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101. 发明申请

US20160320296A1 GAS DETECTOR 审中-公开
标题翻译：气体检测器
公开(公告)号：US20160320296A1
公开(公告)日：2016-11-03
申请号：US15141236
申请日：2016-04-28
申请人： Konica Minolta, Inc.
发明人： Motohiro Asano , Hiroyoshi Hashino , Yoshitaka Yokoyama
IPC分类号： G01N21/3518 , G01J5/10 , G01J5/00
CPC分类号： G01J5/10 , G01J5/0014 , G01J5/0022 , G01J5/026 , G01J2005/0048 , G01J2005/0077 , G01J2005/0081 , G01J2005/106 , G01N21/3504 , G01N2021/3531
摘要： A gas detector includes: an infrared camera that images a gas; and a controller including at least an electronic component, wherein the controller determines a temperature range of the infrared camera in which the gas can be imaged, and detects the gas from moving infrared images taken for a predetermined period of time in the temperature range determined.
摘要翻译：气体检测器包括：对气体进行成像的红外摄像机; 以及至少包括电子部件的控制器，其中所述控制器确定可以在其中成像气体的红外相机的温度范围，并且在所确定的温度范围内检测在预定时间段内运动的红外图像的气体。

102. 发明申请

US20160290890A1 GASEOUS FUEL MONITORING FOR WELLSITE PUMPS 审中-公开
标题翻译： WELLSITE PUMPS气体燃料监测
公开(公告)号：US20160290890A1
公开(公告)日：2016-10-06
申请号：US15036610
申请日：2014-02-14
申请人： HALLIBURTON ENERGY SERVICES, INC.
发明人： Rory D. Daussin , Neal G. Skinner
IPC分类号： G01M3/38 , G01J5/00 , G01N21/17 , G01M3/00 , G01F1/684
CPC分类号： G01M3/38 , E21B33/13 , E21B41/0085 , E21B43/26 , G01F1/6845 , G01J5/0014 , G01M3/002 , G01N21/1702 , G01N2021/1704 , G01N2201/08
摘要： A gaseous fuel monitoring system can include a gaseous fuel supply enclosure, an optical line extending along the gaseous fuel supply enclosure, and a relatively highly thermally conductive material contacting both the gaseous fuel supply enclosure and the optical line. The relatively highly thermally conductive material can comprise a pyrolytic carbon material. A method of detecting leakage from a gaseous fuel supply enclosure can include securing an optical line to the gaseous fuel supply enclosure, the securing comprising contacting a pyrolytic carbon material with the optical line and the gaseous fuel supply enclosure. A gaseous fuel monitoring system can include an optical interrogator connected to the optical line, which interrogator detects changes in light transmitted by the optical line due to changes in vibrations of the enclosure.
摘要翻译：气体燃料监测系统可以包括气体燃料供应外壳，沿着气体燃料供应外壳延伸的光学线路，以及接触气体燃料供应外壳和光学线路的相对高度导热的材料。相对高度导热的材料可以包括热解碳材料。检测来自气体燃料供应外壳的泄漏的方法可以包括将光学线路固定到气体燃料供应外壳，固定包括使热解碳材料与光学线路和气体燃料供应外壳接触。气体燃料监测系统可以包括连接到光学线路的光学询问器，该询问器检测由于外壳振动的变化而被光学线路传输的光的变化。

103. 发明申请

US20160161338A1 Dual Spectral Imager with No Moving Parts 有权
标题翻译：双光谱成像仪，无移动部件
公开(公告)号：US20160161338A1
公开(公告)日：2016-06-09
申请号：US14949909
申请日：2015-11-24
申请人： Moshe Lavi
发明人： Moshe Lavi
IPC分类号： G01J5/00 , H04N5/33
CPC分类号： G01J5/0014 , H04N5/33
摘要： A device images radiation from a scene in two wavelength bands. An uncooled detector of the radiation includes two separate detector regions. A first filter associated with the first detector region allows radiation in a first wavelength band to be imaged on the first detector region. A second filter associated with the second detector region allows radiation in a second wavelength band to be imaged on the second detector region. An image forming optical component forms an image of the scene on the detector. Two wedge-shaped components are positioned at a fixed distance from the image forming optical component. Each wedge-shaped component directs radiation from the scene through the image forming optical component onto the detector. The radiation is imaged separately onto the two detector regions through an f-number of less than approximately 1.5. Imaged radiation on each detector region includes radiation in one respective wavelength band.
摘要翻译：设备从两个波段的场景中拍摄辐射。辐射的非冷却检测器包括两个单独的检测器区域。与第一检测器区域相关联的第一滤波器允许第一波长带中的辐射在第一检测器区域上成像。与第二检测器区域相关联的第二滤波器允许将第二波长带中的辐射成像在第二检测器区域上。图像形成光学部件在检测器上形成场景的图像。两个楔形部件位于与图像形成光学部件固定距离处。每个楔形部件将来自场景的辐射通过图像形成光学部件引导到检测器上。辐射通过小于约1.5的f数单独成像到两个检测器区域上。每个检测器区域上的成像辐射包括一个相应波长带中的辐射。

104. 发明授权

US09273586B2 Contact-type infrared temperature sensor for high temperature measurement, thermal apparatus, and exhaust system 有权
标题翻译：用于高温测量的接触式红外温度传感器，热敏设备和排气系统
公开(公告)号：US09273586B2
公开(公告)日：2016-03-01
申请号：US14418446
申请日：2013-07-23
申请人： SEMITEC CORPORATION
发明人： Toshiyuki Nojiri
IPC分类号： G01J5/20 , F01N11/00 , G01J5/00 , G01J5/08 , F02D41/14 , F02M25/07
CPC分类号： F01N11/002 , F02D41/1446 , F02D41/1451 , F02M26/00 , G01J5/0014 , G01J5/0803 , G01J5/0806 , G01J5/0815 , G01J5/0818 , G01J5/20
摘要： A contact-type infrared temperature sensor 1 for high temperature measurement is provided with: a heat-resistant cylindrical member 2, having a cylindrical shape with one end as a closed section 21 and the other end as an open section 22; an infrared temperature detecting member 4, disposed facing and spaced from the closed section 21, and including no infrared filter; and an optical function section 33, having an infrared light inlet 31 disposed facing and spaced from the closed section 21 by a predetermined dimension, restricting infrared light radiated from the region spaced between the temperature-sensitive section and the infrared light inlet by the predetermined dimension to a range of the region by the infrared light inlet 31 and guiding the infrared light to the infrared temperature detecting member 4.
摘要翻译：用于高温测量的接触式红外线温度传感器1具有：耐热圆筒部件2，其具有一端为封闭部21的圆筒形状，另一端为开口部22; 红外温度检测部件4，其设置成与封闭部21相对且间隔开，并且不包括红外线滤光器; 以及光学功能部33，具有红外光入口31，该红外光入口31设置成与封闭部分21相隔预定尺寸并限制从该温度敏感部分和红外光入口间隔开的区域辐射预定尺寸的红外光通过红外线入口31到该区域的范围，并将红外线引导到红外线温度检测部件4。

105. 发明申请

US20160053698A1 MEMS BOLOMETER SENSOR FOR MEASURING TEMPERATURE IN AN EXHAUST PIPE OF AN AUTOMOTIVE VEHICLE 审中-公开
标题翻译：用于在汽车排气管中测量温度的MEMS BOLOMETER传感器
公开(公告)号：US20160053698A1
公开(公告)日：2016-02-25
申请号：US14928232
申请日：2015-10-30
申请人： Robert Bosch GmbH
发明人： Wolfgang Fischer , Nikhil Ravi
IPC分类号： F02D41/02
CPC分类号： F02D41/008 , F01N2560/06 , F02D41/1446 , F02D41/1458 , F02D41/1477 , G01J5/0014 , G01J5/048 , G01J5/0887
摘要： A control system for an internal combustion engine includes a temperature sensor and an engine controller. The sensor measures the temperature of exhaust gas passing through an exhaust manifold of the engine during each cycle. The controller selectively operates the engine in a first state and a second state. In the first, normal state, a quantity of fuel based on an open loop fuel mass command value is injected into the engine each cycle. In the second state, the controller determines a temperature of the exhaust gas during a normal cycle, injects the quantity and additional fuel into the engine during a second cycle, determines the temperature of the exhaust gas during the second cycle, compares the temperatures, and adjusts the command value for fuel to be injected each cycle when operating the engine in the first state.
摘要翻译：内燃机的控制系统包括温度传感器和发动机控制器。传感器在每个循环期间测量通过发动机排气歧管的废气温度。控制器选择性地操作发动机处于第一状态和第二状态。在第一正常状态下，基于开环燃料质量指令值的燃料量在循环中被注入发动机。在第二状态下，控制器在正常循环期间确定废气的温度，在第二循环期间将数量和附加燃料喷射到发动机中，确定第二循环期间废气的温度，比较温度和在第一状态下操作发动机时，调整每个循环中要喷射的燃料的指令值。

106. 发明授权

US09258495B2 Multi-spectral infrared imaging system for flare combustion efficiency monitoring 有权
标题翻译：多光谱红外成像系统，用于火炬燃烧效率监测
公开(公告)号：US09258495B2
公开(公告)日：2016-02-09
申请号：US13850832
申请日：2013-03-26
申请人： Providence Photonics, LLC
发明人： Yousheng Zeng , Jon Morris , Mark Dombrowski
IPC分类号： H04N5/33 , G01J5/00 , G01J5/08
CPC分类号： H04N5/332 , G01J5/0014 , G01J5/0806 , G01J2005/0077
摘要： The multi-spectral imaging system for real-time measurement of combustion efficiency of an industrial flare is provided. The system includes four spectral bands, one for a hydrocarbon group (fuel), one for carbon dioxide (CO2), product of complete combustion), one for carbon monoxide (CO, product of partially completed combustion), and one for background reference. More spectral bands can be added to measure combustion efficiency of specific compounds or enhance the background reference adjustment. The analysis apparatus includes a machine readable storage medium, which provides instructions that cause the analysis apparatus to perform operations to obtain the combustion efficiency of the flare. The operations includes acquiring at least three spatially and temporally synchronized intensities from an imaging unit capturing images of the flare, and producing the combustion efficiency of the flare from said at least three intensities, and absorption coefficients of materials contained in the flare.
摘要翻译：提供了用于实时测量工业火炬燃烧效率的多光谱成像系统。该系统包括四个光谱带，一个用于烃基（燃料），一个用于二氧化碳（CO2），完全燃烧产物），一个用于一氧化碳（CO，部分完成燃烧的产物），一个用于背景参考。可以添加更多的光谱带来测量特定化合物的燃烧效率或增强背景参考调整。分析装置包括机器可读存储介质，其提供使分析装置执行操作以获得火炬燃烧效率的指令。这些操作包括从拍摄闪光图像的成像单元获取至少三个空间和时间上同步的强度，以及从所述至少三个强度产生耀斑的燃烧效率，以及包含在耀斑中的材料的吸收系数。

107. 发明申请

US20150369668A1 INFRARED DETECTION ELEMENT, INFRARED DETECTOR, AND INFRARED TYPE GAS SENSOR 有权
标题翻译：红外检测元件，红外探测器和红外型气体传感器
公开(公告)号：US20150369668A1
公开(公告)日：2015-12-24
申请号：US14761807
申请日：2014-01-20
申请人： PANASONIC INTELLECTUAL PROPERTY MANAGEMENT CO., LTD.
发明人： Yoshifumi WATABE , Sadayuki SUMI , Yuichi INABA , Junichi HOZUMI , Takahiko HIRAI , Tsuyoshi KURODA
IPC分类号： G01J5/00 , G01J5/34
CPC分类号： G01J5/0014 , G01J1/0271 , G01J3/42 , G01J5/045 , G01J5/046 , G01J5/0815 , G01J5/0831 , G01J5/0853 , G01J5/0862 , G01J5/0875 , G01J5/16 , G01J5/34 , H01L37/02
摘要： An infrared detection element includes first and second pyroelectric elements which are arranged in a single pyroelectric substrate. First pyroelectric element includes a first surface electrode. a first back face electrode, and a first portion interposed between first surface and back face electrodes. First portion is provided as part of pyroelectric substrate. Second pyroelectric element includes a second surface electrode, a second back face electrode, and a second portion interposed between second surface and back face electrodes. Second portion is provided as part of pyroelectric substrate. Pyroelectric substrate is provided in part thereof surrounding first pyroelectric element with a slit shaped along an outer periphery of first pyroelectric element. Slit is formed out of regions in which a first surface wiring and a first back face wiring are disposed. Part of pyroelectric substrate surrounding second pyroelectric element is continuously formed over an entire circumference of second portion.
摘要翻译：红外线检测元件包括布置在单个热电基底中的第一和第二热电元件。第一热电元件包括第一表面电极。第一背面电极和介于第一表面和背面电极之间的第一部分。第一部分被提供为热电基片的一部分。第二热电元件包括第二表面电极，第二背面电极和介于第二表面和背面电极之间的第二部分。第二部分被提供为热电基片的一部分。热电基板的一部分设置有第一热电元件，沿着第一热电元件的外周形成有狭缝。在其中设置有第一表面布线和第一背面布线的区域中形成狭缝。围绕第二热电元件的热电基板的一部分在第二部分的整个圆周上连续地形成。

108. 发明申请

US20150362370A1 SENSOR-FREE IMAGE-BASED AND COMPUTATIONALLY EFFECTIVE APPROACH TO VEHICULAR, INDUSTRIAL AND DOMESTIC AIR POLLUTION ESTIMATION AND CONTROL 审中-公开
标题翻译：无传感器图像和计算方法对车辆，工业和家用空气污染物估算和控制
公开(公告)号：US20150362370A1
公开(公告)日：2015-12-17
申请号：US14303383
申请日：2014-06-12
申请人： Khaled Ali ABUHASEL , Saleh A. ALKAHTANI , Abdullah M. ILlYASU
发明人： Khaled Ali ABUHASEL , Saleh A. ALKAHTANI , Abdullah M. ILlYASU
IPC分类号： G01J5/00
CPC分类号： G01J5/0014 , G01J5/025 , G01J5/0859 , G01J2005/0077
摘要： A system and a method for quantifying the amount and toxicity of a point source gaseous discharge without contacting or physically sampling the point source gaseous discharge, includes: a digital camera capable of capturing multiple images of the point source gaseous discharge and an advanced thermographic camera capable of capturing multiple infrared images of the point source gaseous discharge; and processing circuitry configured to: delineate a smoke region around a point source discharge according to a temperature profile around the point source determined from the normal and infrared images of the space around the point source; digitally record a temperature profile of the smoke region; fuse the aggregated information from the separate images captured using the normal thermographic cameras in order to obtain the emissivity and radiation intensity of one or more components of the point source gaseous discharge in the smoke region from a static database; determine the identity of the components of the point source gaseous discharged by comparing temperature variations of the temperature profile of the smoke region with the emissivity and radiation intensity from the static database; and determine the amount of the components of the point source gaseous discharge through a fuzzy logic controller by relating the properties of the components with the temperature profile the emissivity of the components in the static database.
摘要翻译：一种用于量化点源气体放电的量和毒性的系统和方法，不接触或物理取样点源气体放电，包括：能够捕获点源气体放电的多个图像的数字照相机和具有先进的热成像照相机捕获点源气体放电的多个红外图像; 以及处理电路，其被配置为：根据围绕点源的空间的正常和红外图像确定的点源周围的温度分布来描绘点源放电周围的烟区; 数字记录烟区的温度曲线; 从使用常规热成像照相机拍摄的单独图像中融合聚合信息，以便从静态数据库获得烟雾区域中点源气体放电的一个或多个组分的发射率和辐射强度; 通过将烟雾区域的温度分布的温度变化与来自静态数据库的发射率和辐射强度进行比较来确定点源气体排放的组分的身份; 并通过将组件的属性与温度曲线相关联的静态数据库中的组件的发射率来确定通过模糊逻辑控制器的点源气体放电的分量的量。

109. 发明申请

US20150213699A1 APPARATUSES, SYSTEMS AND METHODS FOR SELF-TESTING OPTICAL FIRE DETECTORS 有权
标题翻译：用于自行测试光检测器的设备，系统和方法
公开(公告)号：US20150213699A1
公开(公告)日：2015-07-30
申请号：US14164409
申请日：2014-01-27
申请人： KIDDE TECHNOLOGIES, INC.
发明人： KEN BELL , ROBERT THEBERT
IPC分类号： G08B17/12 , G01J5/08 , G01J5/10
CPC分类号： G08B17/12 , G01J5/0014 , G01J5/04 , G01J5/0803 , G01J5/0896 , G01J5/10 , G01J5/522 , G01J5/54 , G08B17/113 , G08B29/145
摘要： An integral testing system for testing OFDs is provided. The OFD may comprise a body, a detector, and an infrared source. The detector and the infrared source may be housed with the body. The infrared source may be configured to generate emissions having one or more infrared wavelengths that are detectable by the detector. The infrared source may be configured to produce infrared emissions to simulate flaming fire.
摘要翻译：提供了一个用于测试OFD的集成测试系统。 OFD可以包括身体，检测器和红外源。检测器和红外源可以与身体一起容纳。红外源可以被配置为产生具有可被检测器检测的一个或多个红外波长的发射。红外源可以被配置为产生红外发射以模拟火焰发射。

110. 发明申请

US20150131700A1 HIGH REPETITION RATE THERMOMETRY SYSTEM AND METHOD 审中-公开
标题翻译：高重复率热电偶系统和方法
公开(公告)号：US20150131700A1
公开(公告)日：2015-05-14
申请号：US14537762
申请日：2014-11-10
申请人： Robin Chrystie , Aamir Farooq
发明人： Robin Chrystie , Aamir Farooq
IPC分类号： G01K11/00 , G01J5/00
CPC分类号： G01K11/00 , G01J3/10 , G01J3/42 , G01J5/0014 , G01J2003/423
摘要： A system and method for rapid thermometry using intrapulse spectroscopy can include a laser for propagating pulses of electromagnetic radiation to a region. Each of the pulses can be chirped. The pulses from the region can be detected. An intrapulse absorbance spectrum can be determined from the pulses. An instantaneous temperature of the region based on the intrapulse absorbance spectrum can be determined.
摘要翻译：使用脉冲内波谱的快速测温系统和方法可以包括用于将电磁辐射的脉冲传播到一个区域的激光器。每个脉冲可以被啁啾。可以检测来自该区域的脉冲。可以从脉冲确定脉冲内吸收光谱。可以确定基于脉冲内吸收光谱的区域的瞬时温度。

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