JPH10237611A - Method and instrument for measuring spangle size of hot-dip coated steel sheet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide the method and instrument for always precisely measuring the spangle size of a hot-dip coated steel sheet in a line. SOLUTION: The measuring position 11 of the spangle size is made to a position in the line at the downstream side from the position fully solidifying the hot-dipping metal. This measuring position is further desirable to be a roll in a continuos hot-dip coating equipment or near the roll. Then, as the roll, it is desirable be a top roll 6 in the hot-dip coating equipment. The measuring instrument under the above described condition, is composed of a beam source 7 radiating the beam 12 toward at least the surface of the hot-dip coated steel sheet 7, a detector for detecting reflecting beam 13 reflecting this beam on the surface of the hot-dip coated steel sheet and a recording, processing and display device for recording, processing and displaying the detected beam. Then, it is desirable to constitute with a TV camera 8 to the detector and a picture processor 9 and a monitor 10 to the record.treatment and display device.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for measuring the size of spangles appearing on the surface of a steel sheet which has been subjected to hot-dip galvanizing in a continuous hot-dip plating apparatus and an apparatus for measuring the same.

[0002]

2. Description of the Related Art A hot-dip galvanized steel sheet, a hot-dip Zn-Al coated steel sheet, and other hot-dip Zn alloy coated steel sheets are manufactured as a hot-dip galvanized steel sheet by a continuous hot-dip coating equipment. When manufacturing the hot-dip galvanized steel sheet, a gorgeous pattern called spangle occurs on the surface of the plating film. The shape and size of the spangle vary depending on conditions such as the chemical composition of the base steel sheet, the manufacturing conditions, the steps before plating, the plating bath composition, and the cooling rate after plating.

Conventionally, as a method for measuring such spangles of a hot-dip coated steel sheet manufactured by a continuous hot-dip coating apparatus, Japanese Patent Application Laid-Open No. 54-21750 discloses a method in which a laser beam is applied to the surface of a steel sheet and the reflected light is applied. By detecting
A method for detecting the presence or absence of spangles is disclosed. The method described above is intended to detect whether or not the steel sheet is zero spangle, as it is, when manufacturing a so-called zero spangle type galvanized steel sheet having no spangle on the surface of the steel sheet. Therefore, it is not intended to measure the size of the spangle. In addition, there has been no attempt to measure the spangle size itself, that is, the spangle size during the production of a hot-dip coated steel sheet.

[0004]

The base steel sheet to be hot-dip coated is said to be manufactured under the same conditions due to unexpected or inevitable fluctuations in the manufacturing conditions in the steps prior to the hot-dip coating step. Even in this case, the surface oxidation state and the concentration element, or the composition and structure of the steel sheet may often differ. When such a base steel sheet is hot-dip in a continuous hot-dip coating facility, the spangle size differs significantly due to differences in manufacturing conditions between and within the base steel sheet even if the plating conditions are the same. And the surface appearance of the product is unfavorable. Therefore, in order to perform hot-dip plating with a uniform spangle size between steel sheets and within a steel sheet, it is necessary to always develop a method of accurately measuring the spangle size accurately.
However, heretofore, there is no method or apparatus that can accurately measure the spangle size of a hot-dip coated steel sheet.

Accordingly, an object of the present invention is to provide a method and apparatus for constantly, accurately, accurately and quickly measuring the spangle size of a hot-dip coated steel sheet.

[0006]

SUMMARY OF THE INVENTION The present inventors have made intensive studies from the above viewpoints to develop a method and an apparatus capable of constantly measuring the spangle size of a hot-dip coated steel sheet. As a result, by using a predetermined measuring device at a predetermined position in the hot-dip plating line,
It was found that the spangle size formed on the plating film could be accurately, accurately and quickly grasped. The measuring method of the present invention is as follows.

The method for measuring the spangle size of a hot-dip coated steel sheet according to claim 1 is provided in a continuous hot-dip coating equipment in a facility line downstream of a position where a melt of the plating applied to the steel sheet surface is completely solidified. At the position, the spangle size formed on the plating film on the surface of the steel sheet is measured.

[0008] The method for measuring spangle size of a hot-dip coated steel sheet according to claim 2 is more desirable. In the method for measuring spangle size according to claim 1, the measurement position of spangle size is downstream of the completely solidified position of the plating melt. Near the roll or roll provided on the side, and
It is characterized in that it is located in a line downstream of the complete solidification position.

[0009] The method for measuring the spangle size of a hot-dip coated steel sheet according to the third aspect is more desirable, and the roll is a top roll of a continuous hot-dip plating facility in the second aspect. It has. That is, of the continuous hot-dip plating equipment, the top roll provided on the most upstream side of the roll group provided on the downstream side from the position where the melt of the plating applied to the steel sheet surface completely solidifies or In the vicinity of the top roll, and at a position in the equipment line downstream from the position where the melt completely solidifies, it is characterized by measuring the spangle size formed on the plating film on the surface of the steel sheet. is there.

[0010] The measuring apparatus of the present invention is as follows. An apparatus for measuring spangle size of a hot-dip coated steel sheet according to claim 4, wherein at least a light source for emitting light toward the surface of the hot-dip coated steel sheet, and a reflection of the emitted light reflected on the surface of the hot-dip coated steel sheet It is characterized by comprising a detector for detecting light, and a recording / processing and display device for recording, processing and displaying the detected light detected by the detector.

The apparatus for measuring the spangle size of a hot-dip coated steel sheet according to claim 5 is more desirable. In the measuring apparatus according to claim 4, the detector is a television camera, and the recording / processing and display apparatus is an image. It is characterized by comprising a processing device and a monitor.

[0012]

Next, the present invention will be described with reference to the drawings. FIG. 1 is a schematic diagram for explaining an example of an embodiment of the present invention. The strip 1 as a base steel sheet is subjected to a surface cleaning treatment and a heat treatment in a heating furnace of a continuous plating facility, for example, a non-oxidizing furnace (not shown), and then passed through a cooling zone (not shown) to be snouted. 2 guides the plating pot 3 without contacting the atmosphere. The traveling direction of the strip 1 guided into the plating pot 3 is changed vertically upward by the sink roll 5 in the plating bath 4, and the strip 1 is pulled up. The strip 1 is plated on the surface while passing through the plating bath 4. The amount of the plating melt adhered to the surface of the strip 1 changes mainly depending on the pulling speed of the strip 1. Therefore, the excess amount of the melt is squeezed by a conventional method to control the amount of the melt attached. Thus, the hot-dip coated steel sheet 1 'is manufactured.

The melt deposited on the surface of the strip 1 is cooled by a conventional method, and the traveling direction is changed horizontally by a top roll 6 which is the first roll installed after completely solidified. On the downstream side of the top roll 6 and near the top roll 6, a spangle size measuring device 11 for a hot-dip coated steel sheet is installed. The spangle size measuring device 11
It comprises a light source 7, a camera 8, an image processing device 9, and a monitor 10. Light 12 emitted from the light source 7 is reflected on the surface of the hot-dip coated steel sheet 1 '. The reflected light 13 is detected by the camera 8 and transmits the detected light to the image processing device 9. Information on the spangle size processed by the image processing device 9 is displayed on the monitor 10.

As described above, the spangle size formed on the plating film on the surface of the hot-dip coated steel sheet manufactured by the continuous hot-dip plating equipment can be constantly measured.

Next, the reason for limiting the spangle size measurement position in the measurement method of the present invention will be described. The spangle is a manifestation of a solidified structure of the plating melt. Therefore, spangles must be observed and measured after the plating melt on the steel sheet surface has completely solidified. Therefore, the spangle size should be measured at a position downstream of the position where the plating melt completely solidifies.
Moreover, in order to constantly measure the spangle size, it is difficult to achieve the object by measuring at a position outside the line of the plating equipment, and therefore, it is necessary to measure at a position within the line.

The measurement position of the spangle size is set to a position in the vicinity of a roll or a roll in a line provided at a position after the plating melt is completely solidified and a position after the plating melt is completely solidified. desirable. As described above, it is desirable to measure the spangle size at or near the roll in the line because the steel sheet between the rolls easily vibrates and the position of the steel sheet always moves. This has an unfavorable effect on the spangle size measurement results. On the other hand, the above problem does not occur in the roll or near the roll because the vibration of the steel plate is small.

A more desirable position for measuring the spangle size is a position near the top roll or the top roll and after the plating melt is completely solidified. Thus, it is more desirable to measure the spangle size near the top roll or top roll,
It is as follows. In the continuous hot-dip plating equipment, as shown in FIG. 1, the strip rises from the plating bath in a substantially vertical direction, and the strip is directed horizontally by a top roll installed above the strip. Since the top roll is in direct contact with the strip, it is essential that the plating melt be completely solidified before reaching the top roll. In the continuous hot-dip plating equipment, the installation position of the top roll is designed to always satisfy the above conditions. That is, the top roll is a roll that is always installed on the most upstream side of the line after complete solidification of the plating melt. Therefore, the spangle size measurement result can be obtained most quickly by measuring at or near the top roll. Therefore, it is most advantageous when the spangle size is controlled by feedback or feedforward of the measurement result.

In order to measure the spangle size at the above-mentioned position in the continuous hot-dip plating equipment line,
It is desirable to install at least the information input mechanism related to the spangle size in the measuring device close to the measuring position from the viewpoint of maintaining the measurement accuracy.

The reasons for limiting the configuration of the spangle size measuring apparatus of the present invention will be described. In order to control the spangle size by adjusting the processing conditions of the continuous plating applied to the steel sheet surface using the above measurement results, the spangle size is measured quickly, accurately and precisely, and then recorded quickly. And
It is necessary to process and get the result. In addition, it is required to promptly and accurately feed back the obtained results or to feed forward the obtained results. In order to satisfy the above requirements, a system that emits a light beam on the surface of a hot-dip coated steel sheet, detects reflected light, and records, processes, and displays the detected light is suitable. Therefore, at least as described above,
A light source for irradiating the hot-dip coated steel sheet, a detector of the detection light, and a spangle size measuring device including a recording / processing and display device are required.

The above-described configuration of the spangle size measuring apparatus is the minimum necessary. In addition, for example, the operating conditions in the continuous hot-dip plating equipment are based on an amplifier for amplifying the detection light and data obtained by processing the detection light. It is desirable to add a mechanism or the like for changing. In addition, the light source, the detector, and the recording / processing and display device may be any devices provided that they have the necessary functions, and the specifications, operating conditions and It should be appropriately selected according to the type of production by the equipment.

By selecting the measuring device of the present invention, a television camera as a detector, and an image processing device and a monitor as a recording / processing and display device, the spangle size can be actually measured during the operation of the continuous hot-dip plating equipment. Can be observed with an image close to the appearance of the steel sheet surface, and can be visually grasped.

[0022]

Next, a measuring method and a measuring apparatus according to the present invention will be described.
This will be further described with reference to examples. In the continuous hot-dip coating equipment, a spangle size measuring device was installed as shown in FIG. 1 above, and the spangle size of the hot-dip coated steel sheet surface was set at a position after the plating melt applied to the steel sheet surface was completely solidified. Was measured. The measurement target position is continuous in the longitudinal direction at the center in the width direction of the hot-dip coated steel sheet. The camera used was a television camera. On the other hand, a test material was sampled from the hot-dip coated steel sheet manufactured at this time, the spangle size was measured by a conventional measurement method outside the production line, and the measurement results obtained by the two methods were compared.

At this time, the plating bath was 55% Al-
Zn plating, and other manufacturing conditions were standard conditions for manufacturing equivalent materials. FIG. 2 shows an index (hereinafter referred to as "spangle size-2") of the measured value of the spangle size by the measuring device and the measuring method (Example) of the present invention, and a method conventionally performed by the present inventors (comparative example). Shows the relationship with the measured value of the spangle size (referred to as "spangle size-1").

The method of obtaining the spangle size-2 in the embodiment is as follows. At the above-mentioned position on the production line, image processing is performed on an area of 100 × 100 mm on the surface of the hot-dip galvanized steel sheet, a spangle boundary is extracted, and it is assumed that the shape of all spangles is a square. Transform the shape to a square. The number of pixels corresponding to the length of one side of each square thus obtained is determined, and the average value of the number of pixels corresponding to the length of one side of all the squares is defined as spangle size-2. The spangle size-2 is expressed by the following formula (2): spangle size-2 (pixel) = 2T / B ------------------- (2) where T: measurement range B: Determined by the number of pixels (pixel) corresponding to the spangle boundary.

The method of obtaining the spangle size -1 in the comparative example is as follows. On the exit side of the continuous hot-dip Zn-Al plating equipment, samples were taken from various predetermined positions in the longitudinal direction at the center of the width of the hot-dip Zn-Al-plated steel sheet, and 100
Ten arbitrary points are selected within a range of × 100 mm, and the number of spangles (n _i , i = 1 to 10) traversed while crossing a distance of 10 mm at each point is counted. Spangle size minus the following equation (1): the value of the spangle size -1 (mm) = 100 / Σ i = 1 10 (n i) ------ (1) in FIG. 2 spangle size -2 It is a measured value at a position corresponding to the vicinity of the position of the hot-dip Zn-Al plated steel sheet at which spangle size -1 was measured. From the figure, a strong correlation is recognized between spangle size-2 and spangle size-1. Thus, by measuring the spangle size of the hot-dip galvanized steel sheet using the apparatus of the present invention,
The spangle size can be measured with the same accuracy as before. Therefore, by always measuring the spangle size of the plated steel sheet being manufactured in the continuous hot-dip plating equipment by the apparatus and method of the present invention, the spangle size can always be accurately, accurately and quickly grasped.

[0026]

As described above, according to the present invention,
It is possible to provide a spangle size measuring method and a measuring device capable of accurately and quickly grasping the spangle size of a hot-dip coated steel sheet surface being manufactured at a continuous hot-dip coating facility at any time, and is industrially useful. Effects are provided.

[Brief description of the drawings]

FIG. 1 is a schematic diagram for explaining an example of an embodiment of the present invention.

FIG. 2 shows a relationship between an index of a measured value of spangle size according to an example and a measured value of spangle size according to a comparative example.

[Explanation of symbols]

 Reference Signs List 1 strip 1 'hot-dip coated steel plate 2 snout 3 plating pot 4 plating bath 5 sink roll 6 top roll 7 light source 8 camera 9 image processing device 10 monitor 11 spangle size measuring device 12 light 13 reflected light

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Akira Kazama 1-1-2 Marunouchi, Chiyoda-ku, Tokyo Nihon Kokan Co., Ltd. (72) Inventor Tadashi Nara 1-2-1, Marunouchi, Chiyoda-ku, Tokyo Sun Honko Tube Co., Ltd.

Claims (5)

[Claims] In a continuous hot-dip plating facility, a plating film formed on a surface of the steel sheet is formed at a position in a line of the facility downstream of a position where a melt of plating applied to the surface of the steel sheet completely solidifies. A method for measuring the spangle size of a hot-dip coated steel sheet, comprising measuring the spangle size. 2. The measuring position of the spangle size is a roll or a vicinity of a roll of the continuous hot-dip plating equipment provided downstream of a position of complete solidification of the melt, and the position of the complete solidification. The method for measuring a spangle size of a hot-dip coated steel sheet according to claim 1, wherein the position is a position in a line downstream of the position. 3. The method according to claim 2, wherein the roll is a top roll of a continuous hot-dip galvanizing facility. 4. A light source that emits light rays toward the surface of the hot-dip coated steel sheet, a detector that detects light reflected by the surface of the hot-dip coated steel sheet, and a detector that is detected by the detector. An apparatus for measuring spangle size of a hot-dip coated steel sheet, comprising: a recording / processing and display device for recording, processing and displaying the detected light. 5. The spangle size measurement of a hot-dip coated steel sheet according to claim 4, wherein the detector is a television camera, and the recording / processing and display device comprises an image processing device and a monitor. apparatus.