公开(公告)号：US20170036217A1

公开(公告)日：2017-02-09

申请号：US14818628

申请日：2015-08-05

Applicant: International Business Machines Corporation

Inventor： Eric J. Barkie ,  Benjamin L. Fletcher ,  Andrew P. Wyskida

IPC: B03C3/36 ,  B03C3/04 ,  F24F3/16

CPC classification number: B03C3/36 ,  B03C3/12 ,  B03C3/38 ,  B03C3/47 ,  B03C2201/28 ,  F24F3/1603 ,  F24F3/166 ,  F24F2003/1614 ,  F24F2003/1682 ,  Y02A50/21

Abstract: An airborne particle collection system includes an airflow directing unit, register units, a fan unit, and a control system. The airflow directing unit includes a plurality of separately controlled air distribution segments. Each of register unit includes a motorized damper and a filter. The fan unit is connected to the airflow directing unit and to the plurality of register units through piping. The fan unit injects air into the airflow directing unit, and generates a vacuum force that causes exhaust air with airborne particles to be pulled into the register units and filtered by the filters within the register units. The control system selectively controls the air distribution segments of the airflow directing unit and the motorized dampers of the register units to generate alterable airflow patterns between the airflow directing unit and the register units in different zones within a room in which the airflow directing unit and the register units are disposed.

Abstract translation: 空中粒子收集系统包括气流引导单元，寄存单元，风扇单元和控制系统。 气流引导单元包括多个单独控制的空气分配段。 每个注册单元包括电动风门和过滤器。 风扇单元通过管道连接到气流引导单元和多个对准单元。 风扇单元将空气注入气流引导单元，并且产生真空力，其使具有空气中的颗粒的排出空气被拉入到注册单元中并且通过寄存器单元内的过滤器进行过滤。 控制系统选择性地控制气流引导单元和定位单元的电动阻尼器的空气分配段，以在气流引导单元和空气引导单元和空气引导单元之间的不同区域内的气流引导单元和定位单元之间产生可变气流图案 注册单位被处置。

公开(公告)号：US09364836B2

公开(公告)日：2016-06-14

申请号：US14305590

申请日：2014-06-16

Applicant: PETROLEUM SPECIALTY RENTAL, LLC

Inventor： Pat Williamson ,  Steve Callegari ,  Steve Callegari, Jr. ,  Raphael Fontenot ,  Homer Boudreaux ,  Larry Foley

IPC: E21B21/06 ,  B03C1/02 ,  B03C1/30

CPC classification number: E21B21/065 ,  B03C1/02 ,  B03C1/0332 ,  B03C1/0335 ,  B03C1/286 ,  B03C1/30 ,  B03C2201/18 ,  B03C2201/20 ,  B03C2201/28

Abstract: A method and apparatus for removing metallic material from a circulating well fluid stream provides a treatment vessel that is divided into first and second sections. Each of the sections includes a magnetic field that can be in the form of one or more magnets. In one embodiment, multiple magnets are provided in each of the sections. Manifolds attach to an influent and to an effluent of the treatment vessel. Each manifold enables selective transfer of fluid to either of the selected sections. Similarly, discharge of circulating fluid can be from either of the sections via a discharge manifold. The treatment vessel enables continuous treatment by valving fluid flow so that only one section need be used at a time in order that the other section could be serviced for removing collected metallic material from the magnetic field or from the magnets.

Abstract translation: 从循环井流体流中除去金属材料的方法和装置提供了一种分为第一和第二部分的处理容器。 每个部分包括可以是一个或多个磁体形式的磁场。 在一个实施例中，在每个部分中提供多个磁体。 歧管附着在处理容器的流入物和流出物上。 每个歧管使得能够选择性地将流体传送到所选择的部分中的任一个。 类似地，循环流体的排放可以通过排放歧管从任一个区段中排出。 处理容器能够通过阀门流体流动进行连续处理，从而一次只需要使用一个部分，以便另一个部分可以被服务以从磁场或磁体中去除所收集的金属材料。

公开(公告)号：US20150165448A1

公开(公告)日：2015-06-18

申请号：US14402968

申请日：2013-05-21

Applicant: Adey Holdings (2008) Limited

Inventor： Christopher Adey ,  Simon Downie ,  Matthew Taylor

IPC: B03C1/14 ,  F16L29/00 ,  F16L21/00 ,  C02F1/48 ,  B03C1/30

CPC classification number: B04C5/14 ,  B01D21/0009 ,  B01D21/0042 ,  B01D21/2411 ,  B01D21/2483 ,  B01D21/26 ,  B01D21/267 ,  B01D29/908 ,  B01D35/06 ,  B01D35/303 ,  B01D2201/302 ,  B01D2201/4023 ,  B01D2221/02 ,  B03C1/02 ,  B03C1/0355 ,  B03C1/14 ,  B03C1/286 ,  B03C1/288 ,  B03C1/30 ,  B03C2201/18 ,  B03C2201/20 ,  B03C2201/28 ,  B04C3/06 ,  B04C5/185 ,  B21D39/044 ,  C02F1/488 ,  C02F2101/203 ,  C02F2201/48 ,  C02F2303/22 ,  E03B7/074 ,  F16L21/00 ,  F16L29/007 ,  F16L55/24 ,  F17D3/16 ,  F24D19/0092 ,  Y10T137/794

Abstract: A separator device for removing particles from suspension in a fluid includes a housing having first and second apertures for ingress and egress of fluid into and out of the housing. A first separator chamber is disposed at one end of the housing. A second separator chamber is disposed at the other end of the housing. A central chamber is disposed between the first and second separator chambers. The first and second separator chambers are apertured for ingress and egress of fluid from the central chamber, and each contains obstruction means to slow the flow of fluid within the chamber.

Abstract translation: 用于从流体悬浮液中除去颗粒的分离器装置包括具有第一和第二孔的壳体，所述第一孔和第二孔用于流入和流出壳体的流入和流出。 第一分隔室设置在壳体的一端。 第二分隔室设置在壳体的另一端。 中央室设置在第一和第二分离器室之间。 第一和第二分离器室是有孔的，用于从中心室进入和流出流体，并且每个分隔室包含阻塞装置以减缓腔室内的流体流动。

公开(公告)号：US20150107452A1

公开(公告)日：2015-04-23

申请号：US14517075

申请日：2014-10-17

Applicant: FU DING ELECTRONICAL TECHNOLOGY (JIASHAN) CO., LTD. ,  HON HAI PRECISION INDUSTRY CO., LTD.

Inventor： MING-LU YANG ,  YA-DONG ZHANG ,  LIN-HAI SHI

IPC: B03C1/02

CPC classification number: B03C1/286 ,  B03C1/035 ,  B03C2201/20 ,  B03C2201/28

Abstract: A waste collection device configured to remove magnetically-sensitive particles from the air includes a main body, a collection mechanism, an air inlet mechanism, an air exhaust mechanism, and a discharge mechanism. The main body includes a cover, an electric controller, a partition, and a cavity. The partition divides the cavity into a first cavity and a second cavity. The collection mechanism includes a plurality of dust deposition portions received in the first and second cavities. Each dust deposition portion is electrically powered and includes a plurality of dust deposition plates. The air inlet mechanism includes a first wind shield coupled to the first cavity and a second wind shield coupled to the second cavity.

Abstract translation: 构造成从空气中除去磁敏颗粒的废物收集装置包括主体，收集机构，进气机构，排气机构和排出机构。 主体包括盖，电控制器，隔板和空腔。 隔板将空腔分成第一腔和第二腔。 收集机构包括容纳在第一和第二空腔中的多个灰尘沉积部分。 每个灰尘沉积部分都是电动的并且包括多个灰尘沉积板。 空气入口机构包括联接到第一腔的第一风屏和联接到第二腔的第二风屏。

公开(公告)号：US20150101964A1

公开(公告)日：2015-04-16

申请号：US14055687

申请日：2013-10-16

Applicant: SIZE REDUCTION SPECIALISTS CORP.

Inventor： Donald Maynard

IPC: B07B1/06 ,  B03C1/26 ,  B07B1/46

CPC classification number: B07B1/06 ,  B03C1/035 ,  B03C1/10 ,  B03C1/26 ,  B03C1/286 ,  B03C1/30 ,  B03C2201/20 ,  B03C2201/28 ,  B07B1/20

Abstract: A particle separator is provided that separates small particulate from large particulate from an intermixed material feed. The separator finds particular utility in the field of separation of thermoplastic regrind particulate from intermixed debris which constitutes a smaller particulate relative to the thermoplastic regrind. Embodiments of the separator use a rotary shaft for mounting an spiral blade fed by a material feeder bin that meters material into the separator. The spiral blade is configured so that the material moves along a peripheral mesh screen to separate any smaller particulate that passes through the mesh screen leaving the large particulate to traverse though the separator, while small particulate is sieved therefrom the surrounding mesh and into a separate collection stream. The spiral blade is mounted to a central magnetic axis to achieve removal of unwanted foreign spurious metal shavings or particulate that may be introduced to molding materials due to mechanical wear of the processing machinery.

Abstract translation: 提供了一种颗粒分离器，其将小颗粒与大颗粒与混合材料进料分离。 分离器在热塑性再研磨颗粒与混合碎屑分离的领域中具有特别的用途，其相对于热塑性再研磨物构成较小的颗粒。 分离器的实施例使用旋转轴来安装螺旋叶片，所述旋转轴由材料进料器箱供料，所述材料进料器将材料计量到分离器中。 螺旋叶片被构造成使得材料沿着周边网筛移动以分离通过网筛的任何较小的颗粒，留下大的颗粒以通过分离器穿过，同时将小颗粒从其周围的网筛过，并进入单独的集合 流。 螺旋叶片被安装到中心磁轴线上以实现由于加工机械的机械磨损而导致可能引入成型材料的不需要的异物杂散金属屑或微粒。

公开(公告)号：US20150096928A1

公开(公告)日：2015-04-09

申请号：US14401948

申请日：2013-05-21

Applicant: Adey Holdings Limited

Inventor： Christopher Adey ,  Simon Downie

IPC: C02F1/48

CPC classification number: C02F1/481 ,  B01D21/0009 ,  B01D21/0042 ,  B01D21/2405 ,  B01D21/2411 ,  B01D21/2483 ,  B01D2221/02 ,  B03C1/286 ,  B03C2201/18 ,  B03C2201/28 ,  C02F2101/203 ,  C02F2201/48 ,  F24D19/0092

Abstract: A separator device (10) for removing particles from suspension in a fluid comprising: a housing (12), having a central axis extending between first and second opposing ends; an inlet (34) and an outlet (36) provided in an end of the housing (12); a separation chamber (46) for separating solid particles from the fluid, including obstruction means (60) to slow the flow of fluid within the chamber.

Abstract translation: 一种用于从流体悬浮液中除去颗粒的分离装置（10），包括：壳体（12），其具有在第一和第二相对端之间延伸的中心轴线; 设置在所述壳体（12）的端部中的入口（34）和出口（36）; 用于从流体分离固体颗粒的分离室（46），包括阻塞装置（60），以减缓腔室内的流体流动。

公开(公告)号：US08474629B1

公开(公告)日：2013-07-02

申请号：US12785959

申请日：2010-05-24

Applicant: Dan Allore ,  Brendan Ingalls

Inventor： Dan Allore ,  Brendan Ingalls

IPC: B03C1/00

CPC classification number: B03C1/284 ,  B03C2201/20 ,  B03C2201/28

Abstract: A tramp metal separation device for removing contaminants from a stream of raw materials that is being conveyed by a pneumatic conveying line. The tramp metal separation device includes a first housing, a drawer, and at least one actuator. The first housing has an inlet and an outlet that are connectable to the pneumatic conveying line. The drawer is supported with respect to the first housing such that the drawer is moveable between an extended position, where a plurality of magnets are positioned within the first housing and a retracted position, where the magnets are positioned outside of the first housing. A wiper assembly removes contaminants from the magnets as the drawer moves from the extended position to the retracted position. The actuator moves the drawer between its extended position and its retracted position.

Abstract translation: 一种用于从由气动输送线输送的原料流中除去污染物的流动金属分离装置。 流动金属分离装置包括第一壳体，抽屉和至少一个致动器。 第一壳体具有可连接到气动输送线的入口和出口。 抽屉相对于第一壳体被支撑，使得抽屉可以在多个磁体定位在第一壳体内的延伸位置和缩回位置之间移动，其中磁体位于第一壳体的外部。 当抽屉从延伸位置移动到缩回位置时，擦拭器组件从磁体中去除污染物。 执行器使抽屉在其延伸位置和缩回位置之间移动。

公开(公告)号：US20130032089A1

公开(公告)日：2013-02-07

申请号：US13515870

申请日：2010-11-24

Applicant: Kersten Link ,  Werner Swoboda ,  Erwin Hihn ,  Juergen Hanf

Inventor： Kersten Link ,  Werner Swoboda ,  Erwin Hihn ,  Juergen Hanf

IPC: B03C3/34 ,  B05B15/12

CPC classification number: B05B15/1244 ,  B03C3/013 ,  B03C3/017 ,  B03C3/53 ,  B03C2201/28 ,  B05B14/42 ,  B05B14/46

Abstract: A method for separating overspray from the cabin exhaust air of coating systems, in particular of painting systems, which is laden with overspray, the overspray is taken up by an air flow and conveyed to an electrostatically operating separating device. There, the bulk at least of the solids is separated from the overspray at at least one separating surface. An electrically conductive material or material mixture is used as a separating agent, which is applied to the at least one separating surface of the separating device and at the operating temperature of the separating device has a wax-like consistency. Also a separating device with such a wax-like material and a system for coating articles.

Abstract translation: 用于将喷涂过滤器与喷涂系统的特别是喷涂系统的喷射系统分离的喷溅过程的方法，其过度喷涂，喷射被空气流吸收并输送到静电操作的分离装置。 在那里，在至少一个分离表面处，至少固体的体积与过喷剂分离。 使用导电材料或材料混合物作为分离剂，其被施加到分离装置的至少一个分离表面，并且在分离装置的操作温度下具有蜡状稠度。 也是具有这种蜡状材料的分离装置和用于涂覆制品的系统。

公开(公告)号：US08357233B2

公开(公告)日：2013-01-22

申请号：US12658359

申请日：2010-02-05

Applicant: Sik Leung Chan

Inventor： Sik Leung Chan

IPC: B03C3/08 ,  B03C3/47 ,  B03C3/70 ,  B03C3/78

CPC classification number: B03C3/70 ,  B03C3/08 ,  B03C3/12 ,  B03C3/32 ,  B03C3/368 ,  B03C3/68 ,  B03C3/86 ,  B03C2201/28

Abstract: Devices for removing particles for a gas utilizing electrostatic precipitation having collector modules with fewer electrical connections, which facilitate cleaning, and/or eliminate the need for high voltage connections between a removable collector module and a collector module support. Driver electrode modules provide electrical connection between an insulated driver electrode and a source of electrical potential or between insulated driver electrodes and at least one other conductor through a hole in or on some edge on the driver electrodes. A biasing force is provided and a conductive element serves as a conductor between the driver electrode(s) and the other conductors. A plurality of insulated driver electrodes, e.g. plates, are formed with a single, conductive plate or from a plurality of electrically joined conductive plates which are coated with insulation and then bent. An electrically-shielded, high voltage generating circuit is integrated with a readily removable collector module to eliminate the need for high voltage connections between the removable collector module and the collector module support, while enhancing the device's durability and allowing cleaning with cleaning fluid and/or dishwasher detergent.

Abstract translation: 用于利用静电沉淀去除气体的颗粒的装置，其具有具有较少电连接的收集器模块，这有助于清洁，和/或消除对可移除的收集器模块和收集器模块支架之间的高压连接的需要。 驱动器电极模块提供绝缘的驱动器电极和电位源之间的电连接，或者通过驱动器电极上的一些边缘上的孔中的绝缘驱动器电极和至少一个其它导体之间的电连接。 提供偏压力，并且导电元件用作驱动电极和其它导体之间的导体。 多个绝缘驱动电极，例如， 板形成有单个导电板或多个电连接的导电板，其被涂覆绝缘然后弯曲。 电屏蔽的高压发生电路与易于移除的集电器模块集成，以消除对可移除的集电器模块和收集器模块支撑件之间的高压连接的需要，同时增强了设备的耐用性并允许用清洁流体和/或 洗碗机洗涤剂。

公开(公告)号：US08202355B2

公开(公告)日：2012-06-19

申请号：US13297684

申请日：2011-11-16

Applicant: Michael A. Centanni ,  Thaddeus J. Mielnik

Inventor： Michael A. Centanni ,  Thaddeus J. Mielnik

IPC: B03C3/60

CPC classification number: B03C3/49 ,  B03C3/41 ,  B03C3/64 ,  B03C2201/08 ,  B03C2201/28

Abstract: The present invention provides a method and apparatus for removing chemical sterilant molecules from a medium, such as a carrier gas. In one embodiment, the apparatus includes a housing that defines an internal cavity. The housing has an inlet and an outlet fluidly communicating with the internal cavity. An electrode is dimensioned to be received in the internal cavity of the housing. The electrode is made of a material that is chemically active with respect to molecules of a chemical sterilant and conductive to electricity. The electrode is connected to a source of an electrical charge such that an electrical field gradient is formed in a region of space surrounding the electrode. The electrical field gradient is operable to force the chemical sterilant molecule toward the electrode.

Abstract translation: 本发明提供了用于从介质如载气中去除化学灭菌剂分子的方法和装置。 在一个实施例中，该装置包括限定内部空腔的壳体。 壳体具有与内腔流体连通的入口和出口。 电极的尺寸被设计成容纳在壳体的内腔中。 电极由相对于化学消毒剂的分子化学活性并且导电的材料制成。 电极连接到电荷源，使得在电极周围的空间的区域中形成电场梯度。 电场梯度可操作以迫使化学杀菌剂分子朝向电极。