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1. 发明申请

US20220222753A1 SYSTEM AND METHOD FOR PROVIDING AND INSURING A PUBLIC SERVICE 有权
公开(公告)号：US20220222753A1
公开(公告)日：2022-07-14
申请号：US17706798
申请日：2022-03-29
申请人： Mike Evans Caradimitropoulo
发明人： Mike Evans Caradimitropoulo
IPC分类号： G06Q40/08 , G06Q50/26
摘要： A system for providing and insuring a public service that includes a plurality of computing devices, each in communication with a user is disclosed. The computing devices include a processor configured to perform a set of instructions stored in a database, which is in operable communication with an application. An insurance provider is in operable communication with the application. The insurance provider provides insurance coverage for one or more predetermined parameters related to a predefined service. A financial institution is in operable communication with the user and is configured to send and receive a payment for the predefined service.

2. 发明申请

US20130061066A1 COMMUNICATION SYSTEM FOR USE IN HAZARDOUS ENVIRONMENTS 有权
标题翻译：用于危险环境的通信系统
公开(公告)号：US20130061066A1
公开(公告)日：2013-03-07
申请号：US13226940
申请日：2011-09-07
申请人： Susan Lee Roush , Nathan Andrew Weller , Michael Lee Kidd , Mike Evans
发明人： Susan Lee Roush , Robert Donald Hayashida , Nathan Andrew Weller , Michael Lee Kidd
IPC分类号： G06F1/26
CPC分类号： G06F1/26
摘要： A communication system includes a host device and a peripheral device. The host device includes a data terminal and a power terminal. A data conductor extends between the host device and the peripheral device. The data conductor is configured to channel data between the data terminal and the peripheral device. A power conductor extends between the host device and the peripheral device. The power conductor is configured to channel power between the power terminal and the peripheral device. A zener diode couples the data conductor to the power conductor. The zener diode is configured to control a voltage channeled between the host device and the peripheral device while data is channeled through the data conductor at a desired speed that is greater than a predetermined threshold.
摘要翻译：通信系统包括主机设备和外围设备。主机设备包括数据终端和电源终端。数据导体在主机设备和外围设备之间延伸。数据导体被配置为在数据终端和外围设备之间传送数据。电源导体在主机设备和外围设备之间延伸。电源导体被配置为在电源端子和外围设备之间通电。齐纳二极管将数据导体耦合到电源导体。齐纳二极管被配置为控制在主机设备和外围设备之间引导的电压，同时数据以大于预定阈值的期望速度被引导通过数据导体。

3. 发明授权

US4879463A Method and apparatus for subsurface formation evaluation 失效
标题翻译：地下地层评价方法与装置
公开(公告)号：US4879463A
公开(公告)日：1989-11-07
申请号：US132494
申请日：1987-12-14
申请人： Peter D. Wraight , Edouard Marienbach , Jean-Michel Hache , Erik Rhein-Knudsen , Mike Evans
发明人： Peter D. Wraight , Edouard Marienbach , Jean-Michel Hache , Erik Rhein-Knudsen , Mike Evans
IPC分类号： E21B47/01 , G01V5/12
CPC分类号： G01V5/12 , E21B47/011
摘要： A measurement while drilling nuclear tool adapted to be coupled in the drill string to make formation evaluations and methods of using are described. A neutron source is positioned on the cylindrical axis of the tool while a connected gamma ray source is eccentered against an interior side of the cylindrical tool. Both sources can be axially removed from the tool along its interior. Novel source-detector configurations are provided in order to accommodate the constraints of the MWD environment. Gamma ray transparent windows are provided through both the drill collar and an external fluid excluder (stabilizer) at the positions of the gamma ray source and scintillator detectors. Neutron detectors may be of two different types at the same spacing from the source. Corrections are made for microphonic noise that arises while drilling and for natural gamma ray background. A drilling fluid density determination is made and is utilized to compensate for "borehole" or "standoff" effects.

4. 外观设计

USD966646S1 Glove 有权
公开(公告)号：USD966646S1
公开(公告)日：2022-10-18
申请号：US29752160
申请日：2020-09-25
申请人： Mike Evans , Melody Evans
设计人： Mike Evans , Melody Evans

5. 发明申请

US20050261048A1 Entertainment machines 审中-公开
标题翻译：娱乐机
公开(公告)号：US20050261048A1
公开(公告)日：2005-11-24
申请号：US11122279
申请日：2005-05-04
申请人： Mike Evans
发明人： Mike Evans
IPC分类号： A63F5/00 , A63F9/24 , G07F17/32
CPC分类号： G07F17/3262 , G07F17/3211 , G07F17/3286 , G07F17/34
摘要： A player-operable coin-operated entertainment machine for playing a roulette-type game with enhanced award opportunities has a symbol selector with a range of different symbols. The symbol selector has multiple selector elements for selecting multiple symbols. A betting means is provided for placing a number of stakes on one or more symbols during a game, by selecting a number of selector elements. Each selector element moves over the symbols, each one eventually coming to rest over a selected symbol. In the case of a selected symbol being one on which a stake has been placed, an award is made available to the player. Therefore, the stake value for each symbol can remain the same, whilst the stake value per game and the award for a win with one or more selector elements, is increased.
摘要翻译：用于播放具有增强奖励机会的轮盘赌式游戏的玩家可操作的投币式娱乐机具有具有不同符号范围的符号选择器。符号选择器具有用于选择多个符号的多个选择器元件。提供了一种投注装置，用于通过选择多个选择器元件在游戏过程中将一些或多个符号放置在一个或多个符号上。每个选择器元素在符号上移动，每个选择器元素最终将在所选择的符号上休息。在所选择的符号是其上已经放置了股票的符号的情况下，向玩家提供奖励。因此，每个符号的股票价值可以保持不变，而每场比赛的股票价值和一个或多个选择器元素的胜利的奖励增加。

6. 发明授权

US08732489B2 Communication system for use in hazardous environments 有权
标题翻译：用于危险环境的通信系统
公开(公告)号：US08732489B2
公开(公告)日：2014-05-20
申请号：US13226940
申请日：2011-09-07
申请人： Susan Lee Roush , Nathan Andrew Weller , Michael Lee Kidd , Mike Evans
发明人： Susan Lee Roush , Robert Donald Hayashida , Nathan Andrew Weller , Michael Lee Kidd
IPC分类号： G06F1/00 , H02H7/00 , H02H11/00
CPC分类号： G06F1/26
摘要： A communication system includes a host device and a peripheral device. The host device includes a data terminal and a power terminal. A data conductor extends between the host device and the peripheral device. The data conductor is configured to channel data between the data terminal and the peripheral device. A power conductor extends between the host device and the peripheral device. The power conductor is configured to channel power between the power terminal and the peripheral device. A zener diode couples the data conductor to the power conductor. The zener diode is configured to control a voltage channeled between the host device and the peripheral device while data is channeled through the data conductor at a desired speed that is greater than a predetermined threshold.
摘要翻译：通信系统包括主机设备和外围设备。主机设备包括数据终端和电源终端。数据导体在主机设备和外围设备之间延伸。数据导体被配置为在数据终端和外围设备之间传送数据。电源导体在主机设备和外围设备之间延伸。电源导体被配置为在电源端子和外围设备之间通电。齐纳二极管将数据导体耦合到电源导体。齐纳二极管被配置为控制在主机设备和外围设备之间引导的电压，同时数据以大于预定阈值的期望速度被引导通过数据导体。

7. 发明授权

US07667192B2 Thermal neutron porosity from neutron slowing-down length, formation thermal neutron capture cross section, and bulk density 有权
标题翻译：来自中子减速长度的热中子孔隙度，形成热中子捕获截面积和体积密度
公开(公告)号：US07667192B2
公开(公告)日：2010-02-23
申请号：US11839608
申请日：2007-08-16
申请人： Scott H. Fricke , Robert A. Adolph , Mike Evans
发明人： Scott H. Fricke , Robert A. Adolph , Mike Evans
IPC分类号： G01V5/10
CPC分类号： G01V5/107
摘要： A method for determining at least one formation property calculated from neutron measurements acquired with a downhole tool includes emitting neutrons from a source in the tool into the formation, detecting neutrons with at least one detector in the downhole tool, calculating a first slowing-down length (L1) based on the detected neutrons, and deriving a second slowing-down length (L2) based on the first slowing-down length (L1). Further steps include deriving a correlation function for relating slowing-down lengths from a first tool to slowing-down lengths associated with a different source, wherein the correlation function depends on formation properties such as bulk density; and applying the correlation function to the slowing-down length of the first tool to derive the slowing-down length of the second tool. A method for determining a thermal neutron formation porosity based on a slowing-down length from epithermal neutron measurements from an electronic neutron source includes converting the slowing-down length into a computed neutron slowing-down length from thermal neutron measurements from a chemical neutron source, wherein the converting uses a correlation function that depends on formation bulk density; deriving a thermal neutron countrate ratio based on the computed neutron slowing-down length, wherein the deriving uses a function that depends on the formation bulk density and formation sigma; and computing the thermal neutron formation porosity from the thermal neutron countrate ratio.
摘要翻译：用于确定由井下工具获取的中子测量计算的至少一个地层特性的方法包括从工具中的源将地层中子发射到地层中，用井下工具中的至少一个检测器检测中子，计算第一减速长度（L1），并且基于第一减速长度（L1）导出第二减速长度（L2）。进一步的步骤包括导出相关函数，用于将来自第一工具的减速长度与与不同源相关联的减速长度相关联，其中所述相关函数取决于地层特性，例如体积密度; 以及将所述相关函数应用于所述第一工具的减速长度以导出所述第二工具的减速长度。基于来自电子中子源的超热中子测量的基于减速长度确定热中子形成孔隙的方法包括将来自化学中子源的热中子测量的减速长度转换成计算的中子减速长度，其中所述转换使用取决于地层堆积密度的相关函数; 基于计算的中子减速长度导出热中子剂量比，其中导出使用取决于地层堆积密度和形成σ的函数; 并从热中子计数比计算热中子形成孔隙度。

8. 发明授权

US4814609A Methods and apparatus for safely measuring downhole conditions and formation characteristics while drilling a borehole 失效
标题翻译：在钻井时安全测量井下条件和地层特征的方法和装置
公开(公告)号：US4814609A
公开(公告)日：1989-03-21
申请号：US25319
申请日：1987-03-13
申请人： Peter D. Wraight , Edouard Marienbach , Jean-Michel Hache , Erik Rhein-Knudsen , Mike Evans
发明人： Peter D. Wraight , Edouard Marienbach , Jean-Michel Hache , Erik Rhein-Knudsen , Mike Evans
IPC分类号： E21B17/10 , E21B23/03 , E21B47/01 , G01V5/04 , G01V5/12 , G01V5/14
CPC分类号： E21B17/1078 , E21B23/03 , E21B47/011 , G01V5/04
摘要： A borehole logging apparatus for performing radiation based measurements has a tubular body for movement through a borehole. The tubular body includes an upwardly opening passage and an interior chamber for accommodating the positioning and lengthwise insertion and removal of an energy radiating source. The radiation source includes an uppermost portion which may be remotely engaged by a source removing device for its removal in the event the tool becomes stuck in the borehole and in order to facilitate source handling at the earth's surface.

9. 发明申请

US20220410287A1 Interchangeable Drill Bit Holding Drill Head for Use with Powered Tools 有权
公开(公告)号：US20220410287A1
公开(公告)日：2022-12-29
申请号：US17848618
申请日：2022-06-24
申请人： Mike Evans
发明人： Mike Evans
IPC分类号： B23B51/12 , B23B31/02
摘要： The present invention relates to a drill head design for powered tools. The drill head includes a coupling portion for securely and mechanically coupling to an air-powered tool, the coupling portion has a female port for receiving the gear drive from the air-powered tool. The drill head has a chuck portion that releasably holds a drill bit for performing assembling, drilling, cutting, and more without using large and bulky drills. The drill is releasably attached to the air-powered tool and comes in a variety of shapes and sizes. The drill head is configured to convert any air-powered tool into a drilling tool and enables the users to drill faster, accommodate smaller angles, and reach into confined spaces.

10. 发明申请

US20090045328A1 Thermal Neutron Porosity from Neutron Slowing-Down Length, Formation Thermal Neutron Capture Cross Section, and Bulk Density 有权
标题翻译：来自中子的热中子孔隙率下降长度，形成热中子捕获截面积和体积密度
公开(公告)号：US20090045328A1
公开(公告)日：2009-02-19
申请号：US11839608
申请日：2007-08-16
申请人： Scott H. Fricke , Robert A. Adolph , Mike Evans
发明人： Scott H. Fricke , Robert A. Adolph , Mike Evans
IPC分类号： G01V5/10
CPC分类号： G01V5/107
摘要： A method for determining at least one formation property calculated from neutron measurements acquired with a downhole tool includes emitting neutrons from a source in the tool into the formation, detecting neutrons with at least one detector in the downhole tool, calculating a first slowing-down length (L1) based on the detected neutrons, and deriving a second slowing-down length (L2) based on the first slowing-down length (L1). Further steps include deriving a correlation function for relating slowing-down lengths from a first tool to slowing-down lengths associated with a different source, wherein the correlation function depends on formation properties such as bulk density; and applying the correlation function to the slowing-down length of the first tool to derive the slowing-down length of the second tool. A method for determining a thermal neutron formation porosity based on a slowing-down length from epithermal neutron measurements from an electronic neutron source includes converting the slowing-down length into a computed neutron slowing-down length from thermal neutron measurements from a chemical neutron source, wherein the converting uses a correlation function that depends on formation bulk density; deriving a thermal neutron countrate ratio based on the computed neutron slowing-down length, wherein the deriving uses a function that depends on the formation bulk density and formation sigma; and computing the thermal neutron formation porosity from the thermal neutron countrate ratio.
摘要翻译：用于确定由井下工具获取的中子测量计算的至少一个地层特性的方法包括从工具中的源将地层中子发射到地层中，用井下工具中的至少一个检测器检测中子，计算第一减速长度（L1），并且基于第一减速长度（L1）导出第二减速长度（L2）。进一步的步骤包括导出相关函数，用于将来自第一工具的减速长度与与不同源相关联的减速长度相关联，其中所述相关函数取决于地层特性，例如体积密度; 以及将所述相关函数应用于所述第一工具的减速长度以导出所述第二工具的减速长度。基于来自电子中子源的超热中子测量的基于减速长度确定热中子形成孔隙的方法包括将来自化学中子源的热中子测量的减速长度转换成计算的中子减速长度，其中所述转换使用取决于地层堆积密度的相关函数; 基于计算的中子减速长度导出热中子剂量比，其中导出使用取决于地层堆积密度和形成σ的函数; 并从热中子计数比计算热中子形成孔隙度。

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