KR950001451Y1 - Device for removal of scale in hot strip - Google Patents

Abstract

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Description

Hot rolled steel sheet descaling device

1 is an overall configuration diagram of the present invention.

2 is a cross-sectional view taken along the line AA ′ of FIG. 1.

3 is a side view of the main part of FIG. 1 to show that the offset angle of the spray nozzle is zero.

4 is an explanatory view showing a state in which a scale removing apparatus according to the present invention removes a scale from a hot rolled steel sheet.

5 is a side view showing a state in which an offset angle is formed at 15 ° as a detail of a spray nozzle of a descaling apparatus according to the prior art.

6 is an explanatory diagram showing a state in which the scale removing apparatus according to the prior art removes the scale from the hot rolled steel sheet.

7 is a graph showing the impact pressure distribution of the high pressure water against the width of the hot rolled steel sheet when the scale is removed from the hot rolled steel sheet according to the present invention and the prior art.

8 is a graph showing the scale peeling rate with respect to the width of the hot rolled steel sheet when the scale is removed from the hot rolled steel sheet according to the present invention and the prior art.

* Explanation of symbols for main parts of the drawings

10: high pressure water header 15: spray nozzle

15a: injection hole 20: injection pattern

d: nozzle interval k: high pressure water spray angle

z: Offset Angle

The present invention relates to an apparatus for removing scales formed on a hot rolled steel sheet with high pressure water before rough rolling and finishing rolling in a hot rolling process of a steel mill. More specifically, the nozzles are arranged in two rows, and The present invention relates to a hot rolled steel sheet descaling apparatus using a header for spraying high pressure water, which has an offset angle of zero, and has an excellent scale removing capability.

The primary scale is attached to the surface of the reheated rolling material in the heating furnace of the hot rolling process, and the secondary scale is formed on the surface of the rolling material over time during the hot rolling process. When the hot rolled steel sheet with the scale is rolled, the scale is pressed into the hot rolled steel sheet surface to cause product surface defects. Therefore, descaling equipment is used in the inlet and outlet of the rough mill and the inlet of the finishing mill in order to produce products without scale defects in the integrated steel mill hot rolling process.

As a conventional method of operation of the til scale apparatus, 100-200 kgf / ㎠ high pressure water is sprayed on the surface of the hot rolled steel sheet to generate thermal stress between the scale and the hot rolled steel sheet structure using the quenching effect, thereby causing vertical cracks on the scale. To remove the scale by compressing the rolled material, removing the scale by spraying a shot on the surface of the hot-rolled sheet, and removing the scale, and a roll leveler. Japanese Patent Laid-Open Publication No. 57-36013 discloses a method for removing a scale by imparting a surface deformation of a hot rolled sheet using a ND machine.

However, the case of removing the scale by spraying high pressure water is the most widely used now, and the high pressure water collides uniformly over the entire width of the hot rolled sheet by overlapping the spray pattern by the nozzle at a predetermined interval. Although Japanese Patent Publication Nos. 52-142047, 62-47086, and Japanese Patent Application Laid-open No. Hei 1-278907 are proposed to obtain the pressure, the conventional technique is as shown in FIGS. 5 and 6, respectively. In order to prevent the interference of the injection pattern in the injection nozzle 110 of the nozzle 110 itself rotates a predetermined angle (approximately 15 degrees) in the clockwise direction because the elliptical injection hole (110a) for injecting high-pressure water is By setting an offset angle Z of 15 ° with respect to the high-pressure water header 120, the injection distance of both ends is changed in one injection pattern 130, so that the width-side collision pressure is unevenly generated, resulting in surface scale peeling rate deviation. With big There was a problem that occurred.

The present invention was devised to solve the conventional problems as described above. When the high pressure water injected from each injection nozzle collides with the hot-rolled steel sheet, the hot-rolled steel sheet is maintained on the surface of the hot-rolled steel sheet by maintaining a very uniform distribution of the impact pressure in the width direction. It is an object of the present invention to provide a hot-rolled steel sheet descaling device to obtain a uniform scale peeling efficiency.

In order to achieve the above object, the present invention is a device for improving the scale of a hot rolled steel sheet in a hot rolling process of a steel mill for manufacturing a hot rolled steel sheet, the distance between the tip of the spray nozzle and the surface of the hot rolled steel sheet, and high-pressure water injection angle The injection nozzle spacing determined by the proportional expression of 89-110 mm is formed, and the injection nozzles are mounted at an angle with respect to the vertical direction of the rolling direction, and the injection nozzles are arranged to cross each other in two rows on the high-pressure water header. On the other hand, each of the injection nozzles by providing a hot rolled steel sheet descaling device having a structure of the offset angle is set to zero (0).

Hereinafter, the present invention will be described in more detail with reference to the drawings.

Hot rolled steel sheet descaling apparatus 1 according to the present invention is arranged in a plurality of rows of injection nozzles 15 in the cylindrical high-pressure water header (10), respectively.

The spacing d between the spray nozzles 15 formed in each row is approximately 89-110 mm, which is the distance between the tip of the spray nozzle 15 and the surface of the hot rolled steel sheet H. It is determined according to the high-pressure water injection angle K. In addition, each of the injection nozzles 15 has elliptical injection holes 15a for injecting high-pressure water in parallel with the longitudinal center axis P of the high-pressure water header 10 (see FIG. 3). The set angle Z forms zero. And, the injection nozzle 15 is installed inclined to form a predetermined angle (S) (about 15 degrees) with respect to the vertical direction (V) of the surface of the hot-rolled steel sheet as shown in more detail in FIG. This does not directly affect the descaling efficiency but increases the surface impact pressure of the hot rolled steel sheet while suppressing the back scattered force in the rolling direction to prevent the peeled scale from scattering and re-entering in the finishing rolling process. .

When the scale is removed from the hot rolled steel sheet (H), the present invention configured as described above forms a zigzag-like adverb pattern (20) intersecting with the surface of the hot rolled steel sheet (H) as shown in FIG. Let's do it. At this time, the distance between the tip of the injection nozzle 15 and the surface of the hot-rolled steel sheet H is set to be the same, and the nozzle spacing d and the injection angle K are appropriately adjusted so that each injection pattern 20 is the same. Is maintained.

Hereinafter, the operation and effects of the present invention will be described in more detail.

FIG. 7 shows the impact obtained when the high pressure water header pressure is 190 kgf / cm 2 and the distance between the nozzle and the hot rolled plate is 25 (cm) using the conventional descale removal method and the descale removal device devised in the present invention. Comparison results of the pressure distribution. In the conventional method, the collision pressure distribution is measured by using a pipe-type nozzle using an impact pressure measuring sensor, and then the injection pattern is transferred in the hot rolling process to measure the overlap distance. The present invention was measured using a descaling device designed to be arranged in a zigzag with the spray angle K at 37 ° and the nozzle spacing d at 108 mm. In the case of the conventional method, the overlapping distance is changed at the time of high-pressure water injection, resulting in a very nonuniform collision pressure distribution.

However, in the case of the present invention, by overlapping the injection pattern, only the part where the collision pressure becomes low at the edge portion of the injection nozzle 15 showed a uniform collision pressure distribution with the central side. That is, the removal of the scale formed on the hot-rolled steel sheet (H) is dependent on the high-pressure water impact pressure hit against the hot-rolled steel sheet (H), so the case of the present invention is to remove the scale much more uniformly than conventional contact. 8 shows a comparison result between the present invention and the prior art with respect to the scale removal area fraction. The conventional method is not completely descaled at the site where the impact pressure is low, but in the case of the present invention, it is almost completely removed.

Therefore, according to the present invention, it is possible to obtain a uniform impact pressure distribution compared to the prior art to reduce the deviation of the scale peeling rate to obtain a very excellent scale removal effect.

Claims (1)

In the hot rolling process of a steel mill manufacturing hot-rolled steel sheet (H), in the apparatus for removing the scale formed on the surface of the hot-rolled steel sheet, between the tip of the injection nozzle 15 and the surface of the hot-rolled steel sheet (H) And the spacing d of the injection nozzle 15 determined by the proportional expression of the high pressure water injection angle K is 89-110 mm, and the injection nozzles 15 are respectively fixed with respect to the perpendicular to the rolling direction. Mounted inclined at an angle S, the spray nozzles 15 are arranged to cross each other in two rows on the high-pressure water header 10, while an offset angle Z of each of the spray nozzles 15 is zero (0). Hot rolled steel sheet removing device, characterized in that formed by).