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    • 91. 发明申请
    • OPTICAL MONITORING SYSTEM FOR OBSERVING INTERNAL CONDITIONS IN THE TUYERE ZONE OF A BLAST FURNACE
    • 用于观察BLAST FURNACE区域内部条件的光学监测系统
    • WO2016128366A1
    • 2016-08-18
    • PCT/EP2016/052663
    • 2016-02-09
    • PAUL WURTH S.A.
    • TOCKERT, PaulJUNG, Benoît
    • C21B7/16C21B7/24C21C5/46F27D21/02
    • F27D21/02C21B7/163C21B7/24C21C5/4673F27D2021/026G01N21/954
    • The invention relates to an optical monitoring system (26) for monitoring operating conditions in a tuyere zone of a blast furnace. This system comprises a light deflecting device (40) with a peep sight (28) arranged in a first face (46) of the light deflecting device (40) and an optical sensor (30) arranged in a second face (48) of the light deflecting device (40). A light deflector (41)is arranged within the light deflecting device (40) for directing incident light from the tuyere zone towards the peep sight (28) and towards the optical sensor (30). The light deflecting device (40) comprises a housing (56) with a spherical body (60) rotatably arranged therein. The spherical body (60) comprises three passages: a first passage (62) which is, when the light deflecting device (40) is connected to the rear portion of the blowpipe (18), facing the tuyere for allowing incident light from the tuyere zone to enter the spherical body (60); a second passage (70) facing the peep sight (28); a third passage (72) facing the optical sensor (30). The first, second and third passages (62, 68, 72) are configured so as to meet each other within the spherical body (60). The light deflector (41) is arranged within the spherical body (60) at the intersection of the first, second and third passages (62, 68, 72). Furthermore, the light deflecting device (40) comprises an opening (76) in a third face (50) of the housing (56) for accessing the spherical body (60) for allowing rotation of the spherical body (60) within the housing (56). The spherical body (60) comprises a socket (78) facing the opening (76) in the third face (50). The opening (76) is a guiding slot (86) whose width is substantially the same as a diameter of the socket (78).
    • 本发明涉及一种用于监测高炉风口区的运行状况的光学监视系统(26)。 该系统包括具有布置在光偏转装置(40)的第一面(46)中的窥视瞄准器(28)的光偏转装置(40)和布置在光偏转装置(40)的第二面(48)中的光学传感器 光偏转装置(40)。 光偏转器(41)布置在光偏转装置(40)内,用于将来自风口区的入射光朝向窥视瞄准器(28)并朝向光学传感器(30)引导。 光偏转装置(40)包括具有可旋转地布置在其中的球体(60)的壳体(56)。 球体(60)包括三个通道:第一通道(62),当光偏转装置(40)连接到吹管(18)的后部时,第一通道(62)面向风口允许来自风口的入射光 区域进入球体(60); 面向窥视视窗(28)的第二通道(70); 面向光学传感器(30)的第三通道(72)。 第一,第二和第三通道(62,68,72)构造成在球体(60)内彼此相遇。 光偏转器(41)在第一,第二和第三通道(62,68,72)的交叉处设置在球体(60)内。 此外,光偏转装置(40)包括在壳体(56)的第三面(50)中的开口(76),用于接近球体(60),以允许球体(60)在壳体内旋转 56)。 球形体(60)包括面向第三面(50)中的开口(76)的插座(78)。 开口(76)是其宽度基本上与插座(78)的直径相同的导槽(86)。
    • 95. 发明申请
    • CONTINUOUS TEMPERATURE MEASURING DEVICE AND RH APPARATUS INCLUDING THE SAME
    • 连续温度测量装置和RH装置
    • WO2015080443A1
    • 2015-06-04
    • PCT/KR2014/011308
    • 2014-11-24
    • WOOJIN ELETRO-NITE INC.HERAEUS ELECTRO-NITE INTERNATIONAL N.V.
    • YOU, Jong-AnPARK, Kwang-SunKIM, Yeong-In
    • G01J5/28G01J5/02G01K13/00C21C7/10
    • C21C5/4673C21C7/10F27D21/0014G01J5/004G01J5/02G01J5/042G01J5/048G01J5/0818G01J5/0821G01J5/28G01K7/02G01K11/00G01K11/32
    • Disclosed are a continuous temperature measuring device used in a Ruhrstahl-Heraeus (RH) process of performing vacuum degassing among steel making processes in an ironworks and an RH apparatus including the same. The RH apparatus includes a sensor hole formed at a lower vessel of a vacuum vessel; a continuous temperature measuring device mounted on the sensor hole and including a light-to-temperature converter measuring temperature based on received light, a light guide rod receiving light from a measurement target, an optical fiber transferring the light received by the light guide rod to the light-to-temperature converter, a connector connecting the optical fiber to the light guide rod while maintaining straightness of the optical fiber, a primary protection tube enclosing an outer peripheral surface of the light guide rod, a flexible heat resistant tube protecting the optical fiber, and a joint connected to the flexible heat resistant tube and provided with a cooling gas injection tube; and a cooling gas supply unit supplying cooling gas to the cooling gas injection tube.
    • 公开了一种用于在炼铁厂和包括该炼铁厂的RH装置中的炼钢工序之间进行真空脱气的鲁尔斯塔氏-Heraeus(RH)方法中的连续温度测量装置。 RH装置包括形成在真空容器的下部容器处的传感器孔; 安装在传感器孔上的连续的温度测量装置,包括基于接收的光测量温度的光温转换器,从测量对象物接收光的导光杆,将由导光杆接收的光传送到 光温转换器,将光纤连接到导光杆同时保持光纤的直线性的连接器,包围导光棒的外周面的主保护管,保护光学元件的柔性耐热管 纤维和连接到柔性耐热管并且设置有冷却气体注入管的接头; 以及向冷却气体注入管供给冷却气体的冷却气体供给部。
    • 98. 发明申请
    • METHOD AND DEVICE FOR INFLUENCING THE GENESIS OF REACTION GASES IN A METALLURGIC VESSEL
    • 方法和设备所产生的影响与反应气体中的冶金炉
    • WO2013045198A2
    • 2013-04-04
    • PCT/EP2012066840
    • 2012-08-30
    • SIEMENS VAI METALS TECH GMBHHAMPEL ALFRED
    • HAMPEL ALFRED
    • C21C5/38C21C5/4673C21C2300/06F27B3/28F27D19/00F27D21/00F27D21/0014F27D21/0035F27D2019/0012F27D2019/0021F27D2019/0075Y02P10/212Y02P10/286
    • The invention relates to a method for influencing the genesis of reaction gases (4) in a metallurgic vessel for generating molten metals from input materials comprising scrap (1) and raw iron (3), wherein the reaction gases are collected in a charging exhaust hood (5) and supplied to an exhaust line (6) of a dedusting system. The method according to the invention is characterized in that the momentary reaction gas temperature in the charging exhaust hood (5) is measured, the momentary reaction gas flow in the exhaust line (6) is measured, the temperature of the reaction gas on the site of measurement of the momentary reaction gas flow at the time of measurement of the momentary reaction gas flow is measured, the momentary thermal capacity of the reaction gases (4) is calculated from said measurement values, and the value of said momentary thermal capacity of the reaction gases (4) is used to regulate the input material volume when charging input materials into the metallurgic vessel. The invention also relates to a device for influencing the genesis of reaction gases (4) by a method according to the invention.
    • 本发明涉及一种用于在冶金容器影响反应的气体(4)的出现从原料生产熔融金属,包括废钢(1)和生铁(3),其中,所述反应气体被收集在一个Chargierabsaughaube(5),并在 吸入管路(6)的压粉供给。 的反应气体的温度保持在瞬时反应气体流量的测量站点的测量的时间 - 该方法的特征在于: - 瞬时反应气体温度在Chargierabsaughaube(5)测得的, - 在抽吸管线(6)的瞬时反应气体流被测量, 瞬时反应气体流被测量, - 反应气体(4)的瞬时热输出从这些测量值计算,以及 - 将反应气体(4)的该电流的热量输出的值被用于在冶金容器中的起始材料的充电期间控制进料的体积。 本发明还涉及一种设备,用于影响根据本发明的方法的反应气体的出现(4)。
    • 99. 发明申请
    • METHOD AND APPARATUS FOR MEASURING LIQUID METAL HEIGHT AND THE THICKNESS OF A SLAG LAYER IN A METALLURGICAL VESSEL
    • 用于测量液体金属高度的方法和装置以及金属容器中的液体层的厚度
    • WO2013014271A1
    • 2013-01-31
    • PCT/EP2012/064788
    • 2012-07-27
    • TATA STEEL UK LTDMILLMAN, Maurice Stuart
    • MILLMAN, Maurice Stuart
    • G01F23/24C21C5/46G01F23/04
    • G01F23/04C21C5/4673C21C2005/5288F27D21/0028G01F23/245Y02P10/216
    • A method and apparatus for measuring the liquid metal height and/or the thickness of a slag layer floating on the liquid metal in an electric arc furnace or a ladle furnace by means of an elongated and electrically conductive probe, wherein the probe has a proximal end electrically connected to measuring means, and a distal end, wherein the probe is movable from above the slag layer through the slag layer into the liquid metal, the method comprising the steps of: a) lowering the distal end of the probe through the slag layer into the liquid metal; b) measuring the electrical potential over the probe during the lowering of the distal end through the slag layer into the liquid metal; c) comparing the measured electrical potential to a reference potential; d) relating the change in electrical potential to the vertical position of the distal end of the probe; e) determining the vertical position of the upper slag level and the vertical position of the upper level of the liquid metal, where the movable probe is one or more of the melting or heating electrodes in the electric arc furnace or ladle furnace.
    • 一种用于通过细长且导电的探针测量在电弧炉或钢包炉中漂浮在液态金属上的渣层的液体金属高度和/或厚度的方法和装置,其中所述探针具有近端 电连接到测量装置和远端,其中所述探针可从炉渣层的上方通过炉渣层移动到液态金属中,所述方法包括以下步骤:a)通过所述炉渣层降低所述探针的远端 进入液态金属; b)在远端通过炉渣层降入液态金属期间,测量探头上的电位; c)将测量的电位与参考电位进行比较; d)将电位变化与探头的远端的垂直位置相关联; e)确定液体金属上层的上渣位和垂直位置的垂直位置,其中可移动探针是电弧炉或钢包炉中的一个或多个熔化或加热电极。