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    • 2. 发明申请
    • VISCOELASTICITY MEASURING APPARATUS
    • 粘度测量装置
    • US20120216624A1
    • 2012-08-30
    • US13402030
    • 2012-02-22
    • Nobuaki OkuboKengo KobayashiToshihiko NakamuraHirohito Fujiwara
    • Nobuaki OkuboKengo KobayashiToshihiko NakamuraHirohito Fujiwara
    • G01N3/04
    • G01N3/04G01N3/32G01N2203/0055G01N2203/0094
    • Provided is a viscoelasticity measuring apparatus in which an undesirable sample shape change such as a buckle caused as a result of thermal expansion of a sample is eliminated so as to prevent a deformation in a displacement detector direction due to the thermal expansion and a bending of the sample between a sample grasping member and a chuck, to thereby improve accuracy of measurement. In the viscoelasticity measuring apparatus, a thin part is provided in a part of an elastic arm for holding the sample so as to be easily deformed by a thermal expansion force of the sample. Thus, an undesirable shape change such as the buckle generated when the sample is expanded thermally is effectively eliminated, and necessary stiffness is maintained with respect to a load of the sample and hence accuracy of measurement is improved.
    • 提供了一种粘弹性测量装置,其中消除了由于样品的热膨胀而导致的诸如带扣之类的不期望的样品形状变化,从而防止由于热膨胀和弯曲引起的位移检测器方向上的变形 样品夹持构件和卡盘之间的样品,从而提高测量精度。 在粘弹性测量装置中,在弹性臂的一部分中设置有薄的部分,用于保持样品,以便由于样品的热膨胀力容易地变形。 因此,有效地消除了诸如当样品膨胀时产生的带扣的不期望的形状变化,并且相对于样品的负载维持必要的刚度,因此提高了测量精度。
    • 4. 发明申请
    • WAVE SUPPRESSION STRUCTURE FOR FUEL TANK
    • 燃油舱波浪抑制结构
    • US20110315699A1
    • 2011-12-29
    • US13254214
    • 2010-03-03
    • Takeaki NakajimaDaisuke NoharaKiyofumi ShidaShinya MurabayashiHiroaki WatanabeKengo KobayashiSeiji Yagura
    • Takeaki NakajimaDaisuke NoharaKiyofumi ShidaShinya MurabayashiHiroaki WatanabeKengo KobayashiSeiji Yagura
    • B60K15/077
    • B60K15/077B60K2015/03118B60K2015/0775F02M37/0094Y10T137/86212
    • A wave suppression structure for a fuel tank is provided in which a wave suppression member (37) disposed in the interior of a tank main body of the fuel tank is formed from a basket-shaped container (38) and cylindrical porous members (39), the basket-shaped container (38) being formed from two members, first and second half bodies (38L, 38R), two of the porous members (39) being supported in the interior of each of the first and second half bodies (38L, 38R), wherein the wave supporting member (37) is supported on a fuel suction pipe (36) by joining the first and second half bodies (38L, 38R) of the basket-shaped container (38) so as to sandwich a fuel suction pipe (36) between a through hole (38f) thereof. This enables attachment of the wave suppression member (37) to the fuel suction pipe (36) to be completed without carrying out a cumbersome operation of inserting the fuel suction pipe (36) through the through hole (38f) of the basket-shaped container (38) or the interior of the porous member (39), thereby greatly improving the ease of attachment.
    • 提供一种用于燃料箱的波浪抑制结构,其中设置在燃料箱的罐主体内部的波浪抑制构件(37)由篮形容器(38)和圆柱形多孔构件(39)形成, ,所述筐状容器(38)由两个构件形成,所述两个构件具有第一和第二半体(38L,38R),所述多孔构件(39)中的两个支撑在所述第一和第二半体(38L)的每一个的内部 ,38R),其中所述波浪支撑构件(37)通过将所述筐形容器(38)的第一和第二半体(38L,38R)接合以将燃料夹持在燃料吸入管(36)上而被支撑 吸入管(36)在其通孔(38f)之间。 这样就可以将波浪抑制部件37与燃料吸入管36连接起来,而不必进行将燃料吸入管36穿过筐状容器的通孔38f进行繁琐的动作, (38)或多孔构件(39)的内部,从而大大提高了安装的容易性。
    • 5. 发明申请
    • PRESSURE SENSOR FOR EXTRACORPOREAL CIRCULATING CIRCUIT
    • 压力传感器用于超声波循环电路
    • US20090071258A1
    • 2009-03-19
    • US12282072
    • 2007-04-18
    • Masaaki KoudaKengo Kobayashi
    • Masaaki KoudaKengo Kobayashi
    • G01L9/00
    • A61M1/3639A61M1/3641
    • A pressure sensor for an extracorporeal circulating circuit includes a liquid chamber, a pressure measuring means, and a liquid flow path. The liquid chamber includes a reference surface not deformed by a pressure in the extracorporeal circulating circuit, a deforming surface disposed separated from the reference surface and deformed at least partially by a pressure in the extracorporeal circulating circuit, a first connection surface that joins the deforming surface with the reference surface to form a closed liquid-tight space inside them and is not deformed by a pressure in the extracorporeal circulating circuit, a liquid inflowing port provided in the side surface of the first connection surface, and a liquid outflowing port disposed away by ½ to less than one round from the inflowing port in the flowing direction of liquid introduced along the inner periphery of the side surface of the first connection surface. The pressure measuring means measures the deformation amount of the deforming surface, and is disposed outside the liquid chamber; and the liquid flow path is liquid-tightly connected with the liquid inflowing port so that liquid to be introduced into the liquid chamber flows in along the inner periphery of the side surface of the first connection surface.
    • 用于体外循环回路的压力传感器包括液体室,压力测量装置和液体流路。 所述液体室包括未被所述体外循环回路中的压力变形的参考表面,与所述基准表面分离并且至少部分地通过所述体外循环回路中的压力而变形的变形表面,连接所述变形表面的第一连接表面 具有基准面,在其内部形成密闭的不透液的空间,并且不会因体外循环回路中的压力而变形,设置在第一连接面的侧面的液体流入口和设置在第一连接面的侧面的液体流出口 从沿着沿着第一连接表面的侧表面的内周缘引入的液体的流动方向的流入口中的一半到小于一个圆。 压力测量装置测量变形表面的变形量,并设置在液体室的外部; 并且液体流路与液体流入口液密地连接,使得被引入液体室的液体沿着第一连接表面的侧表面的内周流入。
    • 7. 发明授权
    • Numerical control system for controlling both a machine tool and a robot
    • 用于控制机床和机器人的数控系统
    • US4348623A
    • 1982-09-07
    • US165989
    • 1980-07-07
    • Kengo KobayashiHajimu InabaShinsuke Sakakibara
    • Kengo KobayashiHajimu InabaShinsuke Sakakibara
    • G05B19/418G05B19/42
    • G05B19/41825G05B2219/45213Y02P90/04Y02P90/087Y02P90/265
    • A numerical control system comprising a numerical control device, a machine tool for machining a workpiece under the control of the numerical control device, and a robot for executing various tasks such as mounting the workpiece on the machine tool or demounting the workpiece therefrom. The numerical control device, in addition to the hardware which it possesses for controlling the machine tool, is further provided with a teaching control panel, a heavy current circuit which handles the exchange of data between the numerical control device and the robot, and a switching control circuit for switching over the output side of a pulse distributing circuit so that the pulse distributing circuit can be used in controlling both the robot and the machine tool. Machining data for control of the machine tool and data for commanding the robot are stored in a memory device incorporated in the numerical control device, or in a storage medium which is located externally of the system. The stored data can be read out in succession to designate the machine tool, which will then perform a machining operation, or to designate the robot which will respond by executing a prescribed task or tasks.
    • 一种数控系统,包括数控装置,用于在数控装置的控制下加工工件的机床,以及用于执行各种任务的机器人,例如将工件安装在机床上或从其上拆卸工件。 数控装置除了具有用于控制机床的硬件之外,还具有教学控制面板,处理数控装置和机器人之间的数据交换的大电流电路以及切换 用于切换脉冲分配电路的输出侧的控制电路,使得脉冲分配电路可用于控制机器人和机床。 用于控制机床的加工数据和用于命令机器人的数据被存储在并入数字控制装置中的存储装置中,或存储在位于系统外部的存储介质中。 存储的数据可以连续读出,以指定机床,然后执行加工操作,或指定将通过执行规定的任务或任务来响应的机器人。