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    • 1. 发明申请
    • Method of controlling rechargeable battery power and a power source apparatus
    • 控制充电电池电源的方法和电源装置
    • US20060087291A1
    • 2006-04-27
    • US11259099
    • 2005-10-27
    • Yutaka Yamauchi
    • Yutaka Yamauchi
    • H02J7/00
    • H02J7/0063B60L53/20B60L58/13H02J7/0057Y02T10/7005Y02T10/7044Y02T10/705Y02T10/7072Y02T90/127Y02T90/14
    • The method of controlling rechargeable battery power is a method that includes limiting the amount of usable power during rechargeable battery charging and discharging, determining a rechargeable battery current-voltage characteristic function based on rechargeable battery charging and discharging current flow and voltage, finding a limiting discharging current Imax and/or a limiting charging current Imin from a prescribed minimum voltage Vmin to prevent over-discharging and/or a prescribed maximum voltage Vmax to prevent over-charging and their intersection with the current-voltage characteristic function, and controlling current such that discharging current greater than or equal to Imax and/or charging current less than or equal to Imin does not flow through the rechargeable batteries. In this fashion, the amount of usable power can be limited considering factors such as the memory effect, and the rechargeable battery can be used to its maximum capability within the range of safe operation.
    • 控制可充电电池电力的方法是一种方法,其包括限制可充电电池充电和放电期间的可用功率量,基于可再充电电池充电和放电电流流量和电压确定可充电电池电流 - 电压特性功能,找到限制放电 和/或从规定的最小电压V分钟的限制充电电流I分钟,以防止过度放电和/或规定的 以防止过充电及其与电流 - 电压特性函数的相交,并且控制电流使得大于或等于最大值的放电电流和/ 或小于或等于1分钟的充电电流不会流经可再充电电池。 以这种方式,可以考虑诸如存储效应的因素来限制可用功率的量,并且可以在安全操作的范围内使用可再充电电池的最大能力。
    • 2. 发明授权
    • High reactivity and high strength coke for blast furnace and method for producing the same
    • 用于高炉的高反应性和高强度焦炭及其制造方法
    • US06875316B1
    • 2005-04-05
    • US09868480
    • 2000-10-19
    • Koji HanaokaSeiji SakamotoKatsutoshi IgawaYutaka YamauchiShizuki KasaokaToshiro SawadaKoichi ShinoharaYuji TsukiharaShinjiro Baba
    • Koji HanaokaSeiji SakamotoKatsutoshi IgawaYutaka YamauchiShizuki KasaokaToshiro SawadaKoichi ShinoharaYuji TsukiharaShinjiro Baba
    • C10B57/04B01D45/00C10B27/00
    • C10B57/04
    • Related to a blast furnace coke and a production method thereof. A coke having high reactivity and high strength in which coke strength, reactivity with CO2 and a pore size distribution are each at a desired level can be produced at a low cost by using a coal blend composed of a small number of brands comprising a large quantity of caking coal having medium rank and low fluidity. The blast furnace coke, being obtained by charging a coal blend comprising 60 wt % or more of semi-heavy caking coal having medium rank and low fluidity in which a content of inert component is 30 vol % or more in total or another coal blend comprising 60 wt % to 95 wt % of semi-heavy caking coal having medium rank and low fluidity in which mean reflectance (Ro) is 0.9 to 1.1 and maximum fluidity (MF) is less than 3.0 and the balance being a caking coal in which mean reflectance (Ro) exceeds 1.1 into a coke oven and coking the coal blend, which has a pore size distribution where a content ratio of pores having a diameter of less than 10 μm is from 12 vol % to 15 vol % and a content ratio of pores having a diameter of from 10 μm to 100 μm is from 10 vol % to 15 vol % and the production method thereof.
    • 与高炉焦炭及其制造方法有关。 可以通过使用由少量包含大量品牌的煤混合物以低成本生产具有高反应性和高强度的焦炭,其中焦炭强度,与CO 2的反应性和孔径分布均处于期望水平 具有中等等级和低流动性的结块煤。 该高炉焦炭是通过装入含有60重量%以上的具有中等等级和低流动性的半重结晶煤的煤混合物而获得的,其中惰性组分的含量总共为30体积%或更多,或者另一种煤混合物包含 60重量%至95重量%的中等级和低流动性的半重结块煤,其中平均反射率(Ro)为0.9至1.1,最大流动性(MF)小于3.0,余量为结块煤,其中平均 反射率(Ro)超过1.1,并焦化煤混合物,其具有孔径分布,其中直径小于10um的孔的含量比为12vol%至15vol%,含量比为 直径为10〜100μm的孔为10体积%〜15体积%,其制造方法为10体积%〜15体积%。
    • 4. 发明授权
    • Image forming apparatus, control method for controlling the same and
temperature control apparatus
    • 图像形成装置,控制方法及温度控制装置
    • US6018140A
    • 2000-01-25
    • US28255
    • 1998-02-23
    • Kazunori HiroseTakashi MatsuyaAkihiro KomuroNobuyuki HayashidaKazuo ShimadaKeisuke NakamuraYutaka YamauchiTokio MutaYoshihiro TakamatsuyaMitsuo Nakamura
    • Kazunori HiroseTakashi MatsuyaAkihiro KomuroNobuyuki HayashidaKazuo ShimadaKeisuke NakamuraYutaka YamauchiTokio MutaYoshihiro TakamatsuyaMitsuo Nakamura
    • G03G21/20G03G15/20G05D23/19
    • G05D23/1913G03G15/2003G03G15/2039G03G15/205
    • An image forming apparatus includes a fixing unit having a heat source, a temperature detecting unit for detecting a temperature of the fixing unit, an initial operation necessity detecting unit for determining whether an initial operation should be performed in the image forming apparatus, an initial operation selecting control unit for selecting an initial operation from among a plurality of predetermined initial operations based on the temperature detected by the temperature detecting unit when the initial operation necessity detecting unit detects that the initial operation should be performed, and a control unit for controlling the fixing unit so that the fixing unit performs the initial operation selected by the initial operation selecting control unit. Furthermore, a temperature control apparatus includes a determination unit for determining, based on the detected temperature of the body, whether the temperature of the body should be increased or decreased, a temperature increasing control unit for applying an AC voltage from the AC power supply to the heater so that the temperature of the body is increased when the determination unit determines that the temperature of the body should be increased, and a temperature decreasing control unit for applying to the heater a pulse-shaped AC voltage which is repeatedly turned on and off at a frequency so that the temperature of the body is decreased when the determination unit determined that the temperature of the body should be decreased, the frequency being generally not perceived by people.
    • 图像形成装置包括具有热源的定影单元,用于检测定影单元的温度的温度检测单元,用于确定在图像形成装置中是否应执行初始操作的初始操作必要性检测单元,初始操作 选择控制单元,用于当初始操作必要性检测单元检测到应该执行初始操作时,基于由温度检测单元检测到的温度从多个预定初始操作中选择初始操作;以及控制单元,用于控制定影 单元,使得定影单元执行由初始操作选择控制单元选择的初始操作。 此外,温度控制装置包括:确定单元,用于基于身体的检测温度来确定身体的温度是否应当增加或减少;温度上升控制单元,用于将来自AC电源的AC电压施加到 所述加热器使得当所述确定单元确定应该增加所述身体的温度时所述身体的温度增加;以及降温控制单元,用于向所述加热器施加重复打开和关闭的脉冲状AC电压 使得当确定单元确定应该减小身体的温度时,人体的温度通常不被人感觉到,从而使身体的温度降低。
    • 9. 发明授权
    • Extrusion die, method of forming molding on platelike article and
platelike article with molding
    • 挤出模具,在板状制品上成型的方法和具有成型的板状制品
    • US5552194A
    • 1996-09-03
    • US361417
    • 1994-12-22
    • Tosikazu ItoYutaka Yamauchi
    • Tosikazu ItoYutaka Yamauchi
    • E06B3/00B29C47/02B60J1/00B60J10/02C03C27/00C03C27/04E06B3/54E06B3/56E06B3/62E06B3/64B29C47/92
    • B29C47/026B29C47/003B29C47/92B60J10/70C03C27/048B29C2947/926B29C2947/92704B29C2947/92904
    • The invention relates to a glass plate having a molding formed on a peripheral edge thereof. The present invention provides an extrusion die having first and second void spaces formed therein. The first void space is provided for supplying an adhesive to the peripheral edge, and the second void space is provided for supplying a molding material to the peripheral edge. The first and second void spaces are specifically arranged relative to each other. With this, while the glass plate is moved relative to the extrusion die, the molding is extruded on the peripheral edge simultaneously with the formation of the adhesive layer on the peripheral edge. Thus, the formations of the molding and the adhesive layer are conducted in one production process. With this, the production efficiency is much improved. The present invention further provides a glass plate having an adhesive layer made of a thermoplastic hot melt adhesive and a molding made of a thermoplastic resin, which are formed on a peripheral edge of the glass plate. In the process for producing this glass plate, the heated thermoplastic resin having a specifically controlled temperature is brought into contact with the heated thermoplastic hot-melt adhesive having a specifically controlled temperature. With this, at a boundary between the adhesive layer and the molding, the thermoplastic hot melt adhesive and the thermoplastic resin are fused together and blended with each other. With this, bond strength of the molding to the glass plate is much improved.
    • 本发明涉及一种玻璃板,其具有在其周缘上形成的模制件。 本发明提供了一种在其中形成有第一和第二空隙空间的挤出模头。 提供第一空隙空间用于向周边边缘供应粘合剂,并且设置第二空隙空间以将成型材料供应到周边边缘。 第一和第二空隙空间相对于彼此具体布置。 由此,当玻璃板相对于挤出模具移动时,在外围边缘上形成粘合剂层的同时,在周边边缘上挤出模塑件。 因此,模制品和粘合剂层的形成在一个生产过程中进行。 这样,生产效率大大提高。 本发明还提供了一种玻璃板,其具有由热塑性热熔粘合剂制成的粘合剂层和形成在玻璃板的周缘上的由热塑性树脂制成的模制品。 在制造该玻璃板的方法中,将具有特定控制温度的加热的热塑性树脂与具有特定控制温度的加热的热塑性热熔粘合剂接触。 由此,在粘合剂层和成型体之间的边界处,将热塑性热熔粘合剂和热塑性树脂熔合在一起并相互混合。 由此,成型体与玻璃板的接合强度大大提高。