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公开(公告)号:CN102649619B
公开(公告)日:2015-04-29
申请号:CN201210048397.2
申请日:2012-02-27
Applicant: 康宁股份有限公司
CPC classification number: C03B5/24 , C03B5/235 , G01J5/0037 , G01J5/0044 , G01J5/042 , G01J5/043 , G01J5/047 , G01J5/061 , G01J5/0806 , G01J5/084
Abstract: 玻璃熔化炉在一组控制参数下被操作。玻璃配料被馈送到该玻璃熔化炉中,并被熔化成玻璃液。在该熔化期间,该玻璃液上形成了表面层,该表面层包括该玻璃配料的一部分和泡沫。获得该玻璃熔化炉的内部的多个温度记录图。分析该温度记录图,以确定该表面层的热力学特性中是否存在不稳定性。然后调节这组控制参数,以降低所确定的该表面层的热力学特性中的不稳定性。
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公开(公告)号:CN103968950A
公开(公告)日:2014-08-06
申请号:CN201410035439.8
申请日:2014-01-24
Applicant: 通用电气公司
Inventor: J.埃斯特瓦德奥尔达尔 , N.V.尼尔马兰 , N.特拉尔沙瓦拉 , J.C.贝利
CPC classification number: G01J5/602 , F02C7/00 , G01J5/0088 , G01J5/0205 , G01J5/043 , G01J5/0806 , G01J5/0859 , G01J5/0862 , G01J5/0865 , G01J2005/0077
Abstract: 本发明提供一种多色高温测定成像系统及其操作方法,所述多色高温测定成像系统包括与所述高温资产的至少一个高温部件光学相通的至少一个观察口;与所述至少一个观察口光学相通的至少一个相机装置。所述至少一个相机装置包括相机外壳、以及限定在所述相机外壳内与所述至少一个观察口光学相通的至少一个相机孔。所述至少一个相机装置还包括连接到所述外壳的多色滤波机构,其配置用于按顺序传输第一预定波段内的光子和传输第二预定波段内的光子,所述第二预定波段与所述第一预定波段不同。
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公开(公告)号:CN103674276A
公开(公告)日:2014-03-26
申请号:CN201310396912.0
申请日:2013-09-04
Applicant: 罗伯特·博世有限公司
CPC classification number: G01J5/00 , G01J5/0205 , G01J5/0265 , G01J5/028 , G01J5/043 , G01J5/046 , G01J5/06 , G01J5/0806 , G01J2005/065 , G01J2005/068 , G02B7/028
Abstract: 本发明涉及一种用于对物体非接触地进行温度测量的测量仪,具有仪器壳体(12)和布置在所述仪器壳体(12)中的用于非接触地进行温度测量的红外传感器(32),以及具有用于将由所述物体发出的红外射束集束到所述红外传感器(32)上的光学元件(52)。根据本发明提出,所述光学元件(52)浮动地支承。
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公开(公告)号:CN101652644A
公开(公告)日:2010-02-17
申请号:CN200880010794.2
申请日:2008-03-25
Applicant: 丰田自动车株式会社 , 株式会社明和先进技术
IPC: G01J5/00
CPC classification number: G01J5/0003 , G01J5/004 , G01J5/0044 , G01J5/02 , G01J5/026 , G01J5/04 , G01J5/043 , G01J5/08 , G01J5/0803 , G01J5/0846 , G01J5/0859 , G01J5/12 , G01J5/522 , G01J2005/0077 , G01J2005/0081
Abstract: 对应用于热成像法的红外辐射温度计,能够检测该红外辐射温度计的计测异常,并推断计测异常原因,如对物透镜的污染及红外辐射温度计机构部故障等。本发明具有:模拟透镜(21),在红外辐射温度计(10)的对物透镜(11)周围,以比对物透镜(11)更容易污染的位置及姿态被配置;激光位移计(22),每隔规定时间或在规定时刻向摸拟透镜(21)投射光线,并接收由模拟透镜(21)反射的光,对该受光量进行测定;判断单元(50),根据由激光位移计(22)测定的受光量计算投射光的衰减率,并根据算出的衰减率推断模拟透镜(21)的污染程度,根据模拟透镜(21)污染程度判断是否发出对物透镜污染的警告,并判断红外辐射温度计(10)的测定异常。
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公开(公告)号:WO2016162461A1
公开(公告)日:2016-10-13
申请号:PCT/EP2016/057708
申请日:2016-04-08
Applicant: M. ZÜBLIN AG
Inventor: KELLER, Hans Jürg , KELLER, Valentin Christoph
CPC classification number: G01J5/0205 , G01J5/0022 , G01J5/0025 , G01J5/043 , G01J5/045 , G01J5/046 , G01J5/0803 , G01J5/0806
Abstract: The present invention provides a Passive-Infrared (PIR) motion detector for detecting a moving body by detecting its intrinsic radiation in the infrared range. The PIR motion detector comprises a shell-shaped cover (30) with a cover opening (35) and a within the cover (30) disposed infrared- sensitive sensor in a sensor housing (22). The sensor housing is provided with a radiation- transmissive window as optical filter (22) and is sealed. The cover opening (35) is covered by a housing cover (40) in the form of a window or a lens. According to the invention, the housing cover (40) comprises a foil, plate or molded part made from one of the synthetic materials polymethylpentene (PMP), polytetrafluoroethylene (PTFE), polypropylene (PP), or polyester, whereby the foil, plate or molded part has a thickness of between 0.5 and 3 mm. The optical filter (22) in between the housing cover (40) and the sensor (20) is transmissive for Infrared radiation in the wavelength range between 3.5 μm and/or 6 μm and/or between 12.5 μm and at least 25 μm.
Abstract translation: 本发明提供一种用于通过检测其在红外范围内的固有辐射来检测移动体的被动红外(PIR)运动检测器。 PIR运动检测器包括具有盖开口(35)的壳形盖(30)和在传感器壳体(22)内的红外敏感传感器内的盖子内部。 传感器外壳设有作为滤光器(22)的辐射透射窗口并被密封。 盖开口(35)由窗口或透镜形式的壳体盖(40)覆盖。 根据本发明,壳体盖(40)包括由合成材料聚甲基戊烯(PMP),聚四氟乙烯(PTFE),聚丙烯(PP)或聚酯之一制成的箔,板或模制部件,由此箔,板或 成型部件的厚度为0.5〜3mm。 在壳体盖(40)和传感器(20)之间的滤光器(22)对于在3.5μm和/或6μm之间的波长范围内和/或在12.5μm和至少25μm之间的红外辐射是透射的。
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公开(公告)号:US20180136045A1
公开(公告)日:2018-05-17
申请号:US15580128
申请日:2016-06-09
Applicant: TOTAL THERMAL VISION S.r.l.
Inventor: Luca BARALDI
CPC classification number: G01J5/061 , G01J5/004 , G01J5/029 , G01J5/042 , G01J5/043 , G01J5/048 , G01J5/0806 , G01J5/0834 , G01J2005/0077 , G01J2005/0081 , H04N5/2252 , H04N5/33
Abstract: A device for detecting at least one thermographic image including a thermal camera sensitive to infrared radiation for acquiring the thermographic image; a protective case, inside which the thermal camera is inserted, having a window through which the thermal camera is able to acquire the thermographic image; a screen, positioned outside the protective case and movable between a first operating position at which it is superposed on the window to protect it from environmental disturbances and a second operating position wherein it is shifted from the window, allowing the thermal camera to acquire the thermographic image; a pneumatic system for supplying air inside the protective case having an inlet outside the protective case; a computerised command and control unit; the pneumatic system includes means for adjusting and distributing the air operating inside the protective case and in communication with the external inlet controlled by the computerised command and control unit.
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公开(公告)号:US09664622B2
公开(公告)日:2017-05-30
申请号:US14558417
申请日:2014-12-02
Applicant: ATEXON OY
Inventor: Mika Vannas
CPC classification number: G01N21/67 , G01J5/0014 , G01J5/043 , G01J5/0806 , G01J5/0818 , G01J5/089 , G01N2201/0806 , G08B17/12
Abstract: The invention relates to the detection of sparks in a channel where material flows. A spark sensing device is positioned in connection with channel where material flows in a flowing direction. The spark sensing device comprises a sensor element and an optical element that transfers a radiation of a spark to the sensor element. The optical element is made of optically transparent material. The optical element is such that it shapes the collection beam of the sensor element to be asymmetrical whereby the viewing angle of the sensor element is wider in a direction transverse to the flowing direction than in the flowing direction.
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公开(公告)号:US09482582B2
公开(公告)日:2016-11-01
申请号:US14024231
申请日:2013-09-11
Applicant: iPEK International GmbH
Inventor: Alexander Kreutzer
Abstract: An inspection system, in particular, a sewer inspection system is provided, comprising a temperature measurement device, whereby the temperature measurement device is a pyrometer for contact-free measurement of a surface temperature of an object, in particular, a pipe wall. Advantageously, the pyrometer is configured as an infra-red temperature sensor.
Abstract translation: 提供一种检查系统,特别是下水道检查系统,其包括温度测量装置,由此温度测量装置是高温计,用于无接触地测量物体,特别是管壁的表面温度。 有利地,高温计配置为红外温度传感器。
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公开(公告)号:US09410847B2
公开(公告)日:2016-08-09
申请号:US14565976
申请日:2014-12-10
Applicant: Honeywell International Inc.
Inventor: Mark C. Buckley
CPC classification number: G01J5/0025 , G01J5/0205 , G01J5/043 , G01J5/08 , G01J5/0806 , G01J5/34 , G02B1/041 , G02B3/08 , G02B7/022 , G08B13/193
Abstract: A security device is disclosed, wherein the security device includes a Fresnel lens covering the entire face of the device, a housing, and a pyroelectric detector. The center portion of the Fresnel lens, which contains the Fresnel lens elements, is molded flat, its edges are molded in the final installed form, and its edges contain appendages that secure the lens on the device so there are no gaps between the lens and the device.
Abstract translation: 公开了一种安全装置,其中安全装置包括覆盖装置的整个面的菲涅耳透镜,壳体和热电探测器。 菲涅耳透镜的中心部分,其中包含菲涅耳透镜元件,被模制成平坦的,其边缘被模制成最终的安装形式,并且其边缘包含将透镜固定在设备上的附件,使得透镜和 装置。
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公开(公告)号:US20150134292A1
公开(公告)日:2015-05-14
申请号:US14533697
申请日:2014-11-05
Applicant: Thermaltool Corp.
Inventor: Thomas IGNATOWSKI , Michael A. NALLEN , Lesley D. FRAME , Sean Patrick LYNCH
CPC classification number: G01K13/00 , B23K11/0873 , B23K11/252 , B23K11/36 , B29C66/91216 , B29C66/91221 , G01J5/0018 , G01J5/025 , G01J5/042 , G01J5/043 , G01J5/0806 , G01J5/0812 , H04N5/33
Abstract: A series of time-sequenced heat energy data arrays or data stream sets of a weld process region are processed by a weld data array or data stream processing system to produce a heat energy data set output that is related to weld process region features or weld process region heat energy data. The heat energy data set output can be displayed to a system user and modified by system user input to the weld data array or data stream processing system; alternatively, or in combination, the system user output and input, the heat energy data set output, or data produced from the heat energy data set output by the weld data array or data stream processing system, can be transmitted to a weld process controller to adjust parameters in the weld process responsive to the output of the weld data array or data stream processing system.
Abstract translation: 一系列时间序列的热能数据阵列或焊接过程区域的数据流组由焊接数据阵列或数据流处理系统处理,以产生与焊接过程区域特征或焊接过程相关的热能数据集输出 区域热能数据。 热能数据组输出可以显示给系统用户,并由系统用户输入修改为焊接数据阵列或数据流处理系统; 可替代地或组合地,系统用户输出和输入,热能数据组输出或由焊接数据阵列或数据流处理系统输出的热能数据集产生的数据可以被传送到焊接过程控制器 根据焊接数据阵列或数据流处理系统的输出,调整焊接过程中的参数。
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