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    • 3. 发明授权
    • Dynamically adaptive trommel screen system
    • 动态自适应筛选系统
    • US08091711B2
    • 2012-01-10
    • US12490598
    • 2009-06-24
    • Shu-San HsiauHsuan-Yi LeeYau-Pin ChyouJiri SmidYi-Shun ChenPo-Chuang ChenChin-Ching TzengChia-Jen Hsu
    • Shu-San HsiauHsuan-Yi LeeYau-Pin ChyouJiri SmidYi-Shun ChenPo-Chuang ChenChin-Ching TzengChia-Jen Hsu
    • B07B1/18G05B13/00
    • B07B1/22B07B1/42B07B13/18
    • A dynamically real-time adaptive trommel screen system is revealed. The dynamically adaptive trommel screen system includes a fixture, a trommel screen disposed on the fixture for screening a mixture into regenerated filter granules and screened residues, a structured duct for transporting the regenerated filter granules and an enclosure for collecting the screened residues, a tilt control member arranged on the fixture for adjusting the tilt angle of the trommel screen, and a feedback controller that controls the tilt control member according to the mass flow rate of the screened residues when the trommel screen operates so as to adjust the tilt angle of the trommel screen instantly and dynamically. By the feedback controller and the tilt control member, the tilt angle of the trommel screen is adjusted in a real-time and dynamic way so as to increase the screening efficiency. Moreover, the state of fractured filter granules is acquired from the feedback controller so that a certain amount of fresh filter granules can be refilled into the filter system for improving the filtration efficiency.
    • 揭示了动态实时自适应筛选屏幕系统。 动态自适应筛选系统包括固定装置,设置在固定装置上用于将混合物筛选成再生过滤颗粒和筛选的残留物的转筛器,用于输送再生过滤颗粒的结构化管道和用于收集筛选残余物的外壳,倾斜控制 配置在固定装置上的用于调节转筛屏幕的倾斜角的构件,以及反转控制器,其在筛选屏操作时根据筛选残留物的质量流量控制倾斜控制构件,以便调整转筛的倾斜角度 即时,动态地屏幕。 通过反馈控制器和倾斜控制构件,以实时和动态的方式调节转筛屏幕的倾斜角度,以提高筛选效率。 此外,从反馈控制器获取断裂过滤颗粒的状态,使得一定量的新鲜过滤颗粒可以再填充到过滤系统中以提高过滤效率。
    • 4. 发明申请
    • DYNAMICALLY ADAPTIVE TROMMEL SCREEN SYSTEM
    • 动态自适应TRMMEL屏幕系统
    • US20100326892A1
    • 2010-12-30
    • US12490598
    • 2009-06-24
    • Shu-San HSIAUHsuan-Yi LeeYau-Pin ChyouJiri SmidYi-Shun ChenPo-Chuang ChenChin-Ching TzengChia-Jen Hsu
    • Shu-San HSIAUHsuan-Yi LeeYau-Pin ChyouJiri SmidYi-Shun ChenPo-Chuang ChenChin-Ching TzengChia-Jen Hsu
    • B07B1/22
    • B07B1/22B07B1/42B07B13/18
    • A dynamically real-time adaptive trommel screen system is revealed. The dynamically adaptive trommel screen system includes a fixture, a trommel screen disposed on the fixture for screening a mixture into regenerated filter granules and screened residues, a structured duct for transporting the regenerated filter granules and an enclosure for collecting the screened residues, a tilt control member arranged on the fixture for adjusting the tilt angle of the trommel screen, and a feedback controller that controls the tilt control member according to the mass flow rate of the screened residues when the trommel screen operates so as to adjust the tilt angle of the trommel screen instantly and dynamically. By the feedback controller and the tilt control member, the tilt angle of the trommel screen is adjusted in a real-time and dynamic way so as to increase the screening efficiency. Moreover, the state of fractured filter granules is acquired from the feedback controller so that a certain amount of fresh filter granules can be refilled into the filter system for improving the filtration efficiency.
    • 揭示了动态实时自适应筛选屏幕系统。 动态自适应筛选系统包括固定装置,设置在固定装置上用于将混合物筛选成再生过滤颗粒和筛选的残留物的转筛器,用于输送再生过滤颗粒的结构化管道和用于收集筛选残余物的外壳,倾斜控制 配置在固定装置上的用于调节转筛屏幕的倾斜角的构件,以及反转控制器,其在筛选屏操作时根据筛选残留物的质量流量控制倾斜控制构件,以便调整转筛的倾斜角度 即时,动态地屏幕。 通过反馈控制器和倾斜控制构件,以实时和动态的方式调节转筛屏幕的倾斜角度,以提高筛选效率。 此外,从反馈控制器获取断裂过滤颗粒的状态,使得一定量的新鲜过滤颗粒可以再填充到过滤系统中以提高过滤效率。
    • 5. 发明授权
    • Moving granular bed with gas guiding system
    • 用气体引导系统移动颗粒床
    • US08491711B2
    • 2013-07-23
    • US12909426
    • 2010-10-21
    • Shu-San HsiauYau-Pin ChyouChia-Jen HsuYi-Shun ChenPo-Chuang Chen
    • Shu-San HsiauYau-Pin ChyouChia-Jen HsuYi-Shun ChenPo-Chuang Chen
    • B01D53/06
    • B01D46/38B01D53/08B01D2253/106B01D2257/2045B01D2257/302B01D2257/304B01D2257/404B01D2257/406B01J8/009B01J8/082B01J8/085B01J8/125B01J2208/00088
    • A moving granular bed includes a filter granule channel, an inlet unit of gas, an outlet unit of gas, a first detecting unit and a feedback control unit. The inlet unit of gas is disposed at one side of the filter granule channel, and the dirty gas is fed into the filter granule channel through the inlet unit of gas. The inlet unit of gas has a first flow-guiding plate. The outlet unit of gas is disposed at the other side of the filter granule channel. The first detecting unit detects the gas velocity at the inlet unit of gas site. The feedback control unit is electrically connected with the first detecting unit, and controls the angle of the first flow-guiding plate and flow rate of filter granules according to a detecting result of the first detecting unit. A gas guiding system used in the moving granular bed is also disclosed. The moving granular bed and gas guiding system can make the dirty gas have different velocity or distribution while passing through the filter granule channel so as to improve the usage of the filter granules.
    • 移动颗粒床包括过滤颗粒通道,气体入口单元,气体出口单元,第一检测单元和反馈控制单元。 气体入口单元设置在过滤颗粒通道的一侧,脏气通过进气单元送入过滤颗粒通道。 气体入口单元具有第一导流板。 气体出口单元设置在过滤颗粒通道的另一侧。 第一检测单元检测气站入口单元处的气体速度。 反馈控制单元与第一检测单元电连接,并根据第一检测单元的检测结果控制第一导流板的角度和过滤颗粒的流量。 还公开了用于移动颗粒床中的气体导向系统。 移动的颗粒床和气体导向系统可以使脏气通过过滤颗粒通道具有不同的速度或分布,从而改善过滤颗粒的使用。
    • 7. 发明申请
    • HEAT-CONDUCTING STRUCTURE AND HEAT EXCHANGER AND HEAT-EXCHANGING SYSTEM USING THEREOF
    • 导热结构与热交换器及其交换系统
    • US20140116669A1
    • 2014-05-01
    • US13660058
    • 2012-10-25
    • SHU-CHE LIYi-Shun ChenYau-Pin ChyouPo-Chuang Chen
    • SHU-CHE LIYi-Shun ChenYau-Pin ChyouPo-Chuang Chen
    • F28F3/00
    • F28F3/02F28D7/0008F28D7/16F28D15/00F28D21/001F28F1/00F28F19/06F28F21/089F28F2215/02
    • A heat-conducting structure comprises a heat-conducting metal layer, a heat-conducting support layer, and a heat-conducting protection layer. The heat-conducting support layer is formed to enclose the heat-conducting metal layer thereby preventing the heat-conducting metal layer from thermal deformation, while the heat-conducting protection layer is formed to enclose the heat-conducting support layer. In another embodiment, the heat-conducting structures are utilized to form a heat exchanger or a heat-exchanging system comprising a heat-absorbing zone and a heat-dissipating zone, whereby a high-temperature fluid is guided to flow through the heat-absorbing zone for transmitting the heat to the heat-conducting structures within the heat-absorbing zone through heat convention and the heat-exchanging structures conducting the heat to the heat-dissipating zone such that a low-temperature fluid passing therethrough can absorb the heat dissipated from the heat-exchanging structures within the heat-dissipating zone and transmit the heat energy out of the heat exchanger or the heat-exchanging system.
    • 导热结构包括导热金属层,导热支撑层和导热保护层。 导热支撑层形成为包围导热金属层,从而防止导热金属层发生热变形,同时形成导热保护层以封闭导热支撑层。 在另一个实施例中,导热结构用于形成热交换器或包括吸热区和散热区的热交换系统,由此高温流体被引导以流过吸热区 通过热惯性将热量传递到吸热区内的导热结构的区域,以及将热量传导到散热区域的热交换结构,使得通过其的低温流体可以吸收从 散热区内的热交换结构,并将热能传递出热交换器或热交换系统。