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    • 1. 发明申请
    • PARTICULATE SIFTER
    • 颗粒形变
    • US20090020460A1
    • 2009-01-22
    • US10598131
    • 2005-04-22
    • Fumio KatoTeruo InoueYoshio SakakibaraSinsaku Kamimura
    • Fumio KatoTeruo InoueYoshio SakakibaraSinsaku Kamimura
    • B07B1/22B07B1/24
    • B07B1/50B07B1/24
    • The purpose of the invention is to prevent accumulation of particulates on the outside of a net body of a particulate sifter having a cylindrical net body and to extend the lifetime of the net body. To achieve the purpose, in a particulate sifter which is provided with a sieve 21 having a cylindrical net body 26 extending in a horizontal direction and a booster having rotating blades which rotate along the inner surface of the net body 26 and which separates particulates that pass through the net body 26 from particulates and/or foreign substances that do not pass through the net body 26 while agitating the particulates that have flowed inside the sieve 21 with the booster, the sieve 21 is located rotatably around the central axis of the cylindrical net body 26. The sieve 21 may be rotated forcibly by an electric motor as a driving source or may be rotated by kinetic energy of particulate-air mixture agitated by rotating blades without a driving source.
    • 本发明的目的是防止颗粒物在具有圆柱形网体的颗粒筛网的网体的外侧积聚并延长网体的寿命。 为了达到这个目的,在设置有具有沿水平方向延伸的圆筒形网体26的筛子21的颗粒筛分器和具有沿网状体26的内表面旋转并且分离通过的微粒的旋转叶片的助力器 通过网体26从不通过网体26的颗粒和/或异物同时用助推器搅拌在筛网21内流动的微粒,筛21可绕圆柱形网的中心轴线旋转 筛21可以通过作为驱动源的电动机强制旋转,或者可以通过没有驱动源的旋转叶片搅动的颗粒状空气混合物的动能来旋转。
    • 2. 发明授权
    • Particulate sifter
    • 颗粒筛选机
    • US07699178B2
    • 2010-04-20
    • US10598131
    • 2005-04-22
    • Fumio KatoTeruo InoueYoshio SakakibaraSinsaku Kamimura
    • Fumio KatoTeruo InoueYoshio SakakibaraSinsaku Kamimura
    • B07B1/22B07B1/24
    • B07B1/50B07B1/24
    • The purpose of the invention is to prevent accumulation of particulates on the outside of a net body of a particulate sifter having a cylindrical net body and to extend the lifetime of the net body. To achieve the purpose, in a particulate sifter which is provided with a sieve 21 having a cylindrical net body 26 extending in a horizontal direction and a booster having rotating blades which rotate along the inner surface of the net body 26 and which separates particulates that pass through the net body 26 from particulates and/or foreign substances that do not pass through the net body 26 while agitating the particulates that have flowed inside the sieve 21 with the booster, the sieve 21 is located rotatably around the central axis of the cylindrical net body 26. The sieve 21 may be rotated forcibly by an electric motor as a driving source or may be rotated by kinetic energy of particulate-air mixture agitated by rotating blades without a driving source.
    • 本发明的目的是防止颗粒物在具有圆柱形网体的颗粒筛网的网体的外侧积聚并延长网体的寿命。 为了达到这个目的,在设置有具有沿水平方向延伸的圆筒形网体26的筛子21的颗粒筛分器和具有沿网状体26的内表面旋转并且分离通过的微粒的旋转叶片的助力器 通过网体26从不通过网体26的颗粒和/或异物同时用助推器搅拌在筛网21内流动的微粒,筛21可绕圆柱形网的中心轴线旋转 筛21可以通过作为驱动源的电动机强制旋转,或者可以通过没有驱动源的旋转叶片搅动的颗粒状空气混合物的动能来旋转。
    • 3. 发明申请
    • Inline sifter
    • 内联筛选器
    • US20060237347A1
    • 2006-10-26
    • US11454938
    • 2006-06-19
    • Fumio KatoTeruo Inoue
    • Fumio KatoTeruo Inoue
    • B07B1/20
    • B07B1/20B07B7/06
    • An inline sifter including a gas-powder mixture receiving module which receives a mixture of a gas and powdery material from an inlet, a sieving module which communicates with a supply chamber of the gas-powder mixture receiving module, a rotating mechanism which is laterally extended inside the supply chamber and the sieving chamber, a cylindrical sieve arranged such that the rotating shaft extended in said sieving chamber passes through a center thereof, a wind power amplifier located in an internal area of the sieve to amplify wind power and press the powdery material out from the sieve, a removal member used to remove a remaining material from the sieve, an outlet used to discharge material which has passed through the sieve, and a support member. The gas-powder mixture, being supplied in a circumferential direction of the supply chamber, flows around the rotating shaft and is fed into the sieving chamber.
    • 一个一体式筛子,包括一个从入口接收气体和粉末材料的混合物的气体 - 粉末混合物接收模块,与气体 - 粉末混合物接收模块的供应室连通的筛分模块,横向延伸的旋转机构 在所述供给室和所述筛分室内部设置圆筒状的筛子,所述圆筒状筛子使得在所述筛分室中延伸的所述旋转轴穿过其中心,位于所述筛子的内部区域的风力放大器,以放大风力并挤压所述粉末材料 从筛子出来,用于从筛子中除去剩余的材料的去除构件,用于排出已经通过筛子的材料的出口和支撑构件。 沿着供给室的圆周方向供给的气体 - 粉末混合物在旋转轴的周围流动并供给到筛分室。
    • 4. 发明授权
    • Inline sifter
    • 内联筛选器
    • US07093718B2
    • 2006-08-22
    • US10416233
    • 2001-11-08
    • Fumio KatoTeruo Inoue
    • Fumio KatoTeruo Inoue
    • B07B1/20B01D29/00
    • B07B1/20B07B7/06
    • A booster 8 extending in an internal area 53 of a sieve 7 is attached to the outer circumferential face of a rotating shaft 6. The booster 8 has four blades 82, which are radially extended from the outer circumferential face of the rotating shaft 6 and are arranged at preset angles (for example, 90 degrees) to form a pi shape from the front view. The booster 8 has multiple (for example, two) cross-shaped radial members 81 that are arranged radially at a little angle (for example, 3 degrees) and are located on both ends of the rotating shaft 6 via a preset space, the blades 82 that are set in and fixed to the respective ends of each of the radial members 81 and are inclined at a preset angle to the axial direction of the rotating shaft 6, and sheet-like scrapers 83 that are attached to the blades 82 to be a little projected outward in the radial direction. The end of each scraper 83 faces the inner circumferential face of the sieve 7 across a little gap. Each of the radial members 81 has a round opening 81a on the center thereof to receive and fix the rotating shaft 6 passing therethrough.
    • 在筛子7的内部区域53中延伸的助力器8安装在旋转轴6的外周面上。 增压器8具有四个叶片82,它们从旋转轴6的外周面径向延伸并且以预设角度(例如,90度)布置以从前视图形成pi形状。 增压器8具有多个(例如两个)十字形的径向构件81,其径向布置成小角度(例如3度),并且经由预设空间位于旋转轴6的两端,叶片 82设置并固定在每个径向构件81的各个端部并且相对于旋转轴6的轴向倾斜预定角度,并且附接到叶片82的片状刮板83为 在径向向外突出一点点。 每个刮板83的端部跨越一小段间隙面对筛子7的内周面。 每个径向构件81在其中心具有圆形开口81a,以容纳并固定通过其中的旋转轴6。
    • 5. 发明授权
    • Inline sifter
    • 内联筛选器
    • US07413086B2
    • 2008-08-19
    • US11454938
    • 2006-06-19
    • Fumio KatoTeruo Inoue
    • Fumio KatoTeruo Inoue
    • B07B1/20B01D29/00
    • B07B1/20B07B7/06
    • An inline sifter including a gas-powder mixture receiving module which receives a mixture of a gas and powdery material from an inlet, a sieving module which communicates with a supply chamber of the gas-powder mixture receiving module, a rotating mechanism which is laterally extended inside the supply chamber and the sieving chamber, a cylindrical sieve arranged such that the rotating shaft extended in said sieving chamber passes through a center thereof, a wind power amplifier located in an internal area of the sieve to amplify wind power and press the powdery material out from the sieve, a removal member used to remove a remaining material from the sieve, an outlet used to discharge material which has passed through the sieve, and a support member. The gas-powder mixture, being supplied in a circumferential direction of the supply chamber, flows around the rotating shaft and is fed into the sieving chamber.
    • 一个一体式筛子,包括一个从入口接收气体和粉末材料的混合物的气体 - 粉末混合物接收模块,与气体 - 粉末混合物接收模块的供应室连通的筛分模块,横向延伸的旋转机构 在所述供给室和所述筛分室内部设置圆筒状的筛子,所述圆筒状筛子使得在所述筛分室中延伸的所述旋转轴穿过其中心,位于所述筛子的内部区域的风力放大器,以放大风力并挤压所述粉末材料 从筛子出来,用于从筛子中除去剩余的材料的去除构件,用于排出已经通过筛子的材料的出口和支撑构件。 沿着供给室的圆周方向供给的气体 - 粉末混合物在旋转轴的周围流动并供给到筛分室。
    • 6. 发明授权
    • Platelet-derived microparticles as a novel diagnosis maker for a cardiovascular disease
    • 血小板衍生的微粒作为心血管疾病的新型诊断制剂
    • US08900815B2
    • 2014-12-02
    • US11883447
    • 2005-02-21
    • Koichi NodeTeruo Inoue
    • Koichi NodeTeruo Inoue
    • G01N33/53C12Q1/00G01N33/86
    • G01N33/86
    • The present invention is directed to a method for evaluating whether coronary artery disease has progressed in a patient previously diagnosed as having the disease, wherein the method includes: (a) obtaining a biological sample from the patient at a first time point and a second time point; (b) detecting the level of platelet-derived microparticles (PDMPs) or a fragment thereof, in the first time point sample and the second time point sample with an antibody to PDMPs or a fragment thereof; wherein an increase in a level of the PDMPs in the second time point sample in comparison to a level in the first time point sample is indicative of progression of coronary artery disease.
    • 本发明涉及一种用于评估先前诊断为患有该疾病的患者是否进行冠状动脉疾病的方法,其中所述方法包括:(a)在第一时间点和第二时间从患者获得生物样品 点; (b)在第一时间点样品和第二时间点样品中用PDMP抗体或其片段检测血小板衍生的微粒(PDMP)或其片段的水平; 其中与第一时间点样品中的水平相比,第二时间点样品中的PDMP水平的增加指示冠状动脉疾病的进展。
    • 8. 发明授权
    • Wheel speed measuring circuit
    • 车轮速度测量电路
    • US4420814A
    • 1983-12-13
    • US275974
    • 1981-06-22
    • Tetsuro ArikawaTeruo InoueYukihiro Takiue
    • Tetsuro ArikawaTeruo InoueYukihiro Takiue
    • G01P3/489G01P3/56
    • G01P3/489
    • A wheel speed measuring circuit includes a counter controlled by a wheel speed signal having a frequency proportional to the rotational speed of the wheel sensed by a wheel speed sensor associated with a wheel; a comparator for comparing the digital output of the counter with a predetermined digital value; a wheel speed generating circuit for generating a digital output corresponding to the rotational speed of the wheel on the basis of the output of the comparator; and a pulse generator for generating pulses of a frequency proportional to the digital output of the wheel speed generating circuit, the pulse generator receiving the digital output of the wheel speed generating circuit, wherein the counter receives the output pulses of the pulse generator to count the output pulses thereof for the period of the wheel speed signal or for a time interval relating to the period of the wheel speed signal, and the digital output of the counter is compared with the predetermined digital value in the comparator.
    • 车轮速度测量电路包括由车轮速度信号控制的计数器,该车轮速度信号的频率与由与车轮相关联的车轮速度传感器感测到的车轮的转速成比例; 比较器,用于将计数器的数字输出与预定数字值进行比较; 车轮速度产生电路,用于根据比较器的输出产生对应于车轮旋转速度的数字输出; 以及脉冲发生器,用于产生与车轮速度产生电路的数字输出成比例的频率的脉冲,脉冲发生器接收车轮速度产生电路的数字输出,其中计数器接收脉冲发生器的输出脉冲以对 在车轮速度信号的周期或与车轮速度信号的周期相关的时间间隔的输出脉冲,并将计数器的数字输出与比较器中的预定数字值进行比较。
    • 10. 发明授权
    • Radial tire
    • 径向轮胎
    • US4310043A
    • 1982-01-12
    • US106462
    • 1979-12-26
    • Teruo Inoue
    • Teruo Inoue
    • B60C9/00B60C9/08B60C9/18B60C9/20B60C9/28
    • B60C9/20B60C9/08Y10T152/10792
    • A radial tire for trucks and buses which includes a belt layer whose steel cords are disposed at an angle of 15.degree. to 25.degree. relative to the circumferential direction of the tire and a carcass layer whose cord material is selected from materials having a K value equal to 10 to 15 as calculated by the equation K=E/T, where E is the tensile modulus of the cord material in kg/mm.sup.2 and T is the breaking strength per unit area of the cord material in kg/mm.sup.2. In accordance with various disclosed embodiments, the belt layer may be a three ply structure with the outer two plies substantially parallel with one another to provide a higher resistance to shock bursts; separation in such a belt layer may be further restrained by making the sum of the cord end counts per unit width of the second and third plies 1.50 to 1.80 times as large as the cord end count per unit width of the first ply, and/or by reducing the diameters of the cords in the second and/or third plies relative to the diameter of the first ply cords.
    • 一种用于卡车和公共汽车的子午线轮胎,其包括其帘线相对于轮胎的圆周方向以15°至25°的角度设置的带束层和胎体层,帘线材料选自K值相等的材料 至10〜15,其中E为帘线材料的拉伸弹性模量,单位为kg / mm2,T为帘线材料单位面积的断裂强度,单位为kg / mm2。 根据各种公开的实施例,带束层可以是三层结构,其中外部两层基本上彼此平行,以提供更高的冲击爆击阻力; 可以通过使第二层和第三层的每单位宽度的帘线端数计算的总和与第一层单位宽度的帘线端数相比为1.50至1.80倍,和/或 通过减小第二和/或第三层中的帘线相对于第一帘布层帘线的直径的直径。