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
    • 3. 发明授权
    • Structure for supporting rotary shaft
    • 支撑旋转轴结构
    • US06336746B1
    • 2002-01-08
    • US09592293
    • 2000-06-12
    • Masayuki MatsuuraYukio MuraiMitsuru HatanakaTakashi Fujimoto
    • Masayuki MatsuuraYukio MuraiMitsuru HatanakaTakashi Fujimoto
    • F16C3378
    • F16C33/76B01D63/16
    • A rotary shaft is inserted to a tank through a hole formed in a wall of the tank. A casing is provided outside the tank, and the rotary shaft is supported by a bearing arranged in the casing. The casing is watertightly connected to the wall including the hole through a flexible joint. Seal members are arranged in the casing to seal the clearance between the rotary shaft and the casing. A sleeve is fitted on the rotary shaft so that the sleeve is watertightly in contact with at least one of the seal members, and the sleeve can be moved along the rotary shaft to change the seal member in contact with the sleeve. The bearing and the seal member are not affected by the deformation of the tank since the flexible joint connects the tank and the casing, and the rotary shaft can rotate smoothly while securing high sealing quality. The alignment of the axes of the bearing and the hole in the tank can be easy since the bearing is provided outside of the tank, and thus assembly and maintenance of the structure are easy. The tank can have relatively low strength since the tank has not to support the rotary shaft with the bearing; thus the structure can be compact and the cost can be reduced.
    • 旋转轴通过形成在罐的壁中的孔插入罐中。 壳体设置在罐外部,旋转轴由布置在壳体中的轴承支撑。 壳体通过柔性接头与包括孔的墙体水密地连接。 密封构件布置在壳体中以密封旋转轴和壳体之间的间隙。 套筒安装在旋转轴上,使得套筒与至少一个密封构件水密地接触,并且套筒可以沿着旋转轴移动以改变与套筒接触的密封构件。 轴承和密封件不受罐的变形的影响,因为柔性接头连接罐和壳体,并且旋转轴可以平稳地旋转,同时确保高的密封质量。 由于轴承设置在油箱外部,因此轴承的轴线与油槽中的孔的对准可以很容易,因此容易组装和维护结构。 坦克可以具有相对较低的强度,因为坦克没有支撑带轴承的旋转轴; 因此结构可以紧凑并且可以降低成本。
    • 7. 发明授权
    • Water supply
    • 供水
    • US06922348B2
    • 2005-07-26
    • US10332197
    • 2001-07-05
    • Kaoru NakajimaKenichi KajiwaraMasahito KawaiMasahiko KishiNobuhiro HigakiYukio Murai
    • Kaoru NakajimaKenichi KajiwaraMasahito KawaiMasahiko KishiNobuhiro HigakiYukio Murai
    • F04B17/00F04B47/06H02M3/24
    • F04B17/006F04B47/06F04D13/068F04D15/0236Y10S323/906
    • According to the present invention, in a water supply apparatus which converts output power of a solar cell with an inverter to drive a motor pump for pumping up water, a DC brushless motor having no sensor for detecting a position of a rotatable shaft is used as a motor for driving the pump. Further, the water supply apparatus, having a pump and a frequency converter for supplying electric power to the pump and controlling a rotational speed of the pump, includes a standard current value table in which rotational frequencies of the pump and standard current values as criteria for shutoff operation at the rotational frequencies are associated with each other, a rotational frequency detecting device for detecting a rotational frequency of the pump, a standard current value acquiring device for acquiring a standard current value corresponding to the rotational frequency detected by the rotational frequency detecting device with reference to the standard current value table, a current detecting device for detecting a current value supplied to the pump, and a comparing device for comparing the current value detected by the current detecting device with the standard current value acquired by the standard current value acquiring device.
    • 根据本发明,在使用逆变器转换太阳能电池的输出功率以驱动用于泵送水的电动泵的供水装置中,使用没有用于检测可旋转轴的位置的传感器的直流无刷电动机作为 用于驱动泵的电动机。 此外,具有用于向泵供给电力并控制泵的转速的泵和变频器的供水装置包括标准电流值表,其中泵的旋转频率和标准电流值作为标准 旋转频率的关闭操作相关联,用于检测泵的旋转频率的旋转频率检测装置,用于获取与旋转频率检测装置检测到的旋转频率相对应的标准电流值的标准电流值获取装置 参考标准电流值表,检测提供给泵的电流值的电流检测装置和用于将由电流检测装置检测的电流值与通过标准电流值获取获得的标准电流值进行比较的比较装置 设备。
    • 10. 发明授权
    • Rotary flat membrane separation apparatus
    • 旋转平膜分离装置
    • US06596164B2
    • 2003-07-22
    • US09788604
    • 2001-02-21
    • Makoto OonishiNaoki OhkumaYukio MuraiYutaka Okuno
    • Makoto OonishiNaoki OhkumaYukio MuraiYutaka Okuno
    • B01D6316
    • B01D63/16
    • The rotary flat membrane separation apparatus comprises: a plurality of hollow rotary shafts; a plurality of rotary flat membrane disks mounted on each of the plurality of hollow rotary shafts at regular intervals, the plurality of rotary flat membrane disks mounted on adjacent two of the plurality of hollow rotary shafts being alternately arranged side by side in equal intervals; and a plurality of collars, each of the plurality of collars being arranged between adjacent two of the plurality of rotary flat membrane disks mounted on each of the plurality of hollow rotary shafts. The apparatus is characterized in that a diameter of the collars is between 0.18-0.34 times a diameter of the rotary flat membrane disks. Thus, the effective membrane area can be as large as possible while preventing the vibration of the rotary flat membrane disks caused by the rotation.
    • 旋转平膜分离装置包括:多个中空旋转轴; 安装在所述多个中空旋转轴的每一个上的多个旋转平膜片以规则的间隔安装,安装在所述多个空心旋转轴的相邻两个上的所述多个旋转平膜盘以相等的间隔并排布置; 以及多个轴环,所述多个轴环中的每一个被布置在安装在所述多个空心旋转轴中的每一个上的所述多个旋转平板膜的相邻的两个之间。 该装置的特征在于,套环的直径在旋转平膜片的直径的0.18-0.34倍之间。 因此,有效的膜面积可以尽可能大,同时防止由旋转引起的旋转平膜盘的振动。