JP4771629B2 - Steel quality information management method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to management of quality information generated at the time of manufacturing steel materials, and more particularly to a quality control method that enables a manufacturer and a customer (customer) to share quality information.
[0002]
[Prior art]
The quality of steel materials has been improving year by year due to the completeness of inspection equipment and the improvement of operation technology by both manufacturers and customers, and the defect contamination rate such as defects has been greatly reduced.
In addition, complaints regarding defects in steel materials pointed out by customers have been specifically identified as being the number of wrinkles in a sheet lot or coil, although they were previously in sheet lots or coils. It is becoming.
[0003]
In this way, defects that can be said to have become very small in occurrence frequency become a very large problem if they are discovered after processing steel materials and assembling them into products. For example, if it is as small as a can, it is sufficient to discard the defective product with that defect, but on the other hand, as large as the car body of an automobile, it is necessary to disassemble and replace the defective part. Things will happen.
[0004]
At present, although it has decreased, it is difficult to eliminate defects in steel materials, and the occurrence of the above-mentioned problems has not been fully suppressed. In addition, simply disposing or downgrading in units of sheet lots or coils simply because of defects will result in high costs and cost competitiveness, and resources will be effective for society as a whole. It is a big loss because it is not used in the future.
[0005]
Therefore, Japanese Patent Laid-Open No. 2000-107992 discloses an integrated quality control method and apparatus for performing quality control in an integrated manufacturing process for manufacturing steel materials (thin steel sheets) from continuous casting to final product manufacturing processes. In the integrated steel sheet manufacturing process that manufactures thin steel sheets through processes, etc., for each process in the integrated process, quality-related information on products manufactured in that process or products as semi-finished products is handled by each process. Storage and storage for each position to be performed, and storage and storage of the linking information that links the position of the product of each process with the position corresponding to each other in the product of the other process. It is intended to provide a consistent quality management method and apparatus "characterized in that information on the process and information on other processes are output as needed at an arbitrary position.
[0006]
[Problems to be solved by the invention]
However, the technology disclosed in the above Japanese Patent Laid-Open No. 2000-107992 is only a quality control technology in the manufacturer's factory, and for the customer to extract and use the quality related information, the handling of paper forms, etc. is necessary.
Also, while quality-related information is communicated from the manufacturer to the customer, for example, the defect image information is often processed to be simplified to text information, etc., and purchased from the manufacturer. It was insufficient to contribute to quality control of products manufactured by customers using the steel materials.
[0007]
Furthermore, when the steel material is a long product (strip material) such as a coil-shaped thin plate product, the product is rewound to a specific position of the product indicated as “defect” and the defect is re-evaluated. This is an extremely complicated task.
The present invention makes it possible for customers to provide detailed information such as image information beyond the scope of transmission in paper forms when obtaining quality-related information accumulated by the manufacturer. The information is intended to contribute to quality control in the manufacturing process on the customer side.
[0008]
It is another object of the present invention to eliminate the troublesome procedure of re-inspecting the product by rewinding the product to a specific position of the product indicated by the quality information of the long product.
[0009]
[Means for Solving the Problems]
The present invention has solved the above-described problems by a steel material quality information management method described in the following items.
[1] The steel manufacturer accumulates quality information on defects, dimensions, shape, surface properties, and surface treatments generated during the manufacture of steel materials collected from multiple inspection devices installed on the steel production line in the database. Process,
A function of selecting and providing the quality information stored in the database by selecting information available to the other manufacturer and / or customer from a computer of another manufacturer and / or customer who further processes the steel material via an application server having, by starting each application registered in advance in the application server, before SL other manufacturers and / or the other manufacturer and / or customer available quality information customers online A process of reading
The quality information management method of the steel materials characterized by having.
[2] In the quality information management method for a steel material according to [1] above, the manufacturer assigns a mark to a position of a defect that has occurred during the manufacture of the steel material, and information about the mark is included in the quality information A quality information management method for steel materials characterized by comprising a step of accumulating in the database as one of the methods.
[3] The quality information management method for steel materials according to [1] or [2], wherein a surface appearance development view is included as one of the quality information.
[4] The steel material according to any one of [1] to [3], wherein the quality information includes information on a position measured at the time of manufacturing the steel material, and is stored corresponding to the position. Quality information management method.
[5] The quality information management of the steel material according to the above [4], wherein the steel material is a wire material or a strip material, and is shipped as a coil to the other manufacturer and / or customer. Method.
[6] The steel material according to any one of [1] to [5], wherein the other manufacturer and / or customer has a step of removing the defect based on the read quality information. Quality information management method.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of a quality information management method for steel according to the present invention will be described with reference to FIG.
Business computer 10 that manages the production line of the manufacturer (for example, a hot rolling line, a cold rolling line, etc., not shown here), a process computer 20, and defects attached to each line are detected. The sensor 30, the automatic inspection recording device 40, the manual inspection recording device 50, and the like are connected to a database server 60 managed by the manufacturer, and quality information of the manufactured steel material is collected and accumulated in a database online.
[0011]
Conventionally, the database on the database server 60 is used only by the manufacturer and is not usually disclosed to the outside.
The present invention is characterized in that this database can also be used by other manufacturers and / or customers (hereinafter simply referred to as customers) who further process external steel materials. In other words, the client PC 80 or the display device 90 owned by an external customer can be connected online via the application server 70. Here, the application server 70 has a function of selecting and providing information usable by an external customer.
[0012]
In the system shown in FIG. 1, the embodiment of the present invention accumulates quality information generated at the time of manufacturing a steel material in a database, and a customer who uses the steel material reads the information from the database to obtain the quality information. It is in the point that made it possible. The quality information here does not depend on the form of the steel material at all. Hot rolled thin plate, cold rolled thin plate (coil and cut plate), thick plate, strip steel, steel pipe, Zn, Sn, Cr, Ni, Al, etc. The present invention can be equally applied to various forms such as a surface-treated steel sheet obtained by melting and electroplating various types of metals. In addition, quality information handled in these steel materials includes defects (such as wrinkles, holes, and dirt), dimensions (plate thickness accuracy in the length direction, edge drop in the width direction, width accuracy in the length direction, squareness), shape Various information such as information on surface properties such as (ear extension, belly extension, warp, blank warp, local extension), surface gloss, color tone, surface treatment (plating adhesion amount, plating method, corrosion resistance test results), and the like.
[0013]
These pieces of information are collected on the basis of on-line measurement by an online sensor, for example, a defect detection device, a dimension measurement device, a surface property measurement device, and the like. Collected from equipment. Also, when collecting various samples and performing various measurements and analyses, and collecting records by manual inspection such as visual inspection by an inspector. This information may be collected as raw information from various sensors, not as a result of inspection.
[0014]
There are various forms of information to be collected and accumulated, but if the information is defect information, it can be said that it is relatively easier to communicate with text information (character information) such as the name or size or grade of the defect. . On the other hand, there are some information that is difficult to convey by text, such as photographs, charts of analysis results, or the position and distribution of defects within the entire width and length of the coil. In the case of such information, the information is stored in a database in the form of an image or the like in association with other steel material information such as coil numbers, slab numbers, inspection numbers and lot numbers managed by business computers and process computers. The stored information is managed, edited, and displayed by each application registered in advance in the application server.
[0015]
In the present invention, the customer can read out the above information from the database and obtain it as quality information. Specifically, the application registered in the application server can be started from the computer (client PC) operated by the customer, and the database information on the manufacturer side can be retrieved or displayed via the application server. .
[0016]
Next, a preferred embodiment of the present invention will be described.
In a preferred embodiment, a mark is assigned to a defect position of a defect that has occurred during the manufacture of a steel material, and information relating to the mark is stored in a database as one piece of quality information. And the customer who uses steel materials reads the said information from a database, and obtains required quality information.
[0017]
That is, it is characterized in that a mark is actually attached to the defect position of the steel material itself. The method of attaching the mark is not particularly limited, but label attachment, application of visible or invisible dye (paint), and marking or notch can be applied if possible in terms of quality. Further, not only marking but also bar codes and symbols may be printed. Information on the marked defect, for example, the size and shape of the defect, the degree of hazard, comments on how to deal with the defect, or the position information of the defect, etc. Store as one. It is preferable that the stored defect information is associated with the mark of the defect and linked.
[0018]
In this way, the customer can read and understand the quality information of the marked defects accurately and take appropriate measures.
In particular, in the case of a steel material in the form of a coil such as a thin plate product, the length may be several thousand meters. In the case of such coil products, when processing on the customer side, conventionally, it was a work that required tension and a long time to observe and discover with the naked eye, and it tends to be overlooked, but when rewinding the coil, It is also possible to automatically stop at the position where the mark is located by the mark reading device and automate the work such as reinspecting the defect or removing the defective part.
[0019]
Furthermore, when accumulating information on defects, etc. in the database, a surface appearance development drawing that makes it possible to visually check the position, shape, size, etc. of defects present in the steel material for each sheet lot or coil is to be included. Is preferred. This development of surface appearance can be grasped at a glance because it is visible compared to simple numerical information, especially in the case of long thin steel sheets of coil form (strips, wires). There is a great merit that it is easy to grasp the intuitive position information and the like, and that automatic unmanned work can be performed with each other.
[0020]
Here, the surface appearance development view shows the quality information such as defects in a two-dimensional manner, and is a view showing the appearance corresponding to which position on the product in particular. As a typical example, there is a surface appearance development view of a coil-shaped thin sheet product (strip), indicating how far the defect is from the end of the coil, including the coil front and back and the position in the coil width direction. be able to.
[0021]
In addition, the thin plate product in the coil form has a length of several thousand meters with respect to a normal size of around 1 m, so it can be easily printed on a piece of A4 size paper or displayed on a display. Therefore, it is preferable that the ratio of the long side to the short side is compressed and displayed. On the other hand, when printing on a single page or display on a single screen is not required, print on roll paper or scroll in the long side direction on the display. It goes without saying that the degree of compression of the ratio may be suppressed.
[0022]
In addition, as the defect position information displayed on the surface appearance development view, the information such as the defect position stored and accumulated in the database corresponding to the measurement result of the coil length meter is displayed as quality information on the surface appearance development view. It is preferable to display. By doing so, it becomes possible to read and grasp the defect position more accurately and easily.
[0023]
【The invention's effect】
The present invention makes it possible for customers to provide detailed information such as image information that exceeds the range transmitted in paper forms when obtaining quality-related information accumulated by the manufacturer. The information can be used on the customer side, which greatly contributes to quality control in the manufacturing process on the customer side. Further, it is possible to eliminate the complexity of the procedure for rewinding the product to the specific position of the product indicated by the quality information of the long product and performing the re-inspection.
[Brief description of the drawings]
FIG. 1 is a schematic diagram of a system to which a quality information management method for steel according to the present invention is applied.

Claims (6)

A process in which a manufacturer of the steel material accumulates quality information on defects, dimensions, shapes, surface properties, and surface treatments generated during the manufacture of the steel material collected from a plurality of inspection apparatuses provided in the steel material production line in a database;
A function of selecting and providing the quality information stored in the database by selecting information available to the other manufacturer and / or customer from a computer of another manufacturer and / or customer who further processes the steel material via an application server having, by starting each application registered in advance in the application server, before SL other manufacturers and / or the other manufacturer and / or customer available quality information customers online A process of reading
The quality information management method of the steel materials characterized by having. In the quality information management method of the steel materials according to claim 1,
Furthermore,
The quality of the steel material characterized by having a step in which the manufacturer assigns a mark to the position of the defect that has occurred during the manufacture of the steel material and accumulates information about the mark in the database as one of the quality information. Information management method.   The steel material quality information management method according to claim 1, wherein a surface appearance development view is included as one of the quality information.   The quality information management method for a steel material according to any one of claims 1 to 3, wherein the quality information includes information on a position measured at the time of manufacturing the steel material, and is stored corresponding to the position.   The steel material quality information management method according to claim 4, wherein the steel material is a wire material or a strip material, and is shipped as a coil to the other manufacturer and / or customer.   6. The steel quality information management method according to claim 1, wherein the other manufacturer and / or customer has a step of removing the defect based on the read quality information.

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