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    • 12. 发明申请
    • Apparatus for treatment of contaminated liquids
    • 用于处理污染液体的设备
    • US20050016918A1
    • 2005-01-27
    • US10494029
    • 2001-11-09
    • William Walker
    • William Walker
    • B01D21/00B01D17/00
    • B01D21/10B01D21/0006B01D21/2411B01D21/2416B01D21/2427B01D21/2444B01D21/245B01D21/26
    • A treatment vessel for separating contaminants from a base liquid is provided. The vessel comprises a first cylindrical portion, a frusto-conical portion, a second cylindrical portion and a conical portion, the conical portion having a bottom outlet arranged to discharge heavy contaminants from the vessel. Over time, the heavy contaminants settle on the sides of the conical and frusto-conical portions. In order to remove the settled contaminants, the vessel is provided with at least one clarified liquid inlet disposed at or proximate to the frusto-conical portion. The clarified liquid is sourced from either the treatment vessel itself, or another treatment vessel in the same system. The clarified liquid is reintroduced into the vessel in a manner so as to cause a downward circular flow to scour out the frusto-conical portion and the conical portion so as to assist in removal of heavy contaminants that settle on the sides thereof.
    • 提供了用于从基础液体分离污染物的处理容器。 容器包括第一圆柱形部分,截头圆锥形部分,第二圆柱形部分和锥形部分,锥形部分具有设置成从容器排出重污染物的底部出口。 随着时间的推移,重的污染物沉淀在锥形和截头圆锥形部分的两侧。 为了除去沉降的污染物,容器设置有至少一个设置在截头圆锥形部分处或附近的澄清液体入口。 澄清液体来自于处理容器本身,或来自同一系统中的另一处理容器。 澄清的液体以这样的方式重新引入容器中,以便使向下的圆形流动冲出截头圆锥形部分和锥形部分,以帮助去除沉积在其侧面上的重污染物。
    • 14. 发明申请
    • Future care plan costing system and method
    • 未来护理计划成本核算系统和方法
    • US20070244720A1
    • 2007-10-18
    • US11405081
    • 2006-04-17
    • William Walker
    • William Walker
    • G06Q10/00
    • G06F19/328G06Q40/02G06Q50/22
    • A system and method for creating and costing future care plans such as Life Care Plans, Medicare Set-Asides, and Medical Cost Projections is provided. The method uses standard procedure codes and fee schedules associated with the procedure codes. The method comprises storing a first code set in a database, receiving a second code set associated with a future care plan, in which the second code set is a subset of the first code set; comparing the first code set with the second code set to determine the common codes; associating the applicable fee from the fee schedule with each individual code; and generating an output file comprising the second code set with associated fees. The method also provides the capability of billing users based upon the number and nature of individual fee codes retrieved using the method.
    • 提供了一种用于创建和计算未来护理计划的系统和方法,如生命保健计划,医疗保险设备和医疗费用预测。 该方法使用与程序代码相关联的标准程序代码和费用表。 该方法包括:将第一代码集存储在数据库中,接收与未来保护计划相关联的第二代码集,其中第二代码集是第一代码集的子集; 将第一代码集与第二代码集比较以确定公共代码; 将费用表中的适用费用与每个单独的代码相关联; 以及生成包括具有相关费用的第二代码集的输出文件。 该方法还提供了基于使用该方法检索的各个费用代码的数量和性质来计费用户的能力。
    • 17. 发明申请
    • Method for forming layered heating element for glow plug
    • 用于形成电热塞的分层加热元件的方法
    • US20070151096A1
    • 2007-07-05
    • US11321908
    • 2005-12-29
    • William WalkerJohn HoffmanJames May
    • William WalkerJohn HoffmanJames May
    • H05B3/00H01C17/02
    • H01C17/02F23Q7/001F23Q2007/004Y10T29/49083Y10T29/49087Y10T29/49098Y10T29/49179Y10T29/49204Y10T29/49211Y10T29/53865
    • A monolithic, multi-layer heating element (26, 126, 226) forms the high temperature tip (22, 122, 222) of a glow plug assembly (20). The heating element (26, 126, 226) includes a conductive core (48, 148, 248) which is surrounded by an insulator layer (50, 150, 250), which in turn supports a resistive layer (52, 152, 252). An optional conductive jacket (172) can surround the resistive layer (152). These layered components are pre-formed in prior operations and then assembled one into the other to form a precursor structure. The precursor structure is transferred to a die (54, 64, 164), where it is compressed to form a so-called green part having dimensional attributes proportional to the finished heating element (26, 126, 256). The individual layers remain substantially intact, with some boundary layer mixing possible to enhance material-to-material bonding. The green part is sintered to bond to various materials together into an essentially solid mass. Various finishing operations may be required, following which the heating element (26, 126, 226) is assembled to form a glow plug (20).
    • 整体式多层加热元件(26,126,226)形成电热塞组件(20)的高温端头(22,122,222)。 加热元件(26,126,226)包括由绝缘体层(50,150,250)包围的导电芯体(48,148,248),所述绝缘体层又支撑电阻层(52,152,252) 。 可选的导电套(172)可围绕电阻层(152)。 这些层状组分在先前的操作中预先形成,然后组装成另一个以形成前体结构。 前体结构转移到模具(54,64,164),在其中被压缩以形成具有与最终加热元件(26,126,256)成比例的尺寸属性的所谓的绿色部件。 各层保持基本上完好无损,一些边界层混合可以增强材料与材料之间的粘结。 将绿色部分烧结以将各种材料结合在一起成为基本上固体的物质。 可能需要各种精加工操作,随后组装加热元件(26,126,226)以形成电热塞(20)。
    • 20. 发明申请
    • Sliding Window Scheme (SWS) for Determining Clock Timing in a Mesh-Based Clock Architecture
    • 用于确定基于网格的时钟架构中的时钟时序的滑动窗口方案(SWS)
    • US20070016882A1
    • 2007-01-18
    • US11428986
    • 2006-07-06
    • Hongyu ChenWilliam WalkerRajeev Murgai
    • Hongyu ChenWilliam WalkerRajeev Murgai
    • G06F17/50
    • G06F17/5031G06F2217/62
    • In one embodiment, a method includes accessing a description of a chip including multiple sequential elements and a clock mesh, information for modeling the sequential elements and interconnections, and a set of parameters of the clock mesh. The method also includes, using the description of the chip, the information for modeling the sequential elements and interconnections, and the set of parameters of the clock mesh, determining multiple window locations covering the clock mesh. Each window location includes one or more of the sequential elements on the chip. The method also includes, for each window location, generating a mesh simulation model including a detailed model inside the window location and an approximate model outside the window location, simulating the mesh simulation model, and measuring clock timing for the sequential elements in the window location based on the mesh simulation model. The method also includes collecting timing information on the sequential elements on the chip based on the measured clock timing for the sequential elements in the window locations.
    • 在一个实施例中,一种方法包括访问包括多个顺序元素和时钟网格的芯片的描述,用于建模顺序元件和互连的信息以及时钟网格的一组参数。 该方法还包括使用芯片的描述,用于建模顺序元件和互连的信息以及时钟网格的参数集,确定覆盖时钟网格的多个窗口位置。 每个窗口位置包括芯片上的一个或多个顺序元件。 该方法还包括对于每个窗口位置,生成包括窗口位置内的详细模型和窗口位置外的近似模型的网格模拟模型,模拟网格模拟模型,以及测量窗口位置中的顺序元素的时钟定时 基于网格模拟模型。 该方法还包括基于窗口位置中的顺序元素的测量时钟定时来收集关于芯片上的顺序元件的定时信息。