KR20020060755A - Endless hot rolling method - Google Patents

Abstract

The present invention ensures the bonding strength during endless rolling, while reducing the load applied to the rolling roll to prevent breakage of the plate and to prevent damage to the press plate and the rolling roll. In this method, when the sheet bar is bonded and rolled continuously before finishing rolling, the step of the sheet bar joint portion is unified by unifying all the sheet bar thicknesses in the group with the thinnest sheet bar thickness among the command thicknesses of all the sheet bars in the bonding group. To get rid of.

Description

Endless Hot Rolling Method {ENDLESS HOT ROLLING METHOD}

The rolling process of a hot rolled steel strip generally consists of the following processes. The slab is heated by a heating furnace, the heated slab is rolled into a rough rolling mill to form a seat bar, and the sheet bar is rolled into a finishing mill to form a hot rolled steel strip. The slab, the sheet bar, and the hot rolled steel strip are collectively called a rolling target material. Conventionally, each sheet bar rolled with the roughing mill is rolled individually by the finishing mill. This is called batch rolling. In recent years, the technique of joining the preceding seat bar end and the following seat bar front-end | tip between a rough rolling mill and a finishing mill sequentially, and rolling a plurality of seat bars continuously without a break part with the finishing mill became practical. This technique is called endless rolling. In actual finishing rolling operations, batch rolling and endless rolling are mixed.

A method of determining rolling conditions in a conventional batch rolling operation will be described. The host computer determines the rolling conditions based on information such as steel grade, specification, dimensions, product thickness, product width, etc. for each material to be rolled in advance. Thereafter, the rolling target material is provided to the hot rolling line. The subordinate computer detects the entry of the rolling target material at each place in the hot rolling line. The lower computer sets the rolling conditions of the downstream equipment on the basis of the predetermined rolling conditions rather than the position where the entry of this rolling object is detected. Thereafter, a rolling target material is provided to the downstream equipment and rolled.

In endless rolling, it is necessary to join sheet bars. Examples of the joining technique include the technique disclosed in Japanese Patent Application Laid-open No. Hei 8-300008 and the technique previously proposed by the present applicant in Japanese Patent Application Laid-open No. Hei 7-24504.

The apparatus disclosed in Japanese Patent Application Laid-open No. Hei 8-300008 is a laser welding apparatus provided with a vertical adjustment device for adjusting the vertical position of the joining surface on either or both of the preceding seat bar clamp device and the subsequent seat bar clamp device. The apparatus disclosed in Japanese Patent Application Laid-Open No. 7-24504 clamps each arm up and down with a space between the heated leading seat bar end and the trailing seat bar tip, and moves the arm in the clamped state to move the leading seat bar end and It is a clamping device which presses and opposes the opposing surface of a trailing seat bar tip. Disclosed is a clamp device having a horizontal level holding mechanism having a pressing plate for clamping a seat bar from one seat bar to another seat bar.

The apparatus disclosed in Japanese Patent Application Laid-open No. Hei 8-300008 requires a mechanism for adjusting the up and down position of the joint surface on either or both of the preceding clamp apparatus and the following clamp apparatus. Therefore, there is a drawback that the mechanism becomes complicated. When the trailing seat bar 12 is thicker than the preceding seat bar 10, a step occurs in the seat bar thickness of the joining portion 11. When there is a step, as shown in Fig. 1, when rolling with a finish rolling mill, the force from the top and bottom rolls 14 and 15 acts in the direction shown in the drawing in the seat bar stepped portion. There is a risk that the junction 11 of is broken.

An example of the apparatus disclosed in Japanese Patent Application Laid-Open No. 7-24504 is shown in FIG. 2. In Fig. 2, reference numerals 16 and 17 denote upper and lower clamps, and reference numerals 18 and 19 denote outlet upper and lower clamps. If the trailing seat bar is thinner than the preceding seat bar, there is a problem that the press plate is bent when the seat bar is clamped by the pressing plate from the trailing seat bar to the preceding seat bar.

On the other hand, the present applicant has proposed a technique for setting the rolling conditions of the endless rolling in Japanese Unexamined Patent Publication No. Hei 10-5830 and No. Hei 11-169926. The technique disclosed in Japanese Patent Application Laid-open No. Hei 10-5830 is to determine the joining order of the endless rolled material so that the steel sheet having a thin finish plate thickness is in the middle of the rolling order. The technique disclosed in Japanese Patent Application Laid-Open No. 11-169926 is to immediately replace batch rolling when the rolled material to be subjected to endless rolling cannot be endless rolled. Therefore, the rolling conditions are decided beforehand for both endless rolling and batch rolling. In the techniques disclosed in Japanese Patent Application Laid-Open Nos. 10-5830 and 11-169926, there is a risk that the above-described seat bar is broken, and the problem that the pressing plate is bent when the seat bar is clamped cannot be solved.

The present invention relates to a method for setting rolling conditions in endless hot rolling.

1 is a view for explaining a problem of the technique disclosed in Japanese Patent Laid-Open No. 8-300008. The cross section of finish rolling is shown.

2 is a view for explaining a problem of the technique disclosed in Japanese Patent Laid-Open No. 7-24504. The cross section of a clamp part is shown.

3A is a diagram for explaining the effect of the present invention. The cross section of finish rolling is shown.

3B is a diagram for explaining the effect of the present invention. The cross section of a clamp part is shown.

4 is a view showing an example of a hot rolling line to which the present invention is applied.

Fig. 5 is a block diagram showing an embodiment of a control device for practicing the present invention.

6 is a flowchart showing a processing procedure of the above embodiment.

It is a figure which shows the example of the rolling object material information used by embodiment of this invention.

Disclosure of the Invention

The present invention has been made to solve the above-mentioned conventional problems, and to prevent damage to the pressing plate during bonding. In addition, it is a problem to ensure the bonding strength during endless rolling and to reduce the roll load.

The present invention solves the above problems by rolling the sheet bar thickness in the endless rolling. In hot rolling, the host computer determines the rolling conditions based on information such as steel grade, specification, dimensions, product thickness, product width, etc. for each material to be rolled in advance. If the material to be rolled is a material to be rolled on which endless rolling is to be carried out, the following calculation is performed with a lower computer. The subordinate computer compares predetermined sheet bar thicknesses for each of the rolling target materials among the plurality of rolling target materials from the leading material to the final material of the endless rolling and finds the minimum value among them. The above problems are solved by uniformly rolling the sheet bar thickness to the minimum of these.

Conventionally, the trailing seat bar may be thicker than the preceding seat bar, which causes a problem that the joining is broken due to a force from the finish rolling roll applied to the stepped portion of the seat bar joint. Moreover, there existed a problem that a press plate was bent or broken when clamping a step part with a press plate. In the present invention, such a problem does not occur because the thickness of the sheet bars of the plurality of rolling target materials for endless rolling operation is the same.

The effect of this invention is shown to FIG. 3A and FIG. 3B. As shown in FIG. 3A, the joining portion smoothly engages with the finish rolling roll. As shown in FIG. 3B, the pressing plates 16 and 17 of the clamp device do not bend.

Best Mode for Carrying Out the Invention

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described in detail with reference to drawings.

As an example, the outline | summary of the hot rolling line which performs endless rolling as an example is shown. The case where endless rolling is performed using this hot rolling line is demonstrated. With the joining device 30 provided between the tail end 10e of the preceding material 10 and the tip 12t of the following material 12 between the roughening mill 20 of 3 stands and the finishing mill 40 of 7 stands. Bond. Finish rolling is continuously performed while the preceding material 10 and the following material 12 are connected. The downstream side of the finishing mill 40 is provided with the cutters 50 of the rolling object, and two winding machines 60 are provided downstream of the cutter 50. The rolled material to be finished rolled in the state in which the preceding material 10 and the following material 12 are connected is cut by the cutter 50 to a length wound by the winding machine 60. The winding of the rolling target material preceding the cutting point and the rolling target material following the cutting point are alternately performed with two winding machines.

Endless finishing rolling continuously rolls the preceding material 10 and the following material 12 without breaking. Stable rolling can be performed over the entire length. In particular, it is suitable for the rolling of the rolling target material which is thin in plate thickness, and the board | plate of the abnormal part of a front end is difficult.

5 is an example of a block diagram showing a control device for implementing the present invention. As shown in FIG. 5, operating conditions of each facility in a hot rolling line are set by a computer. For each slab that is the material to be rolled, information such as steel grade, specification, rolling dimension, and the like is input from the order input terminal device 80. The information per slab is transmitted to the host computer 70 via, for example, an in-house LAN82. The host computer 70 determines the rolling conditions such as the rolling temperature, the rolling reduction schedule, the rolling speed, the tension between the stands, the cooling conditions of the rolled material, and the like based on the information for each slab. The upper computer instructs the lower computer 72 of the above rolling conditions.

When the slab is put into the rolling line, the subordinate computer 72 reads the detection value provided from the detectors arranged in each part of the rolling line. In FIG. 5, the roughing mill outlet side detector 24, the bonding apparatus outlet side detector 32, the finishing mill outlet side detector 44, and the like are illustrated in FIG. 5. The detected value refers to temperature, sheet thickness, sheet width and the like. At the same time, the lower computer 72 reads the actual operation data of the facility. In FIG. 5, the rough mill 20, the joining apparatus 30, the finish mill 40, the cutter 50, the winding machine 60, and the like are referred to in FIG. 5. The actual operation data refers to the rolling load in the pressing device 22 of the roughing mill 20 or the pressing device 42 of the finishing mill 40. The detection value provided from the detector and the actual operation data of the facility are added together and referred to as rolling material information. Based on these rolling target material information, the lower computer 72 calculates the operating conditions of the equipment after the place where the current rolling target material exists so that the rolling target material is rolled under the rolling conditions instructed by the upper computer 70. The lower computer 72 sends the operating condition signal based on this calculation result to each facility and moves each facility.

For example, it demonstrates in detail. For example, in the batch rolling operation, the lower computer 72 operates the finishing conditions of the finishing mill 40, that is, each stand so that the finishing rolling is performed under the finishing rolling conditions sent from the upper computer 70 based on the rolling material information in the rough rolling. Find the rolling position, roll circumferential speed, and so on. The rolling material information in rough rolling refers to the sheet bar dimension, temperature, etc. after rough rolling at the stage where rough rolling was complete | finished. These are detected using the roughing mill outlet side detector 24 or calculated | required by calculation from the actual operation data of the roughing mill 20.

On the other hand, for example, in the endless rolling operation, after the joining of the preceding material 10 and the trailing material 12 is completed by the joining device 30, the operating conditions of the finishing mill 40 for the trailing material 12 are determined. Calculate. Thereafter, as in the case of the batch rolling, the operating conditions of the finish rolling mill 40 are determined so that the finish rolling is carried out under the finishing rolling conditions sent from the host computer 70.

The overall procedure described above is shown in FIG. 6. In the present invention, the predetermined sheet bar thickness is compared for each rolled material, and the sheet bar thickness is unified to the minimum among them.

In the block indicated by reference numeral 130 in FIG. 6, the sheet bar thickness is determined in advance for each material to be rolled. An example of the determination method is shown in FIG. The sheet bar thickness is retrieved from the setting table previously stored and registered in the host computer 70 by using steel grade, specification, rolling dimension, command thickness after hot rolling, command width after hot rolling, and the like as the main elements for each slab. As shown in FIG. 7, it is preferable to register the sheet bar thickness for both endless rolling and batch rolling.

The setting value of the seat bar thickness is entered in advance in the table. In order to secure mechanical strength such as strength and elongation of the product after rolling, it is necessary to (1) reduce energy loss due to heat dissipation and (2) maintain a high finish rolling temperature. For this purpose, the thickness of the seat bar is preferably thicker. However, when the plate thickness after finishing rolling is thin, since the load of the finishing mill is reduced, the sheet bar thickness is preferably thinner. The sheet bar thickness is determined in consideration of these conflicting conditions. In that case, the sheet bar thickness may be determined only for batch rolling, or may be determined for both batch rolling and endless rolling.

At present, the number of endless rolling target materials is n, and the sheet bar thickness is t1, t2,... It is assumed that it is determined by tn. A plurality of endless rolling material groups are called endless units. In the present invention, t1, t2,... Compare tn and set the sheet bar thickness settings for all rolled material in this endless unit.

Min (t1, t2,… tn)

Rewrite Min () is a function that represents the minimum value among multiple variables in parentheses. When the sheet bar thickness is determined only for batch rolling, Min (t1, t2, ... tn) may be determined for these. When the determination is made for both batch rolling and endless rolling, Min (t1, t2, ... tn) may be determined for the endless rolling.

In this way, the predetermined sheet bar thickness is compared for each rolling target material, and the sheet bar thickness is determined by unifying the minimum among them.

Example

As an example, Table 1 shows a specific example in which the sheet bar thickness for endless rolling operation is actually determined for the case where the sheet bar thickness is determined only for batch rolling. Table 1 has shown the example which rolled the sheet | seat object No. 1-6 of six identical steel grades (low carbon steel) at the inlet side of a finishing mill, and continuously finished rolling. In conventional batch rolling, the sheet bar thickness is set for each rolling target material. At the time of endless rolling, it unified to 30 mm which is the thinnest (fourth in table) thickness.

Rolling order Finish thickness after rolling (mm) Finish Roll Back Width (mm) Seat bar thickness by batch rolling (mm) Seat Bar Thickness by Endless Rolling (mm) One 1.6 1219 35 30 2 1.8 1200 37 30 3 1.4 1188 32 30 4 1.2 1205 30 30 5 1.4 1188 32 30 6 1.6 1100 35 30

According to the present invention, the thickness of the sheet bar of the rolled material to be subjected to the endless rolling operation is unified within the unit. Conventionally, the trailing seat bar may be thicker than the preceding seat bar, which causes a problem that the joint is broken by applying a force from the finish rolling roll to the stepped portion of the seat bar joint. In addition, conventionally, the following seat bars may be thinner than the preceding seat bars, and the press plates may be bent or damaged when the stepped portions are clamped by the pressure plates. However, according to the present invention, as shown in Figs. 3A and 3B, smooth joining and finish rolling are possible.

Claims (1)

In the method of hot rolling according to the rolling conditions determined for each rolling target material in advance on the basis of the rolling target material information such as the type, specification, dimensions, product thickness, product width, etc. of the rolling target material, the rolling target material is the preceding sheet bar end and trailing. In case of rolling target material which is to perform endless finish rolling by joining seat bar ends, In the endless unit in which the rolling target material from the leading material of the endless rolling to the final material is arranged in rolling order, the predetermined sheet bar thickness is compared for each rolling object, By unifying the sheetbar thickness to the minimum of these, Hot rolling method characterized in that the finish endless rolling.