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    • 2. 发明申请
    • GRINDER
    • 磨床
    • WO2016130778A8
    • 2017-03-16
    • PCT/US2016017511
    • 2016-02-11
    • SONTAG GLENNON C
    • SONTAG GLENNON C
    • B02C13/16B02C13/28B02C13/282B02C13/288
    • B02C13/288B02C13/14B02C13/16B02C13/282
    • A grinder having with a rotor and fan assembly mounted in a housing having one or more of the following features: Cutting shaft and fan shaft concentric and rotated by separate motors, housing formed in two sections with a line of division passing through the axis of rotation and mounted on rollers, ping pong shaped cutting hammers, deflectors attached to the inside of the housing and to a deflector assembly on the outside of the housing. The deflectors movable vertically and horizontally with first and second motion controllers for adjusting the spacing between the cutting hammers and the deflectors. A programmable logic controller for independently controlling the speed at which the cutting shaft and fan shaft are rotated and the spacing between the cutting hammers and the deflectors to produce a desired particle size reduction for a selected material.
    • 一种具有转子和风扇组件的研磨机,其具有安装在具有以下特征中的一个或多个的壳体​​中:切割轴和风扇轴同心并由单独的马达旋转,壳体形成为具有通过旋转轴线的分界线的两个部分 并安装在滚子上,乒乓形状的切割锤,连接到壳体内部的偏转器和外壳外侧的偏转器组件。 第一和第二运动控制器用于调节切割锤和导流板之间的间距,可垂直和水平地移动偏转器。 一种可编程逻辑控制器,用于独立地控制切割轴和风扇轴旋转的速度以及切割锤和偏转器之间的间距,以便为选定的材料产生所需的粒径减小。
    • 7. 发明申请
    • 気流式微粉砕装置
    • 气动搅拌装置
    • WO2012036113A1
    • 2012-03-22
    • PCT/JP2011/070702
    • 2011-09-12
    • 増幸産業株式会社増田 幸也
    • 増田 幸也
    • B02C13/288B02C13/10B02C13/286
    • B02C13/286B02C13/12B02C13/282B02C13/288
    • 微細、均一化した高精度の微粉粒体を効率よく得ることができ小型・簡易な構成かつ低廉なコストで発熱防止が可能な気流式微粉砕装置を提供する。気流式微粉砕装置(1)は、上流側より原料供給機(2)、粉砕機(3)、製品捕集機(4)及びその内部に設ける排気ブロア(5)を備える。原料供給機(2)は原料ホッパ(6)に接続する管体(7)の途中に通気開閉手段(8)を設ける。原料投入の際には通気開閉手段(8)は開放状態とし、投入完了後に通気開閉手段(8)を閉鎖して粉砕室(18)内の空気の流れを止めながらブロア吸引を行ない減圧下で粉砕を行なう。これにより、原料を機内に留め、滞留時間を長くして所定時間粉砕する。
    • 本发明提供一种能够以简单小型的结构,低成本地防止发热的气动粉碎装置,能够以高精度有效地获得微观均匀的粉末。 气流粉碎装置(1)从上游侧设置有起始材料供给装置(2),粉碎机(3),产品收集器(4)和设置在产品收集器内部的排气鼓风机 4)。 原料供给体(2)在与原料料斗(6)连接的管体(7)的中央设有通气开闭装置(8)。 当注射原料时,通风打开/关闭装置(8)打开。 一旦注射完成,关闭通风口/关闭装置(8),并且在粉碎室(18)内的空气流停止的同时通过用鼓风机吸引而在减压下进行粉碎。 因此,起始材料保持在机器内部并通过将起始材料保持在机器内部的时间延长而粉碎预定时间段。
    • 8. 发明申请
    • VERTICAL SHAFT IMPACT CRUSHERS
    • 垂直轴冲击锤
    • WO2011128854A3
    • 2012-03-22
    • PCT/IB2011051593
    • 2011-04-13
    • ERIOGENIX PTY LTDWESSELS GIDEONFIRTH JOHN LEASK GATES
    • WESSELS GIDEONFIRTH JOHN LEASK GATES
    • B02C13/09B02C23/00
    • B02C13/1835B02C13/282
    • A vertical shaft impact crusher, crushing chamber, which includes a cylindrical outer wall, a substantially horizontal annular shaped floor and an outward-, downwardly slanted annular crushing chamber roof with a vertical shaft impact crusher rotor, which includes a blade mounting arrangement rotatable about a central rotation axis, the blade mounting arrangement having at least a bottom disk onto which a feed material is receivable and at least two rotor blades defining vanes mounted onto the bottom disk, the vanes running from a central portion of the rotor towards a periphery of the bottom disk, the rotor blades arranged on a segment of the bottom disk and defining an obtuse angle with the disk plane, mounted into the crushing chamber.
    • 一种垂直轴冲击式破碎机,破碎室,其包括圆柱形外壁,基本上水平的环形地板和具有垂直轴冲击式破碎机转子的向外,向下,向下倾斜的环形破碎室顶部,其包括可围绕 中心旋转轴线,叶片安装装置具有至少一个底盘,馈送材料可容纳在底盘上,至少两个转子叶片限定安装在底盘上的叶片,叶片从转子的中心部分朝向 底盘,转子叶片布置在底盘的一段上并与盘平面形成钝角,并安装在破碎室中。
    • 9. 发明申请
    • CONICAL-SHAPED IMPACT MILL
    • 圆形冲击刀
    • WO2009158482A1
    • 2009-12-30
    • PCT/US2009/048631
    • 2009-06-25
    • WAZNYS, Peter, J.FISCHER, JosefCIALONE, Anthony, M.LEHIGH TECHNOLOGIES, INC.
    • WAZNYS, Peter, J.FISCHER, JosefCIALONE, Anthony, M.
    • B02C13/14B02C13/18B02C13/28B02C13/282
    • B02C13/14B02C13/18B02C13/1814B02C13/185B02C13/2804B02C13/282B02C2013/28681
    • An impact mill (100) including a base portion on which is disposed a rotor (3) rotatably mounted in a bearing housing, the rotor having an upwardly aligned cylindrical surface portion coaxial with the rotational axis. The impact mill includes a mill casing within which is located a conical track assembly (5) surrounding the rotor to form a conical grinding path. The mill casing includes a downwardly aligned cylindrical collar (11) which may be axially adjusted to set a grinding gap (S) between the rotor and the mill casing. The rotor includes a plurality of impact knives complementary with a plurality of impact knives disposed on the inside top surface of the mill casing. The conical track assembly (5) can be a series of assembled conical sections or one unit with varied number of serrations in either a vertical or sloped configuration. This flexibility allows for greater compatibility with the feedstock being milled.
    • 一种冲击研磨机(100),其包括基部,转子安装在转子(3)上,所述转子安装在轴承壳体中,所述转子具有与旋转轴线同轴的向上对齐的圆柱形表面部分。 冲击研磨机包括一个轧机壳体,在其内设有围绕转子的锥形轨道组件(5),以形成锥形磨削路径。 研磨机壳体包括向下对准的圆柱形套环(11),其可以轴向调节以设定转子和研磨机壳体之间的研磨间隙(S)。 转子包括与设置在磨机壳体的内顶表面上的多个冲击刀互补的多个冲击刀。 锥形轨道组件(5)可以是一系列组装的锥形部分或具有垂直或倾斜构造的具有不同数量锯齿的一个单元。 这种灵活性允许与正在研磨的原料更好的相容性。
    • 10. 发明申请
    • MICRON HAMMERMILL
    • WO2005051545A2
    • 2005-06-09
    • PCT/US2004038267
    • 2004-11-16
    • CARTER DAY INT INCOLSON JERRY R
    • OLSON JERRY R
    • B02C20060101B02C13/10B02C13/282B02C13/284B02C
    • B02C13/28B02C13/10B02C13/282B02C13/284
    • An improved design for hammermills. The invention contains a centered rotor from which eight rows of hammers pulverize material against cutting plates inside a working chamber. The cutting plates have slots that are angled. The hammers may have a beveled, angled leading edge. Both the angled cutting plate slots and the angled hammer leading edges work to drive the material through the working chamber in a helical fashion, with a preferred travel profile of 450 degrees, but the helix length is adjustable depending on the specific needs. There are no perforated screens in the hammermill, thus the material is placed in an inlet, is urged through the hammermill by the action of the rotating hammers where the material is comminuted and then removed via an exit. The communitive efficiency and particle size may be affected by the following adjustable elements: The clearance distance between the hammer tips and the cutting plate; the degree of angle of the cutting; plate slots, the degree of angle of the hammers' leading edges; the density and pattern of the cutting plate slots; the speed of rotation of the hammers; and the length of helical travel of the material within the working chamber. The invention further provides a discharge assist by allowing one set of hammers to be non-beveled so that the material is swept along. A second discharge assist embodiment provides that the last section of the helix is smooth to increase the particle speed at the outlet.
    • 改进的锤磨机设计。 本发明包含一个中心转子,八排锤子将材料粉碎到工作室内的切割板上。 切割板具有成角度的槽。 锤子可以具有倾斜的倾斜前缘。 倾斜的切割板槽和成角度的锤头前缘都工作以螺旋方式驱动材料穿过工作室,具有450度的优选行进轮廓,但螺旋长度可根据具体需要而调节。 在锤磨机中没有穿孔的筛网,因此材料被放置在入口中,通过旋转的锤子的作用被推动通过锤磨机,其中材料被粉碎,然后通过出口去除。 共同效率和粒度可能受以下可调节元件的影响:锤头与切割板之间的间隙距离; 切割角度; 板槽,锤的前缘角度; 切割板槽的密度和图案; 锤子的旋转速度; 以及材料在工作室内的螺旋行进的长度。 本发明还通过允许一组锤子被非倾斜地提供排放辅助,使得材料被扫掠。 第二放电辅助实施例提供螺旋的最后部分是平滑的以增加出口处的粒子速度。