JP2010214441A - Quality guarantee facility for thick steel sheet - Google Patents

Quality guarantee facility for thick steel sheet Download PDF

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JP2010214441A
JP2010214441A JP2009065619A JP2009065619A JP2010214441A JP 2010214441 A JP2010214441 A JP 2010214441A JP 2009065619 A JP2009065619 A JP 2009065619A JP 2009065619 A JP2009065619 A JP 2009065619A JP 2010214441 A JP2010214441 A JP 2010214441A
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temperature
steel sheet
steel plate
radiation thermometer
thermometer
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JP5310148B2 (en
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Koji Narihara
浩二 成原
Toshikazu Akita
俊和 秋田
Yukihiro Okada
行弘 岡田
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JFE Steel Corp
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JFE Steel Corp
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a quality guarantee facility for a thick steel sheet which enables operation management to improve quality uniformity in the sheet thickness direction of the thick steel sheet and in a steel sheet surface. <P>SOLUTION: A thick steel sheet manufacturing line include a finishing mill and an accelerated cooling device installed at the downstream side of the finishing mill. The quality guarantee facility for the thick steel sheet includes a temperature measuring means for measuring a steel sheet temperature and an actual temperature analyzing means for analyzing the measured steel sheet temperatures. The temperature measuring means comprises spot type radiation thermometers and scanning type radiation thermometers installed at the respective positions of the front and rear surfaces of the accelerated cooling device above the upper surface side of the thick steel sheet manufacturing line, optical fiber radiation thermometers installed at positions corresponding to the spot type radiation thermometers on the upper surface side at the lower surface side of the thick sheet manufacturing line, and a plurality of optical fiber radiation thermometers installed at positions corresponding to the scanning type radiation thermometers in a line width direction at optional intervals. The actual temperature analyzing means comprises a means for obtaining temperature distribution of entire steel sheet from the steel sheet temperatures measured with the respective temperature measuring means. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

本発明は、厚鋼板製造ラインにおける鋼板の材質保証設備に関し、特に制御圧延や加速冷却される厚鋼板の全面の材質保証用として好適なものに関する。   The present invention relates to a steel sheet quality assurance facility in a thick steel plate production line, and more particularly to a material suitable for guaranteeing the quality of the entire surface of a thick steel sheet to be subjected to controlled rolling or accelerated cooling.

ミクロ組織を結晶粒径が1μm程度の微細組織として鋼板の強度・靭性を向上させるTMCPや、内部応力を制御して反りなどの変形の少ない鋼板を製造するためには、加速冷却の冷却開始温度、冷却停止温度等を厳密に管理することが必要とされるため、鋼板温度を精度良く計測する計測方法や、温度計の配置を工夫した冷却設備が種々提案されている。   In order to manufacture TMCP that improves the strength and toughness of the steel sheet with a microstructure with a crystal grain size of about 1 μm, and a steel sheet with less deformation such as warpage by controlling internal stress, the cooling start temperature of accelerated cooling Since it is necessary to strictly control the cooling stop temperature and the like, various measuring methods for measuring the steel plate temperature with high accuracy and various cooling facilities in which the thermometer is arranged have been proposed.

特許文献1には、熱間圧延鋼板の冷却制御装置に関し、冷却時における板幅方向反りによる形状不良を防止するため、鋼板温度を計測して、冷却装置の上下に配設されている各ノズルからの冷却水量や冷却開始、終了を厳格に制御することおよび仕上圧延機の後面、冷却装置の前後面、および内部に光ファイバー放射温度計を配置することが記載されている。   Patent Document 1 relates to a cooling control device for hot-rolled steel plates. In order to prevent shape defects due to warpage in the plate width direction during cooling, the steel plate temperature is measured, and each nozzle disposed above and below the cooling device. The amount of cooling water and the start and end of cooling are strictly controlled, and optical fiber radiation thermometers are arranged on the rear surface of the finishing mill, on the front and rear surfaces of the cooling device, and inside.

特許文献2には、制御冷却鋼板の形状制御方法に関し、加速冷却鋼板の常温冷却後形状を冷却直後形状と鋼板温度履歴とから推定し、次材の形状を確保することおよび加速冷却装置の内部に鋼板表裏面温度計測用温度計、加速冷却装置の直後に鋼板表面温度分布計(サーモトレーサ)と鋼板表面温度計を配置することが記載されている。   Patent Document 2 relates to a method for controlling the shape of a controlled cooling steel plate, estimating the shape after cooling at normal temperature of the accelerated cooling steel plate from the shape immediately after cooling and the temperature history of the steel plate, ensuring the shape of the next material, and the inside of the accelerated cooling device Describes that a steel plate surface temperature distribution meter (thermotracer) and a steel plate surface thermometer are arranged immediately after the steel plate front and back surface temperature measuring thermometer and the accelerated cooling device.

特許文献3には、厚鋼板冷却方法に関し、鋼板形状の平坦度向上と材質の均一化を図るため、仕上圧延後、デスケーリングまたは表面膜塗布によりスケール厚みのバラツキを10μm以下として、制御冷却することおよび制御冷却装置の前面に鋼板表面温度計として放射温度計を配置することが記載されている。   Patent Document 3 relates to a method for cooling a thick steel plate, and in order to improve the flatness of the steel plate shape and to make the material uniform, after finish rolling, the thickness of the scale thickness is controlled to 10 μm or less by descaling or surface film coating. And disposing a radiation thermometer as a steel plate surface thermometer in front of the control cooling device.

特公平7−41303号公報Japanese Patent Publication No. 7-41303 特開平10−5868号公報Japanese Patent Laid-Open No. 10-5868 特開2001−300627号公報Japanese Patent Laid-Open No. 2001-300627

近年、製造条件変動に対する材質敏感性が高い高Ni鋼を直接焼入れ法で製造したり、合理化のためTMCPの適用対象が拡大することにより、ユーザから製品の鋼板全面の材質保証が要求されることが増加している。   In recent years, high-Ni steel, which has high material sensitivity to fluctuations in manufacturing conditions, has been manufactured by direct quenching, and TMCP has been applied to increase the rationalization of the product, so that users are required to guarantee the quality of the product's entire surface. Has increased.

厚鋼板は板厚方向や鋼板面内の温度分布が、連続式加熱炉、デスケーリング装置、冷却設備等によって不均一となりやすく、その結果、材質も不均一となりやすい。   Thick steel plates tend to have non-uniform temperature distribution in the plate thickness direction and in the steel plate surface due to a continuous heating furnace, descaling device, cooling equipment, etc., and as a result, the material tends to be non-uniform.

その対策として、例えば、搬送ラインの上方に取り付けた放射温度計により、鋼板の温度を計測し、その計測温度が管理温度範囲に入っている場合、品質判定合格とし、外れている場合、品質判定不合格とすることが行われていた。   As a countermeasure, for example, measure the temperature of the steel sheet with a radiation thermometer attached above the transfer line, and if the measured temperature is within the control temperature range, the quality judgment is passed. Refusing was done.

しかしながら、上記放射温度計による温度計測結果を用いた品質判定は、搬送ライン幅方向中央の上面に取り付けた放射温度計により、鋼板の幅方向中央部の温度を計測し、その計測温度と各管理温度範囲を対比させるもので品質判定も鋼板の幅方向中央部の温度のみで実施するため、鋼板の幅方向中央部以外の材質保証は、不十分であった。   However, quality judgment using the temperature measurement result by the radiation thermometer measures the temperature at the center in the width direction of the steel sheet with the radiation thermometer attached to the upper surface at the center in the conveyance line width direction. Since the temperature range is contrasted and the quality judgment is performed only at the temperature in the center part in the width direction of the steel sheet, the material guarantee other than in the center part in the width direction of the steel sheet is insufficient.

また、大板の、圧延方向のトップ、ミドル、エンドの各位置から採取した試験片で各種の材料試験を実施する方法は、当該鋼板の圧延及び剪断後、数日を要するため、パイプ材など同一製造条件で大量に製造する場合、大量不適合が発生する場合もあり得る。   In addition, the method of performing various material tests on test pieces taken from the top, middle, and end positions of the large plate in the rolling direction requires several days after rolling and shearing the steel plate. When manufacturing in large quantities under the same manufacturing conditions, a large number of nonconformities may occur.

そこで、本発明は、厚鋼板の製造ラインで鋼板温度を計測する温度計を適切に配置することにより、厚鋼板の板厚方向および鋼板面内の材質均一性を向上させる操業管理が可能な、厚鋼板の材質保証設備を提供することを目的とする。   Therefore, the present invention is capable of operation management to improve the material uniformity in the plate thickness direction and the steel plate surface of the thick steel plate by appropriately arranging a thermometer for measuring the steel plate temperature in the thick steel plate production line, The purpose is to provide equipment for guaranteeing the quality of thick steel plates.

なお、厚鋼板の通板方向(図1)の上手を前面、下手を後面と記す。   Note that the upper side of the plate passing direction (FIG. 1) of the thick steel plate is referred to as the front side, and the lower side is referred to as the rear side.

上記の課題を解決するために、本発明は、以下の特徴を有する。   In order to solve the above problems, the present invention has the following features.

第一の発明は、仕上圧延機と仕上圧延機の下流側に設置された加速冷却装置を備えた厚鋼板製造ラインにおいて、鋼板温度を計測する温度計測手段と計測された鋼板温度を解析する温度実績解析手段とを備えた厚鋼板の材質保証設備であって、前記温度計測手段は、厚鋼板製造ラインの上面側上方で、加速冷却装置の前後面のそれぞれの位置に設置されるスポット型放射温度計および走査型放射温度計と、前記厚板製造ラインの下面側で、前記上面側のスポット型放射温度計に対応する位置に設置される光ファイバー放射温度計と、前記走査型放射温度計に対応する位置にライン幅方向に任意の間隔で複数台設置される光ファイバー放射温度計とからなり、前記温度実績解析手段は、前記各温度計測手段で計測された鋼板温度から鋼板全体の温度分布を求める手段からなることを特徴とする厚鋼板の材質保証設備である。   The first invention relates to a temperature measuring means for measuring a steel plate temperature and a temperature for analyzing the measured steel plate temperature in a thick steel plate production line equipped with a finishing mill and an accelerated cooling device installed downstream of the finishing mill. A steel plate quality assurance facility comprising a performance analysis means, wherein the temperature measuring means is a spot-type radiation installed at the respective positions on the front and rear surfaces of the accelerated cooling device above the upper surface side of the thick steel plate production line. A thermometer, a scanning radiation thermometer, an optical fiber radiation thermometer installed at a position corresponding to the spot radiation thermometer on the upper surface side on the lower surface side of the plank manufacturing line, and the scanning radiation thermometer A plurality of optical fiber radiation thermometers installed at arbitrary intervals in the line width direction at corresponding positions, and the temperature performance analysis means is configured to detect the entire steel sheet from the steel sheet temperature measured by each temperature measurement means. It comprises means for determining the degree distribution, which is the material guarantee facility steel plate characterized by.

第二の発明は、厚鋼板製造ラインの上面側に設置される前記温度計測手段は、加速冷却装置の前面には走査型放射温度計およびスポット型放射温度計と、前記加速冷却装置の後面には走査型放射温度計およびスポット型放射温度計とがそれぞれ高温度域計測用温度計と低温度域計測用温度計との複数台とからなることを特徴とする第一の発明に記載の厚鋼板の材質保証設備である。   According to a second aspect of the present invention, the temperature measuring means installed on the upper surface side of the thick steel plate production line includes a scanning radiation thermometer and a spot radiation thermometer on the front surface of the acceleration cooling device, and a rear surface of the acceleration cooling device. The scanning radiation thermometer and the spot radiation thermometer each comprise a plurality of high temperature range measurement thermometers and low temperature range measurement thermometers. This is a quality assurance facility for steel sheets.

第三の発明は、前記加速冷却装置の後面に設置するスポット型放射温度計と走査型放射温度計は、それぞれ200℃以上700℃以下の温度範囲を計測する高温度域計測用温度計と、50℃以上300℃以下の温度範囲を計測する低温度域計測用温度計とからなることを特徴とする第二の発明に記載の厚鋼板の材質保証設備である。   A third aspect of the invention is a spot-type radiation thermometer and a scanning radiation thermometer installed on the rear surface of the accelerated cooling device, respectively, a high temperature range measurement thermometer for measuring a temperature range of 200 ° C. or more and 700 ° C. or less, The equipment for assuring the quality of a thick steel plate according to the second invention, comprising a thermometer for low temperature region measurement that measures a temperature range of 50 ° C. or higher and 300 ° C. or lower.

本発明によれば、仕上圧延後、加速冷却や直接焼入れされる厚鋼板の材質および形状を全面に亘って保証することが可能となる。また、圧延直後に鋼板全面の温度合否を判定できるため、次材以降の鋼板の温度をコントロールすることで大量不適合の発生を防止することが可能となり産業上極めて有用である。   According to the present invention, it is possible to guarantee the material and shape of the thick steel plate that is subjected to accelerated cooling or directly quenched after finish rolling. In addition, since it is possible to determine whether or not the temperature of the entire surface of the steel sheet is right after rolling, it is possible to prevent the occurrence of mass nonconformity by controlling the temperature of the subsequent steel sheet, which is extremely useful industrially.

本発明に係る厚鋼板の材質保証設備の概要の一実施の形態を示す図である。It is a figure which shows one Embodiment of the outline | summary of the quality assurance equipment of the thick steel plate which concerns on this invention. 本発明に係る温度情報の伝達フローを説明する図である。It is a figure explaining the transmission flow of the temperature information which concerns on this invention. 本発明に係る上下面温度情報の伝達フローを説明する図である。It is a figure explaining the transmission flow of the upper and lower surface temperature information which concerns on this invention.

本発明に係る厚鋼板の材質保証設備は、温度計測手段と温度実績解析手段とを有する。厚鋼板の製造ラインにおいて、厚鋼板の鋼板全面の温度を計測することは技術的に困難であるため、本発明で温度計測手段は温度計として、搬送ライン上面の上方にスポット型放射温度計と走査型放射温度計を、下面には光ファイバーを用いたスポット型放射温度計(以下、光ファイバー放射温度計と呼ぶ)を用い、複数の温度計で計測した温度を収集するためプロセスコンピュータ(以下、PCと呼ぶ)を用いる。   The thick steel plate material guarantee facility according to the present invention includes a temperature measuring means and a temperature performance analyzing means. In the production line for thick steel plates, it is technically difficult to measure the temperature of the entire surface of the thick steel plates. Therefore, in the present invention, the temperature measuring means is a thermometer as a spot type radiation thermometer above the upper surface of the conveying line. A scanning type radiation thermometer, a spot type radiation thermometer using an optical fiber on the lower surface (hereinafter referred to as an optical fiber radiation thermometer), and a process computer (hereinafter referred to as a PC) for collecting the temperature measured by a plurality of thermometers. Called).

本発明では、上記温度計を適宜組み合わせて、製造ライン上で鋼板全面の温度履歴を保証するために最低限必要な温度計測位置を加速冷却装置の前後面として温度計を設置する。鋼板の上下面の温度差が著しい場合、鋼板上下面の材質特性が異なることが考えられるため、温度は鋼板上下面で測定する。   In the present invention, the above thermometers are appropriately combined, and the thermometers are installed with the minimum temperature measurement positions required to guarantee the temperature history of the entire surface of the steel sheet on the production line as front and rear surfaces of the acceleration cooling device. When the temperature difference between the upper and lower surfaces of the steel plate is significant, the material properties of the upper and lower surfaces of the steel plate may be different, and therefore the temperature is measured on the upper and lower surfaces of the steel plate.

尚、本発明で加速冷却装置の前後面に温度計を設置するとは、加速冷却装置の前方および後方直近に、他の機器より加速冷却装置に近い場所に温度計を設置することを意味する。   In the present invention, the installation of thermometers on the front and rear surfaces of the acceleration cooling device means that the thermometers are installed in front of and behind the acceleration cooling device and in a place closer to the acceleration cooling device than other devices.

スポット型放射温度計は、搬送ラインの上面側の上方で、加速冷却装置の前後面に配置する。   The spot-type radiation thermometer is disposed on the front and rear surfaces of the acceleration cooling device above the upper surface side of the transport line.

加速冷却装置の前後面に設置するスポット型放射温度計(7b、7c、7d)および走査型温度計(6b、6c、6d)は、前面を単数、後面は高温度域計測用温度計と低温度域計測用温度計の2種類の温度計を用いるとよい。   The spot type radiation thermometers (7b, 7c, 7d) and scanning thermometers (6b, 6c, 6d) installed on the front and rear surfaces of the acceleration cooling device have a single front surface and a rear surface, which is a low temperature thermometer for low temperature measurement. Two types of thermometers, a temperature range thermometer, may be used.

また、加速冷却装置の前後面に設置するスポット型放射温度計(7b、7c、7d)は、それぞれ単数でもよいが、複数台設置することによって、温度計異常検出の相互チェックが可能となり、より好ましい。温度計1台の場合に比較して、発生する温度計異常時のミル停止を防止したり、大量に生産するラインパイプ材の製造の際の計測温度の信頼性を向上させることができるからである。温度計の複数台の設置位置は特に規定しないが、搬送方向に並べることが望ましい。   In addition, a single spot-type radiation thermometer (7b, 7c, 7d) installed on the front and rear surfaces of the acceleration cooling device may be used. However, by installing a plurality of spot-type radiation thermometers, it is possible to mutually detect thermometer abnormality detection. preferable. Compared to the case of a single thermometer, it is possible to prevent the mill from being stopped when a thermometer occurs, and to improve the reliability of the measured temperature when manufacturing line pipe materials that are produced in large quantities. is there. The installation positions of the plurality of thermometers are not particularly defined, but they are preferably arranged in the transport direction.

加速冷却装置では冷却停止温度600℃前後の加速冷却や冷却停止温度が室温近傍となる直接焼入れなど、冷却停止温度が低温から高温までの広範囲に変動するため、温度計測も広範囲の計測が必要となる。   In the accelerated cooling system, the cooling stop temperature fluctuates in a wide range from low to high, such as accelerated cooling with a cooling stop temperature of around 600 ° C and direct quenching where the cooling stop temperature is close to room temperature. Become.

しかし、低温から高温(50〜700℃程度)までの広範囲の温度計測では温度計の分解能を±5℃以内に保つことは難しいため、最低限、高温度域計測用温度計(7c、6c)と低温度域計測用温度計(7d、6d)の2種類の温度計を設置する必要がある。加速冷却装置の機側から搬送ラインの下流方向に向かって高温度域計測用温度計(7c、6c)、低温度域計測用温度計(7d、6d)の順に設置するとよい。なお、200℃以上700℃以下の温度範囲を計測する高温度域計測用温度計(7c、6c)と、50℃以上300℃以下の温度範囲を計測する低温度域計測用温度計(7d、6d)を用いることによって、分解能±5℃を確保できて、精度の良い温度計測が可能となる。   However, since it is difficult to keep the resolution of the thermometer within ± 5 ° C in a wide range of temperature measurement from low temperature to high temperature (about 50-700 ° C), the high temperature range measurement thermometer (7c, 6c) It is necessary to install two types of thermometers (7d, 6d). The high temperature range measurement thermometers (7c, 6c) and the low temperature range measurement thermometers (7d, 6d) may be installed in this order from the machine side of the acceleration cooling apparatus toward the downstream direction of the transfer line. In addition, the thermometer for high temperature range measurement (7c, 6c) which measures the temperature range of 200 degreeC or more and 700 degrees C or less, and the low temperature range measurement thermometer which measures the temperature range of 50 degreeC or more and 300 degrees C or less (7d, By using 6d), a resolution of ± 5 ° C. can be ensured, and accurate temperature measurement is possible.

また、加速冷却装置の前後面で計測される鋼板温度は、材質に及ぼす影響が大きいため、鋼板幅方向にも温度計測を行って、鋼板全体の温度の均一性により材質均一性を保証する必要がある。   In addition, since the steel plate temperature measured at the front and back surfaces of the accelerated cooling device has a large effect on the material, it is necessary to measure the temperature in the width direction of the steel plate and to ensure the material uniformity by the temperature uniformity of the entire steel plate. There is.

従って、走査型放射温度計は、搬送ラインの上面側の上方で、加速冷却装置の前後面(6b、6c、6d)に、鋼板の幅方向を走査するように設置する。幅方向走査型を設置することにより、鋼板の長手方向への移動によって全面温度測定が可能になるためである。また、好ましくはスポット型放射温度計と近接して設置するのが良い。これにより温度計異常検出の相互チェックも可能となり計測温度の信頼性を向上することができる。
なお、走査型温度計としては、回転ミラー式やリニアレイ式等既存の温度計を温度計測場所にあわせて適宜選択すれば良い。
Accordingly, the scanning radiation thermometer is installed on the front and rear surfaces (6b, 6c, 6d) of the acceleration cooling device so as to scan in the width direction of the steel plate above the upper surface side of the transport line. This is because the entire surface temperature can be measured by moving the steel sheet in the longitudinal direction by installing the width direction scanning type. In addition, it is preferable to install in the vicinity of the spot type radiation thermometer. Thereby, mutual check of the thermometer abnormality detection is possible, and the reliability of the measured temperature can be improved.
As the scanning thermometer, an existing thermometer such as a rotating mirror type or a linear ray type may be appropriately selected according to the temperature measurement location.

光ファイバー放射温度計は、搬送ラインの下面側に設置する。搬送ラインの下面側は、各種冷却水や水蒸気等が充満した環境にあり、通常のスポット型放射温度計や走査型放射温度計を設置しても精度良く長時間温度計測をすることは難しい。一方光ファイバー放射温度計は、各種冷却水や水蒸気の影響を受け難く、かつ、狭い空間に入れることが可能であるので、搬送ラインの下面側には光ファイバー放射温度計を用いることとした。   The optical fiber radiation thermometer is installed on the lower side of the transport line. The lower surface side of the transfer line is in an environment filled with various cooling water, water vapor, and the like, and it is difficult to accurately measure the temperature for a long time even if a normal spot type radiation thermometer or scanning radiation thermometer is installed. On the other hand, the optical fiber radiation thermometer is hardly affected by various cooling water and water vapor, and can be placed in a narrow space. Therefore, an optical fiber radiation thermometer is used on the lower surface side of the transport line.

光ファイバー放射温度計は、搬送ラインの上面側で加速冷却装置の前後面に位置するスポット型放射温度計の設置位置に対して搬送ラインを挟んで対応する搬送ラインの下面側に設置する。   The optical fiber radiation thermometer is installed on the lower surface side of the corresponding conveyance line with the conveyance line interposed between the installation positions of the spot type radiation thermometers located on the front and rear surfaces of the acceleration cooling device on the upper surface side of the conveyance line.

また、加速冷却装置の前後面に位置する走査型放射温度計の設置位置と搬送ラインを挟んで対応する搬送ラインの下面側の位置に、走査型放射温度計の走査方向に沿って光ファイバー放射温度計を複数台設置する。   In addition, the optical fiber radiation temperature along the scanning direction of the scanning radiation thermometer is placed at the position of the scanning radiation thermometer located on the front and back surfaces of the acceleration cooling device and the position on the lower surface side of the corresponding transportation line across the transportation line. Install multiple units.

光ファイバー放射温度計は設置数が多いほど、幅方向の温度分布を定量的に把握できるが、コスト及びメンテナンスの観点より、1箇所/mの間隔が最低限必要である。尚、搬送ライン上面側のスポット型放射温度計の設置位置に対応する搬送ライン下面側の位置に光ファイバー放射温度計を配置する場合は、搬送ラインの幅方向に複数台を設置しても良い。   As the number of installed fiber optic thermometers increases, the temperature distribution in the width direction can be quantitatively grasped. However, from the viewpoint of cost and maintenance, an interval of 1 location / m is a minimum requirement. When the optical fiber radiation thermometer is arranged at a position on the lower surface side of the transport line corresponding to the installation position of the spot type radiation thermometer on the upper surface side of the transport line, a plurality of units may be installed in the width direction of the transport line.

図1に、上述した鋼板温度測定手段を備えた本発明に係る厚鋼板の材質保証設備の概要の一実施の形態を、図2に本発明に係る温度測定情報の伝達フローを説明する。
厚鋼板の製造ラインは、加熱炉1、仕上圧延機2、CRシャワー4および加速冷却装置5を備え、図1は鋼板3が、仕上圧延機2とCRシャワー4の間に位置している状態を示す。
FIG. 1 shows an embodiment of the outline of the material guarantee facility for a thick steel plate according to the present invention provided with the above-described steel plate temperature measuring means, and FIG. 2 shows a flow of temperature measurement information transmission according to the present invention.
The thick steel plate production line includes a heating furnace 1, a finish rolling mill 2, a CR shower 4 and an accelerated cooling device 5, and FIG. 1 shows a state in which the steel plate 3 is positioned between the finishing mill 2 and the CR shower 4. Indicates.

7b、7c、7dはスポット型放射温度計、6b、6c、6dは走査型放射温度計で、7b、6bは加速冷却装置の入側に設置され、6bは加速冷却直前の鋼板上面の幅方向、長さ方向の温度分布を、7bは長さ方向の温度分布を計測し、そのデータは冷却開始温度収集PC12に送られる。7c、7d、6c、6dは加速冷却装置の出側に設置され、7c、6cは高温度域計測用温度計、7d、6dは低温度域計測用温度計であり、6c、6dは加速冷却直後の鋼板上面の幅方向、長さ方向の温度分布を、7c、7dは長さ方向の温度分布を計測し、そのデータは冷却停止温度収集PC13に送られる。7c、6cは加速冷却材の、7d、6dは直接焼入材の温度管理にそれぞれ用いるとよい。   7b, 7c and 7d are spot type radiation thermometers, 6b, 6c and 6d are scanning radiation thermometers, 7b and 6b are installed on the inlet side of the acceleration cooling device, and 6b is the width direction of the upper surface of the steel plate immediately before the acceleration cooling. The temperature distribution in the length direction and the temperature distribution in the length direction 7b are measured, and the data is sent to the cooling start temperature collection PC12. 7c, 7d, 6c, and 6d are installed on the exit side of the acceleration cooling device, 7c and 6c are high temperature range measurement thermometers, 7d and 6d are low temperature range measurement thermometers, and 6c and 6d are acceleration coolings. The temperature distribution in the width direction and the length direction of the upper surface of the steel sheet immediately after, and the temperature distribution in the length direction are measured by 7c and 7d, and the data is sent to the cooling stop temperature collection PC13. 7c and 6c may be used for temperature control of the accelerated coolant, and 7d and 6d may be used for temperature control of the direct quenching material.

8b、8c、8dは光ファイバー放射温度計で、8bは加速冷却装置の入側に設置され加速冷却直前の鋼板下面の幅方向、長さ方向の温度分布を計測し、そのデータは冷却開始温度収集PC12に送られる。8c、8dは加速冷却装置の出側に設置され、8cは高温度域計測用温度計、8dは低温度域計測用温度計であり、いずれも加速冷却直後の鋼板下面の幅方向、長さ方向の温度分布を計測し、そのデータは冷却停止温度収集PC13に送られる。8cは加速冷却材の、8dは直接焼入材の温度管理に用いるとよい。   8b, 8c, and 8d are optical fiber radiation thermometers, 8b is installed on the entrance side of the accelerated cooling device, measures the temperature distribution in the width and length directions of the steel plate immediately before accelerated cooling, and the data is collected from the cooling start temperature It is sent to PC12. 8c and 8d are installed on the exit side of the acceleration cooling device, 8c is a thermometer for high temperature region measurement, and 8d is a thermometer for low temperature region measurement, both of which are in the width direction and length of the lower surface of the steel plate immediately after accelerated cooling. The temperature distribution in the direction is measured, and the data is sent to the cooling stop temperature collection PC 13. 8c may be used for the temperature control of the accelerated coolant and 8d for the direct quenching material.

次に、各温度計で計測された鋼板温度情報が各PCに送られる伝達フローを図2および図3を用いて説明する。12は冷却開始温度収集PC、13は冷却停止温度収集PC、14は温度実績解析PCを示す。   Next, a transmission flow in which steel plate temperature information measured by each thermometer is sent to each PC will be described with reference to FIGS. Reference numeral 12 denotes a cooling start temperature collection PC, 13 denotes a cooling stop temperature collection PC, and 14 denotes a temperature performance analysis PC.

加速冷却装置5の前面に設置されたスポット型放射温度計7bと走査型放射温度計6bで計測された鋼板上面温度情報及び光ファイバー放射温度計8bで計測された鋼板下面温度情報は、上面温度収集PC15bおよび下面温度収集PC16bを経て冷却開始温度収集PC12に取り込まれ、温度実績解析PC14に送られ、加速冷却開始前の鋼板温度管理、鋼板幅、長さ方向の温度分布の管理が行われる。   The steel plate upper surface temperature information measured by the spot type radiation thermometer 7b and the scanning radiation thermometer 6b installed on the front surface of the accelerated cooling device 5 and the steel plate lower surface temperature information measured by the optical fiber radiation thermometer 8b are collected from the upper surface temperature. It is taken into the cooling start temperature collection PC 12 via the PC 15b and the lower surface temperature collection PC 16b, and sent to the temperature performance analysis PC 14 to manage the steel plate temperature management, the steel plate width, and the temperature distribution in the length direction before starting the accelerated cooling.

加速冷却装置5の後面に設置されたスポット型放射温度計7c、7dと走査型放射温度計6c、6dで計測された鋼板上面温度情報及び光ファイバー放射温度計8c、8dで計測された鋼板下面温度情報は、上面温度収集PC15cおよび下面温度収集PC16cを経て冷却停止温度収集PC13に取り込まれ、温度実績解析PC14に送られ、加速冷却停止温度管理、鋼板幅、長さ方向の温度分布の管理が行われる。   Steel plate upper surface temperature information measured by spot type radiation thermometers 7c and 7d and scanning radiation thermometers 6c and 6d installed on the rear surface of the acceleration cooling device 5, and steel plate lower surface temperature measured by optical fiber radiation thermometers 8c and 8d. The information is taken into the cooling stop temperature collection PC 13 via the upper surface temperature collection PC 15c and the lower surface temperature collection PC 16c, and sent to the temperature performance analysis PC 14, where the accelerated cooling stop temperature management, the steel plate width, and the temperature distribution in the length direction are managed. Is called.

冷却開始温度収集PC12および冷却停止温度収集PC13は図3に示すように、冷却開始温度収集PC12は上面温度収集PC15bと下面温度収集PC16bとで構成され、冷却停止温度収集PC13は上面温度収集PC15cと下裏面温度収集PC16cとで構成され、各表裏面温度収集PCに集められた鋼板温度は、それぞれ、冷却開始温度収集PC12および冷却停止温度収集PC13を経て温度実績解析PC14に取り込まれる。   As shown in FIG. 3, the cooling start temperature collection PC12 and the cooling stop temperature collection PC13 are composed of an upper surface temperature collection PC15b and a lower surface temperature collection PC16b, and the cooling stop temperature collection PC13 is an upper surface temperature collection PC15c. The steel plate temperature that is configured by the lower and back surface temperature collecting PC 16c and collected by each front and back surface temperature collecting PC is taken into the temperature performance analysis PC 14 through the cooling start temperature collecting PC 12 and the cooling stop temperature collecting PC 13, respectively.

実機生産においては、操業管理温度(冷却開始温度、冷却停止温度)範囲と温度実績解析PC14に取り込まれた温度測定実績を比較し、品質判定を実施することで、鋼板全面の材質を保証することができる。   In actual machine production, compare the operation management temperature (cooling start temperature, cooling stop temperature) range with the temperature measurement results taken in the temperature results analysis PC 14, and perform quality judgment to guarantee the quality of the entire surface of the steel sheet. Can do.

なお、温度実績解析PC14では、加速冷却装置入出側の温度全体を把握して、特定のしきい値、温度許容範囲、材質モデル等から材質を判定し、大板から所望する材質を確保できる切り出し部分の情報を出力する。   Note that the temperature performance analysis PC 14 grasps the entire temperature on the inlet / outlet side of the accelerating cooling device, determines the material from a specific threshold value, temperature tolerance range, material model, etc., and can cut out the desired material from the large plate. Output part information.

また、上下面温度差実績から次材以降の加熱炉でのスラブの上下面温度を調整し、鋼板幅方向及び長手方向の温度分布から、加速冷却設備の水量を幅方向及び長手方向で制御することにより、鋼板形状の不良を低減することができる。   Moreover, the upper and lower surface temperature of the slab in the heating furnace after the next material is adjusted from the temperature difference between the upper and lower surfaces, and the water amount of the accelerated cooling equipment is controlled in the width direction and the longitudinal direction from the temperature distribution in the steel plate width direction and the longitudinal direction. Thereby, the defect of a steel plate shape can be reduced.

本発明によれば、材料試験不合格率が従来より約30%低減し、鋼板の反り矯正時間が約20%低減し、鋼板の形状不良が約10%低減されるなどの効果が得られた。   According to the present invention, the material test failure rate has been reduced by about 30% compared to the prior art, the warpage correction time of the steel sheet has been reduced by about 20%, and the defective shape of the steel sheet has been reduced by about 10%. .

1 加熱炉
2 仕上圧延機
3 鋼板
4 CRシャワー
5 加速冷却装置
6b〜6d 走査型放射温度計
7b〜7d スポット型放射温度計
8b〜8d 光ファイバー放射温度計
12 冷却開始温度収集PC
13 冷却停止温度収集PC
14 温度実績解析PC
15b、15c 上面温度収集PC
16b、16c 下面温度収集PC
DESCRIPTION OF SYMBOLS 1 Heating furnace 2 Finishing mill 3 Steel plate 4 CR shower 5 Accelerated cooling device 6b-6d Scan type radiation thermometer 7b-7d Spot type radiation thermometer 8b-8d Optical fiber radiation thermometer 12 Cooling start temperature collection PC
13 Cooling stop temperature collection PC
14 Temperature performance analysis PC
15b, 15c Upper surface temperature collection PC
16b, 16c Bottom surface temperature collection PC

Claims (3)

仕上圧延機と仕上圧延機の下流側に設置された加速冷却装置を備えた厚鋼板製造ラインにおいて、鋼板温度を計測する温度計測手段と計測された鋼板温度を解析する温度実績解析手段とを備えた厚鋼板の材質保証設備であって、前記温度計測手段は、厚鋼板製造ラインの上面側上方で、加速冷却装置の前後面のそれぞれの位置に設置されるスポット型放射温度計および走査型放射温度計と、前記厚板製造ラインの下面側で、前記上面側のスポット型放射温度計に対応する位置に設置される光ファイバー放射温度計と、前記走査型放射温度計に対応する位置にライン幅方向に任意の間隔で複数台設置される光ファイバー放射温度計とからなり、前記温度実績解析手段は、前記各温度計測手段で計測された鋼板温度から鋼板全体の温度分布を求める手段からなることを特徴とする厚鋼板の材質保証設備。   In a thick steel plate production line equipped with a finishing mill and an accelerated cooling device installed on the downstream side of the finishing mill, a temperature measuring means for measuring the steel plate temperature and a temperature performance analyzing means for analyzing the measured steel plate temperature are provided. The temperature measuring means is a spot-type radiation thermometer and scanning-type radiation installed at the respective positions on the front and rear surfaces of the accelerated cooling device above the upper surface side of the thick steel plate production line. A thermometer, an optical fiber radiation thermometer installed at a position corresponding to the spot radiation thermometer on the upper surface side on the lower surface side of the thick plate production line, and a line width at a position corresponding to the scanning radiation thermometer A plurality of optical fiber radiation thermometers installed at arbitrary intervals in the direction, and the temperature performance analysis means obtains the temperature distribution of the entire steel sheet from the steel sheet temperature measured by each temperature measurement means. Material guarantee facility steel plate which comprises a means. 厚鋼板製造ラインの上面側に設置される前記温度計測手段は、加速冷却装置の前面には走査型放射温度計およびスポット型放射温度計と、前記加速冷却装置の後面には走査型放射温度計およびスポット型放射温度計とがそれぞれ高温度域計測用温度計と低温度域計測用温度計との複数台とからなることを特徴とする請求項1に記載の厚鋼板の材質保証設備。   The temperature measuring means installed on the upper surface side of the thick steel plate production line includes a scanning radiation thermometer and a spot radiation thermometer on the front surface of the acceleration cooling device, and a scanning radiation thermometer on the rear surface of the acceleration cooling device. The material assurance equipment for thick steel plates according to claim 1, wherein the spot type radiation thermometer comprises a plurality of high temperature range measurement thermometers and low temperature range measurement thermometers. 前記加速冷却装置の後面に設置するスポット型放射温度計と走査型放射温度計は、それぞれ200℃以上700℃以下の温度範囲を計測する高温度域計測用温度計と、50℃以上300℃以下の温度範囲を計測する低温度域計測用温度計とからなることを特徴とする請求項2に記載の厚鋼板の材質保証設備。   A spot-type radiation thermometer and a scanning radiation thermometer installed on the rear surface of the accelerated cooling device are a high-temperature range measurement thermometer for measuring a temperature range of 200 ° C. or more and 700 ° C. or less, and a temperature of 50 ° C. or more and 300 ° C. or less, respectively. The material guarantee equipment for thick steel plates according to claim 2, comprising a thermometer for low temperature range measurement for measuring the temperature range of the steel sheet.
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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0337530A (en) * 1989-07-04 1991-02-18 Tokai Carbon Co Ltd Radiation thermometer
JPH08215734A (en) * 1995-02-14 1996-08-27 Nkk Corp Uniformly cooling method of steel plate
JP2008296251A (en) * 2007-05-31 2008-12-11 Jfe Steel Kk Computer system for storing quality judgment result of hot-rolled metal strip, business computer system for controlling manufacture and quality history and for controlling passing-step instruction, and method using the same system for cutting off defective quality part of hot-rolled metal strip in downstream step

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0337530A (en) * 1989-07-04 1991-02-18 Tokai Carbon Co Ltd Radiation thermometer
JPH08215734A (en) * 1995-02-14 1996-08-27 Nkk Corp Uniformly cooling method of steel plate
JP2008296251A (en) * 2007-05-31 2008-12-11 Jfe Steel Kk Computer system for storing quality judgment result of hot-rolled metal strip, business computer system for controlling manufacture and quality history and for controlling passing-step instruction, and method using the same system for cutting off defective quality part of hot-rolled metal strip in downstream step

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