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    • 4. 发明授权
    • Seal bead structure of gasket
    • 垫圈密封圈结构
    • US09581244B2
    • 2017-02-28
    • US13985461
    • 2012-01-19
    • Takanori AnzaiMasaru ItoShinya NakaokaIsao Tanji
    • Takanori AnzaiMasaru ItoShinya NakaokaIsao Tanji
    • F02F11/00F16J15/02F16J15/08
    • F16J15/02F16J15/0818
    • Provided is a seal bead structure of a gasket capable of reducing the reactive force generated in a common bead portion provided between multiple through-holes and thereby capable of achieving a stable sealing function by means of aligning the compression property over the entire bead. In order to achieve this, two through-holes are provided in a row in the flat portion of a metal gasket, with one seal bead provided on the edge of one through-hole, the other seal bead provided on the edge of the other through-hole, and a common bead portion for the both seal beads provided in the intermediate position between the both through-holes, the common bead portion having a two-stage half bead shape in which the half beads are formed on two stage in the same direction.
    • 提供了一种垫圈的密封珠结构,其能够降低在多个通孔之间设置的公共胎圈部分中产生的反作用力,从而能够通过对齐整个胎圈上的压缩特性来实现稳定的密封功能。 为了实现这一点,在金属衬垫的平坦部分中设置有两个通孔,一个密封珠设置在一个通孔的边缘上,另一个密封珠设置在另一个通孔的边缘上 以及设置在两个通孔之间的中间位置的两个密封珠的公共珠部,公共珠部具有两级半珠形,其中半珠形成在两个通孔的两个台上 方向。
    • 6. 发明申请
    • METAL GASKET AND METHOD FOR MANUFACTURING DIE FOR METAL GASKET
    • 金属垫片及其制造方法
    • US20120153579A1
    • 2012-06-21
    • US13390678
    • 2010-08-24
    • Shinya NakaokaIsao TanjiMasaru Ito
    • Shinya NakaokaIsao TanjiMasaru Ito
    • F16J15/02B21K5/20
    • F16J15/0818
    • [Problem] To provide a metal gasket capable of realizing a uniform surface pressure by a bead of the metal gasket and a uniform collapse ratio of the bead, while restricting deformation of flanges upon bolt fastening.[Mechanism for Solving the Problem] A metal gasket to be provided for sealing joint surfaces between two members. The metal gasket includes: a flow passage opening (4) which corresponds to a flow passage definitely provided between and through the two members; multiple bolt holes (3), through which bolts for tightening the two members to each other are penetrated, respectively; and a bead (5). The bead (5) is configured with a height and a width which become higher and wider from the vicinity of each bolt hole (3) in a direction separating therefrom, respectively.
    • [问题]提供一种能够通过金属垫圈的珠缘实现均匀的表面压力并且具有均匀的胎圈折叠率的金属垫圈,同时限制在螺栓紧固时法兰的变形。 [解决问题的机构]设置用于密封两个构件之间的接合表面的金属衬垫。 所述金属垫圈包括:流路通道(4),其对应于通过所述两个构件之间并通过所述两个构件的流动通道; 多个螺栓孔(3)分别穿过其中两个构件相互紧固的螺栓; 和珠(5)。 胎圈(5)的高度和宽度分别从每个螺栓孔(3)附近变得更高和更宽。
    • 8. 发明授权
    • Liquid crystal display device
    • 液晶显示装置
    • US06734928B2
    • 2004-05-11
    • US10321596
    • 2002-12-18
    • Masaru ItoShinya Hashimoto
    • Masaru ItoShinya Hashimoto
    • G02F113
    • G02F1/133308G02F2201/46G02F2201/503
    • The present invention provides a liquid crystal display device which can enlarge an effective display region without lowering a light quantity and can reduce a thickness and a weight thereof. A thin-film spacers having resiliency is arranged in the inside of a metal frame for holding a liquid crystal display panel. The spacer includes protrusions and a liquid crystal display panel is fixed by utilizing the resiliency of the protrusions. Further, by using resin material having high reflectance as a material of the spacer, it is possible to suppress the leaking of light from a light guide plate so that the lowering of luminance of the liquid crystal display device can be obviated.
    • 本发明提供一种液晶显示装置,其可以在不降低光量的情况下放大有效显示区域并且可以减小其厚度和重量。 具有弹性的薄膜间隔件布置在用于保持液晶显示面板的金属框架的内部。 间隔件包括突起,并且通过利用突起的弹性来固定液晶显示面板。 此外,通过使用具有高反射率的树脂材料作为间隔物的材料,可以抑制来自导光板的光的泄漏,从而可以消除液晶显示装置的亮度降低。
    • 9. 发明授权
    • Electric-control-type throttle apparatus
    • 电控式节流装置
    • US6098594A
    • 2000-08-08
    • US176877
    • 1998-10-21
    • Takehiko KowatariYuzo KadomukaiShigeru TokumotoYasuo SaitoToshifumi UsuiMasaru Ito
    • Takehiko KowatariYuzo KadomukaiShigeru TokumotoYasuo SaitoToshifumi UsuiMasaru Ito
    • F02D11/10F02D41/30F02D9/10
    • F02D11/10F02D41/3029F02D41/3064
    • An electrically-controlled throttle valve apparatus includes a motor, a speed reducing mechanism for reducing the rotation speed that is transmitted from the motor, a throttle valve connected to the speed reducing mechanism, and a force applying arrangement for applying force to the throttle valve in the direction of returning the valve to its initial position and for adjusting the opening of the throttle valve by driving the motor. Specification parameters of the motor, the speed reducing mechanism, and the force applying arrangement have values such that the operation time t from the minimum opening to the maximum opening of the throttle valve, which is determined by an evaluation equation obtained from equations of motion of the throttle valve, is less than a prescribed target operation time t* of the throttle valve. Furthermore, the resistance and the induction voltage constant of the motor are determined so as to satisfy a constraint equation obtained based on Ohm's law.
    • 一种电控节气门装置,包括电动机,用于减小从电动机传递的转速的减速机构,连接到减速机构的节流阀,以及用于向节气门施加力的施力装置 将阀返回到其初始位置并通过驱动马达来调节节流阀的开度的方向。 电动机的规格参数,减速机构和施力装置具有使从节流阀的最小开度到最大开度的运转时间t由从运动方程式得到的评价式确定的值 节流阀小于节气门的规定目标操作时间t *。 此外,电动机的电阻和感应电压常数被确定为满足基于欧姆定律获得的约束方程。
    • 10. 发明授权
    • Method for the preparation of rare earth based anisotropic permanent
magnet
    • 稀土类各向异性永磁体的制备方法
    • US5976271A
    • 1999-11-02
    • US55822
    • 1998-04-06
    • Tadao NomuraMasaru ItoKen Ohashi
    • Tadao NomuraMasaru ItoKen Ohashi
    • H01F1/057C21D1/04
    • B82Y25/00H01F1/0571H01F1/0579Y10S977/838
    • Provided by the invention is a method for the preparation of a magnetically anisotropic permanent magnet mainly consisting of crystallites of the Nd.sub.2 Fe.sub.14 B phase. The method comprises the steps of:(a) preparing an amorphous alloy of neodymium, iron and boron in molar fractions corresponding to the Nd.sub.2 Fe.sub.14 B phase or a nanocomposite of the Nd.sub.2 Fe.sub.14 B/Fe.sub.3 B or Nd.sub.2 Fe.sub.14 B/Fe system, for example, by the melt-spun method; and (b) subjecting the amorphous alloy of neodymium, iron and boron to a heat treatment in a magnetic field of at least 3 T (tesla) at a temperature in the range from 550 to 800.degree. C. for a length of time in the range from 1.times.10.sup.2 to 1.times.10.sup.4 seconds in an atmosphere of a non-reactive gas or vacuum.
    • 本发明提供了一种主要由Nd2Fe14B相微晶组成的磁各向异性永磁体的制备方法。 该方法包括以下步骤:(a)制备与Nd 2 Fe 14 B相对应的摩尔分数的钕,铁和硼的非晶合金,或者通过熔融纺丝制备Nd 2 Fe 14 B / Fe 3 B或Nd 2 Fe 14 B / Fe体系的纳米复合材料 方法; 和(b)使钕,铁和硼的非晶合金在至少3T(特斯拉)的磁场中在550-800℃的温度下进行热处理一段时间 在非反应性气体或真空气氛中,范围为1×102-1×104秒。