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    • 5. 发明授权
    • Electric razor inner blade unit
    • 电动剃须刀内刀片单元
    • US06951056B2
    • 2005-10-04
    • US10477749
    • 2002-08-02
    • Hiroyuki KameokaMasaaki SatouShunsuke KomoriToshio IkutaTadashi Hamada
    • Hiroyuki KameokaMasaaki SatouShunsuke KomoriToshio IkutaTadashi Hamada
    • B26B19/04
    • B26B19/04
    • An inner cutter for a dry shaver has a plurality of blades 30 supported on a base 20 and is driven in hair-shearing engagement with an outer cutter 10 for cutting the hairs. The blades 30 are arranged in parallel with each other and are each provided on opposite sides at its top with cutting edges 32. The cutting edge 32 is defined between the top face of the blade and a rake fade 33 on the underside of the blade. The rake face 33 is inclined with respect to the top face at an angle of α (°), while the cutting edge is rounded at its tip to have a curvature radius R (μm) which satisfies a relation that R≧−0.067·α+4.7. With this result, the cutting resistance for cutting the hair can be lowered below a load necessary for bending the hair. Thus, the blade of the inner cutter can itself cut the hair without bending the hair, giving a flat cutting plane finish and enabling a close shave only with a fewer shaving strokes.
    • 用于干式剃须刀的内刀具具有多个支撑在基座20上的刀片30,并与用于切割头发的外刀片10进行头发剪切接合。 叶片30彼此平行地布置,并且在其顶部的相对侧上设置有切割边缘32。 切割边缘32限定在叶片的顶面和叶片的下侧上的耙子褪色33之间。 前刀面33相对于顶面以α(°)的角度倾斜,而切削刃在其尖端处为圆形,以具有满足R≥0.067的关系的曲率半径R(母)。 alpha + 4.7。 由此,切割头发的切割阻力可以降低到低于头发弯曲所需的载荷。 因此,内切割器的刀片本身可以在不弯曲头发的情况下切割头发,给出平坦的切割平面表面,并且仅使用较少的剃刮冲程能够进行紧密的剃刮。
    • 6. 发明申请
    • EXHAUST GAS RECIRCULATION DEVICE OF ENGINE
    • US20110155109A1
    • 2011-06-30
    • US12675656
    • 2009-09-03
    • Tomomi OnishiTomihisa OdaBungo KawaguguchiMasaaki SatouSatoshi KobayakawaTakeru Shirasawa
    • Tomomi OnishiTomihisa OdaBungo KawaguguchiMasaaki SatouSatoshi KobayakawaTakeru Shirasawa
    • F02M25/07
    • F02D35/026F02D41/0065F02D2250/36F02M26/05F02M26/06F02M35/1038F02M37/06Y02T10/47
    • An exhaust gas recirculation device of an engine (10) of the invention comprises a first exhaust gas recirculation passage (50) for connecting an exhaust passage (40) and an intake passage (30) to each other and introducing into the intake passage an exhaust gas discharged from a combustion chamber (21) to the exhaust passage, and a second exhaust gas recirculation passage (55) for connecting the exhaust passage upstream of a part of the exhaust passage connected to the first exhaust gas recirculation passage and the intake passage downstream of a part of the intake passage connected to the first exhaust gas recirculation passage to each other and introducing into the intake passage the exhaust gas discharged from the combustion chamber to the exhaust passage. The amount of the exhaust gas introduced into the intake passage via the first exhaust gas recirculation passage is controlled to a first target exhaust gas recirculation amount and the amount of the exhaust gas introduced into the intake passage via the second exhaust gas recirculation passage is controlled to a second target exhaust gas recirculation amount. When a temperature of the flame on the combustion of a fuel is lower than or equal to an allowable upper limit flame temperature, a first reference exhaust gas recirculation amount set depending on the operation condition of the engine, is set as the first target exhaust gas recirculation amount and a second reference exhaust gas recirculation amount set depending on the operation condition of the engine, is set as the second target exhaust gas recirculation amount. When the temperature of the flame on the combustion of the fuel is higher than the allowable upper limit flame temperature, one of the first reference exhaust gas recirculation gas amount and an amount smaller than the first reference exhaust gas recirculation gas amount is set as the first target exhaust gas recirculation amount and an amount larger than the reference second exhaust gas recirculation amount is set as the second target exhaust gas recirculation amount.
    • 7. 发明授权
    • Server-client type system and data downloading method
    • 服务器端客户端系统和数据下载方式
    • US07076519B1
    • 2006-07-11
    • US09656714
    • 2000-09-07
    • Masaaki Satou
    • Masaaki Satou
    • G06F15/16G06F15/173
    • H04Q11/0457H04L12/5692H04Q2213/13164H04Q2213/13166H04Q2213/13176H04Q2213/13178H04Q2213/13204H04Q2213/13209H04Q2213/13213H04Q2213/13376
    • In a server-client type system, when a large volume of data to be transmitted whose volume is not less than a predetermined value is generated, a server notifies to a terminal device as a transmission destination to the effect that the large volume of data is to be transmitted by the D-channel packet exchange, and after receiving a data transmission timing signal from the terminal device, starts transmission of the large volume of data using a B-channel to cause the terminal device to download the large volume of data, and the terminal device monitors a state of a free B-channel line in all ISDN communication devices on the client side connected to the same digital service unit upon receiving the notification of transmission of the large volume of data from the server and notifies the server of the data transmission timing signal by the D-channel packet exchange at timing not preventing use of a B-channel line.
    • 在服务器 - 客户端类型的系统中,当生成体积不小于预定值的要发送的大量数据时,服务器将终端设备通知为发送目的地,使得大量数据为 通过D信道分组交换发送,并且在从终端装置接收到数据发送定时信号之后,开始使用B信道发送大量数据,使终端装置下载大量数据, 并且终端设备在接收到来自服务器的大量数据的传输通知的通知时,监视连接到同一数字服务单元的客户端上的所有ISDN通信设备中的空闲B信道线路的状态,并通知服务器 在不防止使用B信道线的定时,通过D信道分组交换的数据发送定时信号。
    • 9. 发明申请
    • CARBONATE SPRING PRODUCING SYSTEM
    • 碳酸盐弹簧生产系统
    • US20110123402A1
    • 2011-05-26
    • US12977504
    • 2010-12-23
    • Satoshi SUZUKIKen OoyachiHiroki SakakibaraMasaaki SatouMasanori ItakuraHiroshi Tasaka
    • Satoshi SUZUKIKen OoyachiHiroki SakakibaraMasaaki SatouMasanori ItakuraHiroshi Tasaka
    • B01J19/00
    • A61H33/02A61H33/60B01F3/04099Y10S261/07
    • A carbonate spring producing system includes a gas-liquid separator (6) which is connected on the downstream side of a carbonic acid gas dissolver (4). A carbonic acid gas supply means (10) and hot water supply means are connected to the carbonic acid gas dissolver (4). A liquid lead-out pipe (5) is connected to the gas-liquid separator. Preferably an un-dissolved carbonic acid gas lead-out pipe (23) is connected on the upstream sides of the gas-liquid separator (6) and the carbonic acid gas dissolver (4). The un-dissolved carbonic acid gas lead-out pipe (23) includes a control valve (25), a compressor (27), and a liquid level detection means (22). The control valve (25) controls a flow rate of un-dissolved carbonic acid gas from the gas-liquid separator. The liquid level detection means (22) measures a liquid level of the gas-liquid separator. Control means (28) controls the flow rate of the supplied carbonic acid gas and the flow rate of the supplied un-dissolved carbonic acid gas based on the gas-liquid separator liquid level detected by the detection means (22). An amount of un-dissolved carbonic acid gas in the gas-liquid separator is always monitored, so that the un-dissolved carbonic acid gas in the hot water can securely be separated and removed by the gas-liquid separator, and the separated and removed un-dissolved carbonic acid gas can be redissolved.
    • 碳酸盐弹簧制造系统包括连接在碳酸气体溶解器(4)的下游侧的气液分离器(6)。 碳酸气体供给装置(10)和热水供给装置连接到碳酸气体溶解器(4)。 液体引出管(5)连接到气液分离器。 优选在气液分离器(6)和碳酸气体溶解器(4)的上游侧连接未溶解的碳酸气体导出管(23)。 未溶解的碳酸气体导出管(23)包括控制阀(25),压缩机(27)和液位检测装置(22)。 控制阀(25)控制来自气液分离器的未溶解的碳酸气体的流量。 液面检测装置(22)测量气液分离器的液位。 控制装置(28)基于由检测装置(22)检测到的气液分离器液面来控制供给的碳酸气体的流量和供给的未溶解的碳酸气体的流量。 始终监测气液分离器中未溶解的碳酸气体的量,使得热水中的未溶解的碳酸气体可以通过气液分离器可靠地分离和除去,并将其分离除去 未溶解的碳酸气体可以重新溶解。