公开(公告)号：US20140321501A1

公开(公告)日：2014-10-30

申请号：US13869156

申请日：2013-04-24

Applicant: PROGRESS RAIL SERVICES CORPORATION

Inventor： MARK J. BARTONEK ,  Donald J. ARNDT ,  Steven C. HAMERLE ,  Roland O'CONNELL

IPC: G01J5/10

CPC classification number: G01J5/0809 ,  G01J5/0022 ,  G01J2005/0077 ,  G01J2005/0085

Abstract: The present disclosure is directed to a system and method for identifying a hot bearing. A processor may be configured for receiving a plurality of infrared (IR) signals emitted by a bearing as the bearing passes through a view window being monitored by one or more IR sensing elements positioned to receive IR radiation emitted from a target area of the bearing. The processor may extract IR data from IR signals emitted from an area within the target area of the bearing defined by a narrow window extending along a longitudinal axis for a length corresponding to substantially an entire length of the bearing. The processor may also establish a characteristic thermal profile from the extracted IR data, the characteristic thermal profile exhibiting identifiable boundaries of an area of interest on the bearing. The processor may compare temperatures of the bearing within the area of interest to a threshold, and produce an alarm signal if temperatures of the bearing within the area of interest exceed the threshold.

Abstract translation: 本公开涉及用于识别热轴承的系统和方法。 处理器可以被配置为当轴承通过由定位成接收从轴承的目标区域发射的IR辐射的一个或多个IR感测元件监视的视窗时接收由轴承发射的多个红外（IR）信号。 处理器可以从由沿着纵向轴线延伸长度对应于轴承的基本上整个长度的窄窗口限定的轴承的目标区域内的区域发射的IR信号提取IR数据。 处理器还可以根据提取的IR数据建立特征热分布，该特征热分布在轴承上呈现感兴趣区域的可识别边界。 处理器可以将感兴趣区域内的轴承的温度与阈值进行比较，并且如果感兴趣区域内的轴承温度超过阈值，则产生报警信号。

公开(公告)号：US08543357B1

公开(公告)日：2013-09-24

申请号：US12983230

申请日：2010-12-31

Applicant: Peter Marandos ,  Grady Patterson ,  Kenneth Leeson

Inventor： Peter Marandos ,  Grady Patterson ,  Kenneth Leeson

IPC: H03F1/26 ,  G01J5/02

CPC classification number: H04N5/33 ,  G01J5/0003 ,  G01J5/58 ,  G01J2005/0077 ,  G01J2005/0085 ,  Y10T29/49002

Abstract: An apparatus and method for characterization of a directed beam of electromagnetic radiation is provided. An exemplary embodiment of the invention can include an apparatus and measuring technique method which uses a model for blackbody radiation that includes consideration all the degrees of freedom due to translation, vibration, and rotation of molecules or atoms that make up the absorber and a heat transfer term which averages the behavior of all the atoms of the material as a function of temperature. This apparatus and method provides an advantage of increased accuracy, substantial reductions of time required for processing, simplification of measuring processes, and reduction required equipment.

Abstract translation: 提供了用于表征电磁辐射定向束的装置和方法。 本发明的示例性实施例可以包括使用黑体辐射模型的装置和测量技术方法，该方法包括考虑由构成吸收体的分子或原子的平移，振动和旋转引起的所有自由度和传热 将材料的所有原子的行为作为温度的函数进行平均的术语。 该装置和方法提供了提高精度，显着减少处理所需时间，简化测量过程以及减少所需设备的优点。

公开(公告)号：US08442263B2

公开(公告)日：2013-05-14

申请号：US12746660

申请日：2008-12-10

Applicant: Stewart Little ,  Alan Little

Inventor： Stewart Little ,  Alan Little

IPC: G06K9/00 ,  H05B6/02 ,  G01J5/00 ,  G01K11/30

CPC classification number: G01K17/00 ,  G01J5/0003 ,  G01J2005/0085

Abstract: A method for determining heat and/or energy loss from a building using a thermographic image of the building, the image of the building being captured at a pre-determined angle, preferably perpendicular to the building, the method comprising analyzing automatically the image to determine the temperature of areas of the image, determining the real size of the scene associated with the image areas that are above a pre-determined temperature and using this to determine heat and/or energy loss from the building.

Abstract translation: 一种用于使用建筑物的热成像图像从建筑物确定热量和/或能量损失的方法，建筑物的图像以预定角度被捕获，优选垂直于建筑物，该方法包括自动分析图像以确定 图像的区域的温度，确定与高于预定温度的图像区域相关联的场景的实际大小，并且使用它来确定来自建筑物的热量和/或能量损失。

公开(公告)号：US07633066B2

公开(公告)日：2009-12-15

申请号：US11438604

申请日：2006-05-22

Applicant: William Joseph Antel, Jr. ,  Nirm Velumylum Nirmalan ,  Jason Randolph Allen ,  Jeffrey Lawrence Williams

Inventor： William Joseph Antel, Jr. ,  Nirm Velumylum Nirmalan ,  Jason Randolph Allen ,  Jeffrey Lawrence Williams

IPC: G01J5/08

CPC classification number: G01J5/0022 ,  G01J5/0088 ,  G01J5/04 ,  G01J5/047 ,  G01J5/08 ,  G01J5/0809 ,  G01J5/084 ,  G01J5/0846 ,  G01J5/0862 ,  G01J5/10 ,  G01J5/602 ,  G01J2005/0085

Abstract: A thermal measurement system includes a number of detectors configured to receive radiation within respective wavelength ranges. The system also includes a mirror configured to selectively direct the radiation from an object to each of the detectors. The system further includes an actuator mechanically coupled to the mirror and configured to rotate the mirror through a number of angles. The system also includes an optical and probe subsystem disposed between the object and the mirror to focus the radiation on to the mirror.

Abstract translation: 热测量系统包括多个检测器，其被配置为在相应波长范围内接收辐射。 该系统还包括被配置为选择性地将物体辐射引导到每个检测器的反射镜。 该系统还包括致动器，其机械地联接到反射镜并且被配置为使反射镜旋转多个角度。 该系统还包括设置在物体和反射镜之间的光学和探针子系统，以将辐射聚焦到镜子上。

公开(公告)号：US20180227503A1

公开(公告)日：2018-08-09

申请号：US15880174

申请日：2018-01-25

Applicant: KAMAKURA KOKI CO., LTD.

Inventor： Kunio ANDO ,  Kazuya MIYAJI

IPC: H04N5/265 ,  H04N5/33 ,  H04N5/232 ,  G01J5/08 ,  G01J5/00 ,  G01J5/10

CPC classification number: H04N5/265 ,  G01J5/0003 ,  G01J5/0806 ,  G01J5/10 ,  G01J2005/0077 ,  G01J2005/0085 ,  G02B23/00 ,  H04N5/23293 ,  H04N5/33

Abstract: An optical observation device for observing a target located at a distant observation sight that comprises an observation telescope and an infrared sighting device. The infrared sighting device eventually provides a visual target image as a sighting marker from a thermal infrared image of the observation sight. The sighting marker and the observation sight are simultaneously viewed in the field of view of the observation telescope so as to enable training of the observation telescope on a part of the observation sight where the target is located.

公开(公告)号：US10012546B2

公开(公告)日：2018-07-03

申请号：US14923085

申请日：2015-10-26

Applicant: Progress Rail Services Corporation

Inventor： Mark Joseph Bartonek ,  Donald J. Arndt ,  Steven Conrad Hamerle

IPC: G01J5/02 ,  G01J5/10 ,  B61K9/08 ,  B61K9/04 ,  G01J5/00

CPC classification number: G01J5/10 ,  B61K9/04 ,  B61K9/06 ,  B61K9/08 ,  G01J5/0022 ,  G01J5/025 ,  G01J5/026 ,  G01J2005/0033 ,  G01J2005/0077 ,  G01J2005/0085

Abstract: A temperature detection system for railway applications is provided. The system may include at least one infrared (IR) sensing element configured to detect IR signals emitted by a rail or a railcar, and a controller in communication with the at least one IR sensing element. The controller may be configured to receive the IR signals from the at least one IR sensing element, extract IR data corresponding to at least one of a rail and an undercarriage of the railcar from the IR signals, and generate a characteristic thermal profile of at least one of an ambient temperature and a rail temperature based on the IR data.

公开(公告)号：US20180133840A1

公开(公告)日：2018-05-17

申请号：US15125385

申请日：2016-03-25

Applicant: TECHNOLOGY RESEARCH ASSOCIATION FOR FUTURE ADDITIVE MANUFACTURING

Inventor： Keiichi NORIYAMA ,  Hirohisa KURAMOTO

IPC: B23K26/342 ,  B33Y10/00 ,  B33Y30/00 ,  B33Y50/02 ,  B23K26/03 ,  B23K26/082 ,  B23K26/144

CPC classification number: B23K26/342 ,  B22F3/1055 ,  B22F2003/1056 ,  B22F2003/1057 ,  B22F2999/00 ,  B23K26/032 ,  B23K26/034 ,  B23K26/082 ,  B23K26/14 ,  B23K26/144 ,  B29C64/153 ,  B29C64/393 ,  B33Y10/00 ,  B33Y30/00 ,  B33Y50/02 ,  G01J5/0037 ,  G01J2005/0077 ,  G01J2005/0085 ,  G01K2213/00 ,  Y02P10/295 ,  B22F2203/03 ,  B22F2203/11

Abstract: The temperature of a molten pool is measured based on an image captured by an infrared camera or the like. A three-dimensional laminating and shaping apparatus include a material ejector that ejects a material of a three-dimensional laminated and shaped object. The three-dimensional laminating and shaping apparatus includes a light beam irradiator that irradiates the ejected material with a light beam. The three-dimensional laminating and shaping apparatus includes an image capturer that captures a molten pool of the material formed by irradiating the ejected material with the light beam. The three-dimensional laminating and shaping apparatus includes a temperature deriving unit that derives a temperature of the molten pool based on a luminance of an image of the molten pool captured by the image capturer.

公开(公告)号：US09851259B2

公开(公告)日：2017-12-26

申请号：US15237549

申请日：2016-08-15

Applicant: MivaLife Mobile Technology, Inc.

Inventor： Hongjuan Zhao ,  Yueqiong Wang ,  Kai Li ,  Hangqiang Chen ,  Shangyu Guo ,  Shaodong Ma ,  Qin Yuan

IPC: G08B17/00 ,  G01J5/18 ,  G01J5/00 ,  G01J5/02 ,  G01J5/08 ,  A61B5/01 ,  G01K1/20 ,  G08B21/04 ,  G08B21/22 ,  G01J5/12 ,  G01J5/34 ,  G01J5/10 ,  G01J5/06

CPC classification number: G01J5/18 ,  A61B5/01 ,  G01J5/0025 ,  G01J5/0066 ,  G01J5/026 ,  G01J5/028 ,  G01J5/0846 ,  G01J5/089 ,  G01J5/0893 ,  G01J5/12 ,  G01J5/34 ,  G01J2005/0048 ,  G01J2005/0085 ,  G01J2005/068 ,  G01J2005/106 ,  G01K1/20 ,  G08B21/0469 ,  G08B21/22

Abstract: Methods, systems, and apparatus, for an infrared detector are provided. In one aspect, an infrared detector is provided that includes a pyroelectric sensor; a controller for receiving a trigger signal outputted by the pyroelectric sensor; a thermopile sensor, wherein the controller starts the thermopile sensor after receiving the trigger signal output by the pyroelectric sensor; and an alarm, wherein the controller controls the alarm to generate an alarm signal in response to a determination that a difference between a current temperature and a background temperature detected by the thermopile sensor is larger than a threshold value and a determination that the areas of the thermopile sensor activated correspond to a human being.

公开(公告)号：US20170361420A1

公开(公告)日：2017-12-21

申请号：US15696926

申请日：2017-09-06

Applicant: EBARA CORPORATION

Inventor： Toru MARUYAMA ,  Hisanori MATSUO ,  Yasuyuki MOTOSHIMA

IPC: B24B37/015 ,  B24B49/14 ,  G01J5/02 ,  G01J5/00

CPC classification number: B24B37/015 ,  B24B49/14 ,  B24B55/02 ,  G01J5/025 ,  G01J2005/0085

Abstract: A polishing method and a polishing apparatus which can increase a polishing rate and can control a polishing profile of a substrate being polished by adjusting a surface temperature of a polishing pad are disclosed. The polishing method for polishing a substrate by pressing the substrate against a polishing pad on a polishing table includes a pad temperature adjustment step of adjusting a surface temperature of the polishing pad, and a polishing step of polishing the substrate by pressing the substrate against the polishing pad having the adjusted surface temperature. In the pad temperature adjustment step, the surface temperature of a part of an area of the polishing pad, the area being to be brought in contact with the substrate, is adjusted during the polishing step so that the rate of temperature change of a temperature profile in a radial direction of the surface of the polishing pad becomes constant in the radial direction of the polishing pad.

公开(公告)号：US20170115166A1

公开(公告)日：2017-04-27

申请号：US14923085

申请日：2015-10-26

Applicant: Progress Rail Services Corporation

Inventor： Mark Joseph Bartonek ,  Donald J. Arndt ,  Steven Conrad Hamerle

IPC: G01J5/10 ,  B61K9/08 ,  B61K9/04 ,  G01J5/02

CPC classification number: G01J5/10 ,  B61K9/04 ,  B61K9/06 ,  B61K9/08 ,  G01J5/0022 ,  G01J5/025 ,  G01J5/026 ,  G01J2005/0033 ,  G01J2005/0077 ,  G01J2005/0085

Abstract: A temperature detection system for railway applications is provided. The system may include at least one infrared (IR) sensing element configured to detect IR signals emitted by a rail or a railcar, and a controller in communication with the at least one IR sensing element. The controller may be configured to receive the IR signals from the at least one IR sensing element, extract IR data corresponding to at least one of a rail and an undercarriage of the railcar from the IR signals, and generate a characteristic thermal profile of at least one of an ambient temperature and a rail temperature based on the IR data.