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    • 1. 发明专利
    • Temperature measuring device
    • 温度测量装置
    • JP2008286609A
    • 2008-11-27
    • JP2007130981
    • 2007-05-16
    • Nippon Steel CorpYamari Sangyo Kk山里産業株式会社新日本製鐵株式会社
    • MATSUMOTO SHUNJIFUCHIMOTO SHINYAKIMURA KAZUO
    • G01K1/14
    • PROBLEM TO BE SOLVED: To measure the temperature in a furnace with higher accuracy and better responsiveness than hitherto by preventing flow-in of back draft, in a large-scale furnace comprising a shell and a refractory body such as an air-heating furnace.
      SOLUTION: This temperature measuring device is equipped with a temperature measuring body 6a for measuring the temperature of the refractory body 4 by bringing a temperature measuring body tip part 60 close to a spot whose temperature is to be measured on the refractory body 4, a pad part 6b for conducting the heat on the spot whose temperature is to be measured to the temperature measuring body tip part 60 adherently to the spot whose temperature is to be measured, a pressure contact part 17 for pressure-contacting the pad part 60 onto the spot whose temperature is to be measured by pressing the temperature measuring body 6a and the pad part 6b onto the spot whose temperature is to be measured from the outside of a furnace body, and a furnace wall fixing part 14 for fixing the temperature measuring body 6a and the pressure contact part 17 to a furnace body outer cover 1. The temperature measuring body tip part 60 can be deformed in a direction orthogonal to the axial direction.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了通过防止回流通气的流入,以比迄今为止更高的精度和更好的响应性来测量炉中的温度,在包括外壳和耐火体的大型炉中,例如空气 - 加热炉。 解决方案:该温度测量装置配有温度测量体6a,用于通过使温度测量体顶端部分60靠近待测温度的点在耐火体4上测量耐火体4的温度 用于将温度要测量的温度的热量粘附到温度测量体顶端部分60上的垫片部分6b粘贴到要测量的温度的点上,用于压力接触焊盘部分60的压力接触部分17 通过将温度测量体6a和焊盘部分6b从炉体的外部按压到要测量的温度的点上来测量温度的位置和用于固定温度测量的炉壁固定部分14 主体6a和压力接触部17连接到炉体外盖1.温度测量体顶端部分60可以在与轴向正交的方向上变形。 版权所有(C)2009,JPO&INPIT
    • 2. 发明专利
    • Portable gas detector device
    • 便携式气体检测装置
    • JP2007193773A
    • 2007-08-02
    • JP2006305710
    • 2006-11-10
    • Nippon Steel Corp新日本製鐵株式会社
    • MATSUMOTO SHUNJIONISHI TADAHARU
    • G08B21/14G01N27/04
    • PROBLEM TO BE SOLVED: To provide a portable gas detector device which quickly and surely notifies abnormality of concentration and allows workers to appropriately handle dangerous situations even under disturbances, such as noise or vibration.
      SOLUTION: The portable gas detector device has a gas sensor which detects dangerous gas or the concentration of oxygen in atmosphere to output a gas concentration detection signal A, a warning generator which warns workers, a signal processor which signal processes the gas concentration detection signal A to output a gas measurement concentration signal B and controls the warning generator, and a gas concentration determination part which determines whether or not a specified gas leakage occurs based on the gas measurement concentration signal B to generate a specified leakage state signal. The warning generator consists of an earphone, and the signal processor allows the warning generator to output voice messages based on the specified leakage state signal.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种能够快速,可靠地通知浓度异常的便携式气体检测装置,并且即使在诸如噪声或振动的干扰下,工人也能适当地处理危险情况。 解决方案:便携式气体检测装置具有气体传感器,用于检测大气中的危险气体或氧气的浓度,以输出气体浓度检测信号A,警告发生器警告工人,信号处理器信号处理气体浓度 检测信号A输出气体测定浓度信号B并控制警告发生器,以及气体浓度判定部,其基于气体测定浓度信号B判定是否发生特定的气体泄漏,生成规定的泄漏状态信号。 报警发生器由耳机组成,信号处理器允许报警发生器根据指定的泄漏状态信号输出语音信息。 版权所有(C)2007,JPO&INPIT
    • 4. 发明专利
    • Instrument for detecting molten metal surface level in mold
    • 用于检测模具中金属表面水平的仪器
    • JP2005028381A
    • 2005-02-03
    • JP2003194044
    • 2003-07-09
    • Nippon Steel Corp新日本製鐵株式会社
    • SUZUKI MASARUMATSUMOTO SHUNJIUENO TOSHIAKIHIRAYAMA TAKASHI
    • G01F23/00B22D11/18
    • PROBLEM TO BE SOLVED: To provide an instrument for detecting a molten metal surface level in a mold, with which even under casting condition that waving appears on the molten metal surface in the mold, the detection of the waving can be restrained so that the pouring amount of the molten metal easily stabilized in a continuous casting of the molten metal.
      SOLUTION: In the continuous casting for molten metal, this molten metal surface level detecting instrument comprises: two molten metal surface level meters arranged so as to measure symmetrical positions in the width direction of the mold centered on an immersion nozzle arranged in the center part of the mold; and an additional average calculator for additional-average calculating and outputting the molten metal surface level detected signals of two molten metal surface level meters, wherein this output of additional average calculator is set as the molten metal surface level in the mold.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:为了提供一种用于检测模具中的熔融金属表面水平的仪器,即使在模具中的熔融金属表面上出现波动的铸造条件下,也可以抑制波动的检测 熔融金属的浇注量在熔融金属的连续铸造中容易稳定。 解决方案:在熔融金属的连续铸造中,该熔融金属表面水平检测仪器包括:两个熔融金属表面电平计,其布置成测量以设置在该金属表面的浸入式喷嘴为中心的模具的宽度方向上的对称位置 模具的中心部分; 以及用于附加平均值计算和输出两个熔融金属表面液位计的熔融金属表面水平检测信号的附加平均计算器,其中该附加平均计算器的该输出被设置为模具中的熔融金属表面水平。 版权所有(C)2005,JPO&NCIPI
    • 5. 发明专利
    • Device and method for measuring profile of burden in blast furnace
    • 用于测量烤炉中烧结轮廓的装置和方法
    • JP2011002241A
    • 2011-01-06
    • JP2009143127
    • 2009-06-16
    • Nippon Steel CorpNittetsu Hokkaido Control Systems Corpニッテツ北海道制御システム株式会社新日本製鐵株式会社
    • MATSUMOTO SHUNJIWAKABAYASHI SHIGEJIAKIMOTO TETSUYA
    • G01B15/04C21B7/24
    • PROBLEM TO BE SOLVED: To provide a small and inexpensive device and a method of measuring profile of burden in blast furnace, the device and method not affected by high-density powder dust in a blast furnace even in the large-scale blast furnace and allowing short-time measurement.SOLUTION: On the basis of two sets of distance data and scan angle data input from two microwave distance meters 11 and scan drive devices 13, linear approximation is performed from the distance data within a predetermined scan angle range, excluding the center section of the blast furnace 2 and estimate the surface shape of the burden 4 in the blast furnace. From the two sets of distance data, the distance data in a predetermined range including the range immediately below the respective microwave distance meters 11 and the distance data on the sides facing the installation positions of the respective microwave distance meters, excluding the range containing those lying immediately below the distance meters are adopted and are combined with the lowest point of the estimated surface shape as the boundary.
    • 要解决的问题:即使在大型高炉中,即使在大型高炉中也可以提供小而廉价的装置和测量高炉中的负荷轮廓的方法,该装置和方法不受高炉高密度粉尘的影响,并允许 短时测量。解决方案:根据两台微波距离计11和扫描驱动装置13输入的两组距离数据和扫描角度数据,从预定扫描角度范围内的距离数据进行线性近似,不包括 高炉2的中心部分,并估计高炉中的负担4的表面形状。 从两组距离数据中,将包括各微波距离仪表11正下方的范围的预定范围内的距离数据和面对各微波距离计的安装位置的一侧的距离数据排除在外, 采用距离仪表以下的距离,并将其与作为边界的估计表面形状的最低点组合。
    • 6. 发明专利
    • Moisture content measuring device and moisture content measuring method
    • 水分含量测量装置和水分含量测量方法
    • JP2009250819A
    • 2009-10-29
    • JP2008100103
    • 2008-04-08
    • Nippon Steel CorpNittetsu Hokkaido Control Systems Corpニッテツ北海道制御システム株式会社新日本製鐵株式会社
    • MATSUMOTO SHUNJIHIRAKA NORIYASUAKIMOTO TETSUYAGOROKU AKIHIROKOBAYASHI KEISUKE
    • G01N25/56G01N5/04
    • PROBLEM TO BE SOLVED: To provide a technology that flexibly responds to variation in type, state, and blending ratio of a powder body, and measures the moisture percentage of a sample in a short measuring time at high accuracy.
      SOLUTION: This device includes a sample heating section 4 for heating the sample 8 in order to dry it, a controller 2 for heating for controlling it to a certain drying temperature, a sample weighing section 5 for weighing the sample 8 and continuously or intermittently outputting the mass value (m), and a weighing data processing section 9 for calculating the moisture content or moisture percentage contained in the sample based on a series of finite number of mass values (m) in a predetermined period output continuously or intermittently. The weighing data processing section 9, using the series of finite number of mass values (m) in the predetermined period, predicts, by a predetermined prediction operation, the time transition of decrease of the mass values (m) until the sample 8 dries completely and the time transition of time variation (Δm) of the mass values (m), and estimates and calculates the moisture content or moisture percentage contained in the sample before measurement.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种柔性地响应于粉末体的类型,状态和混合比的变化的技术,并以高精度在短的测量时间内测量样品的水分百分比。 解决方案:该装置包括用于加热样品8以将其干燥的样品加热部分4,用于加热以控制到一定干燥温度的控制器2,用于称量样品8并连续地称取的样品称重部分5 或间歇地输出质量值(m),以及称量数据处理部9,用于基于连续或间歇输出的预定周期中的一系列有限质量值(m)来计算样品中含水量或湿度百分比 。 称量数据处理部分9在预定时段内使用有限数量的质量值(m),通过预定的预测操作预测质量值(m)的减小到样品8完全干燥的时间转变 和质量值(m)的时间变化(Δm)的时间变化,并且估计并计算测量之前样品中含有的含水量或水分百分比。 版权所有(C)2010,JPO&INPIT
    • 8. 发明专利
    • Profile measurement apparatus for object charged into blast furnace
    • 配置文件测量装置,用于对象装入BLAST FURNACE
    • JP2012237560A
    • 2012-12-06
    • JP2011104823
    • 2011-05-10
    • Nippon Steel Corp新日本製鐵株式会社Nittetsu Elex Co Ltd株式会社日鉄エレックスNittetsu Hokkaido Control Systems Corpニッテツ北海道制御システム株式会社
    • WAKABAYASHI SHIGEJIMATSUMOTO SHUNJIAKIMOTO TETSUYAIBUKI YUKI
    • G01B15/04C21B7/24
    • PROBLEM TO BE SOLVED: To provide a profile measurement apparatus for an object charged into a blast furnace, which can perform highly accurate profile measurement by a simple structure while preventing a mechanical part from being influenced by heat, high-density dust etc. in the blast furnace.SOLUTION: In a profile measurement apparatus 1 installed on a top part of a blast furnace 2 to measure a profile of an object 4 charged into the blast furnace 2, a whole measurement apparatus body part 10 composed of a microwave transmitter/receiver 14 capable of transmitting/receiving microwaves, an antenna 11 for emitting a microwave, a waveguide 13 for connecting the microwave transmitter/receiver 14 to the antenna 11, a reflector 12 for reflecting the microwave emitted from the antenna 11 to the inside of the blast furnace 2, a reflector driving device 16 for driving the reflector 12, and a driving shaft 15 for connecting the reflector 12 to the reflector driving device 16, is stored in a pressure resistant vessel 9 having an aperture 21 directed to the inside of the blast furnace 2.
    • 要解决的问题:提供一种用于装入高炉的物体的型材测量装置,其可以通过简单的结构执行高精度的轮廓测量,同时防止机械部件受到热,高密度灰尘等的影响 在高炉里。 解决方案:在安装在高炉2的顶部的曲线测量装置1中,测量装入高炉2的物体4的轮廓,整个测量装置主体部分10由微波发射器/接收器 能够发送/接收微波的天线11,用于发射微波的天线11,用于将微波发射器/接收器14连接到天线11的波导13,用于将从天线11发射的微波反射到鼓风内部的反射器12 炉2,用于驱动反射器12的反射器驱动装置16和用于将反射器12连接到反射器驱动装置16的驱动轴15被存储在具有指向鼓风内部的孔21的耐压容器9中 炉膛2.版权所有(C)2013,JPO&INPIT
    • 9. 发明专利
    • Profile measurement equipment for blast furnace burden
    • 配置文件测量设备用于BLAST FURNACE BURDEN
    • JP2011145237A
    • 2011-07-28
    • JP2010007752
    • 2010-01-18
    • Nippon Steel CorpNittetsu Elex Co Ltd新日本製鐵株式会社株式会社日鉄エレックス
    • WAKABAYASHI SHIGEJIMATSUMOTO SHUNJI
    • G01B15/04C21B7/24
    • PROBLEM TO BE SOLVED: To provide a profile measurement equipment for accurately measuring a profile of blast furnace burden with a simplified structure and without a mechanical unit being affected by blast furnace heat, high concentration of dust and the like in the blast furnace. SOLUTION: The profile measurement equipment has: a microwave transmitter 18; an antenna 11 for emitting the microwave; a waveguide 17 for connecting the microwave transmitter 18 and the antenna 11; a reflector 12 for reflecting the microwave; a reflector drive unit 21; and a drive shaft 22 for connecting the reflector 12 and the reflector drive unit 21. The antenna 11, an end 17a on the antenna 11 side of the waveguide 17, the reflector 12, and an end 22a on the reflector 12 side of the drive shaft 22 are stored in a pressure container 10 having an opening 13 mounted at the top of the blast furnace 2 and facing the inside of the blast furnace 2, while the microwave transmitter 18 and the reflector drive unit 21 are arranged outside of the pressure container 10. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种用于以简化的结构精确测量高炉负荷的轮廓的型材测量设备,并且没有机械单元受到高炉炉热的影响,高炉中的灰尘等的高浓度 。 解决方案:型材测量设备具有:微波发射器18; 用于发射微波的天线11; 用于连接微波发射器18和天线11的波导17; 用于反射微波的反射器12; 反射器驱动单元21; 以及用于连接反射器12和反射器驱动单元21的驱动轴22.天线11,波导17的天线11侧的端部17a,反射器12和驱动器的反射器12侧的端部22a 轴22被储存在具有开口13的压力容器10中,该开口13安装在鼓风炉2的顶部并面对高炉2的内部,而微波发射器18和反射器驱动单元21设置在压力容器的外部 10.版权所有(C)2011,JPO&INPIT
    • 10. 发明专利
    • Wind speed measurement device, sintering machine and wind speed measurement method
    • 风速测量装置,烧结机和风速测量方法
    • JP2011033266A
    • 2011-02-17
    • JP2009179434
    • 2009-07-31
    • Nippon Steel CorpNittetsu Hokkaido Control Systems Corpニッテツ北海道制御システム株式会社新日本製鐵株式会社
    • MATSUMOTO SHUNJINAKAMURA ISAOSUZUKI AKIMASA
    • F27B21/14C22B1/20
    • PROBLEM TO BE SOLVED: To provide a wind speed measurement device capable of stably performing accurate measurement for a long time.
      SOLUTION: The wind speed measurement device 160 for measuring the wind speed of a sintering material layer of a sintering machine 100 includes: a wind speed measurement part for measuring the wind speed in the vertical direction above the sintering material layer; and a height adjusting part for maintaining a distance in the vertical direction between the wind speed measurement part and the surface of the sintering material layer at a first height. When the magnitude of the fluctuation of the height of the sintering material layer surface becomes not smaller than a threshold height which makes the measurement value by the wind speed measurement part start to be affected by disturbance, the height adjusting part maintains a position in the vertical direction of the wind speed measurement part at the first height following the height of the sintering material layer surface. Thus, by a simple configuration, the wind speed can be stably measured almost without being affected by disturbance such as a crosswind.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供能够长时间稳定地进行精确测量的风速测量装置。 解决方案:用于测量烧结机100的烧结材料层的风速的风速测量装置160包括:风速测量部,用于测量在烧结材料层上方的垂直方向上的风速; 以及高度调节部件,用于在第一高度处保持风速测量部件和烧结材料层的表面之间的垂直方向上的距离。 当烧结材料层表面的高度的波动的大小变得不小于使得风速测量部分的测量值开始受到干扰的阈值高度时,高度调节部件保持竖直位置 风速测量部分的方向在跟随烧结材料层表面的高度的第一高度处。 因此,通过简单的结构,几乎可以稳定地测量风速,而不受诸如侧风等扰动的影响。 版权所有(C)2011,JPO&INPIT