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    • 1. 发明授权
    • Fuel injection valve
    • 燃油喷射阀
    • US08302889B2
    • 2012-11-06
    • US13177137
    • 2011-07-06
    • Naoya HashiiKeishi NakanoTsuyoshi MunezaneAtsushi YoshimuraManabu Miyaki
    • Naoya HashiiKeishi NakanoTsuyoshi MunezaneAtsushi YoshimuraManabu Miyaki
    • B05B1/00
    • F02M61/1853F02M51/0682F02M2200/8084Y10S239/90
    • A fuel injection valve has a valve body for opening and closing a valve seat, and receives an operation signal from a control unit to operate the valve body so that fuel is injected from a plurality of injection holes formed in an injection hole plate welded through a welded portion to a downstream side of the valve seat while passing through a gap between the valve body and the valve seat. The injection hole plate is formed at its central portion with a convex portion which is substantially axisymmetric with respect to a valve seat axis and which has a circular-arc shaped cross section, and the welded portion is also substantially axisymmetric with respect to the valve seat axis. Inlet portions of the injection holes are disposed in an injection hole arrangement surface diametrically outside of the convex portion and diametrically inside of a valve seat opening inner wall which is a minimum inside diameter of the valve seat, and the injection hole arrangement surface is coplanar with a surface having the welded portion.
    • 燃料喷射阀具有用于打开和关闭阀座的阀体,并接收来自控制单元的操作信号以操作阀体,使得燃料从形成在喷射孔板中的多个喷射孔喷射,该喷射孔通过 在通过阀体和阀座之间的间隙的同时,将其焊接到阀座的下游侧。 喷孔板在其中央部形成有相对于阀座轴线大致轴对称且具有圆弧形截面的凸部,焊接部也相对于阀座大致轴对称 轴。 喷射孔的入口部分直径位于凸起部分的外侧的喷孔配置表面中,并且直径位于阀座开口内壁的内侧,阀座开口内壁是阀座的最小内径,并且喷射孔配置表面与 具有焊接部的表面。
    • 2. 发明申请
    • Electromagnetic valve
    • 电磁阀
    • US20050284524A1
    • 2005-12-29
    • US10969962
    • 2004-10-22
    • Takuya UryuYuta IchinoseYoshihiko OnishiManabu Miyaki
    • Takuya UryuYuta IchinoseYoshihiko OnishiManabu Miyaki
    • F16K31/06
    • F16K31/0665Y10T137/2109Y10T137/87217Y10T137/87233
    • Disclosed is an electromagnetic valve in which a force due to a working fluid from an inflow hole acting perpendicularly with respect to the axis of a shut-off valve is reduced to thereby reduce the sliding resistance of the shut-off valve. An electromagnetic valve according to the present invention includes: a housing (10) having an inflow hole (11), an inner flow path (12), and a discharge hole (13); a valve seat (15) secured in position inside the housing (10); a shut-off valve (16) adapted to abut one surface of the valve seat (15) to shut off the working fluid flowing into the inner flow path (12) through the inflow hole (11); and a pressure regulating valve (17) provided coaxially with the shut-off valve (16) and adapted to control, through adjustment of the dimensions of a gap between itself and the other surface of the valve seat (15), the amount of working fluid flowing to the exterior of the housing (10) through the discharge hole (13). In the electromagnetic valve, the housing (10) is equipped with a whirling member for causing the working fluid having flowed into the inner flow path (12) through the inflow hole (11) to whirl in one direction.
    • 公开了一种电磁阀,其中减少了由相对于截止阀的轴线垂直作用的流入孔的工作流体产生的力,从而降低了截止阀的滑动阻力。 根据本发明的电磁阀包括:具有流入孔(11),内部流路(12)和排出孔(13)的壳体(10)。 固定在所述壳体(10)内的位置的阀座(15); 适于邻接所述阀座(15)的一个表面的截止阀(16),以通过所述流入孔(11)切断流入所述内部流路(12)的工作流体; 以及与所述截止阀(16)同轴设置的压力调节阀(17),并且适于通过调节其本身与所述阀座(15)的另一表面之间的间隙的尺寸来控制所述工作量 流体通过排放孔(13)流到壳体(10)的外部。 在电磁阀中,壳体(10)配备有用于使通过流入孔(11)流入内部流路(12)的工作流体沿一个方向旋转的旋转构件。
    • 3. 发明授权
    • Fuel injection valve
    • 燃油喷射阀
    • US08002207B2
    • 2011-08-23
    • US12093178
    • 2007-03-27
    • Naoya HashiiKeishi NakanoTsuyoshi MunezaneAtsushi YoshimuraManabu Miyaki
    • Naoya HashiiKeishi NakanoTsuyoshi MunezaneAtsushi YoshimuraManabu Miyaki
    • B05B1/00
    • F02M61/1853F02M51/0682F02M2200/8084Y10S239/90
    • This invention serves to suppress the deterioration of oil tightness of a valve after welding without any change in the direction of fuel injection even with deformation of a convex portion after welding of an injection opening plate to a valve seat, as well as without any variation in the direction of fuel injection due to welding variation. In this invention, in a fuel injection valve which has a valve body for opening and closing a valve seat, and receives an operation signal from a control unit to operate the valve body so that fuel is injected from a plurality of injection holes formed in an injection hole plate welded through a welded portion to a downstream side of the valve seat while passing through a gap between the valve body and the valve seat, said injection hole plate is formed at its central portion with a convex portion which is substantially axisymmetric with respect to a valve seat axis and which has a circular-arc shaped cross section, and said welded portion is also substantially axisymmetric with respect to said valve seat axis. In addition, inlet portions of said injection holes are disposed in an injection hole arrangement surface diametrically outside of said convex portion and diametrically inside of a valve seat opening inner wall which is a minimum inside diameter of said valve seat, and said injection hole arrangement surface is coplanar with a surface having said welded portion.
    • 本发明用于抑制即使在将注射开口板焊接到阀座上的凸部的变形之后,也不会发生任何变化,可以抑制焊接后的阀的油封性的劣化,同时燃料喷射方向没有任何变化 由于焊接变化导致燃油喷射的方向。 在本发明中,在具有用于打开和关闭阀座的阀体的燃料喷射阀中,并接收来自控制单元的操作信号以操作阀体,使得从形成在阀座中的多个喷射孔喷射燃料 喷射孔板在通过阀体和阀座之间的间隙的同时通过焊接部分焊接到阀座的下游侧,所述喷射孔板在其中心部分处形成有凸部,其基本上相对于轴对称 到阀座轴线并且具有圆弧形横截面,并且所述焊接部分也相对于所述阀座轴线基本上是轴对称的。 此外,所述喷射孔的入口部分设置在所述凸部的径向外侧的喷射孔配置表面中,并且直径位于所述阀座的最小内径的阀座开口内壁的内侧,并且所述喷射孔装置表面 与具有所述焊接部分的表面共面。
    • 4. 发明授权
    • Rotation angle detecting apparatus
    • 旋转角度检测装置
    • US07378841B2
    • 2008-05-27
    • US11337532
    • 2006-01-24
    • Kazuhisa KuritaYoshihiko OnishiTakuya UryuManabu Miyaki
    • Kazuhisa KuritaYoshihiko OnishiTakuya UryuManabu Miyaki
    • G01B7/30
    • F02D9/105G01D5/145
    • A rotation angle detecting apparatus includes: a first permanent magnet; a second permanent magnet disposed so as to face the first permanent magnet, the second permanent magnet rotating together with a shaft; an arc-shaped first magnetic member and second magnetic member fixed to the first permanent magnet and the second permanent magnet; and a magnetic resistor disposed in an air gap formed between the first magnetic member and the second magnetic member so as to be axially aligned with the shaft, the first magnetic member and the second magnetic member each including: a projecting portion pointed at the magnetic resistor; and a wall portion surrounding the magnetic resistor so as to prevent influence from external magnetic fields.
    • 旋转角度检测装置包括:第一永磁体; 第二永久磁铁与第一永磁体相对配置,第二永磁体与轴一起旋转; 弧形的第一磁性构件和固定到第一永磁体和第二永磁体的第二磁性构件; 以及磁阻器,其设置在形成在所述第一磁性构件和所述第二磁性构件之间的空气间隙中以与所述轴轴向对准,所述第一磁性构件和所述第二磁性构件各自包括:突出部分,其指向所述磁性电阻器 ; 以及围绕磁性电阻器的壁部,以防止外部磁场的影响。
    • 5. 发明申请
    • Rotation angle detection device
    • 旋转角度检测装置
    • US20070229061A1
    • 2007-10-04
    • US11449823
    • 2006-06-09
    • Takuya UryuKazuhisa KuritaYoshihiko OnishiShinya NoseManabu Miyaki
    • Takuya UryuKazuhisa KuritaYoshihiko OnishiShinya NoseManabu Miyaki
    • G01B7/30
    • G01D5/145
    • The present invention attains downsizing of a permanent magnet with a simple structure to reduce a manufacturing cost thereof. Provided is a rotation angle detection device, including: a cylindrical magnetic circuit mounted to a shaft; and non-contact sensors provided in an inner void of the magnetic circuit, in which the magnetic circuit is composed of a first yoke and a second yoke formed of a magnetic material and having a pair of flat portions parallel and opposed to each other, and a pair of permanent magnets whose magnetic poles are aligned in the same direction so that magnetic fields whose magnetic fluxes are parallel to each other are generated in the void between the flat portions, and the non-contact sensor detects a rotation angle of the shaft by detecting a change in the direction of the magnetic fluxes.
    • 本发明实现了一种结构简单的减小其制造成本的永磁体的小型化。 提供一种旋转角度检测装置,包括:安装到轴的圆柱形磁路; 以及提供在磁路的内部空隙中的非接触式传感器,其中磁路由第一磁轭和由磁性材料形成并具有彼此平行和相对的一对平坦部分形成的第二磁轭和第二磁轭组成,以及 一对永磁体,其磁极沿相同方向排列,使得磁平面彼此平行的磁场产生在平坦部分之间的空隙中,非接触式传感器通过以下方式检测轴的旋转角度 检测磁通方向的变化。
    • 6. 发明申请
    • ROTATION ANGLE DETECTION DEVICE
    • 旋转角度检测装置
    • US20050184727A1
    • 2005-08-25
    • US10859074
    • 2004-06-03
    • Kazuhisa KuritaKenji NakaoYoshihiko OnishiManabu Miyaki
    • Kazuhisa KuritaKenji NakaoYoshihiko OnishiManabu Miyaki
    • G01B7/30F02D9/00F02D35/00G01B7/00G01D5/14G01D5/16G01D5/18
    • G01D5/145
    • A rotation angle detection device is simple in structure and is capable of reducing the size of a permanent magnet. The permanent magnet is fixedly secured to a rotating member. A first guide member is attached at one end face to an S pole side of the permanent magnet. A second guide member is attached at one end face to an N pole side of the permanent magnet, and has its tip end disposed in opposition to a tip end of the first guide member. A magnetoresistive member is disposed in a space between the tip ends of the first and second guide members, the magnetoresistive member being fixedly attached to a non-rotating member. An angle of rotation of the rotating member is detected by detecting a change of the azimuth of magnetic flux, which is generated by the permanent magnet in the space, by means of the magnetoresistive member.
    • 旋转角度检测装置结构简单,能够减小永磁体的尺寸。 永磁体固定地固定在旋转构件上。 第一引导构件在一个端面处附接到永磁体的S极侧。 第二引导构件在一个端面处附接到永磁体的N极侧,并且其末端设置成与第一引导构件的前端相对。 磁阻构件设置在第一和第二引导构件的末端之间的空间中,磁阻构件固定地附接到非旋转构件。 通过利用磁阻元件检测由该空间中的永久磁铁产生的磁通的方位角的变化来检测旋转构件的旋转角度。
    • 7. 发明授权
    • Rotation angle detection device
    • 旋转角度检测装置
    • US06930477B1
    • 2005-08-16
    • US10859074
    • 2004-06-03
    • Kazuhisa KuritaKenji NakaoYoshihiko OnishiManabu Miyaki
    • Kazuhisa KuritaKenji NakaoYoshihiko OnishiManabu Miyaki
    • G01B7/30F02D9/00F02D35/00G01B7/00G01D5/14G01D5/16G01D5/18
    • G01D5/145
    • A rotation angle detection device is simple in structure and is capable of reducing the size of a permanent magnet. The permanent magnet is fixedly secured to a rotating member. A first guide member is attached at one end face to an S pole side of the permanent magnet. A second guide member is attached at one end face to an N pole side of the permanent magnet, and has its tip end disposed in opposition to a tip end of the first guide member. A magnetoresistive member is disposed in a space between the tip ends of the first and second guide members, the magnetoresistive member being fixedly attached to a non-rotating member. An angle of rotation of the rotating member is detected by detecting a change of the azimuth of magnetic flux, which is generated by the permanent magnet in the space, by means of the magnetoresistive member.
    • 旋转角度检测装置结构简单,能够减小永磁体的尺寸。 永磁体固定地固定在旋转构件上。 第一引导构件在一个端面处附接到永磁体的S极侧。 第二引导构件在一个端面处附接到永磁体的N极侧,并且其末端设置成与第一引导构件的前端相对。 磁阻构件设置在第一和第二引导构件的末端之间的空间中,磁阻构件固定地附接到非旋转构件。 通过利用磁阻元件检测由该空间中的永久磁铁产生的磁通的方位角的变化来检测旋转构件的旋转角度。
    • 8. 发明授权
    • Non-contact type rotation-angle sensing device
    • 非接触式旋转角度检测装置
    • US06867584B1
    • 2005-03-15
    • US10815679
    • 2004-04-02
    • Kazuhisa KuritaKenji NakaoYoshihiko OnishiManabu Miyaki
    • Kazuhisa KuritaKenji NakaoYoshihiko OnishiManabu Miyaki
    • G01B7/30G01B7/00G01D5/14G01D5/245
    • G01D5/147
    • In a non-contact type rotation-angle sensing device, a rotation angle sensor (9) having magnetoresistance elements detects a rotation angle of an object to be measured. The object is rotatable round a rotary shaft (2) with respect to the rotation angle sensor (9) and includes a permanent magnet (5, 6). The permanent magnet (5, 6) is disposed symmetrically about said rotary shaft (2) of said object, and a magnetic element (7, 8) is disposed on said object between said permanent magnet (5, 6) and the magnetoresistance elements. In the non-contact type rotation-angle sensing device of above constitution according to the invention, linearity is secured by reducing magnetic hysteresis of the sensor output with respect to the rotation angle, thus a small-sized permanent magnet and reduction in cost being achieved.
    • 在非接触型旋转角度检测装置中,具有磁阻元件的旋转角度传感器(9)检测待测物体的旋转角度。 该物体相对于旋转角度传感器(9)围绕旋转轴(2)旋转并且包括永磁体(5,6)。 永磁体(5,6)围绕所述物体的所述旋转轴(2)对称地设置,并且在所述永磁体(5,6)和所述磁阻元件之间的所述物体上设置有磁性元件(7,8)。 在根据本发明的上述结构的非接触型旋转角度检测装置中,通过减小传感器输出相对于旋转角度的磁滞来确保线性度,从而实现小型永磁体的降低成本 。
    • 9. 发明授权
    • Flow control valve
    • 流量控制阀
    • US5238222A
    • 1993-08-24
    • US910807
    • 1992-07-09
    • Mamoru SumidaManabu MiyakiMasayasu Miyajima
    • Mamoru SumidaManabu MiyakiMasayasu Miyajima
    • F16K31/06F02M3/07
    • F02M3/07
    • A flow control valve comprises a fixed iron core, an electromagnetic coil, a casing made of a magnetic substance in which the electromagnetic coil is received, a movable iron core, a return spring for urging the movable iron core in the opposite direction to an attractive force, a flow control valve main body provided with a fluid inlet passage and a fluid outlet passage, a valve provided at the movable iron core, and a valve seat with which the valve is in contact in a non-electric conductive state, wherein at least one of the fluid inlet and outlet passages of the fluid control valve main body is formed to restrict the maximum flow rate of the flow control valve.
    • 流量控制阀包括固定铁芯,电磁线圈,由接收电磁线圈的磁性物质制成的壳体,可动铁芯,用于将可动铁芯沿相反方向推向吸引力的复位弹簧 力,具有流体入口通道和流体出口通道的流量控制阀主体,设置在可动铁芯上的阀和在非导电状态下与阀接触的阀座,其中在 流体控制阀主体的流体入口和出口通道中的至少一个形成为限制流量控制阀的最大流量。
    • 10. 发明申请
    • FUEL INJECTION VALVE
    • 燃油喷射阀
    • US20110260084A1
    • 2011-10-27
    • US13177137
    • 2011-07-06
    • Naoya HASHIIKeishi NAKANOTsuyoshi MUNEZANEAtsushi YOSHIMURAManabu MIYAKI
    • Naoya HASHIIKeishi NAKANOTsuyoshi MUNEZANEAtsushi YOSHIMURAManabu MIYAKI
    • F16K31/02
    • F02M61/1853F02M51/0682F02M2200/8084Y10S239/90
    • A fuel injection valve has a valve body for opening and closing a valve seat, and receives an operation signal from a control unit to operate the valve body so that fuel is injected from a plurality of injection holes formed in an injection hole plate welded through a welded portion to a downstream side of the valve seat while passing through a gap between the valve body and the valve seat. The injection hole plate is formed at its central portion with a convex portion which is substantially axisymmetric with respect to a valve seat axis and which has a circular-arc shaped cross section, and the welded portion is also substantially axisymmetric with respect to the valve seat axis. Inlet portions of the injection holes are disposed in an injection hole arrangement surface diametrically outside of the convex portion and diametrically inside of a valve seat opening inner wall which is a minimum inside diameter of the valve seat, and the injection hole arrangement surface is coplanar with a surface having the welded portion.
    • 燃料喷射阀具有用于打开和关闭阀座的阀体,并接收来自控制单元的操作信号以操作阀体,使得燃料从形成在喷射孔板中的多个喷射孔喷射,该喷射孔通过 在通过阀体和阀座之间的间隙的同时,将其焊接到阀座的下游侧。 喷孔板在其中央部形成有相对于阀座轴线大致轴对称且具有圆弧形截面的凸部,焊接部也相对于阀座大致轴对称 轴。 喷射孔的入口部分直径位于凸起部分的外侧的喷孔配置表面中,并且直径位于阀座开口内壁的内侧,阀座开口内壁是阀座的最小内径,并且喷射孔配置表面与 具有焊接部的表面。