公开(公告)号：US20130269518A1

公开(公告)日：2013-10-17

申请号：US13977816

申请日：2011-07-14

Applicant: Veikko Ilmari Ilmasti

Inventor： Veikko Ilmari Ilmasti

IPC: B03C3/014

CPC classification number: B03C3/014 ,  B01D47/06 ,  B03C3/16 ,  B03C3/383 ,  B03C2201/24 ,  B03C2201/32

Abstract: A device for purifying air from non-desired gases and particles, in the case of nuclear power plants from radiating particles and gaseous iodine, and for extermination of microorganisms and removal from the air. The device includes a purifying chamber through which the air to be purified is arranged to flow. In the structurally grounded purifying chamber ionized air (1) is led to a water dust or vapor which can be oxidized with hydrogen peroxide (6) and by increasing the voltage level of the ionization to produce ozone and to be led further to high voltage operated ion blast tips (8) producing a continuous ion jet, which is directed onto collecting surfaces (9) and taking with it droplets, particulate materials and gaseous components connected to them. The volume of the air to be purified determines the shape and volume of the purifying device.

Abstract translation: 一种用于从核辐射颗粒和气态碘的核电站的情况下净化来自非所需气体和颗粒的空气，以及用于灭菌和从空气中排出的装置。 该装置包括净化室，净化空气通过该净化室布置成流过。 在结构接地的净化室中，电离空气（1）被引导到可以用过氧化氢（6）氧化的水尘或蒸汽，并且通过增加电离的电压来产生臭氧并进一步被引导到高电压操作 产生连续离子射流的离子鼓风尖端（8），其被引导到收集表面（9）上并且与其接触，连接到它们的液滴，颗粒材料和气体组分。 要净化的空气的体积决定了净化装置的形状和体积。

公开(公告)号：US08192630B1

公开(公告)日：2012-06-05

申请号：US13121175

申请日：2010-12-21

Applicant: Angele Sjong

Inventor： Angele Sjong

IPC: B03C1/01 ,  B03C1/32 ,  B01F3/08

CPC classification number: B01F13/0059 ,  B01F3/0815 ,  B01F13/0006 ,  B01F13/0809 ,  B03C1/01 ,  B03C1/288 ,  B03C1/30 ,  B03C2201/32 ,  Y10T436/25375

Abstract: Methods for in-line purification of surfactant from a first fluid, such as a microemulsion are disclosed. Magnetic particles coated with surfactant molecules may be used to bind surfactants from a fluid. A magnetic field may be used to separate the bound materials from the fluid.

Abstract translation: 公开了从第一流体如微乳液中直接纯化表面活性剂的方法。 涂有表面活性剂分子的磁性颗粒可用于从流体中结合表面活性剂。 可以使用磁场将结合的材料与流体分离。

公开(公告)号：US08192523B1

公开(公告)日：2012-06-05

申请号：US12391068

申请日：2009-02-23

Applicant: Stanley L. Kaufman ,  Jeremy Kolb ,  Ricky L. Holm

Inventor： Stanley L. Kaufman ,  Jeremy Kolb ,  Ricky L. Holm

IPC: B03C3/34

CPC classification number: B03C3/017 ,  B03C2201/24 ,  B03C2201/32

Abstract: A respirator leak detection system and method for increasing the sensitivity and accuracy of leak detection through the fit seal of a respirator. A charged particle separator is used to separate charged particles that pass therethrough and to draw charged particles away from an aerosol flow into a clean gas flow. The separator may also be configured as an aerosol concentrator that takes in a major aerosol flow and outputs a minor flow of higher particle concentration. Neutral particles having no charge, which may have passed through the filtering medium respirator and which are not indicative of fit seal leaks are not entrained in the output flow for subsequent detection, thus increasing the accuracy of the filter leak detection system.

Abstract translation: 一种呼吸器泄漏检测系统和方法，用于通过呼吸器的配合密封提高泄漏检测的灵敏度和准确度。 带电粒子分离器用于分离通过其中的带电粒子，并将带电粒子从气溶胶流中吸引到干净的气体流中。 分离器也可以被配置为吸收主要气溶胶流并输出较小颗粒浓度的较小流量的气溶胶浓缩器。 没有电荷的中性颗粒可能已经通过过滤介质呼吸器并且不表示适合的密封泄漏，不会夹带在输出流中用于随后的检测，从而提高了过滤器泄漏检测系统的精度。

公开(公告)号：US20110307198A1

公开(公告)日：2011-12-15

申请号：US12801544

申请日：2010-06-14

Applicant: Zakariya Al-Hamouz ,  Amer El-Hamouz ,  Nabil Abuzaid

Inventor： Zakariya Al-Hamouz ,  Amer El-Hamouz ,  Nabil Abuzaid

IPC: G01R21/06 ,  G06F19/00

CPC classification number: B03C3/68 ,  B03C2201/24 ,  B03C2201/32

Abstract: The method for estimating corona power loss in a dust-loaded electrostatic precipitator numerically solves Poisson's equation and current continuity equations in which the finite element method (FEM) and a modified method of characteristics (MMC) are used. The system is a computerized system that produces results showing how different parameters such as discharging wire radius, wire-to-wire spacing, wire-to-plate spacing, fly ash flow speed and applied voltage polarity influence corona power loss and current density profiles.

Abstract translation: 用于评估灰尘负荷静电除尘器中电晕功率损耗的方法，数值解决了使用有限元方法（FEM）和改进的特征方法（MMC）的泊松方程和电流连续性方程。 该系统是一个计算机化系统，可以产生结果，显示不同的参数，如放电线半径，线到线间距，线到板间距，飞灰流速和施加的电压极性如何影响电晕功率损耗和电流密度分布。

公开(公告)号：US07965487B2

公开(公告)日：2011-06-21

申请号：US12224564

申请日：2006-03-03

Applicant: Takafumi Seto ,  Makoto Hirasawa ,  Masaaki Tsuji ,  Akira Okuyama ,  Susumu Saito

Inventor： Takafumi Seto ,  Makoto Hirasawa ,  Masaaki Tsuji ,  Akira Okuyama ,  Susumu Saito

IPC: H02H3/00 ,  H02H3/04 ,  G03G15/02

CPC classification number: H01T23/00 ,  B03C3/383 ,  B03C2201/10 ,  B03C2201/24 ,  B03C2201/32

Abstract: A neutralization apparatus comprising an ion generation element employing a novel, high efficiency discharge system capable of generating high concentration ions with a low ozone concentration. In the neutralization apparatus, the ion generation element is a minute electrode ion generation element consisting of a discharge electrode and an induction electrode having minute protrusions arranged in one direction on a plane, and a thin dielectric film sandwiched between them. The ion generation element is constituted of a set of a minute electrode ion generation element for generating positive ions and a minute electrode ion generation element for generating negative ions, characterized in that at least one or more ion generating elements are disposed so that the plane including each discharge electrode is parallel with the direction of gas flow and discharge electrodes are arranged perpendicularly to the direction of gas flow, and balanced control of positive and negative ions can be carried out at a position on the downstream side of gas flow by regulating a voltage applied to the discharge electrode of the ion generation element.

Abstract translation: 一种中和装置，其包括使用能够产生臭氧浓度低的高浓度离子的新型高效率放电系统的离子发生元件。 在中和装置中，离子产生元件是由放电电极和感应电极构成的微小电极离子产生元件，其具有在一个方向上沿平面布置的微小突起，以及夹在它们之间的薄电介质膜。 离子产生元件由一组用于产生正离子的微小电极离子产生元件和用于产生负离子的微小电极离子产生元件组成，其特征在于，至少一个或多个离子产生元件被设置成使得包括 每个放电电极与气体流动的方向平行，并且放电电极垂直于气流方向布置，并且可以通过调节电压在气流的下游侧的位置处进行正负离子的平衡控制 施加到离子产生元件的放电电极。

公开(公告)号：US20110072887A1

公开(公告)日：2011-03-31

申请号：US12957890

申请日：2010-12-01

Applicant: Akio OKI

Inventor： Akio OKI

IPC: G01N37/00

CPC classification number: B03C3/017 ,  B03C3/014 ,  B03C3/383 ,  B03C3/68 ,  B03C2201/24 ,  B03C2201/26 ,  B03C2201/32 ,  G01N1/4022 ,  G01N2001/4033

Abstract: The present invention provides a method for detecting easily and efficiently a chemical substance contained in a gas sample at an ultralow amount.The present invention is directed to detecting method of a chemical substance contained in a gas sample, using an analyzing device with electrostatic atomizer. The analyzing device comprises a vessel, a inlet, a cooling part, an atomizing electrode, a counter electrode, an intermediate electrode, a liquid detecting part, and a detecting electrode. According to a detecting method of the present invention, the gas sample is condensed as a first condensate liquid at the surface of the atomizing electrode. The first condensate liquid is configured to be electric-charged fine particles to obtain a second condensate liquid at the surface of the counter electrode. The resulted second condensate liquid is brought in contact with the detecting electrode and a current voltage is applied between the counter electrode and the detecting electrode. The chemical substance is detected on the basis of the generated current value.

Abstract translation: 本发明提供一种容易且高效地检测气体样品中含有的化学物质的方法。 本发明涉及使用具有静电雾化器的分析装置来检测包含在气体样品中的化学物质的方法。 分析装置包括容器，入口，冷却部分，雾化电极，对电极，中间电极，液体检测部分和检测电极。 根据本发明的检测方法，气体样品在雾化电极的表面作为第一冷凝液冷凝。 第一冷凝液被配置为带电的微粒，以在对电极的表面获得第二冷凝液。 所得到的第二冷凝液与检测电极接触，并且在对电极和检测电极之间施加电流电压。 根据产生的电流值检测化学物质。

公开(公告)号：US20090218113A1

公开(公告)日：2009-09-03

申请号：US12320801

申请日：2009-02-05

Applicant: Markus Johnen ,  Wolfgang Stickel

Inventor： Markus Johnen ,  Wolfgang Stickel

IPC: B25F5/00 ,  B08B15/04 ,  H02K9/26

CPC classification number: B25F5/008 ,  B03C1/0332 ,  B03C1/282 ,  B03C2201/32 ,  B23Q11/0064 ,  B23Q11/127 ,  B24B23/028 ,  H02K9/06 ,  H02K9/26 ,  Y10T83/242

Abstract: An electrical hand tool device (2) comprises a ventilated housing body (4), which has inlet and outlet openings (6, 8) for cooling air flow and accommodates the electromotive components (12) of the device, in particular, a motor (14) that is excited by a permanent magnet and is powered by a battery, and a magnet (22, 24) that is provided in the area of the cooling air flow for absorbing magnetic or magnetizable dust. In order to protect the electric motor, the device is designed in such a fashion that at least two magnets (22, 24) are provided in the axial direction (26) between the inlet openings (6, 8) and the electromotive components (12) of the device, and a means (30) is provided, which electrically cooperates with the at least two magnets (22, 24) to determine whether a substantial amount of magnetizable dust has collected on the magnets (22, 24), in which case, a control measure can be performed.

Abstract translation: 电动手动工具装置（2）包括通风的壳体（4），其具有用于冷却空气流的入口和出口（6,8），并容纳该装置的电动部件（12），特别是马达（ 14），其由永磁体激励并由电池供电;以及磁体（22,24），其设置在用于吸收磁性或可磁化粉尘的冷却空气流的区域中。 为了保护电动机，该装置被设计成使得至少两个磁体（22,24）在入口（6,8）和电动部件（12）之间的轴向（26）上设置 ），并且提供了一种装置（30），其与所述至少两个磁体（22,24）电配合，以确定在所述磁体（22,24）上是否收集了大量可磁化的灰尘，其中 情况下，可以执行控制措施。

公开(公告)号：US20070205529A1

公开(公告)日：2007-09-06

申请号：US11573910

申请日：2005-09-08

Applicant: Donald May ,  Sharon May

Inventor： Donald May ,  Sharon May

IPC: B07C5/344 ,  C08K3/10

CPC classification number: B03C1/22 ,  B03C2201/24 ,  B03C2201/32 ,  C08K2201/01

Abstract: Contaminants in food or pharmaceuticals derived from the handling equipment are detected by known detection devices in product flow by the method of detecting particulate magnetic mineral dispersed in the handling equipment or the film used to wrap the food. The minerals magnetic field is detected and the signal generated thereby causes rejection of the product which contains the contamination. A method of making moulded parts of the handling equipment and wrapping film by incorporation of ferrimagnetic ceramic fillers is disclosed. Compositions for moulding and film extrusion with 10-50% of magnetite and other magnetic fillers with a size range of 0.5-20μ are disclosed.

Abstract translation: 来自处理设备的食品或药物中的污染物通过检测分散在处理设备中的颗粒状磁性矿物或用于包裹食品的膜的方法，通过产品流程中的已知检测装置来检测。 检测到矿物磁场，由此产生的信号引起含有污染物的产品的排除。 公开了通过并入铁氧体陶瓷填料制造处理设备和包装膜的成型部件的方法。 公开了用于成型和膜挤出的组合物，其具有10-50％的磁铁矿和其它尺寸范围为0.5-20mu的磁性填料。

公开(公告)号：US20050098482A1

公开(公告)日：2005-05-12

申请号：US10706434

申请日：2003-11-12

Applicant: Alan Thomas ,  Michael Bagley

Inventor： Alan Thomas ,  Michael Bagley

IPC: B03C1/06 ,  B03C1/00

CPC classification number: B03C1/06 ,  B03C2201/32

Abstract: The invention is a novel automated apparatus for optically inspecting both sides of manufactured components for manufacturing defects. The invention can be used to inspect either ferrous or non-ferrous components. The apparatus comprises a first and a second rotable disc and either a first and a second nonrotable magnet or a first and second nonrotable vacuum plenum. The first rotable disc rotates in a first direction and the second rotable disc rotates in a second direction. Components are either magnetically held to each disc or held by vacuum. At a transfer station, a bottom surface of the second rotable disc partially overlaps a top surface of the first rotable disc, and components are transferred from the first rotable disc to the second rotable disc.

Abstract translation: 本发明是一种新颖的自动化设备，用于光学检查制造部件的两侧以制造缺陷。 本发明可用于检查黑色金属或有色金属元件。 该装置包括第一和第二可旋转盘以及第一和第二不可旋转磁体或第一和第二不可旋转的真空增压室。 第一可旋转盘沿第一方向旋转，第二可旋转盘沿第二方向旋转。 组件被磁性地保持在每个盘上或由真空保持。 在转运站，第二可转动盘的底表面部分地与第一可旋转盘的顶表面重叠，并且部件从第一可旋转盘转移到第二可旋转盘。

公开(公告)号：US09797864B2

公开(公告)日：2017-10-24

申请号：US14118284

申请日：2012-05-14

Applicant: Peter Johannes McKinney

Inventor： Peter Johannes McKinney

IPC: B03C3/68 ,  G01N27/62 ,  B03C3/09 ,  B03C3/12 ,  B03C3/155 ,  B03C3/41 ,  B03C3/47

CPC classification number: G01N27/62 ,  B03C3/09 ,  B03C3/12 ,  B03C3/155 ,  B03C3/41 ,  B03C3/47 ,  B03C3/68 ,  B03C2201/04 ,  B03C2201/10 ,  B03C2201/24 ,  B03C2201/32

Abstract: A filtration system includes a frame directing a fluid flow through the filtration system. An ionization array is located in the frame and has an ionizer current flowing therethrough. The system further includes a media filter having a plurality of media fibers arranged to capture particles flowing therethrough and a conductive surface located at the media filter and having a filter current flowing therethrough. A comparator is utilized to determine a difference between the ionizer current and the filter current, and compare that difference to a predetermined range.