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
    • 1. 发明申请
    • MECHANICAL SEAL DEVICE AND TANDEM SEAL DEVICE
    • 机械密封装置和标签密封装置
    • US20100270749A1
    • 2010-10-28
    • US12743602
    • 2008-11-18
    • Yoji OshiiKoji AkiyamaKoji WatanabeAtsushi Kaneko
    • Yoji OshiiKoji AkiyamaKoji WatanabeAtsushi Kaneko
    • F16J15/34
    • F16J15/342F16J15/004F16J15/3484F16J15/40
    • The present invention provides a mechanical seal device for obtaining appropriate sliding properties under any conditions, such as a pressure of seal is low or high. In the present invention, both first grooves 463 and second grooves 464 are formed on a sliding face 46 of a stationary ring 46. The first grooves which are not in communication externally and act for reducing contact resistance of a sliding face by a dynamic pressure action when a rotary shaft rotates, the second grooves act for reducing the contact resistance of the sliding face constantly by introducing a pressure from external. Thus, a mechanical seal device which is available to seal sealed fluid under an appropriate dry contact status wherein a sliding face load is reduced in any condition can be provided.
    • 本发明提供一种用于在任何条件下获得适当的滑动性能的机械密封装置,例如密封压力低或高。 在本发明中,第一凹槽463和第二凹槽464都形成在静止环46的滑动面46上。第一凹槽不与外部连通,并且用于通过动态压力作用降低滑动面的接触电阻 当旋转轴旋转时,第二凹槽用于通过从外部引入压力来恒定地降低滑动面的接触电阻。 因此,可以提供在适当的干接触状态下可用于密封密封流体的机械密封装置,其中在任何情况下滑动面负载减小。
    • 2. 发明授权
    • Tandem seal device
    • 串联密封装置
    • US08585060B2
    • 2013-11-19
    • US12743602
    • 2008-11-18
    • Yoji OshiiKoji AkiyamaJoji WatanabeAtsushi Kaneko
    • Yoji OshiiKoji AkiyamaJoji WatanabeAtsushi Kaneko
    • F16J15/34
    • F16J15/342F16J15/004F16J15/3484F16J15/40
    • A mechanical seal device for obtaining appropriate sliding properties under any conditions, such as a pressure of seal is low or high. Both first grooves 463 and second grooves 464 are formed on a sliding face 46 of a stationary ring 46. The first grooves which are not in communication externally and act for reducing contact resistance of a sliding face by a dynamic pressure action when a rotary shaft rotates, the second grooves act for reducing the contact resistance of the sliding face constantly by introducing a pressure from external. Thus, a mechanical seal device which is available to seal sealed fluid under an appropriate dry contact status wherein a sliding face load is reduced in any condition can be provided.
    • 用于在诸如密封压力的任何条件下获得适当的滑动性能的机械密封装置低或高。 第一凹槽463和第二凹槽464都形成在静止环46的滑动面46上。当旋转轴旋转时,不与外部连通的第一凹槽用于通过动压力降低滑动面的接触电阻 ,第二槽用于通过从外部引入压力来不断地减小滑动面的接触电阻。 因此,可以提供在适当的干接触状态下可用于密封密封流体的机械密封装置,其中在任何情况下滑动面负载减小。
    • 3. 发明申请
    • SHAFT SEAL APPARATUS
    • 轴封装置
    • US20140232070A1
    • 2014-08-21
    • US13983331
    • 2012-05-18
    • Yoshiaki TakigahiraYoji OshiiAtsushi KanekoTetsuya Sato
    • Yoshiaki TakigahiraYoji OshiiAtsushi KanekoTetsuya Sato
    • F16J15/34
    • F16J15/3404F16J15/3484F16J15/406
    • A pumping ring 46 producing an axial flow of sealed flow is secured to a rotary shaft 6 at an axial position different from a rotary ring 56 so that the sealed fluid positioned in the sealed space 33 flows along the axial direction of the rotary shaft 6. A discharge hole 14 is formed on an inner circumferential surface of a seal cover 8 positioned in the downstream side of the axial flow of the sealed fluid resulting from a rotation of the pumping ring 46. An inflow hole 15 is formed in the upstream side of the axial flow of the sealed fluid resulting from the rotation of the pumping ring 46, so that the sealed fluid discharged from the discharge hole 14 returns to the inside of the sealed space from the inflow hole 15. On the inner circumferential surface of the seal cover 8 provided with the discharge hole 14, a baffle member 18 is provided so that it protrudes radially inward in order to block the flow of the sealed fluid along the rotating direction of a retainer 52 and orient the sealed fluid toward the discharge hole 14.
    • 产生密封流动的轴向流动的泵送环46在不同于旋转环56的轴向位置处固定到旋转轴6,使得位于密封空间33中的密封流体沿着旋转轴6的轴向流动。 在位于密封流体的轴向流动的下游侧的密封盖8的内周面上形成有排出孔14,该密封流体由泵送环46的旋转而产生。在流入孔15的上游侧形成有流入孔15 密封流体由泵送环46的旋转引起的轴向流动,使得从排出孔14排出的密封流体从流入孔15返回到密封空间的内部。在密封件的内周面上 设置有排放孔14的盖8设置有挡板构件18,以便径向向内突出,以阻挡密封流体沿着保持器52的旋转方向的流动, 密封流体朝向排出孔14。
    • 4. 发明授权
    • Shaft seal apparatus
    • 轴密封装置
    • US09581247B2
    • 2017-02-28
    • US13983331
    • 2012-05-18
    • Yoshiaki TakigahiraYoji OshiiAtsushi KanekoTetsuya Sato
    • Yoshiaki TakigahiraYoji OshiiAtsushi KanekoTetsuya Sato
    • F16J15/34F16J15/40
    • F16J15/3404F16J15/3484F16J15/406
    • A pumping ring 46 producing an axial flow of sealed flow is secured to a rotary shaft 6 at an axial position different from a rotary ring 56 so that the sealed fluid positioned in the sealed space 33 flows along the axial direction of the rotary shaft 6. A discharge hole 14 is formed on an inner circumferential surface of a seal cover 8 positioned in the downstream side of the axial flow of the sealed fluid resulting from a rotation of the pumping ring 46. An inflow hole 15 is formed in the upstream side of the axial flow of the sealed fluid resulting from the rotation of the pumping ring 46, so that the sealed fluid discharged from the discharge hole 14 returns to the inside of the sealed space from the inflow hole 15. On the inner circumferential surface of the seal cover 8 provided with the discharge hole 14, a baffle member 18 is provided so that it protrudes radially inward in order to block the flow of the sealed fluid along the rotating direction of a retainer 52 and orient the sealed fluid toward the discharge hole 14.
    • 产生密封流动的轴向流动的泵送环46在不同于旋转环56的轴向位置处固定到旋转轴6,使得位于密封空间33中的密封流体沿着旋转轴6的轴向流动。 在位于密封流体的轴向流动的下游侧的密封盖8的内周面上形成有排出孔14,该密封流体由泵送环46的旋转而产生。在流入孔15的上游侧形成有流入孔15 密封流体由泵送环46的旋转引起的轴向流动,使得从排出孔14排出的密封流体从流入孔15返回到密封空间的内部。在密封件的内周面上 设置有排放孔14的盖8设置有挡板构件18,以便径向向内突出,以阻挡密封流体沿着保持器52的旋转方向的流动, 密封流体朝向排出孔14。
    • 7. 发明授权
    • Monitoring system, device, monitoring method, and monitoring program
    • 监控系统,设备,监控方法和监控程序
    • US08836466B2
    • 2014-09-16
    • US13193754
    • 2011-07-29
    • Yutaka ItouMakoto IkeyamaYasushi NakagawaYuji AokiAtsushi Kaneko
    • Yutaka ItouMakoto IkeyamaYasushi NakagawaYuji AokiAtsushi Kaneko
    • G05B23/02H04L27/00G06F15/16H04L12/24
    • H04L41/0686H04L41/069
    • In a monitoring system, a first device among devices includes a generating unit that generates third data indicating a string of an identical section when strings each indicated in first data and second data acquired through communications with the devices are identical to each other by a predetermined proportion or more, and a first transmitting unit that transmits the third data generated by the generating unit and information for identifying the third data to a second device included in the devices. The second device includes a second transmitting unit that transmits, when a string indicated in fourth data to be transmitted to the first device includes the string indicated in the third data, fifth data indicating a string obtained by excluding the string indicated in the third data from the string indicated in the fourth data, and the information for identifying the third data to the first device.
    • 在监视系统中,设备之间的第一设备包括:生成单元,其生成表示第一数据中指示的字符串的相同部分的串的第三数据,并且通过与所述设备的通信获取的第二数据以预定比例彼此相同 以及第一发送单元,其将由生成单元生成的第三数据和用于识别第三数据的信息发送到包括在设备中的第二设备。 第二装置包括:第二发送单元,当要发送到第一装置的第四数据中指示的串包括第三数据中指示的串时,发送第五数据,指示通过将第三数据中指示的串排除的字符串 第四数据中指示的字符串,以及用于识别第一数据的信息。
    • 10. 发明授权
    • Omnidirectional antenna for indoor and outdoor use
    • 全方位天线用于室内和室外使用
    • US08094084B2
    • 2012-01-10
    • US11994190
    • 2006-03-15
    • Atsushi KanekoShuji Hagiwara
    • Atsushi KanekoShuji Hagiwara
    • H01Q9/26H01Q1/42
    • H01Q9/285H01Q1/42
    • A plate-shaped radiating element of a shape having at least three planes is formed by bending a metal plate having a substantially rectangular shape. A first slit is provided from a lower edge of the plate-shaped radiating element up to a portion in the vicinity of an upper edge of the plate-shaped radiating element while passing through a center point of the plate-shaped radiating element, and forms plate-shaped dipole elements on both sides thereof. A second slit is provided parallel to the upper edge of the plate-shaped radiating element and forms a folded element on an upper side thereof. Feeding points are provided on both sides of the first slit at the lower edge of the plate-shaped radiating element.
    • 通过弯曲具有大致矩形形状的金属板,形成具有至少三个平面的形状的板状辐射元件。 第一狭缝从板状辐射元件的下边缘提供到板状辐射元件的上边缘附近的一部分,同时穿过板状辐射元件的中心点,并形成 两侧板状偶极子元件。 第二狭缝平行于板状辐射元件的上边缘设置,并在其上侧形成折叠元件。 在板状辐射元件的下边缘处的第一狭缝的两侧设置有进给点。