公开(公告)号：US06023900A

公开(公告)日：2000-02-15

申请号：US304478

申请日：1999-05-03

Applicant: James H. Stoehr ,  Michael W. Niese ,  John Williams

Inventor： James H. Stoehr ,  Michael W. Niese ,  John Williams

IPC: B27M3/00 ,  E04B1/62

CPC classification number: B27M3/002 ,  Y10T403/7045

Abstract: A finger jointed floorboard or laminatable floorboard section of two connected shorter pieces includes a relatively thick upper wear region which may be sanded without exposing the fingers forming the connection, regardless of whether or not the pieces are connected in the same longitudinal and transverse horizontal planes. The structure and orientation of this finger joint allows flooring manufacturers to maximize the yield of typically solid, good quality floorboard material and to reduce installation costs, without adversely affecting the aesthetic quality of the installed floor. In one embodiment, a finger jointed board with a central finger joint is sawed in a horizontal plane through the joint to produce two identical, laminatable floorboard sections. With a thicker starting board having two separate, spaced finger joint connections, sawing along a horizontal midplane produces two identical intermediate boards, each with a centrally located finger joint. Each intermediate board is then sawed through the finger joint connection to produce a total of four laminatable floorboard sections.

Abstract translation: 两个连接的短片的手指接合的地板块或可层压地板块部分包括相对较厚的上部磨损区域，其可以在不暴露形成连接的指状物的情况下被磨砂，而不管片段是否连接在相同的纵向和横向水平面中。 这种手指接头的结构和方向允许地板制造商最大限度地提高典型的固体，优质地板材料的产量，并降低安装成本，而不会对安装的地板的美观质量产生不利影响。 在一个实施例中，具有中心指接头的手指接合板在水平面上通过接头锯切，以产生两个相同的可层压地板块部分。 使用较厚的启动板具有两个单独的间隔开的指接头连接，沿着水平中平面锯切产生两个相同的中间板，每个具有位于中心的手指接头。 然后通过手指接头连接锯切每个中间板，以产生总共四个可层压地板块部分。

公开(公告)号：US5546269A

公开(公告)日：1996-08-13

申请号：US274486

申请日：1994-07-13

Applicant: Darrell Robinson ,  Allen V. Pruehs ,  John Williams

Inventor： Darrell Robinson ,  Allen V. Pruehs ,  John Williams

IPC: H02B1/03 ,  H02B9/00

CPC classification number: H02B1/03

Abstract: A housing includes a base with blade terminals insertable into jaw contacts in an electrical watthour meter socket. First and second watthour meter receiving shells are mounted on the housing, each having a pair of line jaw contacts connected in parallel to each other and to line blade terminals in the base. Electrical conductors extend from the load jaw contacts in one of the shells to a junction box mounted on the housing to provide a connection to an external electrical conductor. An electrical power disconnect device is mounted in one of the shells, and is connected in series by conductors between the line jaw contacts in both shells. The power disconnect device includes a movable external member having an end portion which slidably extends through the side wall of one of the shells. In one embodiment, the end portion is a separate rod which is biased into contact with the movable member. Electrical power disconnect indicia are formed on the movable external member or the rod and are visible externally of the one shell when the external member is in an extended position to indicate that the power disconnect device is in a non-power conducting state. A lock is optionally insertable through an aperture in the end portion of the external member or the rod to prevent the external member from switching the power disconnect device to a power conducting state.

Abstract translation: 壳体包括具有刀片端子的基座，其可插入电瓦测量插座中的钳口触点中。 第一和第二瓦特表接收壳安装在壳体上，每个具有彼此并联连接的一对线夹爪接触件，并且在基座中将叶片端子连接。 电导体从其中一个壳中的负载钳口触点延伸到安装在壳体上的接线盒，以提供与外部电导体的连接。 一个电源断开装置安装在其中一个外壳中，并且在两个外壳中的线钳口触点之间通过导体串联连接。 电源断开装置包括可移动外部构件，其具有可滑动地延伸穿过其中一个外壳的侧壁的端部。 在一个实施例中，端部是偏置成与可动构件接触的单独的杆。 当外部构件处于延伸位置时，电力断开标记形成在可移动的外部构件或杆上，并且在外壳的外部可见，以指示电源断开装置处于非电力导通状态。 锁定件可任选地通过外部构件或杆的端部中的孔插入，以防止外部构件将电力断开装置切换到电力导通状态。

公开(公告)号：US11725408B2

公开(公告)日：2023-08-15

申请号：US17305084

申请日：2021-06-30

Applicant: John Williams

Inventor： John Williams

IPC: E04H4/12 ,  H02J3/38 ,  H02J3/00 ,  F04B17/03 ,  F04B17/00

CPC classification number: E04H4/129 ,  E04H4/1209 ,  F04B17/006 ,  F04B17/03 ,  H02J3/0075 ,  H02J3/381 ,  H02J2300/24

Abstract: A hybrid solar load controller. The controller determines values to carry out what is referred to herein as “best effort” pumping during sun hours, understand its progress, and then “finish the job” with AC power after sun hours have concluded, while taking fullest advantage of pump affinity when on paid-power pump. In embodiments, the pump can be a water pump for a pool, and a goal can be set as a total volumetric goal. The goal can also be a fill level for a container.

公开(公告)号：US20180347266A1

公开(公告)日：2018-12-06

申请号：US15614832

申请日：2017-06-06

Applicant: John Williams

Inventor： John Williams

IPC: E06B9/01 ,  E06B3/68

Abstract: A security system and method for preventing unwanted passage through windows and doors of a building includes custom sizing and welding of hardened steel structures that mount into the door jam or window frame, on the inside of the door or window with the use of threaded fasteners. The custom assembled structure consists of an outer frame and horizontal and vertical pickets that may be formed of flat stock, hollow square or rectangular steel tubing or solid square hardened steel bars. The system and method involves specifically spacing the vertical and horizontal pickets so as to lineup with an ornamental structure on the window or door (e.g., grids) without obstructing the view of the door or window so that the steel bars of the security structure is essentially invisible.

公开(公告)号：US20140032236A1

公开(公告)日：2014-01-30

申请号：US14017621

申请日：2013-09-04

Applicant: John Williams ,  Chetan S. Karani

Inventor： John Williams ,  Chetan S. Karani

IPC: G06Q50/22 ,  G06Q30/00

CPC classification number: G06Q50/22 ,  G06Q30/018

Abstract: An equipment inspection tracking system and method for radiopharmaceutical personal protective equipment which has a read-only RFID tag that allows a user to track, update, review and report a record of standard tracking and compliance history information. The system and method are customizable and can be used for large and varied quantities of radiopharmaceutical personal protective equipment. The system and method allow access by safety officers and compliance inspectors for required regulatory reporting. The system and method are accessible through a web browser or mobile application.

Abstract translation: 一种用于放射性药物个人防护装备的设备检查跟踪系统和方法，其具有只读RFID标签，其允许用户跟踪，更新，审查和报告标准跟踪和合规历史信息的记录。 该系统和方法是可定制的，可用于大量和多种量的放射性药物个人防护装备。 该系统和方法允许安全官员和合规检查人员进行所需的监管报告。 系统和方法可通过网络浏览器或移动应用程序访问。

公开(公告)号：US20110066286A1

公开(公告)日：2011-03-17

申请号：US12927364

申请日：2010-11-12

Applicant: Daniel Harjes ,  John Williams ,  James A. Bickford ,  Daniel Traviglia ,  David G. D'Amore ,  James D. Derouin

Inventor： Daniel Harjes ,  John Williams ,  James A. Bickford ,  Daniel Traviglia ,  David G. D'Amore ,  James D. Derouin

IPC: F23N5/26 ,  G06F19/00

CPC classification number: G01N1/20 ,  G01N5/04 ,  G01N31/12 ,  G01N2001/1006 ,  G01N2001/205

Abstract: An in-line loss-on-ignition measurement system includes an on-site extractor subsystem configured to collect fuel or a combustion by-product from a hydrocarbon fuel burning plant. An on-site analyzer is configured to receive the collected matter from the extractor subsystem and configured to weigh the collected matter, burn the collected matter, and weight the collected matter again. A controller is responsive to the analyzer and is configured to determine the loss-on-ignition data for the plant based on the weight of the collected matter before and after it is burned in the analyzer.

Abstract translation: 在线点火点火测量系统包括现场提取器子系统，其被配置为从烃燃料燃烧设备收集燃料或燃烧副产物。 现场分析器被配置为从提取器子系统接收收集的物质，并且被配置为对所收集的物质进行称重，燃烧所收集的物质，并重新收集所收集的物质。 控制器响应于分析仪，并且被配置为基于在分析仪中燃烧之前和之后收集的物质的重量来确定工厂的点火点数据。

公开(公告)号：US20100189727A1

公开(公告)日：2010-07-29

申请号：US12633102

申请日：2009-12-08

Applicant: Ulrich Rodeck ,  John Williams

Inventor： Ulrich Rodeck ,  John Williams

IPC: A61K39/395 ,  C07K2/00 ,  C07K7/08 ,  C07K14/00 ,  C07K16/00 ,  A61P35/00 ,  A61P17/02

CPC classification number: C07K14/71 ,  C07K16/2863 ,  C07K2317/24

Abstract: Masking ligands for reversibly concealing the antigen-binding site of an antibody comprise epitopes of the antibody and a cleavable linker. Methods for making masking ligands comprise joining at least two copies of the epitope of an antibody to a cleavable polypeptide linker.

Abstract translation: 用于可逆地隐藏抗体的抗原结合位点的掩蔽配体包括抗体的表位和可切割的接头。 制备掩蔽配体的方法包括将抗体的至少两个拷贝的抗体连接到可切割多肽接头。

公开(公告)号：US20100038832A1

公开(公告)日：2010-02-18

申请号：US12583005

申请日：2009-08-11

Applicant: David Rosal ,  Scott M. Packer ,  Russell J. Steel ,  Peter Cariveau ,  John Williams ,  Lance Richman

Inventor： David Rosal ,  Scott M. Packer ,  Russell J. Steel ,  Peter Cariveau ,  John Williams ,  Lance Richman

IPC: B23K37/00 ,  B23K20/26 ,  B23K20/12 ,  B23K31/02

CPC classification number: B23K20/1255

Abstract: A tool is provided that is capable of friction stir processing, friction stir mixing, and friction stir welding of high melting temperature and low melting temperature materials, wherein the collar is now divided into at least an inner and an outer collar coupled to the shank and the FSW tip, wherein new thermal barriers enable expansion of the inner collar to be directed inward to thereby create compression on the FSW tip instead of allowing the FSW tip to become loose in the tool at elevated temperatures.

Abstract translation: 提供了能够进行摩擦搅拌处理，摩擦搅拌混合和高熔点温度和低熔点材料的摩擦搅拌焊接的工具，其中颈圈现在被分成至少一个连接到柄部的内部和外部轴环， FSW尖端，其中新的热障可以使内部轴环膨胀以向内引导，从而在FSW尖端上产生压缩，而不是允许FSW尖端在升高的温度下在工具中松动。

公开(公告)号：US20090170940A1

公开(公告)日：2009-07-02

申请号：US12006076

申请日：2007-12-29

Applicant: Lilia Hernandez ,  Ian Williams ,  John Williams ,  German Maya

Inventor： Lilia Hernandez ,  Ian Williams ,  John Williams ,  German Maya

IPC: A01N37/00 ,  A01P5/00

CPC classification number: A01N37/02 ,  A01N25/02 ,  A01N25/04 ,  A01N2300/00

Abstract: Slow-flow, modified ethyl formate compositions and methods for their use as pre-plant soil fumigants (controlling nematodes and other pathogens) are provided. The modifications include adding to ethyl formate a viscosity modifying thickening agent, and one or more substances which function as a co-solvent and dilution agent (the co-solvent and dilution may or may not be the same). The thickening agent increases the viscosity thereby slowing its flow or rate of transport through the soil. The co-solvent functions as the primary solvent for the viscosity modifying thickening agent. The dilution agent does two things. First, it is used to reduce the partial vapor pressure of the ethyl formate in the formulation, thereby slowing its evaporation rate. Second, it also slows the rate and amount of decomposition of the ethyl formate. The SFMEF compositions and methods do not have harmful ozone-depleting side effects and break down into two naturally-occurring, environmentally-friendly components. Thus they are useful as replacements for methyl bromide and other known ozone-depleting and/or highly toxic soil fumigants.

Abstract translation: 提供了缓慢流动的改性乙酸甲酯组合物及其用作植物前土壤熏蒸剂（控制线虫和其他病原体）的方法。 修饰包括向甲酸乙酯中加入粘度调节增稠剂，以及一种或多种作为助溶剂和稀释剂起作用的物质（共溶剂和稀释可能相同或不相同）。 增稠剂增加粘度，从而减缓其流动或通过土壤的运输速率。 共溶剂用作粘度增稠剂的主要溶剂。 稀释剂做两件事情。 首先，它用于降低制剂中甲酸乙酯的部分蒸汽压，从而减缓其蒸发速率。 第二，它也减慢甲酸乙酯的分解速率和量。 SFMEF的成分和方法没有有害的臭氧消耗副作用，分解成两种天然存在的环保组分。 因此，它们可用作甲基溴和其他已知的臭氧消耗和/或剧毒土壤熏蒸剂的替代物。

公开(公告)号：US20070278417A1

公开(公告)日：2007-12-06

申请号：US11778272

申请日：2007-07-16

Applicant: Thomas Horsky ,  John Williams

Inventor： Thomas Horsky ,  John Williams

IPC: H01J27/00

CPC classification number: H01J27/205 ,  H01J37/08 ,  H01J37/3171 ,  H01J2237/006 ,  H01J2237/049 ,  H01J2237/063 ,  H01J2237/082 ,  H01J2237/31701 ,  H01J2237/31703 ,  H01J2237/31705

Abstract: Various aspects of the invention provide improved approaches and methods for efficiently: Vaporizing decaborane and other heat-sensitive materials via a novel vaporizer and vapor delivery system; Delivering a controlled, low-pressure drop flow of vapors, e.g. decaborane, into the ion source; Ionizing the decaborane into a large fraction of B10Hx+; Preventing thermal dissociation of decaborane; Limiting charge-exchange and low energy electron-induced fragmentation of B10Hx+; Operating the ion source without an arc plasma, which can improve the emittance properties and the purity of the beam; Operating the ion source without use of a strong applied magnetic field, which can improve the emittance properties of the beam; Using a novel approach to produce electron impact ionizations without the use of an arc discharge, by incorporation of an externally generated, broad directional electron beam which is aligned to pass through the ionization chamber to a thermally isolated beam dump; Providing production-worthy dosage rates of boron dopant at the wafer; Providing a hardware design that enables use also with other dopants, especially using novel hydride, dimer-containing, and indium- or antimony-containing temperature-sensitive starting materials, to further enhance the economics of use and production worthiness of the novel source design and in many cases, reducing the presence of contaminants; Matching the ion optics requirements of the installed base of ion implanters in the field; Eliminating the ion source as a source of transition metals contamination, by using an external and preferably remote cathode and providing an ionization chamber and extraction aperture fabricated of non-contaminating material, e.g. graphite, silicon carbide or aluminum; Enabling retrofit of the new ion source into the ion source design space of existing Bernas source-based ion implanters and the like or otherwise enabling compatibility with other ion source designs; Using a control system in retrofit installations that enables retention of the installed operator interface and control techniques with which operators are already familiar; Enabling convenient handling and replenishment of the solid within the vaporizer without substantial down-time of the implanter; Providing internal adjustment and control techniques that enable, with a single design, matching the dimensions and intensity of the zone in which ionization occurs to the beam line of the implanter and the requirement of the process at hand; Providing novel approaches, starting materials and conditions of operation that enable the making of future generations of semiconductor devices and especially CMOS source/drains and extensions, and doping of silicon gates.