会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 21. 发明申请
    • SUB-MUFFLER
    • 辅助功能
    • US20090242324A1
    • 2009-10-01
    • US12094902
    • 2006-11-24
    • Sumio KamiyaKazutoshi WakatsukiHironori SasakiNoriaki Nakagawa
    • Sumio KamiyaKazutoshi WakatsukiHironori SasakiNoriaki Nakagawa
    • F01N1/24
    • F01N1/003C03C13/06F01N1/24F01N2310/02
    • Provided is a sub-muffler which needs no heat resistant material such as SUS, and which can keep its durability and sound absorbing performance even when the sub-muffler is exposed to various corrosive components in the exhaust gas. At the same time, accomplished is a low-cost manufacture, which is a challenge that sub-mufflers and sound absorbing materials commonly face. Disclosed is a sub-muffler in which a perforated exhaust pipe is arranged, and caps and an out pipe are arranged outside the perforated pipe. Sound absorbing materials are filled in the space between the perforated exhaust pipe, and the caps and the out pipe. The sub-muffler is characterized in that, among the sound absorbing materials, at least part of the sound absorbing material of the perforated pipe side is a basalt fiber for high temperature.
    • 本发明提供一种不需要SUS等耐热材料的副消声器,即使在副消音器暴露于废气中的各种腐蚀性成分的情况下也能够保持其耐久性和吸声性能。 同时,完成了低成本制造,这是子消声器和吸音材料通常面临的挑战。 公开了一种其中布置有穿孔排气管的副消声器,并且在穿孔管的外侧设置有盖和出管。 吸声材料填充在穿孔排气管,盖和出管之间的空间中。 所述副消音器的特征在于,在所述吸声材料中,所述多孔管侧吸声材料的至少一部分为高温玄武岩纤维。
    • 22. 发明申请
    • Fuel cell system
    • 燃料电池系统
    • US20070231643A1
    • 2007-10-04
    • US11527480
    • 2006-09-27
    • Kenji YamagaHironori Sasaki
    • Kenji YamagaHironori Sasaki
    • H01M8/04
    • H01M8/04014H01M8/04365H01M8/04559H01M8/04589H01M8/04723H01M8/04768
    • The fuel cell system includes a fuel cell stack, a fuel cell temperature sensor for measuring the internal temperature of the fuel cell, a voltage sensor for measuring the power generation voltage of the fuel cell, a current sensor for measuring the current flowing from the fuel cell, a radiator for radiating heat generated by the fuel cell, a fan attached to the radiator for controlling the heat radiation amount, a cooling water pump for increasing the pressure of a cooling fluid, a bypass valve for controlling the cooling fluid amount entering the radiator, and a controller, on the basis of the voltage information measured by the voltage sensor, the temperature information measured by the temperature sensor, and the current information measured by the current sensor, for controlling at least one of the operation amount of the cooling water pump, the operation amount of the fan, and the cooling fluid amount flowing through the bypass valve.
    • 燃料电池系统包括燃料电池堆,用于测量燃料电池内部温度的燃料电池温度传感器,用于测量燃料电池的发电电压的电压传感器,用于测量从燃料流出的电流的电流传感器 电池,用于散发由燃料电池产生的热量的散热器,附接到散热器以控制散热量的风扇,用于增加冷却流体的压力的冷却水泵;用于控制进入 散热器和控制器,基于由电压传感器测量的电压信息,由温度传感器测量的温度信息和由电流传感器测量的电流信息,用于控制冷却的操作量中的至少一个 水泵,风扇的运转量以及流过旁通阀的冷却流体量。
    • 24. 发明申请
    • Method for manufacturing basalt fiber
    • 制造玄武岩纤维的方法
    • US20070000721A1
    • 2007-01-04
    • US11454842
    • 2006-06-19
    • Sumio KamiyaHironori SasakiNoriaki Nakagawa
    • Sumio KamiyaHironori SasakiNoriaki Nakagawa
    • F01N7/18C04B35/00C03B3/02C03B37/02
    • C03C1/00C03B37/02C03C13/06F01N1/24F01N13/16F01N2310/02Y10T442/605Y10T442/645Y10T442/691
    • Basalt filament is manufactured in such a manner that the fiber diameter can be controlled and the filament is not severed during the winding step. A network former and a glass modifier are formed and maintained with respect to basalt rock ore, and the crystallization and binding of basalt fiber are inhibited, the heat-resistance property of basalt fiber is greatly improved from the conventional 750° C. to 850 or 900° C., and significant cost reduction is achieved over conventional products. The method includes the steps of: grinding basalt rock as a material; washing a resultant ground rock; melting the ground rock that has been washed; transforming a molten product into fiber; and drawing the fiber in an aligned manner, and winding it. The temperature of the molten product in the melting step is 1400 to 1650° C., and logη is 2.15 to 2.35 dPa·s and preferably 2.2 to 2.3 dPa·s, where η is the viscosity of the molten product.
    • 制造玄武岩纤维,使得可以控制纤维直径,并且在卷绕步骤期间丝不被切断。 相对于玄武岩岩石矿形成并保持了网络成型体和玻璃改性剂,并且抑制了玄武岩纤维的结晶和结合,玄武岩纤维的耐热性能从传统的750℃大大提高到850或 900℃,并且比常规产品显着降低成本。 该方法包括以下步骤:将玄武岩岩石作为材料研磨; 清洗所得的地面岩石; 熔化被洗涤的地面岩石; 将熔融产物转化成纤维; 并以对准的方式绘制纤维,并将其卷绕。 熔融步骤中的熔融产物的温度为1400至1650℃,小麦粉为2.15至2.35dPa.s,优选为2.2至2.3dPa.s,其中η为熔融产物的粘度。
    • 25. 发明申请
    • Optical transmitter and receiver module
    • 光发射机和接收机模块
    • US20060051033A1
    • 2006-03-09
    • US11106501
    • 2005-04-15
    • Seiichiro TabataAtsushi KawamuraHironori Sasaki
    • Seiichiro TabataAtsushi KawamuraHironori Sasaki
    • G02B6/42G02B6/32
    • G02B6/4206G02B6/4246H01L2224/05554H01L2224/48091H01L2224/48137H01L2924/00014
    • To provide an optical transmitter and receiver module which can enhance a coupling efficiency between a laser diode and an optical fiber, and can enhance a photo-electrical conversion efficiency of light outgoing from an optical fiber in a photodiode, an optical transmitter and receiver module which is connected to an optical fiber and transmits a first light and receives a second light via the optical fiber, and this module comprises a light source emitting the first light, a light-receiving section receiving the second light, a diffraction device changing the direction of travel of at least one of the first light and the second light, a first lens which condenses the first light, outgoing from the light source and entering through the medium of the diffraction device, onto a light input/output face of the optical fiber and condenses the second light outgoing from the optical fiber onto the light-receiving section through the medium of the diffraction device, and a second lens which inhibits a beam of the first light outgoing from the light source from diverging and allows it to enter the first lens through the medium of the diffraction device.
    • 提供一种能够增强激光二极管和光纤之间的耦合效率的光发射器和接收器模块,并且可以增强从光电二极管中的光纤输出的光的光电转换效率,光发射器和接收器模块,其中 连接到光纤并且透射第一光并且经由光纤接收第二光,并且该模块包括发射第一光的光源,接收第二光的光接收部,改变第二光的方向的衍射装置 所述第一光和所述第二光中的至少一个的行进,将从所述光源射出并通过所述衍射装置的介质进入的所述第一光聚光到所述光纤的光输入/输出面上的第一透镜,以及 通过衍射装置的介质将从光纤射出的第二光聚光到光接收部分上,并将第二透镜 禁止从光源射出的第一光束的光束发散,并允许其通过衍射装置的介质进入第一透镜。
    • 26. 发明授权
    • Optical demultiplexer and optical multiplexer for wavelength division multiplex communication
    • 用于波分复用通信的光解复用器和光复用器
    • US06856722B2
    • 2005-02-15
    • US10367694
    • 2003-02-19
    • Hironori SasakiYutaka Okabe
    • Hironori SasakiYutaka Okabe
    • G02B5/26G02B5/28G02B6/293G02B6/34G02B6/28
    • G02B6/2938G02B6/29367
    • An optical demultiplexer/multiplexer for wavelength division multiplex communication includes: a light irradiating unit for irradiating a spherical wave containing light waves of different wavelengths; optical fibers for respectively receiving the different wavelengths of the demultiplexed light wave; a converting lens for receiving the spherical wave and converting the spherical wave into a parallel wave; WDM filters each for selecting and reflecting the light wave in the parallel wave and transmitting the residual light waves; guide lenses for receiving the light waves reflected by the WDM filters, converging, and transmitting the light waves to the optical fibers; and reflecting mirrors for receiving the light waves and reflecting the light waves toward the WDM filters. The parallel wave advances from the converting lens, is selected and reflected by the WDM filter, reflected, returned to the WDM filter, selected and reflected again, converged by the guide lens, and demultiplexed by the optical fiber every wavelength.
    • 一种用于波分复用通信的光解复用器/多路复用器包括:用于照射包含不同波长的光波的球面波的光照射单元; 用于分别接收解复用的光波的不同波长的光纤; 用于接收球面波并将球面波转换成平行波的转换透镜; WDM滤波器用于选择和反射平行波中的光波并传输残余光波; 引导透镜,用于接收由WDM滤光器反射的光波,会聚并将光传输到光纤; 以及用于接收光波并将光波反射向WDM滤光器的反射镜。 平行波从转换透镜前进,被WDM滤波器选择和反射,反射回到WDM滤波器,再次被引导透镜收敛并被每个波长由光纤解复用。