公开(公告)号：US20050284623A1

公开(公告)日：2005-12-29

申请号：US10876242

申请日：2004-06-24

Applicant: Wallace Poole ,  James Abbott ,  Gabriel Kuschel ,  Jian Hua

Inventor： Wallace Poole ,  James Abbott ,  Gabriel Kuschel ,  Jian Hua

IPC: F01N1/02 ,  F01N1/08 ,  F01N5/02 ,  F01N13/08 ,  F25B29/00 ,  F28D7/02

CPC classification number: F01N5/02 ,  F01N1/006 ,  F01N2470/02 ,  F01N2490/08 ,  F01N2490/14 ,  F01N2490/155 ,  F28D7/024 ,  F28F2265/28 ,  Y02T10/16

Abstract: A combined muffler and heat exchanger apparatus is provided. The apparatus includes a housing defining a heat transfer chamber and an acoustic attenuation chamber separated by a partition. A flow regulator and a fluid transport member are disposed within the heat transfer chamber. The flow regulator is adapted to regulate the flow of a first fluid, such as a heat source, between an input end of the housing and the partition. The fluid transport member is adapted to contain the flow of a second fluid. An acoustic regulator is disposed in the acoustic attenuation chamber and extends longitudinally from the partition to an output end of the housing. The acoustic regulator is a metal tube including a plurality of apertures adapted to attenuate exhaust stream acoustics associated with an automotive vehicle power source.

Abstract translation: 提供了组合的消音器和热交换器装置。 该装置包括限定传热室的壳体和由隔板分隔开的声衰减室。 流量调节器和流体输送构件设置在传热室内。 流量调节器适于调节壳体的输入端和隔板之间的第一流体（例如热源）的流动。 流体输送构件适于容纳第二流体的流动。 声调节器设置在声衰减室中并且从隔板纵向延伸到壳体的输出端。 声调节器是包括适于衰减与汽车动力源相关联的排气流声学的多个孔的金属管。

公开(公告)号：US20070043992A1

公开(公告)日：2007-02-22

申请号：US11196895

申请日：2005-08-04

Applicant: David Stevenson ,  James Abbott ,  Jeffrey Fischer ,  Scott Schneider ,  Brian Roberts ,  Martha Andrews ,  David Ruest ,  Shawn Gardner ,  Christopher Maguire ,  Eric Funk

Inventor： David Stevenson ,  James Abbott ,  Jeffrey Fischer ,  Scott Schneider ,  Brian Roberts ,  Martha Andrews ,  David Ruest ,  Shawn Gardner ,  Christopher Maguire ,  Eric Funk

IPC: G01R31/28

CPC classification number: G06F8/20

Abstract: A pattern implementation technique in which a pattern is defined as a software artifact that comprises a pattern signature representing one or more parameters of the pattern and a pattern implementation model representing one or more methods for expanding the pattern in a selected software context by assigning one or more arguments to the one or more parameters. The pattern implementation model can be based on one or more framework code sets, each of which supports the creation of plural patterns by providing a pattern implementation model for a particular software context. The framework code sets can be rendered extensible by a pattern author by virtue of providing methods whose code is adapted to be modified by a pattern author when defining a pattern. The pattern can be applied by creating an instance of the pattern in a software context and presenting a graphical representation of the pattern instance that can be manipulated by the pattern user in order to apply arguments to the pattern parameters.

Abstract translation: 一种模式实现技术，其中模式被定义为软件工件，其包括表示模式的一个或多个参数的模式签名，以及表示用于通过分配一个或多个所选软件上下文来扩展模式的一个或多个方法的模式实现模型 更多参数的一个或多个参数。 模式实现模型可以基于一个或多个框架代码集，每个框架代码集通过为特定软件上下文提供模式实现模型来支持多个模式的创建。 框架代码集可以由模式作者通过提供在定义模式时适应于由模式作者修改的代码的方法来实现。 可以通过在软件环境中创建模式的实例并呈现模式用户可以操纵的模式实例的图形表示，以便将参数应用到模式参数来应用模式。

公开(公告)号：US20120300291A1

公开(公告)日：2012-11-29

申请号：US13114809

申请日：2011-05-24

Applicant: James Abbott

Inventor： James Abbott

IPC: G02B5/08 ,  B05D5/12 ,  H05H1/24

CPC classification number: G02B5/0808 ,  C23C14/205 ,  C23C28/322 ,  C23C28/34 ,  C23C28/345 ,  G02B1/105 ,  G02B1/14

Abstract: In one example, a metal reflector includes a silver layer and an underlying metal layer in galvanic communication with the silver layer.

Abstract translation: 在一个示例中，金属反射器包括银层和与银层电连接的下面的金属层。

公开(公告)号：US5962082A

公开(公告)日：1999-10-05

申请号：US916753

申请日：1997-08-19

Applicant: William A. Hendrickson ,  James Abbott

Inventor： William A. Hendrickson ,  James Abbott

IPC: B01J8/42 ,  B01J8/46 ,  G11B5/842 ,  G11B5/845 ,  H01F1/44 ,  H01F1/00

CPC classification number: B01J8/46 ,  B01J8/42 ,  G11B5/842 ,  G11B5/845 ,  H01F1/44 ,  B01J2219/0864 ,  B01J2219/089 ,  B01J2219/182

Abstract: The present invention provides a process for adhering a liquid to a particulate substrate. The process comprises the steps of:a) providing an apparatus which can create an oscillating magnetic field within a chamber,b) providing particulate magnetic material within the chamber of said apparatus while said oscillating field is active,c) having in the chamber within the oscillating magnetic field a liquid coating material and a particulate substrate to be coated with said liquid,d) and having said magnetic field form a fluidized bed of at least said particulate magnetic material, said liquid coating material coating the surface of the particulate substrate, ande) optionally continuously collecting the coated particulate substrate.The particulate magnetic material may be added to the chamber before or after the magnetic field has been activated to oscillate. The field may be active when the magnetic particles are added, and the field may be activated only after the magnetic particles are present as a non-fluidized sedentary bed. The liquid may likewise be added at any time. The liquid coating material may be added before the field is activated, or after the field is activated. The liquid may be added before the magnetic particles are added, at the same time or after the magnetic particles are added. The magnetic particles may provide the only particulate surface onto which the liquid is to be coated, or separate particulates may be used along with the magnetic particulate materials. The magnetic particulates may be included along with the non-magnetic particulates in the final desired product, or the coated magnetic particles may be easily separated from the non-magnetic particles by magnetic filtering or screening. This process provides a significant benefit in a liquid coating process by reducing the potential for waste and allowing easy recycling of coating material.

Abstract translation: 本发明提供了一种将液体粘附到颗粒基质上的方法。 该方法包括以下步骤：a）提供能够在室内产生振荡磁场的设备，b）在所述振荡场有效时在所述设备的室内提供颗粒状磁性材料，c）在室内具有 振荡磁场是液体涂料和待涂覆所述液体的颗粒基质，d）并且具有所述磁场形成至少所述颗粒状磁性材料的流化床，所述液体涂覆材料涂覆在颗粒基材的表面上，以及 e）任选地连续收集涂覆的颗粒基材。 可以在磁场被激活以振荡之前或之后将颗粒状磁性材料添加到室中。 当添加磁性颗粒时，该场可能是有效的，并且只有当磁性颗粒作为非流动的久坐床存在时，该场才可被激活。 液体也可以随时加入。 液体涂层材料可以在场被激活之前或者在激活场之后添加。 在添加磁性颗粒之前，可以在添加磁性颗粒的同时或之后添加液体。 磁性颗粒可以提供液体要被涂覆的唯一的颗粒表面，或者可以与磁性颗粒材料一起使用单独的颗粒。 可以将磁性颗粒与非磁性颗粒一起包含在最终期望的产物中，或者通过磁性过滤或筛选可以容易地将涂覆的磁性颗粒与非磁性颗粒分离。 该方法通过降低废物的可能性并允许涂料的容易回收，在液体涂覆过程中提供了显着的益处。