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    • 4. 发明授权
    • Method and apparatus for handling material in a pneumatic pipe transport system
    • 用于在气动输送系统中处理材料的方法和装置
    • US09139362B2
    • 2015-09-22
    • US13578264
    • 2011-02-08
    • Göran Sundholm
    • Göran Sundholm
    • B65G53/48B65F5/00B65G51/02B02C18/00
    • B30B15/30B02C18/0084B02C18/0092B30B13/00B65F5/005B65G51/02B65G53/16B65G53/48
    • A method and apparatus for handling and conveying a material, for example a waste material, in a pneumatic pipe transport system which includes the steps and apparatus for introducing the material to a rotary press device, the rotary press device containing rotating and stationary apertures which are eccentrically arranged with respect to an axis of rotation of the rotating apertures, compacting and compressing the material within the rotary press device and transferring the compacted and compressed material downstream to an output transport system, wherein the material is conducted and transported into the rotary press device and through the rotary pressure device to the output transport system, at least partially, by suction and/or pressure difference in the pneumatic pipe transport system.
    • 一种用于在气动输送系统中处理和输送材料(例如废料)的方法和装置,其包括用于将材料引入旋转压力装置的步骤和装置,所述旋转压制装置包含旋转和固定孔, 相对于旋转孔的旋转轴线偏心地布置,压缩并压缩旋转压力装置内的材料并将压实和压缩的材料下游传送到输出传送系统,其中材料被传导并传送到旋转压榨装置 并且通过旋转压力装置至少部分地通过气动管道输送系统中的吸力和/或压力差而通过旋转压力装置。
    • 5. 发明授权
    • Aeroplane crushing device, and aeroplane demolition method
    • 飞机破碎装置和飞机拆除方法
    • US09138955B2
    • 2015-09-22
    • US14368486
    • 2013-09-03
    • KABUSHIKI KAISHA TOWANI
    • Yoshiaki Takakura
    • B30B9/32B30B13/00B30B9/00B09B3/00B64F5/00B09B5/00B30B7/04B30B15/00
    • B30B9/32B09B3/00B09B5/00B30B7/04B30B9/00B30B13/00B30B15/0023B30B15/062B30B15/30B64F5/00Y02P70/585
    • An aircraft collapsing device that collapses an aircraft fuselage inward includes: a gate-shaped shell which covers a circumference of both sides and an upper portion of a fuselage of an aircraft body from which horizontal wings and a vertical wing have been decoupled, a wedge-shaped pressing member that is mounted to an upper portion of the shell to press at least one portion of a circumference of at least one of annular frames juxtaposed in a longitudinal direction of the fuselage toward a center of the fuselage, a pair of sidewall pressing members that is mounted to both sides of the shell to press the fuselage simultaneously from two directions crossing a pressing direction of the wedge-shaped pressing member at the center of the fuselage after pressing by the wedge-shaped pressing member, and a moving unit that moves the fuselage of the aircraft and the shell relative to one another.
    • 将飞机机身向内折叠的飞机塌缩装置包括:覆盖飞机机身两侧的圆周和飞机主体的机身的上部的门形壳体,水平翼和垂直翼从该机体的机身脱离, 形状的按压构件,其安装到所述壳体的上部,以将沿机身的纵向方向并列设置的至少一个环形框架的圆周的至少一部分朝向机身的中心按压;一对侧壁按压构件 安装在壳体的两侧,同时从通过楔形按压部件按压之后的机身中心处的楔形按压部件的按压方向的两个方向按压机身;以及移动单元,其移动 飞机的机身和壳体相对于彼此。
    • 8. 发明申请
    • BONDING APPARATUS, BONDING SYSTEM AND BONDING METHOD
    • 粘接装置,粘接系统和粘接方法
    • US20140318711A1
    • 2014-10-30
    • US14250061
    • 2014-04-10
    • Tokyo Electron Limited
    • Norio WadaGoro FurutaniSatoshi Ookawa
    • H01L21/67
    • H01L21/67092B30B13/00B30B15/064B30B15/34B32B37/06B32B37/08B32B37/1009
    • A bonding apparatus according to an exemplary embodiment of the present disclosure includes a first holding unit, a second holding unit, a first cooling mechanism, a second cooling mechanism, a third heating mechanism and a fourth heating mechanism. The first holding unit has a first heating mechanism and holds a first substrate. The second holding unit has a second heating mechanism and holds a second substrate. The pressing mechanism contacts and presses the first substrate and the second substrate. The first cooling mechanism cools the first substrate through the first holding unit. The second cooling mechanism cools the second substrate through the second holding unit. The third heating mechanism heats the first cooling mechanism. The fourth heating mechanism heats the second cooling mechanism.
    • 根据本公开的示例性实施例的接合装置包括第一保持单元,第二保持单元,第一冷却机构,第二冷却机构,第三加热机构和第四加热机构。 第一保持单元具有第一加热机构并保持第一基板。 第二保持单元具有第二加热机构并保持第二基板。 按压机构接触并按压第一基板和第二基板。 第一冷却机构通过第一保持单元冷却第一基板。 第二冷却机构通过第二保持单元冷却第二基板。 第三加热机构加热第一冷却机构。 第四加热机构加热第二冷却机构。
    • 9. 发明申请
    • PRESS AND METHOD FOR PRESSING WORKPIECES
    • 用于压制工件的压力和方法
    • US20140318390A1
    • 2014-10-30
    • US13955403
    • 2012-02-02
    • Langenstein & Schemann GmbH
    • Lothar BauersachsHerbert Ruger
    • B30B15/00B30B15/16B30B13/00
    • B30B15/0052B21J9/12B21J9/20B30B1/32B30B13/00B30B15/16
    • A press for pressing workpieces can have a) at least two pressing tools and at least one slide that performs working movements with an associated working stroke, b) at least one hydraulic slide drive unit for the slide, which separates a first sub-chamber and a second sub-chamber of a working chamber, and c) at least one slide position measurement device. Additionally, the press can include d) at least one medium reservoir, e) at least one first hydraulic delivery device connected to the first sub-chamber and to the medium reservoir, and f) at least one second hydraulic delivery device. The press can further include g) at least one controllable hydraulic valve, and h) a control device that checks the volumetric flows, pressures, and flow direction of hydraulic medium as a function of the measured slide position and stored or desired movement profiles of the slide and/or of input information from users.
    • 用于按压工件的压力机可以具有:a)至少两个按压工具和至少一个执行具有相关工作行程的工作运动的滑动件,b)用于滑块的至少一个液压滑动驱动单元,其将第一子室和 工作室的第二子室,以及c)至少一个滑动位置测量装置。 另外,压力机可以包括d)至少一个介质储存器,e)连接到第一子室和介质储存器的至少一个第一液压输送装置,以及f)至少一个第二液压输送装置。 压力机可以进一步包括g)至少一个可控液压阀,以及h)控制装置,其根据所测量的滑动位置和储存或期望的运动曲线来检查液压介质的体积流量,压力和流动方向 滑动和/或来自用户的输入信息。
    • 10. 发明申请
    • Method and apparatus for collecting and removing refuse from an underground mine
    • 收集和排除地下矿井垃圾的方法和设备
    • US20140299007A1
    • 2014-10-09
    • US13999862
    • 2014-03-28
    • Mark ColomboDavid LockwoodDarrell Ross
    • Mark ColomboDavid LockwoodDarrell Ross
    • B30B9/30
    • B30B13/00B30B9/3042B30B9/3046B30B9/3057B30B12/00B65F1/1447B65F9/00B65F2210/162
    • A hydraulically operated compaction device is mounted on a mobile support frame and is dragged by a mine utility vehicle through an underground mine for the collection of waste material generated from the mining operations. The waste material is deposited into a compaction chamber and compacted in a receiver of the compaction device. Hydraulic power is supplied from a hydraulic power takeoff on the utility vehicle to actuate the compaction device to compact the waste material in the receiver. When the receiver is filled with compacted waste material, the mine utility vehicle moves the compaction device to a location in the mine where the compaction device is transported out of the mine for pick-up by a commercial waste hauler. By collecting and compacting waste material in the mine, the frequency of hauls of waste material from the mine and the associated costs are substantially reduced.
    • 液压操作的压实装置安装在移动支撑框架上,并被矿用多功能车辆通过地下矿井拖动以收集从采矿作业产生的废料。 将废料沉积到压实室中并压实在压实装置的接收器中。 液压动力从多用途车上的液压动力输出提供,以驱动压实装置以压缩接收器中的废料。 当接收器充满压实的废料时,矿用多功能车辆将压实装置移动到矿井中的位置,其中压实装置被运送出矿,以便由商业垃圾运输车接收。 通过收集和压实矿山中的废料,矿井废料的运送频率和相关成本大大降低。