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    • 2. 发明授权
    • Counterfeit money discrimination support device
    • 伪造货币歧视支援装置
    • US07766147B2
    • 2010-08-03
    • US11993538
    • 2006-06-07
    • Koichi NishidaKazuyuki Shimuzu
    • Koichi NishidaKazuyuki Shimuzu
    • G07D7/00
    • G07D11/0084G07D3/16
    • The counterfeit money discrimination support device is configured to eject only the banknotes of the same denomination as a predetermined denomination of money, as specific banknotes, among banknotes taken into the device from the exterior. The denomination and quantity of the specific banknotes ejected to the exterior are stored in a memory 23. Thereafter, the specific banknotes discriminated as being not counterfeit banknotes, by hand, are then taken again into the device. When the denomination and quantity of the specific banknotes taken again into the device respectively correspond to the denomination and quantity stored in the memory 23, the discriminating operation for the counterfeit banknotes is judged to have been properly completed.
    • 假货鉴别支援装置被配置为从外部仅从作为特定纸币的纸币中取出与作为特定纸币的预定金额相同的面额的纸币。 弹出到外部的特定纸币的面额和数量被存储在存储器23中。之后,用手指定为不是伪钞的特定纸币再次被送入装置。 当再次进入设备的特定纸币的面额和数量分别对应于存储在存储器23中的面额和数量时,判断伪造纸币的识别操作已被正确完成。
    • 5. 发明申请
    • Money processing system
    • 货币处理系统
    • US20050256792A1
    • 2005-11-17
    • US11006701
    • 2004-12-08
    • Kazuyuki ShimizuHajime MurotaKazuya ItouMasashi NumakiKoichi Nishida
    • Kazuyuki ShimizuHajime MurotaKazuya ItouMasashi NumakiKoichi Nishida
    • G07D1/04G07D11/00G07F5/24G07F19/00G06F17/60
    • G07D11/0087G06Q40/00G07F5/24G07F19/20G07F19/203
    • A money processing system according to the present invention includes a coin change dispenser, a note change dispenser, and a control terminal, each having a control unit. The control units are generally adapted to carrying out a “change dispensing mode” control for receiving money given by a customer and dispensing change as occasion demands, and is adapted to carrying out a “money exchange mode” control, when a money exchange instruction is given from instruction means. In the money exchange mode, (a) when a single piece of money is received, a normal money exchange process for dispensing a combination of exchanged money each having a denomination smaller than that of the received money is executed such that a sum total of the combination of the exchanged money is equivalent to the received money, and (b) when a plurality of pieces of money are received, a reverse money exchange process for dispensing a combination of (the minimum number of pieces of) exchanged money each having a denomination larger than that of the received money is executed such that a sum total of the combination of the exchanged money is equivalent to the received money.
    • 根据本发明的货币处理系统包括硬币兑换分配器,纸币更换分配器和控制终端,每个具有控制单元。 控制单元通常适于执行用于接收由客户给出的货币并根据需要分配更改的“更换分配模式”控制,并且适于执行“货币兑换模式”控制,当货币兑换指令是 从指示手段给出。 在货币交换模式中,(a)当收到单笔货币时,执行用于分配具有小于接收货币的面额的兑换货币的组合的正常兑换处理,使得总计 交换的货币的组合相当于所收到的货币,(b)当收到多个货币时,用于分配具有面值的(最少数量的)交换货币的组合的反向货币兑换处理 执行大于接收到的钱的总和,使得所交换的货币的组合的总和等于所接收的货币。
    • 6. 发明授权
    • High level synthesis method, thread generated using the same, and method for generating circuit including such threads
    • 高级合成方法,使用其生成的线程,以及包括这种线程的电路生成方法
    • US06704914B2
    • 2004-03-09
    • US10195740
    • 2002-07-16
    • Koichi NishidaKazuhisa Okada
    • Koichi NishidaKazuhisa Okada
    • G06F1750
    • G06F17/5045
    • A high level synthesis method for generating a logic circuit of a register transfer level from an operation description includes a control data flowgraph generation stage; a scheduling stage; an allocation stage; a data path generation stage; and a control logic generation stage. When generating a thread sharing a common memory with another thread operating in parallel therewith, a memory access request is represented by a node of a control data flowgraph so as to perform scheduling, and a control logic is generated. The control logic outputs a memory access request signal to a common memory interface in a state corresponding to a step to which the node is scheduled, and keeps the state until a memory access request acceptance signal from the common memory interface is changed to be active.
    • 用于从操作描述生成寄存器传送电平的逻辑电路的高级合成方法包括控制数据流程图生成级; 调度阶段; 分配阶段 数据路径生成阶段; 和控制逻辑生成阶段。 当生成与其并行操作的另一个线程共享公共存储器的线程时,存储器访问请求由控制数据流程图的节点表示,以便执行调度,并且产生控制逻辑。 控制逻辑以对应于节点被调度的步骤的状态向公共存储器接口输出存储器访问请求信号,并保持该状态,直到来自公共存储器接口的存储器访问请求接收信号被改变为有效。
    • 7. 发明授权
    • Circuit synthesis method
    • 电路合成方法
    • US06505340B2
    • 2003-01-07
    • US09728075
    • 2000-12-04
    • Koichi NishidaKazuhisa Okada
    • Koichi NishidaKazuhisa Okada
    • G06F1750
    • G06F17/5045
    • A circuit synthesis method includes the steps of converting a behavioral description describing a behavior of calculation processing into a control data flowgraph; assigning at least one calculation, at least one input and at least one output in the control data flowgraph into prescribed time slots; assigning the at least one calculation, a plurality of data dependency edges, the at least one input and the at least one output respectively to at least one calculation device, at least one register, at least one input pin and at least one output pin; generating a plurality of paths corresponding to the plurality of data dependency edges; and detecting a first false path among the plurality of paths.
    • 电路合成方法包括将描述计算处理的行为的行为描述转换为控制数据流程图的步骤; 在控制数据流程图中将至少一个计算,至少一个输入和至少一个输出分配到规定的时隙中; 将至少一个计算,多个数据依赖性边缘,所述至少一个输入和至少一个输出分别分配给至少一个计算装置,至少一个寄存器,至少一个输入引脚和至少一个输出引脚; 产生对应于所述多个数据依赖性边缘的多个路径; 以及检测所述多个路径中的第一假路径。
    • 8. 发明授权
    • Dual fuel nozzle
    • 双燃料喷嘴
    • US06434945B1
    • 2002-08-20
    • US09470592
    • 1999-12-22
    • Shigemi MandaiMasataka OhtaKazuya KobayashiKoichi Nishida
    • Shigemi MandaiMasataka OhtaKazuya KobayashiKoichi Nishida
    • F02C100
    • F23D14/48F23D11/38F23D17/002F23D2210/00
    • A dual fuel nozzle is provided with two different size injection holes. The first injection holes have larger diameters and are used only for injecting gaseous fuel into a combustion chamber. On the other hand, the second injection nozzles have smaller diameters and are used for injecting either gaseous fuel or liquid fuel as required. When gaseous fuel is used, if the fuel injection amount is large or medium, both of the first and the second injection holes or first injection holes only are used for injecting gaseous fuel depending upon the required fuel injection amount. When the fuel injection amount is low, only the second injection hole is used for injecting gaseous fuel. Therefore, the pressure drop across the fuel nozzle can be kept at sufficiently high level even when the fuel injection amount is low, and thereby combustion vibration is suppressed. Further, when liquid fuel is used, a premixed fuel and steam mixture is injected from the second injection holes. This also keep the pressure drop across the fuel nozzle at high level in order to suppress combustion vibration when the fuel injection amount is low.
    • 双燃料喷嘴设有两个不同尺寸的喷射孔。 第一喷射孔具有较大的直径,并且仅用于将气体燃料喷射到燃烧室中。 另一方面,第二喷嘴具有较小的直径,并且用于根据需要喷射气体燃料或液体燃料。 当使用气体燃料时,如果燃料喷射量大或中等,则仅根据所需的燃料喷射量,第一和第二喷射孔或第一喷射孔仅用于喷射气体燃料。 当燃料喷射量低时,仅使用第二喷射孔来喷射气态燃料。 因此,即使燃料喷射量低,燃料喷嘴两端的压降也能保持在足够高的水平,从而抑制燃烧振动。 此外,当使用液体燃料时,从第二喷射孔注入预混燃料和蒸气混合物。 这也可以使燃料喷嘴上的压降保持在高水平,以便在燃料喷射量低时抑制燃烧振动。
    • 9. 发明授权
    • Gas turbine combustor cooling structure
    • 燃气轮机燃烧器冷却结构
    • US06282905B1
    • 2001-09-04
    • US09437144
    • 1999-11-10
    • Yoshichika SatoKoichi Nishida
    • Yoshichika SatoKoichi Nishida
    • F02C100
    • F23R3/002F23D2206/10F23D2214/00
    • Cooling structure of gas turbine combustor in which cooling medium flows through grooves in wall is improved so that adjustment of flow velocity, pressure loss and heat transfer rate of cooling medium flow in the wall becomes possible and cooling effect thereof is enhanced. Wall of combustor tail tube is made in double structure in which outer plate (1) and inner plate (4) are jointed together being lapped one on another. The outer plate (1) has air inlet hole (3) and groove (2) formed therein. The groove (2) is closed by jointing of the inner plate (4) to the outer plate (1). The inner plate (4) has air outlet hole (5) formed therein. The groove (2) communicates with the air inlet hole (3) and the air outlet hole (5). Cross sectional shape of the groove (2) is changed two-dimensionally or three-dimensionally such that width enlarges toward the hole (5) from the hole (3) or depth is constant or changed in tapered form. Cooling air flows into the groove (2) from the air inlet hole (3) of tail tube surface to flow toward both sides along the groove (2) for cooling of the wall. The air is thereby heated to expand to increase flow velocity and pressure loss, but flow passage enlarges toward the hole (5) and flow velocity is suppressed and pressure loss is reduced.
    • 提高冷却介质流过壁内凹槽的燃气轮机燃烧器的冷却结构,从而能够调节流动速度,压力损失和冷却介质在壁内的传热速度,并且其冷却效果得以提高。 燃烧器尾管的壁由双层结构制成,其中外板(1)和内板(4)接合在一起,彼此重叠。 外板(1)具有形成在其中的进气孔(3)和槽(2)。 通过内板(4)与外板(1)的接合将凹槽(2)封闭。 内板(4)具有形成在其中的排气孔(5)。 槽(2)与进气孔(3)和排气孔(5)连通。 槽(2)的截面形状被二维或三维地改变,使得宽度从孔(3)朝向孔(5)扩大或深度恒定或呈锥形变化。 冷却空气从尾管表面的进气孔(3)流入凹槽(2),沿着槽(2)朝向两侧流动以冷却壁。 因此,空气被加热膨胀以增加流速和压力损失,但是流动通道朝向孔(5)扩大,并且流速被抑制并且压力损失降低。
    • 10. 发明授权
    • Combustor
    • 燃烧器
    • US06267583B1
    • 2001-07-31
    • US09289606
    • 1999-04-12
    • Shigemi MandaiKoichi NishidaMasataka OtaEiji Akita
    • Shigemi MandaiKoichi NishidaMasataka OtaEiji Akita
    • F23D1484
    • F23D23/00F23D2206/10F23M20/005
    • A combustor includes a pilot fuel nozzle and a plurality of main premixing nozzles arranged therearound for forming a premixture of air and fuel supplied from a main fuel nozzle, and is improved so as not to cause vibratory combustion. Pilot fuel nozzle unit 104 comprises a plurality of pilot fuel nozzles 103. A plurality of main premixing nozzles 102 are disposed on a coaxial circumference of the pilot fuel nozzle unit 104. The pilot fuel nozzles 103 are arranged irregularly in a circumferential direction of the pilot fuel nozzle unit 104, so as to form portion 105 where there is no pilot fuel nozzle 103. Premature in the main premixing nozzles 102 positioned corresponding to the pilot fuel nozzle 103 burns with comparatively short flames. Premature in the main premixing nozzles 102 positioned corresponding to the portion 105 of no pilot fuel nozzle 103 burns with long flames because of flames spreading from adjacent main fuel nozzles. Thus, by differences in flame length, heat generation rate distribution is dispersed.
    • 燃烧器包括导向燃料喷嘴和布置在其周围的多个主预混合喷嘴,用于形成从主燃料喷嘴供应的空气和燃料的预混合物,并且被改进以便不引起振动燃烧。 先导燃料喷嘴单元104包括多个先导燃料喷嘴103.多个主要预混合喷嘴102设置在引燃燃料喷嘴单元104的同轴圆周上。引燃燃料喷嘴103沿飞行员的周向不规则地排列 燃料喷嘴单元104,以便形成不存在先导燃料喷嘴103的部分105.在对应于引燃燃料喷嘴103定位的主预混合喷嘴102中,过早地燃烧较短的火焰。 由于相邻的主燃料喷嘴的火焰蔓延,在与主燃料喷嘴103的部分105对应定位的主预混合喷嘴102中过早地燃烧着较长的火焰。 因此,通过火焰长度的差异,分散发热率分布。