KR101449019B1 - Apparatus and method for measuring a strip surface temperature of an inner acceleration coolant equipment - Google Patents

Abstract

The present invention relates to an apparatus for measuring the surface temperature of a steel sheet in an accelerated cooling facility and a method for measuring the surface temperature of steel sheet in an accelerated cooling facility, And methods.

An apparatus for measuring the surface temperature of a steel sheet in an accelerating cooling facility of the present invention includes: a first light receiving unit for measuring a surface temperature of an upper part of a steel sheet during operation of an accelerating cooling facility; A second light receiving unit measuring the surface temperature of the lower part of the steel plate when the first light receiving unit measures the surface temperature of the upper part of the steel plate; And an up and down moving unit for lowering the first light receiving unit when the first light receiving unit measures the surface temperature of the upper part of the steel plate.

Accelerated cooling facility, steel plate, surface temperature, light receiving unit,

Description

Technical Field [0001] The present invention relates to an apparatus for measuring surface temperature of a steel sheet in an accelerated cooling facility,

The present invention relates to an apparatus for measuring the surface temperature of a steel sheet in an accelerated cooling facility and a method for measuring the surface temperature of steel sheet in an accelerated cooling facility, And methods.

As a document related to an apparatus for measuring the surface temperature of a steel sheet in an accelerated cooling facility, there are Japanese Patent Laid-Open Nos. 2006-17589, 2007-17408 and 2007-199039.

In this document, a measuring apparatus is constructed so as to form a constant water thickness between a steel plate for temperature measurement and an optical system for receiving radiant energy, and a method of previously measuring and correcting the information of reduction of radiant energy by water thickness is proposed have.

Radiation thermometers that measure temperature using radiant energy emitted from a steel plate should be measured by changing the wavelength band from a short wavelength to a long wavelength when the measurement temperature is low. As the wavelength decreases from the short wavelength to the long wavelength, the attenuation of the radiation energy is large.

Therefore, artificially forming the water thickness between the steel plate and the light receiving optical system is limited in the case of low temperature measurement (300 DEG C or less) of the steel plate.

One aspect of the present invention aims at enabling simultaneous measurement of temperatures at the upper and lower portions of a steel sheet.

Another object of the present invention is to reduce the water interference between the steel plate and the light receiving unit to a minimum by reducing the water pressure between the steel plate and the light receiving unit to a strong air pressure (7 atmospheric pressure or more) by maximizing the distance between the steel plate and the light receiving unit.

Another object of the present invention is to propose a method for compensating for water interference by simultaneously utilizing a dual structure light receiving unit having different wavelength bands of a short wavelength and a long wavelength in order to optically correct interference of water not yet removed do.

According to an aspect of the present invention, there is provided an apparatus for measuring a surface temperature of an upper part of a steel sheet during operation of an accelerated cooling facility, A second light receiving unit measuring the surface temperature of the lower portion of the steel plate when the first light receiving unit measures the surface temperature of the steel plate; And a vertically moving part for descending the first light receiving part when the first light receiving part measures the surface temperature of the upper part of the steel plate to lower the first light receiving part.

According to another aspect of the present invention, there is provided a method of controlling a steel plate surface temperature in an accelerated cooling facility, the method comprising: rotating the steel plate at a predetermined speed for a preset time when the steel plate is connected to the up- Device.

According to another aspect of the present invention, there is provided a pneumatic cylinder for controlling the movement of the rotary connection pipe with air pressure to minimize a distance between the first light receiving portion and the steel plate when the first light receiving portion measures the temperature of the upper portion of the steel plate, The apparatus for measuring a surface temperature of a steel plate in an accelerated cooling facility further comprises:

Another aspect of the present invention is a method of manufacturing a light emitting device including a first contact roller or a second contact roller for reducing the frictional resistance between the first light receiving portion or the second light receiving portion and the steel plate when the first light receiving portion or the second light receiving portion collides with the steel plate, The apparatus for measuring a surface temperature of a steel plate in an accelerated cooling facility further comprises:

Another aspect of the present invention provides an apparatus for measuring a surface temperature of a steel plate in an accelerated cooling facility, wherein the first contact roller and the second contact roller are heat-resistant materials.

According to another aspect of the present invention, there is provided an apparatus for measuring a surface temperature of a steel plate in an accelerated cooling facility, characterized by further comprising a spring for relieving an impact when the second light receiving portion collides with the steel plate.

According to another aspect of the present invention, there is provided an apparatus for measuring a surface temperature of a steel plate in an accelerated cooling facility, the apparatus further comprising an angle adjuster for adjusting an angle between the second light receiving unit and the steel plate.

According to another aspect of the present invention, there is provided an apparatus for measuring a surface temperature of a steel plate in an accelerated cooling facility, wherein the first light receiving unit and the second light receiving unit are optical fiber radiating thermometers.

The present invention also provides an accelerated cooling system for an automotive vehicle, wherein the first light receiving portion and the second light receiving portion optically correct the interference of water not removed from the surface of the steel sheet by detecting the surface temperature of the steel plate in different wavelength bands An apparatus for measuring the surface temperature of a steel sheet is provided.

In another aspect of the present invention, the first light receiving unit and the second light receiving unit collect the light and receive the air to remove the water remaining in the steel plate when measuring the surface temperature of the steel plate. Lt; / RTI >

According to an aspect of the present invention, it is possible to improve the quality and flatness of API, TMCP and the like by simultaneously measuring the upper and lower temperatures of the steel sheet during the accelerated cooling process and predicting the history thereof.

According to another aspect of the present invention, there is no possibility that the measurement apparatus is damaged due to collision with the measurement apparatus due to the bending of the head and the tail of the steel sheet.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention may be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. The shape and the size of the elements in the drawings may be exaggerated for clarity and the same elements are denoted by the same reference numerals in the drawings.

Fig. 1 and Fig. 2 are structural diagrams of a steel plate upper and lower surface temperature measuring device in the accelerated cooling facility of the present invention, respectively. 1 and 2, the steel plate upper and lower surface temperature measuring apparatuses in the accelerating cooling facility include a first light receiving unit 100a, a second light receiving unit 100b, a vertical moving unit 200, a rotary connecting pipe 300, A pneumatic cylinder 400, a first contact roller 500a, a second contact roller 500b, a spring 600 and an angle adjuster 700.

The first light receiving unit 100a measures the surface temperature of the upper part of the steel plate during the operation of the accelerating cooling facility and the second light receiving unit 100b measures the surface temperature of the upper part of the steel plate, Is measured. An optical fiber radiation thermometer is used as the first light receiving portion 100a and the second light receiving portion 100b and the surface temperature of the steel sheet is detected in different wavelength bands to optically correct interference of water not removed from the surface of the steel sheet.

The up and down moving unit 200 descends when the first light receiving unit 100a measures the surface temperature of the upper part of the steel plate to lower the first light receiving unit 100a and to measure the distance between the steel plate and the first light receiving unit 100a So that the water staying between the steel plate and the first light receiving portion 100a is removed at a strong air pressure (7 atmospheric pressure or more), thereby minimizing the water interference. Up to this point, the head and tail portions of the steel plate have been warped to collide with the measuring device, causing the measuring device to be damaged. The up and down moving portion 200 is configured such that the first light receiving portion 100a measures the temperature of the steel plate It works by separating the case and the non-measuring case. That is, when the accelerated cooling facility operation is performed, the up-and-down moving unit 200 is lowered to measure the temperature of the upper part of the steel plate during water cooling. If the accelerating cooling facility is not operated, Lt; / RTI >

The rotary connector 300 is connected to the up-and-down moving part 200 and rotates at a predetermined speed for a preset time when it collides with the upper part of the steel plate. This is for protecting the first light receiving portion 100a when the steel plate collides against the first light receiving portion 100a due to the occurrence of warping. The rotary connector 300 minimizes the distance between the steel plate and the first light receiving portion 100a when the first light receiving portion 100a measures the temperature of the upper portion of the steel plate during water cooling.

The pneumatic cylinder 400 is configured such that when the temperature of the upper portion of the steel sheet is measured by the first light receiving portion 100a, the rotational connection pipe 300 is pressurized with air to minimize the distance between the first light receiving portion 100a and the steel plate, .

The first contact roller 500a and the second contact roller 500b are respectively disposed on the first light receiving portion 100a or the second light receiving portion 100b when the first light receiving portion 100a or the second light receiving portion 100b collides with the steel plate, Thereby reducing the frictional resistance between the steel plate 100b and the steel plate. The first contact roller 500a and the second contact roller 500b are heat resistant materials. The reason why the heat resistant material is used for the first contact roller 500a and the second contact roller 500b is to minimize frictional resistance upon contact with the steel sheet.

The spring 600 relaxes the impact when the second light receiving portion 100b collides with the steel plate, and the angle adjuster 700 adjusts the angle between the second light receiving portion 100b and the steel plate.

FIG. 3 is a view showing a principle of measuring the surface temperature of the upper and lower parts of a steel sheet according to the present invention, and FIG.

Referring to FIG. 3, the surface temperature is measured by the first light receiving unit 100a and the second light receiving unit 100b on the upper and lower sides of the steel plate 800, respectively. The measurement distance H was adjusted so that the surface temperature could be measured close to the steel plate 800 in both the upper portion and the lower portion of the steel plate 800 in the same manner.

3, the upper and lower first light receiving portions 100a and the second light receiving portions 100b are formed in a manner as shown in FIG. 3 in consideration of the traveling direction of the steel plate 800. In order to remove the water remaining in the upper and lower portions of the steel plate 800, ° so that it is easy to remove the stagnant water by strong air pressure (over 7 atm). At this time, the first light receiving unit 100a and the second light receiving unit 100b on the upper and lower sides of the steel sheet 800 are easily measured in a harsh environment by using an optical fiber radiation thermometer to simplify the structure.

Since the focal points of the first light receiving portion 100a and the second light receiving portion 100b of the short wavelength and long wavelength dual structure are made to coincide with the surface of the steel plate 800, More effectively. In addition, the influence of the thickness (D) of the staying water is equalized in the short wavelength and long wavelength radiation thermometer. By doing so, it is possible to quantitatively correct the influence of temperature at a short wavelength and a long wavelength by knowing the radiation energy transmission characteristics per wavelength with respect to the thickness (D) of the same retention water.

In the method of measuring the surface temperature of a steel sheet with a short wavelength and a long wavelength, the thickness (D) of the retentate formed on the steel sheet 800 during the actual accelerated cooling operation is not accurately known, The thickness D of the retentate formed on the steel plate 800 during the actual accelerated cooling operation can be calculated by using such advance information and the measurement results of the actual short wavelength and long wavelength. Then, the actual temperature of the short wavelength and the long wavelength can easily be corrected easily by using the radiation energy transmission characteristic per wavelength with respect to the information on the thickness (D) of each staying water.

In an actual experiment for realizing this, as shown in FIG. 4, a first light receiving portion 100a having a short wavelength and a long wavelength dual structure is installed on the upstream side of the accelerating cooling facility where the temperature of the steel plate 800 is relatively high, , And the temperature of the steel sheet 800 in a short wavelength and a long wavelength is measured for different cooling water quantity conditions by thickness. Then, using the deviation of the temperature, information on the thickness (D) of each staying water is converted into a database for different cooling water quantity conditions for each steel type and thickness of the accelerated cooling facility. In the downstream process of the accelerated cooling facility, only the long-wavelength band radiation thermometer, which is a temperature sensor of a low-temperature zone, is used to determine the influence of the cooling water remaining on the steel plate 800, ) Can be corrected by using information obtained by converting the information on the information (e.g. Therefore, the surface temperature of the steel sheet 800 can be precisely measured even in a low temperature range.

5 is an internal configuration diagram of the first light receiving portion and the second light receiving portion of the present invention. 5, the first light receiving unit and the second light receiving unit include a light collecting unit 110, an air input unit 120, a protective glass 130, an internal connecting pipe 140, and an external connecting pipe 150.

The first light receiving unit and the second light receiving unit collect light through the light collecting unit 110 and air is introduced through the air input unit 120. The inflow air is jetted toward the steel plate to measure the surface temperature of the steel plate Let the number be removed. In addition, an inner connecting pipe 140 and an outer connecting pipe 150 for connecting the inside and the outside are provided, and a protective glass 130 is formed at the inner center of the inner connecting pipe 140.

The present invention is not limited to the above-described embodiments and the accompanying drawings. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims, .

1 is a configuration diagram of a steel plate upper surface temperature measuring apparatus in an accelerating cooling facility of the present invention.

2 is a configuration diagram of an apparatus for measuring a steel plate lower surface temperature in an accelerated cooling facility of the present invention.

3 is a view showing the principle of measuring the surface temperature of the upper and lower parts of the steel sheet according to the present invention.

4 is a view showing the state of the surface temperature measurement of the upper or lower part of the steel sheet according to the present invention.

5 is an internal configuration diagram of the first light receiving portion and the second light receiving portion of the present invention.

                 Description of the Related Art

100a: first light receiving portion 100b: second light receiving portion

110: light collecting part 120: air input part

130: protective glass 140: internal connection pipe

[0001] The present invention relates to an external connecting pipe, and more particularly, to an external connecting pipe, which includes a vertically moving part, a rotary connecting pipe, a pneumatic cylinder, a first contact roller,

Claims (11)

delete delete delete delete delete delete delete delete delete A first light receiving unit measuring the surface temperature of the steel plate during operation of the accelerated cooling facility; And a second light receiving portion for measuring a surface temperature of the lower portion of the steel plate when the first light receiving portion measures the surface temperature of the upper portion of the steel plate, wherein the first light receiving portion and the second light receiving portion comprise optical fiber radiations A plurality of thermometers are provided adjacent to each other, air is introduced through the air input unit, and air flowing in the same direction as the direction of collecting light is sprayed toward the steel plate to remove the water remaining in the steel plate when measuring the surface temperature of the steel plate , And each optical fiber radiation thermometer is equipped with a steel surface surface temperature measuring device arranged so that a focusing direction for collecting light and an air jetting direction coincide with each other, The surface temperature of the steel sheet is measured in different wavelength bands by using the first light receiving unit and the second light receiving unit and the measured values of the thicknesses of the respective steel sheets A database preparation step of accumulating prior information on the relationship between the temperature and the thickness of the retentate on the surface of the steel sheet; Measuring a surface temperature of the steel plate at different wavelengths using the first and second light receiving units; Calculating a thickness of the retentate on the surface of the steel plate by comparing the deviation of each temperature measured in the step of measuring the surface temperature of the steel plate with the advance information stored in the database preparing step; And A temperature correction step of calculating a temperature correction value according to the thickness of the retentate water calculated in the staying water thickness calculating step from the dictionary information stored in the database preparing step, And measuring the surface temperature of the steel plate in the accelerated cooling facility. 11. The method of claim 10, Wherein the database preparation step comprises: A temperature thickness database preparation step in which information on the temperature change of the surface of the steel sheet measured according to the change in the thickness of the retentate is measured; The temperature deviation corresponding to the temperature difference of the steel sheet measured in the different wavelength band accumulated in the temperature thickness database preparing step is calculated and information on the relationship between the temperature deviation and the thickness of the staying water is stored, step And measuring the surface temperature of the steel plate in the accelerated cooling facility.

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