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    • 3. 发明申请
    • GRAPHENE POWDER, APPARATUS FOR PRODUCING GRAPHENE POWDER, METHOD FOR PRODUCING GRAPHENE POWDER, AND PRODUCT USING GRAPHENE POWDER
    • 石墨粉,用于生产石墨粉的装置,用于生产石墨粉的方法和使用石墨粉的产品
    • US20160280551A1
    • 2016-09-29
    • US14432733
    • 2013-12-17
    • GRAPHENE PLATFORM CORPORATION
    • Shoji HasegawaNagisa Kamiya
    • C01B31/04B02C19/06
    • B02C19/065B02C19/061C01B32/184C01B32/19
    • There are provided graphene powder that may be mass-produced with high quality, an apparatus for producing graphene powder, a method for producing graphene powder, and a product using the graphene powder. A jet flow as a high speed jet stream of a liquid or a gas is output from a jet flow output unit, and a raw material containing graphite and the jet flow thus output from the jet flow output unit are made to inflow to an input part of a chamber to cleave graphite, thereby outputting graphene powder in the form of fine particles of graphite from an output part. The graphene powder by the production method is formed simply by cleaving the raw material containing graphite with a jet flow, and thus may suffer no contamination due to the absence of contamination with other substances, and thus graphene having high purity and good quality in the form of fine particles may be obtained.
    • 提供了可以高品质批量生产的石墨烯粉末,用于生产石墨烯粉末的装置,石墨烯粉末的制造方法和使用该石墨烯粉末的产品。 从喷射流输出单元输出作为液体或气体的高速喷射流的喷射流,并且使从石墨流出的原料和从射流输出单元输出的射流流入到输入部 的一个室以切割石墨,从而从输出部分输出石墨烯细颗粒形式的石墨烯粉末。 通过制造方法的石墨烯粉末简单地通过用喷射流分解含有石墨的原料而形成,因此不会由于不与其它物质的污染而遭受污染,因此形成了高纯度和高质量的石墨烯 的微粒。
    • 7. 发明授权
    • Mill
    • US09067212B2
    • 2015-06-30
    • US13791959
    • 2013-03-09
    • TSUKASA CO., LTD.
    • Fumio Kato
    • B02C13/00B02C19/06B02C23/18B02C13/18B02C13/14B02C13/288
    • B02C19/061B02C13/14B02C13/18B02C13/1814B02C13/185B02C13/288B02C23/18
    • A mill includes a grinding chamber, a rotating shaft located in the grinding chamber, a rotating body structured to have a rotary member fixed to the rotating shaft, a casing provided to form an outer shell of the grinding chamber, an inlet arranged to supply a solid-gas two-phase flow K containing particles and a gas to the grinding chamber, and an outlet arranged to discharge the solid-gas two-phase flow K′ from the grinding chamber. A cylindrical frame member having an inner peripheral surface formed in a corrugated shape is located in the casing. The solid-gas two-phase flow K supplied via the inlet into the grinding chamber is circled in the grinding chamber, while being accelerated by the rotating body.
    • 研磨机包括研磨室,位于研磨室中的旋转轴,构造成具有固定到旋转轴的旋转构件的旋转体,设置成形成研磨室的外壳的壳体,布置成供应 含有颗粒的固体气体两相流K和到研磨室的气体,以及设置成从研磨室排出固体气体两相流K'的出口。 具有形成为波纹形状的内周面的筒状框架部件位于壳体内。 通过入口供入到研磨室中的固体气体两相流K在研磨室中被旋转体加速。
    • 8. 发明申请
    • MICRONIZING DEVICE FOR FLUID JET MILLS
    • 用于流体喷枪的微型装置
    • US20140326814A1
    • 2014-11-06
    • US14114090
    • 2011-10-10
    • Aleardo Cattivelli
    • Aleardo Cattivelli
    • B02C19/06
    • B02C19/061B02C19/06B02C19/066
    • This invention relates to a micronizing device for fluid jet mills, comprising: a containing body (2) internally delimiting a substantially cylindrical grinding chamber (3); a plurality of nozzles (18), each presenting a mouth (22) opening onto a radially internal side wall (8) of the grinding chamber (3); a supply duct (9) for material to be micronized, opening into the grinding chamber (3); at least one injection duct (12) for pressurized fluid, in fluid communication with said nozzles (18). The nozzles (18) present a pressurized fluid injection direction (X-X) which is tangent to an imaginary circle included inside the grinding chamber (3). The radially internal side wall (8) presents, at each nozzle (18), a first portion (23) which is substantially perpendicular to the injection direction (X-X) of the respective nozzle (18).
    • 本发明涉及一种用于流体喷射式粉碎机的微粉化装置,其特征在于,包括:内部界定大致圆柱形的研磨室(3)的容纳体(2) 多个喷嘴(18),每个喷嘴(18)具有通向所述研磨室(3)的径向内侧壁(8)上的口(22)。 用于被微粉化的材料的供应管道(9),通向研磨室(3)中; 用于加压流体的至少一个注射管道(12),与所述喷嘴(18)流体连通。 喷嘴(18)具有与包括在研磨室(3)内部的假想圆相切的加压流体喷射方向(X-X)。 径向内侧壁(8)在每个喷嘴(18)处呈现大致垂直于相应喷嘴(18)的喷射方向(X-X)的第一部分(23)。
    • 9. 发明授权
    • Supersonic pulverizing device
    • 超音速粉碎装置
    • US08733680B2
    • 2014-05-27
    • US13188627
    • 2011-07-22
    • Richard LinChueh-Kuan Wang
    • Richard LinChueh-Kuan Wang
    • B02C19/06
    • B02C19/06B02C19/061
    • A supersonic pulverizing device includes a main body which is connected with at least two charging units. Each charging unit has a charging passage therein and at least one accelerating wind nozzle disposed at a front end of the charging passage. A source material and a charging air flow are delivered to the charging passage and an accelerating air flow is inputted to the accelerating wind nozzle, so that the charging air flow carries the source material to flow and enter the main body by the accelerating air flow at a supersonic speed and counter with the charging air flow from another charging unit. The source material can be effectively crashed to the desired powder. The source material is covered by the charging air flow, so the device won't be worn by the source material. The pulverizing device has a longer lifespan and can prevent the source material from being polluted.
    • 超音速粉碎装置包括与至少两个充电单元连接的主体。 每个充电单元在其中具有充电通道,并且至少一个加速风嘴设置在充电通道的前端。 源材料和充气气流被输送到充气通道,并且加速空气流被输入到加速风嘴,使得充气气流携带源材料流动并通过加速气流进入主体 超音速速度和来自另一充电单元的充气气流的计数器。 源材料可以有效地撞击到所需的粉末。 源材料被充气流动覆盖,因此该装置不会被源材料磨损。 粉碎装置具有较长的使用寿命,可防止源材料受到污染。