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    • 3. 发明申请
    • DEVICE FOR METERING BULK MATERIAL, IN PARTICULAR PLASTICS GRANULATE
    • 用于测量大块材料,特别是塑料颗粒的装置
    • US20150217878A1
    • 2015-08-06
    • US14435072
    • 2013-10-09
    • WITTMANN KUNSTSTOFFGERAETE GMBH
    • Erhardt FuxRobbie J. MillerJoseph Corturillo
    • B65B1/32B65B1/04B29B9/00
    • B65B1/32B01F15/0445B29B7/603B29B9/00B65B1/04
    • The invention relates to a device for metering bulk material, in particular plastics granulate, for machines processing plastics granulate, in particular for injection molding machines, wherein at least one material funnel (2) into which bulk material can be filled and which has a material valve is provided. A weighing container (4) connected to weighing scales is optionally arranged below the material valve. A control unit is provided for the weighing scales and material valves. The material valve is designed as a metering valve (3), in particular as a flap-type metering valve. The metering valve (3) consists of a part, a closure (7), movable via a horizontal axis (6) and a fixed part, a scraper (8). The movable part has an operating arm (9) for an actuator (5) and at the end facing towards the fixed part has a closure plate (10) having a scraper projection (11). In the closed state of the metering valve (3) the scraper projection (11) touches the scraper (8).
    • 本发明涉及一种用于计量散装材料,特别是塑料颗粒的装置,其用于加工塑料颗粒,特别是用于注射成型机的机器,其中至少一个材料漏斗(2)可以填充散装材料并且具有材料 提供阀。 连接到称重秤的称重容器(4)可选地布置在材料阀的下方。 为称重秤和材料阀提供控制单元。 材料阀被设计为计量阀(3),特别是作为挡板式计量阀。 计量阀(3)包括一部分,一个通过水平轴线(6)和一个固定部分可移动的封盖(7),一个刮刀(8)。 可移动部分具有用于致动器(5)的操作臂(9),并且在面向固定部分的端部具有具有刮刀突起(11)的封闭板(10)。 在计量阀(3)的关闭状态下,刮刀突起(11)接触刮刀(8)。
    • 4. 发明授权
    • Seamless capsule manufacturing apparatus
    • 无缝胶囊制造装置
    • US08992196B2
    • 2015-03-31
    • US13129875
    • 2009-10-09
    • Masayuki IkedaHiroshi Nagao
    • Masayuki IkedaHiroshi Nagao
    • A23P1/04B29B9/00A61J3/07
    • A23P1/04A23P10/30A61J3/07
    • A seamless capsule manufacturing apparatus (1) manufactures a seamless capsule by means of nozzles (2a-2d). A core liquid (5) and a coating liquid (6) are supplied to each of the nozzles (2a-2d) from pumps (16, 18) through distributors (21, 22). The distributors (21, 22) and the nozzles (2a-2d) are connected to each other by core liquid distributing tubes (23a-23d) and coating liquid distributing tubes (25a-25d), and each of the core liquid distributing tubes (23a-23d) and each of the coating liquid distributing tubes (25a-25d) have the same length. A vibrator (24) is mounted to the distributor (21), and the core liquid (5) is supplied to the nozzles (2a-2d) while being vibrated. Each of the distributors (21, 22) is provided with an air vent device (35), and air vent is performed appropriately.
    • 无缝胶囊制造装置(1)通过喷嘴(2a-2d)制造无缝胶囊。 通过分配器(21,22)从泵(16,18)向每个喷嘴(2a-2d)供给芯液(5)和涂液(6)。 分配器(21,22)和喷嘴(2a-2d)通过芯液分配管(23a-23d)和涂布液分配管(25a-25d)彼此连接,并且每个芯液分配管 23a-23d)和每个涂布液分配管(25a-25d)具有相同的长度。 振动器(24)安装到分配器(21)上,并且芯体(5)在被振动的同时被供应到喷嘴(2a-2d)。 每个分配器(21,22)设置有排气装置(35),并且适当地执行排气口。
    • 8. 发明授权
    • Control of particle formation at the nanoscale
    • 在纳米尺度下控制颗粒形成
    • US08685293B1
    • 2014-04-01
    • US13053119
    • 2011-03-21
    • Nicholas V. CoppaRobert J. Levis
    • Nicholas V. CoppaRobert J. Levis
    • B29C35/08B29B9/00
    • B23K26/03B23K26/0624B23K26/064B23K26/361B23K26/40B23K2101/04B23K2103/10B23K2103/50B29B9/16B29B2009/125
    • Our invention allows for control of particle formation at the nanoscale, providing a means to control nanoparticle and nanostructure formation using feedback on the fly from nanoparticle characteristic analysis and optimization/knowledge extraction control algorithms. A closed loop feedback controller causes the interaction of a shaped flaser pulse with a substrate. The substrate can be one or more solid, liquid or gas or any combination thereof. Nanoparticles are produced and their characteristics are measured. The measured characteristics are compared with the desired nanoparticle characteristics. If the measured and desired characteristics are not equivalent, the closed loop feedback controller modifies the shape of the laser pulse and the next cycle begins. With successive loop of the control process the difference between the desired and measured characteristics converges until they are equivalent. At the end of the process a relationship is developed between the desired nanoparticle characteristics and the laser pulse shape. A catalog of all pulse shapes generated and the resulting nanoparticle characteristics is generated each time the processor is cycled whether or not the nanoparticle characteristics are those desired.
    • 我们的发明允许在纳米尺度下控制颗粒形成,提供了使用纳米颗粒特征分析和优化/知识提取控制算法的飞行反馈来控制纳米颗粒和纳米结构形成的手段。 闭环反馈控制器导致成形的激光脉冲与衬底的相互作用。 基底可以是一种或多种固体,液体或气体或其任何组合。 产生纳米颗粒并测量它们的特性。 将测量的特性与期望的纳米颗粒特性进行比较。 如果测量和期望的特性不相等,则闭环反馈控制器修改激光脉冲的形状,并开始下一个循环。 在控制过程的连续循环中,期望和测量特性之间的差异收敛,直到它们相等。 在该过程结束时,在所需的纳米颗粒特性和激光脉冲形状之间形成关系。 生成所有脉冲形状的目录,并且每次处理器循环时都产生所得纳米粒子特征,无论纳米粒子特征是否为所需的那些。