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    • 7. 发明授权
    • Variable flow control valves
    • 可变流量控制阀
    • US06908072B2
    • 2005-06-21
    • US10631770
    • 2003-08-01
    • Satoshi Hattori
    • Satoshi Hattori
    • F02D9/10F16K1/226F16K1/22
    • F16K1/2261
    • A variable flow control valve (1) includes a valve member (4) and a valve body (2). A seal member (5) is mounted on the peripheral portion of the valve member and has end portions (5a) in a circumferential direction of the valve member. The valve body may define a flow channel (2) and the valve member is rotatably disposed within the flow channel. A seat surface (2b) is disposed on an inner wall of the flow channel and has end portions in a circumferential direction of the inner wall. The seal member of the valve member opposes to the seat surface when the valve member is in a close position. Projections (2c) are disposed adjacent to the end portions of the seat surface and serves to engage the respective end portions of the seal member when the valve member is in the close position.
    • 可变流量控制阀(1)包括阀构件(4)和阀体(2)。 密封构件(5)安装在阀构件的周边部分上,并且在阀构件的圆周方向上具有端部(5a)。 阀体可以限定流动通道(2),并且阀构件可旋转地设置在流动通道内。 座面(2b)设置在流动通道的内壁上并且在内壁的圆周方向上具有端部。 当阀构件处于关闭位置时,阀构件的密封构件与座面相对。 突出部(2c)设置在座部表面的端部附近,并且当阀部件处于关闭位置时,突起(2c)用于与密封部件的各个端部接合。
    • 8. 发明授权
    • Traveling sheet thickness changing method for cold tandem roller
    • 冷串联辊移动板厚度变化方法
    • US06216504B1
    • 2001-04-17
    • US09462811
    • 2000-01-14
    • Hiroshi KurakakeHisashi TsuchidaYutaka SaitoSatoshi Hattori
    • Hiroshi KurakakeHisashi TsuchidaYutaka SaitoSatoshi Hattori
    • B21B3772
    • B21B37/26
    • Set values of a gauge-alteration-in-rolling amount after the next (i+1)-th stand and subsequent stands are modified, using the rolling results obtained when a leading end of a succeeding material passes through the i-th stand and the gauge results of the leading end portion of the succeeding material detected by the i-th stand outlet side gauge detector. The gauge results of the leading end of the succeeding material on the i-th stand outlet side is tracked up to the (i+1)-th stand, to thereby control the rolling speed of the i-th stand so as to make constant a mass-flow from the leading end of the succeeding material on the (i+1)-th stand inlet side. Thereby, the reverse off gauge caused at the succeeding stand, by turning on the AGC of the preceding stand, can be prevented and the gauge can be controlled to a desired value from the coil leading end portion.
    • 使用在后续材料的前端通过第i个支架时获得的滚动结果,在下一个(i + 1)支架和后续支架之后,设定换算量的值, 由第i台出口侧量规检测器检测到的后续材料的前端部分的规格结果。 跟踪第i台出口侧的后续材料的前端的测量结果直到第(i + 1)台,从而控制第i台的轧制速度,使其恒定 从第(i + 1)台入口侧的后续材料的前端的质量流。 因此,可以防止在后续的支架上引起的反向偏移量通过接通前一个支架的AGC,并且可以将线圈从线圈前端部分控制到期望的值。
    • 10. 发明申请
    • Trochoid Pump
    • 齿轮泵
    • US20090185939A1
    • 2009-07-23
    • US12300002
    • 2007-04-27
    • Yuji ShibaAkio IkedaSatoshi Hattori
    • Yuji ShibaAkio IkedaSatoshi Hattori
    • F04C2/10
    • F04C2/102F04C15/0042F04C15/0061F04C15/0076Y10T403/7035Y10T403/7098
    • A trochoid pump 10, comprising a driving shaft 13, wherein a drive gear 17 comprising of a bevel gear is fixed on one end thereof and a inner rotor 11 is penetrated onto the other end thereof, an outer rotor 12, the center of which is decentered to the inner rotor 11, wherein both rotors 11,12 are covered with the cap 15 and the casing 16, a first regulatory structure, wherein the driving shaft 13 or a means of control fixed on the driving shaft 13 regulates an one-way movement to the casing 16, a second regulatory structure, wherein an end face 13a on the other side of the driving shaft is 13 engaged with one end 15a of the cap 15 and regulates the other way movement of the cap, wherein the thrust of the driving shaft 13 is axially regulated by the first regulatory structure and by the second regulatory structure.
    • 一种次摆线泵10,包括驱动轴13,其中包括伞齿轮的驱动齿轮17固定在其一端上,内转子11穿过其另一端;外转子12,其中心为 内转子11偏心,其中两个转子11,12被盖15和壳体16覆盖,第一调节结构,其中驱动轴13或固定在驱动轴13上的控制装置调节单向 移动到壳体16,第二调节结构,其中驱动轴的另一侧上的端面13a与盖15的一个端部15a接合并且调节盖子的另一方向运动,其中, 驱动轴13由第一调节结构和第二调节结构轴向调节。