公开(公告)号：US09309796B2

公开(公告)日：2016-04-12

申请号：US14005125

申请日：2011-03-16

Applicant: Shinichi Mitani ,  Hiroshi Nomura ,  Eiji Murase

Inventor： Shinichi Mitani ,  Hiroshi Nomura ,  Eiji Murase

IPC: F01N3/00 ,  F01N3/021 ,  B03C3/41 ,  B03C3/49 ,  B03C3/68 ,  F01N9/00 ,  F01N11/00 ,  F01N3/01

CPC classification number: F01N3/021 ,  B03C3/41 ,  B03C3/49 ,  B03C3/68 ,  B03C2201/08 ,  B03C2201/24 ,  B03C2201/30 ,  B03C2201/32 ,  F01N3/01 ,  F01N9/00 ,  F01N11/00 ,  F01N2550/22 ,  F01N2560/025 ,  F01N2560/07 ,  F01N2900/0601 ,  F01N2900/1411 ,  F01N2900/16 ,  Y02T10/20 ,  Y02T10/47

Abstract: An excessively large electric current is suppressed from flowing to an electrode. Provision is made for an electrode arranged in an exhaust passage of an internal combustion engine, a power supply connected to the electrode for applying a voltage thereto, an air fuel ratio detection device for detecting or estimating an air fuel ratio of an exhaust gas which flows through the exhaust passage, and a power upper limit setting device for setting an upper limit for electric power supplied to the electrode from the power supply in cases where the air fuel ratio detected or estimate.

Abstract translation: 抑制过大的电流流向电极。 对于配置在内燃机的排气通道中的电极，连接到用于施加电压的电极的电源，设置用于检测或估计流过的排气的空燃比的空燃比检测装置 通过排气通道，以及功率上限设定装置，用于在检测或估计空燃比的情况下，从供电设定供给电极的电力的上限。

公开(公告)号：US09212983B2

公开(公告)日：2015-12-15

申请号：US13605183

申请日：2012-09-06

Applicant: Chiryo Tsunoda

Inventor： Chiryo Tsunoda

IPC: G01N15/02 ,  G01F1/56 ,  G06F15/00 ,  B03C3/145 ,  B03C3/155 ,  G01N15/06

CPC classification number: G01N15/0266 ,  B03C3/145 ,  B03C3/155 ,  B03C2201/24 ,  G01F1/56 ,  G01N15/0656 ,  G06F15/00

Abstract: A particle size distribution measuring system 1 sets a reference voltage in a DMA 300 to a voltage value U, and executes the classifying of aerosol particles based on electrical mobility, in an electric field to which the voltage value U is supplied. When a predetermined condition is not satisfied, an analyzing device 600 causes a sum of the voltage value for the previous classifying (previous value) and the voltage value U to be re-set in the DMA 300 and causes the classifying of the aerosol particles to be executed again. A particle measuring device 400 defines a first measurement result as a measurement result M1, and defines a result of the re-measurement as a new measurement result Mx every time the measurement is thereafter repeated. An analyzing device 600 calculates a ratio of the measurement result Mx to the measurement result M1, and confirms that the condition is satisfied when the calculation result is a prescribed value or smaller, while confirming that the condition is not satisfied when the calculation result is larger than the prescribed value.

Abstract translation: 粒度分布测量系统1将DMA 300中的参考电压设置为电压值U，并且在提供电压值U的电场中基于电迁移率执行气溶胶颗粒的分类。 当不满足预定条件时，分析装置600使得在DMA 300中重新设置先前分类（先前值）和电压值U的电压值之和，并且使气溶胶颗粒分类 再次执行 粒子测量装置400将第一测量结果定义为测量结果M1，并且每当重复测量时，将重新测量的结果定义为新的测量结果Mx。 分析装置600计算测量结果Mx与测量结果M1的比率，并且当计算结果为规定值以下时确认满足条件，同时在计算结果较大时确认条件不满足 超过规定值。

公开(公告)号：US09128026B2

公开(公告)日：2015-09-08

申请号：US13519021

申请日：2011-03-16

Applicant: Shinichi Mitani ,  Hiroshi Nomura ,  Eiji Murase

Inventor： Shinichi Mitani ,  Hiroshi Nomura ,  Eiji Murase

IPC: G01N15/00 ,  G01N27/04 ,  B03C3/41 ,  B03C3/68 ,  F01N11/00 ,  B03C3/017 ,  G01N15/06

CPC classification number: G01N27/04 ,  B03C3/0175 ,  B03C3/41 ,  B03C3/68 ,  B03C2201/24 ,  B03C2201/30 ,  F01N11/00 ,  F01N11/007 ,  F01N2560/05 ,  F01N2560/12 ,  F01N2900/1606 ,  G01N15/0606 ,  Y02T10/47

Abstract: An amount of aggregation of particulate matter is estimated with a high degree of accuracy. A particulate matter processing apparatus in which a processing part with an electrode installed therein is arranged in an exhaust passage of an internal combustion engine, wherein particulate matter is caused to aggregate by generating a potential difference between the electrode and the processing part, is provided with a power supply that is connected to the electrode and applies a voltage thereto, a current detection device that detects an electric current which passes through the electrode, an estimation device that estimates an amount of aggregation of the particulate matter based on the electric current detected at the time when the voltage is applied to the electrode, an air fuel ratio detection device that detects or estimates an air fuel ratio of an exhaust gas which flows through the exhaust passage, and a prohibition device which prohibits an estimation by the estimation device in the case of a rich air fuel ratio.

Abstract translation: 以高精度估计颗粒物质的聚集量。 在其中安装有电极的处理部件的颗粒物处理装置设置在内燃机的排气通道中，其中通过在电极和处理部件之间产生电位差而使颗粒物质聚集， 与电极连接并对其施加电压的电源，检测通过电极的电流的电流检测装置，基于在电极上检测到的电流来估计颗粒物的聚集量的估计装置， 对电极施加电压的时间，检测或估计通过排气通路的排气的空燃比的空燃比检测装置，以及禁止在估计装置中进行的估计的禁止装置 超大空燃比的情况。

公开(公告)号：US20150224516A1

公开(公告)日：2015-08-13

申请号：US14428324

申请日：2013-08-06

Applicant: DAIKIN INDUSTRIES, LTD.

Inventor： Toshio Tanaka ,  Kenkichi Kagawa ,  Shunji Haruna ,  Tatsumi Enokida ,  Kei Suzumura

IPC: B03C3/72 ,  B03C3/88

CPC classification number: B03C3/72 ,  A61L9/22 ,  B03C3/88 ,  B03C2201/24 ,  F24F3/166 ,  F24F2003/1635 ,  H01T19/00 ,  H01T23/00 ,  Y02A50/21

Abstract: An air purification device includes a controller configured to perform a normal discharge operation in which a discharger generates streamer discharge to purify air, and an emergency discharge operation in which, in order to remove substances, which are components contained in air, adhering to electrodes of the discharger due to the normal discharge operation, a higher voltage than that in the normal discharge operation is applied to the electrodes to cause the discharger to generate spark discharge. The controller adjusts an application voltage such that a current value between the electrodes is maintained constant, and the upper limit V of the application voltage is set at a value greater than an inter-electrode distance of d×1.2 (V≧d×1.2).

Abstract translation: 一种空气净化装置，包括控制器，其被配置为执行正常放电操作，其中放电器产生流光放电以净化空气;以及紧急放电操作，其中为了除去作为空气中包含的成分的物质， 由于正常的放电操作，放电器对电极施加比正常放电操作更高的电压，以使放电器产生火花放电。 控制器调节施加电压，使得电极之间的电流值保持恒定，并且施加电压的上限V被设定为大于d×1.2（V≥d×1.2）的电极间距离的值， 。

公开(公告)号：US20150108047A1

公开(公告)日：2015-04-23

申请号：US14001833

申请日：2012-02-28

Applicant: Peter Carlo Rem ,  Martinus Cornelis Maria Bakker ,  Simon Peter Maria Berkhout ,  Mohammed Abdur Rahman

Inventor： Peter Carlo Rem ,  Martinus Cornelis Maria Bakker ,  Simon Peter Maria Berkhout ,  Mohammed Abdur Rahman

IPC: B03C1/30 ,  B03C1/247

CPC classification number: B03C1/30 ,  B03C1/247 ,  B03C2201/20 ,  B03C2201/24

Abstract: Eddy current separation apparatus (1) for separating particles (20) from a particle stream (w), wherein the apparatus (1) comprises a separator drum (4) adapted to create a first particle fraction (21) and a second particle fraction (23), a feeding device (2) upstream of the separator drum (4) for supplying particles (20) to said separator drum (4), and a splitter element (14) provided downstream of the separator drum (4) for splitting the respective fractions (21,23), wherein the apparatus (1) further comprises a sensor device (11,111,211) arranged for detecting particles (20), at least a number and/or material properties thereof, from at least part of one of the particle fractions (21), wherein the separation apparatus (1) is configured to adjust, in use, a position and/or orientation of the splitter element (14) with respect to the separator drum (4) and/or a transporting velocity of the feeding device (2) in dependence of a signal from the sensor device (11,111,211) based on the number and/or material properties of the detected particles (20).

Abstract translation: 用于从颗粒流（w）分离颗粒（20）的涡流分离装置（1），其中装置（1）包括适于产生第一颗粒部分（21）和第二颗粒部分（21）的分离鼓（4） 在分离器滚筒（4）的上游，用于向所述分离鼓（4）供应颗粒（20）的进料装置（2）和设置在分离鼓（4）下游的分流元件（14） 各个部分（21,23），其中所述装置（1）还包括传感器装置（11,111,211），所述传感器装置（11,111,211）从所述颗粒中的至少一部分检测颗粒（20）至少数量和/或材料性质 其中所述分离装置（1）被配置为在使用中调节分离器元件（14）相对于分离器鼓（4）的位置和/或取向和/或 基于来自传感器装置（11,111,211）的信号，馈送装置（2） 检测到的颗粒（20）的木材和/或材料性质。

公开(公告)号：US08809766B2

公开(公告)日：2014-08-19

申请号：US13807148

申请日：2011-06-28

Applicant: Yuchen Ma

Inventor： Yuchen Ma

IPC: G01N15/10 ,  A01N25/28 ,  H01L31/0352

CPC classification number: G01N15/1031 ,  B03C3/025 ,  B03C3/08 ,  B03C3/12 ,  B03C3/145 ,  B03C2201/10 ,  B03C2201/16 ,  B03C2201/24 ,  G01N15/02 ,  G01N2001/4038 ,  G01N2015/0038

Abstract: Methods and systems for detecting and/or collecting particles are disclosed. At least some of the particles are electrically charged by a charger (122). At least some of the charged particles are collected by a collector (140). Information indicating the number of the detected/collected particles based on measured electrical charges of the charged particles is obtained by a processor (170).

Abstract translation: 公开了用于检测和/或收集颗粒的方法和系统。 至少一些颗粒由充电器（122）充电。 至少一些带电粒子由收集器（140）收集。 通过处理器（170）获得表示基于所测量的带电粒子的电荷的检测/收集的粒子的数量的信息。

公开(公告)号：US20140227679A1

公开(公告)日：2014-08-14

申请号：US14131328

申请日：2012-07-09

Applicant: Gil Lee ,  Peng Li ,  Mark Platt ,  Gemma Cannon

Inventor： Gil Lee ,  Peng Li ,  Mark Platt ,  Gemma Cannon

IPC: G01N33/50

CPC classification number: G01N33/54326 ,  B03C1/01 ,  B03C1/288 ,  B03C2201/18 ,  B03C2201/24 ,  B03C2201/26 ,  G01N2446/84

Abstract: There is provided a method of aggregating a plurality of beads in a magnetic bead aggregation assay for subsequent analysis comprising: —providing magnetic beads comprising a capture probe for binding with said target analyte; —reacting the magnetic beads with the sample including a target analyte in a reaction chamber aggregating the magnetic beads in the presence of a magnetic field with the target analyte to allow formation of magnetic bead aggregates having physical properties detectable to enable characterisation of the aggregates on an aggregate by aggregate basis using a detector to measure the physical properties of the aggregates. Further provided are a method and system for detecting analytes in a sample by characterising the magnetic bead aggregates on an aggregate by aggregate basis by measuring physical properties of the aggregates.

Abstract translation: 提供了一种在用于随后分析的磁珠聚集测定中聚集多个珠的方法，包括： - 提供包含用于与所述目标分析物结合的捕获探针的磁珠; 在包含目标分析物的反应室中，在存在磁场的情况下将目标分析物与目标分析物一起反应，以使形成具有可检测物理特性的磁珠聚集体，以使得能够在 使用检测器以聚集为基础的聚集体来测量聚集体的物理性质。 进一步提供了一种通过测量聚集体的物理性质通过聚集体来表征聚集体上的磁珠聚集体来检测样品中的分析物的方法和系统。

公开(公告)号：US20140144317A1

公开(公告)日：2014-05-29

申请号：US14170229

申请日：2014-01-31

Applicant: Trane International Inc.

Inventor： John Mark Hagan

IPC: B03C3/36 ,  B03C3/68

CPC classification number: B03C3/36 ,  B01D46/46 ,  B03C3/017 ,  B03C3/68 ,  B03C2201/24 ,  B03C2201/32

Abstract: An HVAC system having an air cleaner, a fan configured to selectively generate an air flow, wherein at least a portion of the air flow is passed through the air cleaner, and a controller configured to control the air cleaner in response to at least one of a setting for controlling the fan and an operation characteristic of the fan is disclosed.

Abstract translation: 一种具有空气净化器的HVAC系统，被配置为选择性地产生空气流的风扇，其中所述空气流的至少一部分通过所述空气净化器，以及控制器，被配置为响应于以下中的至少一个来控​​制所述空气净化器： 公开了一种用于控制风扇的设置和风扇的操作特性。

公开(公告)号：US08663362B2

公开(公告)日：2014-03-04

申请号：US13025420

申请日：2011-02-11

Applicant: John Mark Hagan

Inventor： John Mark Hagan

IPC: B03C3/36

CPC classification number: B03C3/36 ,  B01D46/46 ,  B03C3/017 ,  B03C3/68 ,  B03C2201/24 ,  B03C2201/32

Abstract: An HVAC system having an air cleaner, a fan configured to selectively generate an air flow, wherein at least a portion of the air flow is passed through the air cleaner, and a controller configured to control the air cleaner in response to at least one of a setting for controlling the fan and an operation characteristic of the fan is disclosed. A method of controlling an air cleaner by determining an air flow related criterion value, wherein the air flow is associated with an air flow through an air cleaner, comparing the determined air flow related criterion value to a threshold criterion value, and controlling the air cleaner as a function of a result of comparing the determined air flow related criterion value to the threshold criterion value is disclosed. A method of controlling an ozone concentration outputted by an air cleaner is disclosed.

Abstract translation: 一种具有空气净化器的HVAC系统，被配置为选择性地产生空气流的风扇，其中所述空气流的至少一部分通过所述空气净化器，以及控制器，被配置为响应于以下中的至少一个来控​​制所述空气净化器： 公开了一种用于控制风扇的设置和风扇的操作特性。 一种通过确定空气流相关标准值来控制空气滤清器的方法，其中所述空气流与通过空气滤清器的空气流相关联，将所确定的气流相关标准值与阈值标准值进行比较，并且控制空气净化器 作为将确定的气流相关标准值与阈值标准值进行比较的结果的函数。 公开了一种控制由空气滤清器输出的臭氧浓度的方法。

公开(公告)号：US20140021105A1

公开(公告)日：2014-01-23

申请号：US13809091

申请日：2011-07-07

Applicant: Gil Lee ,  Peng Li ,  Mark Platt ,  Gemma Cannon

Inventor： Gil Lee ,  Peng Li ,  Mark Platt ,  Gemma Cannon

IPC: B03C1/02

CPC classification number: B03C1/02 ,  B03C1/032 ,  B03C1/24 ,  B03C1/288 ,  B03C2201/18 ,  B03C2201/24 ,  B03C2201/26 ,  G01N27/44756

Abstract: A flow enhanced method and system for flow non-linear magnetophoresis (F-NLM) is described. By tuning an external field frequency and the flow rate the migration velocities of different bead types may be caused to differ by several orders of magnitude over an extended range of frequencies to allow for separation of particles. Use of such efficiency in separation in bio-separation and similar assays is described.

Abstract translation: 描述了用于流动非线性磁电泳（F-NLM）的流动增强方法和系统。 通过调整外场频率和流速，可以使不同珠粒类型的迁移速度在扩展的频率范围内相差几个数量级以允许分离颗粒。 描述了在生物分离中的这种效率的使用和类似的测定。