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    • 2. 发明申请
    • Impeller for fuel pump and fuel pump in which the impeller is employed
    • 用于燃油泵和燃油泵的叶轮,其中采用叶轮
    • US20070231120A1
    • 2007-10-04
    • US11727976
    • 2007-03-29
    • Hideki NarisakoTadashi HazamaKiyotoshi OiYoshio Ebihara
    • Hideki NarisakoTadashi HazamaKiyotoshi OiYoshio Ebihara
    • F04D5/00
    • F04D29/188
    • An impeller is employed for a fuel pump and boosts a pressure of fuel by rotating the fuel in a pump passage formed in the fuel pump in a rotational direction of the impeller. The impeller includes a plurality of vane grooves formed adjacent to each other in the rotational direction of the impeller and a plurality of vanes formed adjacent to each other in the rotational direction. Each one of the plurality of vanes divides one of adjacent two of the plurality of vane grooves from the other. A difference between a maximal value and a minimum value of an adjacent vane angle is set in a range of 2.5° to 4°. A fuel pump includes a motor unit, the impeller, and a casing member. The impeller is rotated by rotation driving force of the motor unit. The casing member rotatably receives the impeller and defines the pump passage.
    • 叶轮被用于燃料泵,并且通过在燃料泵中形成的泵通道中的燃料沿着叶轮的旋转方向旋转来提高燃料的压力。 叶轮包括在叶轮的旋转方向上彼此相邻形成的多个叶片槽和沿旋转方向彼此相邻地形成的多个叶片。 多个叶片中的每一个将多个叶片槽中相邻的两个叶片中的一个分隔开。 相邻叶片角度的最大值和最小值之间的差设定在2.5°至4°的范围内。 燃料泵包括马达单元,叶轮和壳体构件。 叶轮通过马达单元的旋转驱动力旋转。 壳体构件可旋转地接收叶轮并限定泵通道。
    • 3. 发明授权
    • Fuel pump for internal combustion engine
    • 内燃机燃油泵
    • US06468027B2
    • 2002-10-22
    • US09821805
    • 2001-03-30
    • Hideki NarisakoYoshio Ebihara
    • Hideki NarisakoYoshio Ebihara
    • F04D500
    • F04D5/002F04D5/007F05B2250/503
    • A casing includes a C-shaped casing side pump groove along blades of an impeller. A casing cover also includes a casing cover side pump groove facing the casing side pump groove. The casing side pump groove and the casing cover side pump groove form a pump fluid passage. A gap is provided between an outer surface of the pump grooves and the impeller. Depth, and outer and inner diameters of a pump groove starts to gradually change from a fuel upstream side of a fuel outlet. The depth of the pump groove gradually decreases, the outer diameter of the pump groove gradually decreases to approach an outer diameter of the impeller, and the inner diameter of the pump groove gradually increases to approach the outer diameter of the impeller. The pump groove ends at a downstream side of the fuel outlet.
    • 壳体包括沿着叶轮的叶片的C形壳体侧泵槽。 壳体盖还包括面向壳体侧泵槽的壳体盖侧泵槽。 套管侧泵槽和套管盖侧泵槽形成泵流体通道。 在泵槽的外表面和叶轮之间设置间隙。 泵凹槽的深度和外径和内径开始从燃料出口的燃料上游侧逐渐变化。 泵槽的深度逐渐减小,泵槽的外径逐渐减小以接近叶轮的外径,并且泵槽的内径逐渐增加以接近叶轮的外径。 泵槽在燃料出口的下游侧终止。
    • 4. 发明授权
    • Fluid supply device
    • 流体供应装置
    • US06923208B2
    • 2005-08-02
    • US10462745
    • 2003-06-17
    • Kenji OkabeYoshio EbiharaTatsuo Sakai
    • Kenji OkabeYoshio EbiharaTatsuo Sakai
    • F02M37/00F02M37/10F02M37/18F02M37/14B60K15/077
    • F02M37/106Y10T137/86075
    • In a fuel supply device disposed in a fuel tank, a pump module is constructed with at least a fuel pump, a fuel filter and a pressure regulator, and is installed in a sub-tank. A filter case of the fuel filter has first ribs and second ribs, so that an axially position between the pump module and the sub-tank is set by the first ribs, and a circumferential position therebetween is set by the second ribs. Further, a fuel inlet of a jet pump is formed in an inner bottom surface of the sub-tank, and an inner surface of the fuel inlet of the jet pump is tapered. Therefore, a fuel outlet of the pressure regulator is guided while being connected to the fuel inlet of the jet pump. Accordingly, the fuel supply device can be assembled easily.
    • 在设置在燃料箱中的燃料供给装置中,泵模块至少配置有燃料泵,燃料过滤器和压力调节器,并且安装在副罐中。 燃料过滤器的过滤器壳体具有第一肋和第二肋,使得泵模块和副容器之间的轴向位置由第一肋条设定,并且其间的圆周位置由第二肋条设定。 此外,喷射泵的燃料入口形成在副罐的内底表面中,并且喷射泵的燃料入口的内表面是锥形的。 因此,压力调节器的燃料出口被连接到喷射泵的燃料入口时被引导。 因此,可以容易地组装燃料供给装置。
    • 5. 发明授权
    • Fuel feed apparatus having small sized structure
    • 具有小型结构的燃料供给装置
    • US07222610B2
    • 2007-05-29
    • US11214744
    • 2005-08-31
    • Tetsuro OkazonoTakashi KobaYoshio EbiharaMikio Torii
    • Tetsuro OkazonoTakashi KobaYoshio EbiharaMikio Torii
    • F02M37/04F02M37/10
    • F02M37/103
    • A lid member is mounted to the fuel tank to cover an opening of the fuel tank. A fuel pump is arranged in the fuel tank to pump fuel in the fuel tank. A module case supports the fuel pump. A pump module includes fuel component protruding from a lateral side of the module case in a projection, which is viewed from a side of the lid member. A supporting member is connected with the lid member and the module case to support the pump module in the fuel tank. The lid member supports the pump module via the supporting member. The module case includes a connecting portion that connects with the supporting member. The connecting portion protrudes from the module case to the lateral side of the module case. The connecting portion is arranged in an imaginary circle that passes through outer peripheries of the module case and the fuel component in the projection. The imaginary circle accommodates the module case and the fuel component in the projection.
    • 盖构件安装到燃料箱以覆盖燃料箱的开口。 在燃料箱中设置有一个燃料泵来泵送燃料箱中的燃料。 模块外壳支持燃油泵。 泵模块包括从模块壳体的侧面突出的燃料部件,突出部分从盖部件的侧面观察。 支撑构件与盖构件和模块壳体连接以将泵模块支撑在燃料箱中。 盖构件经由支撑构件支撑泵模块。 模块壳体包括与支撑构件连接的连接部。 连接部分从模块壳体突出到模块壳体的侧面。 连接部分布置成通过模块壳体的外周和投影中的燃料部件的假想圆。 假想圆容纳模块壳体和投影中的燃料部件。
    • 7. 发明授权
    • Plane commutator and method of manufacturing the same
    • 平面换向器及其制造方法
    • US06525445B2
    • 2003-02-25
    • US09823745
    • 2001-04-03
    • Kenzo KiyoseKiyotoshi OiYoshio Ebihara
    • Kenzo KiyoseKiyotoshi OiYoshio Ebihara
    • H02K100
    • H01R39/06H01R39/045H01R43/08H02K13/04
    • A plane commutator includes a plurality of commutator segments made of carbon compound, a resinous boss member having a body portion supporting a base portion of the commutator segments and an outer peripheral portion supporting an outer periphery of the same and a plurality of metal base plates. Each metal base plate has a contact portion in contact with the base portion of the commutator segment, an axial portion extending along a peripheral portion of the boss member and a terminal portion. The axial portion of the metal base plates is disposed on an outer periphery of the plane commutator in parallel with the outer peripheral portions of the boss member to separate the outer peripheral portion from the body portion. The outer peripheral portion moves freely from the body portion as the metal base plates thermally expand.
    • 平面换向器包括由碳化合物制成的多个换向器片段,具有支撑整流子片段的基部的主体部分的树脂凸起部件和支撑其的外周的外周部分和多个金属基板。 每个金属基板具有与换向器部分的基部接触的接触部分,沿凸起部件的周边部分延伸的轴向部分和端子部分。 金属基板的轴向部分平行于凸台部件的外周部分布置在平面换向器的外周上,以将外周部分与主体部分分开。 当金属基板热膨胀时,外周部分从本体部分自由移动。
    • 8. 发明授权
    • Fluid supply device having irregular vane grooves
    • 具有不规则叶片槽的流体供应装置
    • US5975843A
    • 1999-11-02
    • US127868
    • 1998-08-03
    • Yoshio Ebihara
    • Yoshio Ebihara
    • F02M37/08F04D5/00F04D29/18F04D29/66
    • F04D29/188F04D29/669F05B2200/11F05B2260/96
    • A fluid supply device such as a fuel pump has an impeller 24 on which vanes and vane grooves are arranged alternately on its outer circumference. All adjacent groove angles, each of which is defined by the adjacent two vane grooves, are different from each other. Among the arrangement of the vane grooves, a sum Sm of the angles of the vane grooves which are adjacent in succession in the number of m=n/k (k=2, 3 and 4) is determined. If the number n/k is not an integer, at least (n/k)+1 between n/k and (n/k)+1 is set as m. The sum Sm is determined n-times by shifting the vane groove, from which the sum is determined each time, in the circumferential direction one by one. The arrangement in which the sum Sm of each time satisfies the following relation is adopted: (360/k)-10.ltoreq.Sm.ltoreq.(360/k)+10.
    • 诸如燃料泵的流体供应装置具有叶轮24,叶轮和叶片槽在其外周上交替排列。 所有相邻的槽角由相邻的两个叶片槽限定,彼此不同。 在叶片槽的布置中,确定以m = n / k(k = 2,3和4)的数量连续相邻的叶片槽的角度的总和Sm。 如果数字n / k不是整数,n / k和(n / k)+1之间的至少(n / k)+1设为m。 通过将每次确定总和的叶片槽沿圆周方向逐一移动来确定总和Sm的n次。 (360 / k)-10