JP5532637B2 - Thick steel plate temperature guarantee system and thick steel plate manufacturing method - Google Patents

Description

  The present invention relates to a temperature guarantee system for a steel plate in a thick steel plate production line and a method for producing a thick steel plate having an excellent shape using the system, and is particularly suitable for guaranteeing the quality of the entire surface of a thick steel plate to be controlled or accelerated. About things.

  To manufacture steel sheets that control the material using TMCP, which improves the strength and toughness of the steel sheet by making the microstructure into a fine structure with a crystal grain size of about 1 μm, and steel sheets with less deformation such as warpage by controlling internal stress Since it is necessary to strictly control the start temperature and end temperature of controlled rolling, the cooling start temperature of accelerated cooling, and the cooling stop temperature, a measuring method for accurately measuring the steel sheet temperature and the arrangement of thermometers are required. Various devised cooling facilities have been proposed.

  Patent Document 1 relates to a cooling control device for hot-rolled steel plates, and in order to prevent shape defects due to warpage in the plate width direction during cooling, the steel plate temperature is measured, and from 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 thermometers are arranged on the rear surface of the finishing mill, front and rear surfaces of the cooling device, and inside.

  Patent Document 2 relates to a shape control method for a controlled cooling steel plate, and estimates the shape after cooling at normal temperature of the accelerated cooling steel plate from the shape immediately after cooling and the steel plate temperature history, and secures the shape of the next material and the inside of the accelerated cooling device. It describes that a steel plate front and back surface temperature measuring thermometer, and immediately after that a steel plate surface temperature distribution meter (thermotracer) and a steel plate surface thermometer are arranged.

  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 make the material uniform, after finishing rolling, the thickness of the scale thickness is 10 μm or less by deske or surface film coating, and controlled cooling, and It is described that a radiation thermometer is arranged as a steel plate surface thermometer in front of the control cooling device.

Japanese Patent Publication No. 7-41303 Japanese Patent Laid-Open No. 10-5868 Japanese Patent Laid-Open No. 2001-300627

  By the way, recently, high-Ni steel, which has high material sensitivity to fluctuations in manufacturing conditions, is manufactured by the direct quenching method, and TMCP has been applied to increase the rationalization of the product. The demand for dimensional shape has become stricter.

  Thick steel plates tend to have non-uniform temperature distribution in the thickness direction and in the plate surface due to operating conditions such as continuous heating furnaces, deske devices, and cooling equipment, resulting in non-uniform materials and dimensional shapes. .

  As a measure to eliminate material non-uniformity, 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, pass the quality judgment, If it is off, the quality judgment has been rejected.

  However, the quality judgment using the temperature measurement result by the above radiation thermometer measures the temperature of the central part in the width direction of the steel sheet with the radiation thermometer attached to the upper surface in the center of the conveyance line width direction, and the measured temperature and each control. Since the temperature range is contrasted and the quality judgment is also performed only at the center temperature, the material guarantee other than the center portion is insufficient.

  Furthermore, the method of performing various material tests on test pieces taken from the top, middle, and end positions in the rolling direction of a large plate requires several days after rolling and shearing the steel plate. In the case of mass production under the same production conditions, mass incompatibility may occur.

  In addition, it is not possible to sufficiently control the heating furnace, rolling mill, and cooling equipment that generate temperature unevenness because it is not possible to evaluate the results of temperature unevenness only by measuring the temperature at the central part in the width direction or length direction of the steel sheet. It was.

  In view of this, the present invention provides an operational management for improving the material uniformity and dimensional shape in the plate thickness direction and the 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. An object of the present invention is to provide a thick steel plate temperature guarantee system and a method for producing a thick steel plate using the same.

The object of the present invention can be achieved by the following means.
1. Temperature measurement for measuring steel plate temperature before and after the finish rolling mill and before and after the cooling device in a thick steel plate production line equipped with a finish rolling mill and a cooling device arranged on a conveyance line downstream of the finishing mill. And a temperature assurance system for a thick steel plate provided with temperature performance analysis means for analyzing the steel sheet temperature measured by the steel sheet temperature measuring means,
The temperature measuring means transports a spot-type radiation thermometer on the front surface of the finishing mill, and a spot-type radiation thermometer and a scanning radiation thermometer on the rear surface of the finishing mill and on the front and rear surfaces of the cooling device. A spot-type fiber thermometer is arranged above the line, and a spot-type fiber thermometer is arranged below the carrier line at a position where the spot-type radiation thermometer and the scanning radiation thermometer are opposed to each other across the carrier line. A plurality of the spot type fiber thermometers arranged at a position facing the type radiation thermometer are arranged at appropriate intervals in the scanning direction of the scanning radiation thermometer, and the temperature performance analysis means is the temperature measurement means A temperature assurance system for thick steel sheets, characterized in that the steel sheet temperature is obtained from the temperature measured in step (1).
2. A plurality of spot type radiation thermometers and a plurality of scanning type radiation thermometers are arranged on the rear surface of the cooling device, respectively, and the spot type radiation thermometer and the scanning radiation thermometer arranged on the rear surface of the cooling device each have a high temperature. 2. The temperature assurance system for thick steel plates according to 1, wherein the temperature assurance system includes a plurality of units for measuring a region and for measuring a low temperature region.
Based on a steel plate temperature distribution measured at 3.1 or 2 steel plate temperature assurance system according, to control the operating conditions of one equipment furnace in the manufacture of the next material, even without less of the rolling mill or cooling equipment A method of manufacturing a thick steel plate characterized by preventing shape defects.
4). To prevent defective shape, in the heating furnace, the upper and lower temperature Doma other in the heating furnace method of manufacturing a steel plate of 3, wherein the controlling at least one of the upper and lower gas flow rate.
5. To prevent defective shape, in the rolling machine, 3 steel plate manufacturing method according to, characterized in that the Hayama periphery of the upper and lower rolls to control at least one descaling water amount.
6). To prevent defective shape, in the cooling equipment, the production method of the steel plate of 3, wherein the controlling at least one of water or the upper and lower water volume ratio in the plate width direction or Itacho direction.

  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. Moreover, since it is possible to determine whether or not the temperature of the entire surface is right after rolling, it is possible to prevent the occurrence of mass nonconformity by controlling the temperature of the subsequent steel plates, which is extremely useful in the industry.

The figure which shows the outline | summary of the temperature measurement system which concerns on this invention. The figure explaining the method to manufacture the thick steel plate excellent in the dimension shape using the temperature measurement means shown in FIG.

  The temperature assurance system according to the present invention includes a temperature measurement unit and a temperature performance analysis unit. Since it is technically difficult to measure the temperature of the entire surface of the thick steel plate in the production line, the temperature measuring means is a thermometer in the present invention, and a spot type radiation thermometer and a scanning type radiation thermometer are provided above the conveyance line. Below, a spot type fiber thermometer, for example, a spot type radiation thermometer using an optical fiber (hereinafter referred to as an optical fiber radiation thermometer) is used, and a personal computer (hereinafter referred to as a PC) is used to collect the temperature measured by a plurality of thermometers. ) Is used.

  In the present invention, the above-mentioned thermometers are appropriately combined, and the minimum temperature measurement position required for guaranteeing the temperature history of the entire surface on the production line is 1. 1. Front and rear faces of finish rolling mill and Thermometers are arranged as front and rear surfaces of the cooling device. When the temperature difference between the upper and lower surfaces of the steel sheet is significant, the material properties of the upper and lower surfaces may be different. Therefore, the temperature is measured on the upper and lower surfaces.

  In the present invention, the installation of a thermometer on the front (rear) surface of the finish rolling mill means that the thermometer is placed closer to the front of the finish rolling mill and closer to the finishing mill than other equipment. Means. The same applies to the cooling device.

  The spot-type radiation thermometers are arranged on the front and rear surfaces of the finish rolling mill and the front and rear surfaces of the cooling device above the transport line.

  It is desirable that a plurality of spot type radiation thermometers be arranged on the front and rear surfaces of the finish rolling mill. It is possible to prevent the mill from being stopped when a single thermometer occurs and to improve the reliability of the measured temperature when manufacturing a line pipe material to be produced in large quantities. The arrangement position of the plurality of units is not particularly defined, but it is desirable to arrange them in the transport direction.

  The spot type radiation thermometer to be arranged on the front and rear surfaces of the cooling device has a single front surface and a rear surface of a plurality of units with two specifications for high temperature measurement and low temperature measurement.

  In the cooling device, the cooling stop temperature fluctuates in a wide range from low to high, such as accelerated cooling at a cooling stop temperature of around 600 ° C and direct quenching where the cooling stop temperature is below room temperature. .

  In a wide range of temperature measurement from low temperature to high temperature (about 100 to 700 ° C.), the resolution of the thermometer (± 5 ° C.) cannot be secured. Therefore, as a minimum, it is necessary to install two specification thermometers for high temperature measurement and low temperature measurement. A high temperature measurement is arranged on the side close to the cooling device, and a low temperature measurement is arranged on the remote side.

  A scanning radiation thermometer arranges the width direction of a conveyance line as a scanning direction so that the width direction of a steel plate may be scanned above the conveyance line on the rear surface of the finish rolling mill and the front and rear surfaces of the cooling device. Preferably, it is arranged close to the spot type radiation thermometer.

  Since the rolling finishing temperature measured on the rear surface of the finish rolling mill and the steel plate temperature measured on the front and rear surfaces of the cooling device have a great influence on the material, it is measured in the width direction of the steel plate to ensure material uniformity.

  The optical fiber radiation thermometer is disposed below the transport line. The environment is bad due to water, water vapor, etc., and a scanning radiation thermometer that measures the temperature of the entire surface cannot be installed. In particular, when the CR shower is installed immediately downstream of the finish rolling mill, the temperature measurement environment deteriorates on the rear surface of the finish rolling mill.

  Therefore, a spot type radiation thermometer using an optical fiber (hereinafter referred to as an optical fiber radiation thermometer) is disposed below the transport line.

  The optical fiber radiation thermometer is arranged at a position opposite to the spot type radiation thermometer arranged on the front and rear surfaces of the finish rolling mill and the front and rear surfaces of the cooling device with the conveyance line interposed therebetween.

  In addition, along the scanning direction of the scanning radiation thermometer, at the opposite position across the transportation line, below the transportation line of the scanning radiation thermometer arranged on the rear surface of the finishing mill and on the front and rear surfaces of the cooling device Arrange multiple units.

  As the number of optical fiber radiation thermometers increases, the temperature distribution in the width direction can be quantitatively grasped. However, from the viewpoint of cost and maintenance, the interval of 1 place / m is the minimum. In addition, when arrange | positioning an optical fiber radiation thermometer facing a spot type | mold radiation thermometer, it is desirable to arrange several units | sets in the width direction of a conveyance line.

  In FIG. 1, the outline | summary of the temperature measurement system which concerns on this invention provided with the steel plate temperature measurement means mentioned above is shown. In the figure, 1 is a heating furnace, 2 is a finish rolling mill, 3 is a steel plate, 4 is a CR shower, 5 is a cooling device, 6, 6a, 6b, 6c and 6d are scanning radiation thermometers, and 6c is for high temperature measurement. , 6d for low temperature measurement, 7, 7a, 7b, 7c, 7d for optical fiber radiation thermometer, 7c for high temperature measurement, 7d for low temperature measurement, 8 for controlled rolling start temperature, finishing temperature collection PC, 9 for cooling start Temperature collection PCs 10 and 10 are cooling stop temperature collection PCs, and 11 and 11a are temperature performance analysis PCs. However, the spot type radiation thermometer is omitted in the figure.

  The thick steel plate production line includes a heating furnace 1, a finish rolling mill 2, a CR shower 4 and a cooling device 5, and the figure shows a state in which the steel plate 3 is located between the finishing mill 2 and the CR shower 4. .

  It was measured by a spot-type radiation thermometer (not shown) arranged on the front and rear surfaces of the finish rolling mill, and a steel plate temperature measuring means composed of a scanning radiation thermometer 6a and an optical fiber radiation thermometer 7a arranged on the rear surface. The temperature is taken into the control rolling start temperature and the finishing temperature collection PC8.

  The temperatures measured by the spot type radiation thermometer (not shown), the scanning radiation thermometer 6b, and the optical fiber radiation thermometer 7b arranged in front of the cooling device 5 are taken into the cooling start temperature collection PC9.

  Temperature measured by a steel plate temperature measuring means composed of a spot type radiation thermometer (not shown in the figure), a scanning type radiation thermometer 6c, 6d and an optical fiber radiation thermometer 7c, 7d arranged on the rear surface of the cooling device 5. Is taken into the cooling stop temperature collection PC 10.

  Control rolling start temperature, finishing temperature collection PC8, cooling start temperature collection PC9, and cooling stop temperature collection PC10 are each composed of a surface temperature collection PC13 and a back surface temperature collection PC12, and each of the steel plate surface temperature and the back surface temperature is a temperature performance analysis. It is taken into the PC 11a.

  In actual machine production, by comparing the operation management temperature (control rolling start temperature, steel plate finishing temperature, cooling start temperature, cooling stop temperature) range and the temperature measurement results taken in the temperature performance analysis PC 11a, the quality judgment is carried out. , Guarantee the material of the whole surface.

  FIG. 2 is a diagram for explaining a method for producing a thick steel plate having excellent dimensions using the temperature measuring means shown in FIG. 1, and the upper and lower surfaces of the steel plate on the downstream side closest to the rolling mill 2 and the cooling device 5. An example in which the temperature is measured by a scanning surface thermometer 6 and an optical fiber radiation thermometer 7 is shown.

  The back surface temperature collection PC12, the surface temperature collection PC13, and the temperature performance analysis PC11a obtain the temperature distribution on the upper and lower surfaces of the steel sheet from the measured temperatures.

  A strain gauge (steel plate dimension / shape measuring device) is installed on the downstream side of the rolling mill 2 and the cooling device 5 to measure the dimension / shape of the steel sheet, and obtain a temperature distribution in which a good dimension shape is obtained in advance. deep.

  In actual production, first, the temperature distribution on the downstream side of the rolling mill 2 and the cooling device 5 is obtained. When the temperature distribution is different from the temperature distribution when a good dimensional shape is obtained, the operating conditions of the heating furnace, the rolling mill 2, the CR shower 4 and the cooling device 5 are adjusted in the production of the next material.

  In the heating furnace, the upper and lower temperature and / or upper and lower gas flow ratio in the heating furnace, in the rolling mill 2, the peripheral speed and / or the descaling water amount of the upper and lower rolls, in the CR shower 4 and the cooling device 5, the plate width direction, the plate length Control at least one of the directional water quantity or the water quantity ratio.

  According to the present invention, the material test failure rate is reduced from 0.08% to 0.06%, the warp correction time is reduced by 20%, and the effect of suppressing the shape failure of the steel sheet by 10% is obtained. .

DESCRIPTION OF SYMBOLS 1 Heating furnace 2 Finish rolling mill 3 Steel plate 4 CR shower 5 Cooling device 6, 6a, 6b, 6c, 6d Scan type radiation thermometer 7, 7a, 7b, 7c, 7d Optical fiber radiation thermometer 8 Control rolling start temperature, finish temperature Collection PC
9 Cooling start temperature collection PC
10 Cooling stop temperature collection PC
11, 11a Temperature performance analysis PC
12 Backside temperature collection PC
13 Surface temperature collection PC

Claims (6)

Temperature measurement for measuring steel plate temperature before and after the finish rolling mill and before and after the cooling device in a thick steel plate production line equipped with a finish rolling mill and a cooling device arranged on a conveyance line downstream of the finishing mill. And a temperature assurance system for a thick steel plate provided with temperature performance analysis means for analyzing the steel sheet temperature measured by the steel sheet temperature measuring means,
The temperature measuring means transports a spot-type radiation thermometer on the front surface of the finishing mill, and a spot-type radiation thermometer and a scanning radiation thermometer on the rear surface of the finishing mill and on the front and rear surfaces of the cooling device. A spot-type fiber thermometer is arranged above the line, and a spot-type fiber thermometer is arranged below the carrier line at a position where the spot-type radiation thermometer and the scanning radiation thermometer are opposed to each other across the carrier line. A plurality of the spot type fiber thermometers arranged at a position facing the type radiation thermometer are arranged at appropriate intervals in the scanning direction of the scanning radiation thermometer, and the temperature performance analysis means is the temperature measurement means A temperature assurance system for thick steel sheets, characterized in that the steel sheet temperature is obtained from the temperature measured in step (1).   A plurality of spot type radiation thermometers and a plurality of scanning type radiation thermometers are arranged on the rear surface of the cooling device, respectively, and the spot type radiation thermometer and the scanning radiation thermometer arranged on the rear surface of the cooling device each have a high temperature. The temperature assurance system for a thick steel plate according to claim 1, wherein there are a plurality of units for measuring a region and for measuring a low temperature region. Based on the steel plate temperature distribution measured by claim 1 or 2 thick steel temperature assurance system according, to control the operating conditions of one equipment furnace in the manufacture of the next material, even without less of the rolling mill or cooling equipment A method of manufacturing a thick steel plate characterized by preventing shape defects. To prevent defective shape, in the heating furnace, the upper and lower temperature Doma other in the heating furnace method of manufacturing a steel plate according to claim 3, wherein the controlling at least one of the upper and lower gas flow rate. To prevent defective shape, in the rolling machine, the production method of the steel plate of claim 3 wherein the Hayama periphery of the upper and lower rolls, characterized in that to control the at least one descaling water amount. To prevent defective shape, in the cooling equipment, a manufacturing method of steel plate according to claim 3, wherein the controlling at least one of water or the upper and lower water volume ratio in the plate width direction or Itacho direction.

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