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    • 1. 发明申请
    • Flow detecting device and intake system having the same
    • 流量检测装置和进气系统具有相同的功能
    • US20070056363A1
    • 2007-03-15
    • US11521602
    • 2006-09-15
    • Takao BanNoboru KitaharaYasushi GokaYasushi KounoGunnar Nees
    • Takao BanNoboru KitaharaYasushi GokaYasushi KounoGunnar Nees
    • G01M19/00G01F1/68
    • G01F1/6842F02D41/187
    • A flow detecting device is provided to a fluid passage through which a main flow of fluid passes. A sensor body has a bypass passage through which a bypass flow passes from the main flow. The bypass passage has a bent portion, which is located midway through the bypass passage, and an outflow passage, which is located downstream of the bent portion. The flow direction of the bypass flow changes at the bent portion toward the outflow passage through the bypass passage. A heating element is arranged in the bypass passage. The heating element generates heat by being supplied with electricity for detecting a flow amount of fluid. The sensor body has a side surface defining an opening through which dynamic pressure caused by counterflow is released to an outside of the outflow passage when fluid causes counterflow in the fluid passage in a direction opposite to a flow direction of the main flow.
    • 流体检测装置设置在主流体通过的流体通道中。 传感器主体具有旁路通道,旁路通过该通道从主流流动。 旁通通道具有位于旁通通道中途的弯曲部分和位于弯曲部分下游的流出通道。 旁通流的流动方向在弯曲部分处朝着通过旁通通道的流出通道改变。 旁通通道中设有加热元件。 加热元件通过供给用于检测流体流量的电力而产生热量。 传感器主体具有限定开口的侧表面,当流体在与主流动方向相反的方向上导致流体流动逆流时,逆流引起的动压被释放到流出通道的外部。
    • 2. 发明授权
    • Intake system having a flow detecting device including a pressure receiving surface at the outflow passage of the bypass
    • 进气系统具有流量检测装置,该流量检测装置包括在旁路的流出通道处的压力接收表面
    • US07437925B2
    • 2008-10-21
    • US11521602
    • 2006-09-15
    • Takao BanNoboru KitaharaYasushi GokaYasushi KounoGunnar Nees
    • Takao BanNoboru KitaharaYasushi GokaYasushi KounoGunnar Nees
    • G01F1/68
    • G01F1/6842F02D41/187
    • A flow detecting device is provided to a fluid passage through which a main flow of fluid passes. A sensor body has a bypass passage through which a bypass flow passes from the main flow. The bypass passage has a bent portion, which is located midway through the bypass passage, and an outflow passage, which is located downstream of the bent portion. The flow direction of the bypass flow changes at the bent portion toward the outflow passage through the bypass passage. A heating element is arranged in the bypass passage. The heating element generates heat by being supplied with electricity for detecting a flow amount of fluid. The sensor body has a side surface defining an opening through which dynamic pressure caused by counterflow is released to an outside of the outflow passage when fluid causes counterflow in the fluid passage in a direction opposite to a flow direction of the main flow.
    • 流体检测装置设置在主流体通过的流体通道中。 传感器主体具有旁路通道,旁路通过该通道从主流流动。 旁通通道具有位于旁通通道中途的弯曲部分和位于弯曲部分下游的流出通道。 旁通流的流动方向在弯曲部分处朝着通过旁通通道的流出通道改变。 旁通通道中设有加热元件。 加热元件通过供给用于检测流体流量的电力而产生热量。 传感器主体具有限定开口的侧表面,当流体在与主流动方向相反的方向上导致流体流动逆流时,逆流引起的动压被释放到流出通道的外部。
    • 3. 发明授权
    • Flow detecting device having heating element
    • 具有加热元件的流量检测装置
    • US07383725B2
    • 2008-06-10
    • US11606055
    • 2006-11-30
    • Yasushi KounoTakao BanTeruaki Kaifu
    • Yasushi KounoTakao BanTeruaki Kaifu
    • G01F1/68
    • G01F1/684G01F1/6842
    • A flow detecting device is provided to a fluid passage through which a main flow of fluid passes. The flow detecting device includes a sensor body, a heating element, a lead portion, and a guard member. The sensor body has a bypass passage through which a bypass flow is distributed partially from the main flow. The heating element is provided in the bypass passage. The lead portion connects with the heating element via a connecting portion. The heating element generates heat by being supplied with electricity via the lead portion for detecting the bypass flow in accordance with heat radiated from the heating element. The guard member is provided to an upstream of the connecting portion with respect to the bypass flow for deflecting the bypass flow from the connecting portion.
    • 流体检测装置设置在主流体通过的流体通道中。 流量检测装置包括传感器本体,加热元件,引线部分和防护部件。 传感器主体具有旁通通道,旁通流从主流部分分配。 加热元件设置在旁路通路中。 引线部分经由连接部分与加热元件连接。 加热元件通过经由引线部分供电而产生热量,用于根据从加热元件辐射的热量检测旁路流。 防护构件相对于旁通流被设置在连接部分的上游,用于使旁路流从连接部分偏转。
    • 4. 发明申请
    • Flow detecting device having heating element
    • 具有加热元件的流量检测装置
    • US20070125168A1
    • 2007-06-07
    • US11606055
    • 2006-11-30
    • Yasushi KounoTakao BanTeruaki Kaifu
    • Yasushi KounoTakao BanTeruaki Kaifu
    • G01F1/68
    • G01F1/684G01F1/6842
    • A flow detecting device is provided to a fluid passage through which a main flow of fluid passes. The flow detecting device includes a sensor body, a heating element, a lead portion, and a guard member. The sensor body has a bypass passage through which a bypass flow is distributed partially from the main flow. The heating element is provided in the bypass passage. The lead portion connects with the heating element via a connecting portion. The heating element generates heat by being supplied with electricity via the lead portion for detecting the bypass flow in accordance with heat radiated from the heating element. The guard member is provided to an upstream of the connecting portion with respect to the bypass flow for deflecting the bypass flow from the connecting portion.
    • 流体检测装置设置在主流体通过的流体通道中。 流量检测装置包括传感器本体,加热元件,引线部分和防护部件。 传感器主体具有旁通通道,旁通流从主流部分分配。 加热元件设置在旁路通路中。 引线部分经由连接部分与加热元件连接。 加热元件通过经由引线部分供电而产生热量,用于根据从加热元件辐射的热量检测旁路流。 防护构件相对于旁通流被设置在连接部分的上游,用于使旁路流从连接部分偏转。
    • 8. 发明授权
    • Method of gel-coating seed and apparatus used therefor
    • 种子的凝胶涂覆方法及其使用的设备
    • US5080925A
    • 1992-01-14
    • US429597
    • 1989-10-31
    • Yasushi Kouno
    • Yasushi Kouno
    • A01C1/00A01C1/06B01J13/08B01J13/14
    • A01C1/06B01J13/08
    • A method of gel-coating a seed comprises opening and closing a gel flow channel in a nozzle main body containing a gel therewithin by a cutting plunger, forming a gel-coating layer by opening a valve, supplying a seed contained in a seed storing vessel through the inside of said cutting plunger to the gel-coating layer thereby gel-coating the seed, and then falling the gel-coated seed into a curing vessel by closing the valve. A gel-coating apparatus included a seed supply portion comprising a rotational drum having a small aperture for attracting a speed by vacuum created inside which is broken at a predetermined rotational position by an aperture closing member and a gel-coating portion having a cylindrical cutting plunger disposed at the inside of a nozzle main body for opening and closing a gel flow channel and means for the supplying the gel into the gel flow channel.
    • 种子的凝胶涂覆方法包括:通过切割柱塞打开和关闭在其中含有凝胶的喷嘴主体中的凝胶流动通道,通过打开阀门形成凝胶涂层,供应包含在种子储存容器中的种子 通过所述切割柱塞的内部到凝胶涂层,从而使种子凝胶化,然后通过关闭阀将凝胶涂覆的种子落入固化容器中。 一种凝胶涂覆装置包括种子供应部分,该种子供应部分包括具有小孔径的旋转鼓,用于通过产生的内部真空吸引速度,所述旋转鼓通过孔闭合部件在预定旋转位置处被破坏,以及凝胶涂覆部分具有圆柱形切割柱塞 设置在用于打开和关闭凝胶流动通道的喷嘴主体的内部,以及用于将凝胶供应到凝胶流动通道中的装置。
    • 9. 发明授权
    • Method of applying gel coating to plant seeds
    • 将植物种子施用凝胶涂层的方法
    • US4808430A
    • 1989-02-28
    • US154358
    • 1988-02-11
    • Yasushi Kouno
    • Yasushi Kouno
    • A01C1/06A01G5/06A01N1/00B05D3/12
    • A01C1/06
    • A new method of processing a plant seed wherein a coating treatment is applied to a plant seed with an aqueous alkali salt solution of an aqueous gel to form a coating layer thereon and said coating layer is reacted with an aqueous solution of a divalent or trivalent metal salt to render the coating layer insoluble to water. Particularly, the improvement is accomplished by encapsulating the plant seed in the above mentioned gel coating together with an air bubble. This encapsulation is performed by means of a nozzle having a telescopic structure, in which a plant seed and air is supplied through the inner passage while the gel is supplied the surrounding annular passage. The nozzle is used in a vertical orientation and the lower end performs a valve function to control the gel supply.
    • 一种处理植物种子的新方法,其中用含水凝胶的碱金属盐水溶液将植物种子施加到植物种子上以在其上形成涂层,并且使所述涂层与二价或三价金属的水溶液 盐使得涂层不溶于水。 特别地,通过将​​植物种子与气泡一起包封在上述凝胶涂层中来实现改进。 该封装通过具有伸缩结构的喷嘴进行,其中通过内部通道供应植物种子和空气,同时向周围环形通道供应凝胶。 喷嘴以垂直方向使用,下端执行阀功能以控制凝胶供应。
    • 10. 发明授权
    • Apparatus for measuring flow characteristics
    • 用于测量流量特性的装置
    • US07313954B2
    • 2008-01-01
    • US11441097
    • 2006-05-26
    • Yasushi KounoTeruaki KaifuJunzo Yamaguchi
    • Yasushi KounoTeruaki KaifuJunzo Yamaguchi
    • G01F1/68G01F5/00
    • G01F1/6842G01F5/00
    • A flow detection device for detecting a flow characteristic of a fluid within a pipe is disclosed. The flow detection device includes a first channel portion that defines a first channel with an upstream aperture. The fluid can flow into the first channel through the upstream aperture. The device also includes a flow sensor disposed in the first channel, and the flow sensor detects the flow characteristic of the fluid. Furthermore, the device includes a flow straightening member that is provided upstream of the first channel. The upstream aperture is hidden by the flow straightening member as viewed looking downstream along an axis of the first channel portion. Also, the fluid flows from substantially the entire circumference of the flow straightening member into the first channel.
    • 公开了一种用于检测管内的流体的流动特性的流量检测装置。 流量检测装置包括限定具有上游孔径的第一通道的第一通道部分。 流体可以通过上游孔流入第一通道。 该装置还包括设置在第一通道中的流量传感器,并且流量传感器检测流体的流动特性。 此外,该装置包括设置在第一通道的上游的流动矫直构件。 当沿着第一通道部分的轴线向下游观察时,上游孔被流动矫正构件隐藏。 此外,流体从流动矫直构件的大致整个圆周流入第一通道。