enclose the heat storage medium and surround the piping portion. The piping portion comprises an elastically deformable bellows-shaped portion 11a that exchanges heat with the heat storage medium. The casing comprises heating means 14 capable of heating the heat storage medium in accordance with the temperature conditions.
    • 为了获得可以制造得小而紧凑的热水供应装置,其具有优异的自由度,例如每个部件的安装,并且可以使用储热介质瞬时获得预定温度的热水,以及 热水可以供应到热水供应侧。 具有加热功能的蓄热装置10设置在热水供给管4上,用于间接地加热管道中的水以使用蓄热介质13获得热水。 该装置包括:连接到热水供应管的管道部分11; 与管道部分进行热交换的蓄热介质; 以及壳体12,其被设置成包围储热介质并且围绕管道部分。 管道部分包括与蓄热介质进行热交换的可弹性变形的波纹管状部分11a。 壳体包括能够根据温度条件加热蓄热介质的加热装置14。
    • 9. 发明授权
    • Mixing faucet
    • 混水龙头
    • US08757505B2
    • 2014-06-24
    • US12863026
    • 2008-11-19
    • Isao NegishiEiji SekiShigeru IwaiTakeshi Hagiwara
    • Isao NegishiEiji SekiShigeru IwaiTakeshi Hagiwara
    • G05D23/13
    • G05D23/1346G05D23/1326Y10T137/87676Y10T137/9464
    • A mixing faucet (1) includes a casing (2) having a hot water inlet opening (24), a cold water inlet opening (23), and an outlet opening (28); a control valve element (3) slidably mounted in the casing (2); a temperature adjusting screw (7) rotatably disposed in the casing (2); a slider (6) sliding in the casing (2) through rotation of the temperature adjusting screw (7); a bias spring (5) disposed in the casing (2), between the control valve element (3) and the slider (6), and biasing the control valve element (3) toward the cold water inlet opening (23); a temperature sensing spring (4) which biases the control valve element (3) toward the hot water inlet opening (24); and a pull-up spring (10) for biasing the control valve element (3) toward the hot water inlet opening (24).
    • 混合龙头(1)包括具有热水入口(24)的壳体(2),冷水入口开口(23)和出口开口(28); 可滑动地安装在壳体(2)中的控制阀元件(3) 可旋转地设置在壳体(2)中的温度调节螺钉(7); 通过温度调节螺钉(7)的旋转在壳体(2)中滑动的滑块(6); 设置在壳体(2)中的偏置弹簧(5)之间,控制阀元件(3)和滑块(6)之间,并且使控制阀元件(3)朝向冷水入口(23)施力; 温度感测弹簧(4),其将控制阀元件(3)朝向热水入口开口(24)偏置; 以及用于将控制阀元件(3)朝向热水入口(24)偏压的上拉弹簧(10)。
    • 10. 发明授权
    • Charging/discharging control unit for lithium secondary battery
    • 锂二次电池充放电控制单元
    • US08421418B2
    • 2013-04-16
    • US12541612
    • 2009-08-14
    • Yoshiaki KumashiroYoshimi YanaiEiji Seki
    • Yoshiaki KumashiroYoshimi YanaiEiji Seki
    • H02J7/00
    • H02J7/0086
    • In a charging/discharging unit provided with: a lithium secondary battery, a voltage detecting sensor for detecting a voltage and a current detecting sensor; the charging/discharging control unit is further provided with a controller, and a discharging element for performing a constant voltage discharging operation of 3 V. A voltage, V0, of the battery when a discharging operation is terminated (t=0) is measured by the voltage detecting sensor. If V0≦3.6 V, within a rest time during which the battery is not charged/discharged until a next charging operation, a voltage, V1, of the battery when a time, t1, has elapsed is measured by the voltage detecting sensor. If this voltage charge is in a range of V1-V0≧0.2 V, then the constant voltage discharging operation of 3 V is carried out for a time duration longer than or equal to 1 hour.
    • 在具有锂二次电池,用于检测电压的电压检测传感器和电流检测传感器的充电/放电单元中, 充放电控制单元还设置有控制器和用于执行3V的恒定电压放电操作的放电元件。当放电操作终止时,电池的电压V0(t = 0)通过 电压检测传感器。 如果V0≦̸ 3.6V,则在电池在下一次充电操作之前未被充电/放电的休息时间内,当经过时间t1时,电池的电压V1由电压检测传感器测量。 如果该电压在V1-V0≥0.2V的范围内,则3V的恒定电压放电动作持续时间大于等于1小时。