KR100623884B1 - Scale blowing apparatus for leveller of rolling mill - Google Patents

Abstract

The present invention relates to a descaling device of a rolling line straightener.

According to the present invention, the upper and lower work rolls 10 and 12 are arranged in the frame 1, and the backup rolls 14 and 16 are disposed above and below the work rolls 10 and 12, respectively. A pair of hold down rolls 18 are disposed on both sides, and in the straightener of the rolling line in which the pressurizing cylinder is disposed above the main body 1, an air distribution pipe 26 for distributing generated by the air compressor 20 and In addition, there is provided a descaling device of a rolling line straightener, which is in communication with the air distribution pipe 26 and consists of a nozzle tube 30 extending between the adjacent work rolls 10 and between the adjacent lower work rolls 12. .

Rolling mill, straightener, scale, nozzle, air distribution pipe

Description

Scale blowing apparatus for leveler of rolling line {Scale blowing apparatus for leveller of rolling mill}

1 shows the principle of scale generation of a calibrator

2 and 3 are an enlarged front view and main portion of an embodiment of the present invention

4 is a schematic side cross-sectional view of the embodiment

5 is a piping system diagram of the nozzle mechanism;

Figure 6 is a nozzle tube configuration showing the arrangement direction of the nozzle

<Description of the symbols for the main parts of the drawings>

 1.Main body 10. Work roll

12. Work roll 14. Backup roll

16. Backup Roll 18. Hold Down Roll

20. Air compressor 26. Air distribution pipe

30. Nozzle tube 32. Nozzle

42. Dust cover 46. Dust collector

The present invention relates to a descaling device of a rolling line straightener, and more particularly, a descaling device of a rolling line straightener of a new structure that can effectively remove a scale generated during a straightening process of a rolled product to produce a high quality steel sheet. It is about.

The leveler of a rolling line is a facility for flatly correcting a thick plate obtained by passing through a rolling mill, and has a structure in which two rows of upper and lower work rolls are arranged in a main body, and a main cylinder is disposed in an upper frame of the main body. According to this configuration, the steel sheet, which is primarily rolled and has low flatness, is pressurized by the main cylinder while passing through a plurality of work rolls, thereby correcting and discharging the steel sheet.

Figure 1 shows the steel sheet (W) passing through the work roll (10, 12) of the calibrator, the steel sheet (W) that is attached to the oxide layer or foreign matter, or the non-uniform stress is applied to the work roll (10, 12) A large amount of scale is formed on the surface while being pressed into the work rolls 10 and 12 while being inserted into the steel sheet, and the steel sheet W exits the upper work roll 10 and is introduced into the adjacent lower work roll 12. When the reverse bending occurs, the scale generated on the surface of the steel sheet W is dropped from the steel sheet, remains on the surface of the steel sheet W, and is inserted into the next upper work roll 10. Since it is sandwiched between the work rolls 10 and pressurized, the surfaces of the rolls and the steel sheet W are pressed by the scales, causing scratches. .

The present invention has been proposed in view of the problems of the conventional rolling straightener as described above, the present invention is to effectively remove the scale generated in the steel sheet passing through the straightener to prevent damage to the roll and to improve the quality of the steel sheet It is an object of the present invention to provide a descaling device for a rolling line straightener having a structure.

In another aspect, the present invention is to provide a descaling device of a rolling line straightener of a new structure to effectively collect the scale removed from the straightener so as not to pollute the working environment.

In another aspect, the present invention is to provide a descaling device of a rolling line calibrator of a new structure that can be configured to compact the device by maximizing the removal efficiency of the scale while reducing interference with other device components.

According to the present invention, the upper and lower work rolls 10 and 12 are arranged in the frame 1, and the backup rolls 14 and 16 are arranged above and below the work rolls 10 and 12, and the upper part of the main body 1 is pressurized. In the straightener of the rolling line in which the cylinder is arranged, the air compressor 20, the air distribution pipe 26 for dispensing generated by the air compressor 20, and the air distribution pipe 26 communicate with each other. It consists of a nozzle tube 30 extending between adjacent work rolls 10 and between adjacent lower work rolls 12, and when the workpiece steel sheet W passes between the work rolls 10 and 12, Provided is a descaling device for a rolling line straightener, characterized in that the compressed air generated by the compressor 20 is sprayed onto the steel sheet (W) through the nozzle tube (30).

According to another feature of the present invention, the plurality of nozzles 32 arranged along the nozzle pipe 30 is a rolling line straightener, characterized in that arranged alternately inclined toward one longitudinal side of the work roll (10, 12). A descaling device is provided.

According to another feature of the invention, in the nozzle tube 30, the nozzles 32a and 32b provided at both ends of the traveling direction of the steel plate W are disposed to be inclined or curved toward the outside. A descaling device is provided.

According to another feature of the invention, the dust cover 42 is disposed on one side facing the plurality of nozzles 32 of the straightener, the dust cover 42 is characterized in that the dust collector 46 is in communication with the rolling line A descaling device of the calibrator is provided.

Hereinafter, with reference to the drawings will be described a preferred embodiment of the present invention. Figure 2 is a front view of an embodiment of the present invention, Figure 3 is an enlarged view of the main portion of the embodiment, Figure 4 is a side cross-sectional view of the embodiment, Figures 5 and 6 are the piping relationship and nozzle arrangement direction of the nozzle mechanism, respectively The configuration diagram of the nozzle tube showing the. As shown in the drawing, the main cylinder 4 is arranged on the upper part of the frame 1, and the work rolls 10 and 12 in the upper and lower two rows are arranged to be offset from each other in the center of the frame 1, and the work rolls 10 and 12 A plurality of backup rolls 14 and 16 are disposed on the upper and lower portions of the upper and lower portions, and hold down rolls 18 and 18 which hold the steel sheets W, which are to be processed, are disposed on the introduction and discharge sides of the work rolls 10 and 12, respectively. do. The main cylinder 4 of the upper part of the fryer 1 presses the work rolls 10 and 12 to process the steel plate W flat.

The nozzle pipe 30 extends along the length direction of the work rolls 10 and 12 between the work rolls 10 and 12, respectively. In the illustrated embodiment, four upper work rolls 10 and five lower work rolls 12 disposed therebetween are disposed, and hold down rolls 18 are provided on both the introduction side and the discharge side of both sides of the upper work roll 10, respectively. And 18) are disposed respectively. A total of five nozzle tubes 30 are disposed on the upper work roll 10 side between the work roll 10 and between the work roll 10 and the hold down roll 18. Four nozzle tubes 30 are disposed in the lower work roll 12 therebetween.

As shown in Fig. 4 and Fig. 5, a plurality of nozzles 32 are arranged in the nozzle tube 30 along the longitudinal direction, and the injection direction of the nozzles 32 are alternately inclined toward the same direction. As the nozzle 32 is disposed in one direction as described above, the scale generated in the calibration process of the steel sheet can be driven and blown in one direction. In addition, by arranging the nozzle 32 inclined alternately along the longitudinal direction of the work roll (10, 12), the length of the work roll while preventing the scale from being caught in the gap between the work roll (10, 12) and the steel sheet (W) The scale can be easily blown out along the direction. If the nozzle 32 blows air in parallel with the longitudinal direction of the work rolls 10 and 12, the scale sandwiched between the work rolls and the steel sheet is not effectively discharged, and the nozzles 32 are also connected to the work rolls 10 and 12. If air is blown in a direction perpendicular to the longitudinal direction of the scale), the scale is scattered in any direction before and after in the longitudinal direction of the work rolls 10 and 12, and is wrapped again without being discharged. Therefore, the effective scale cannot be removed. According to the experiment, it was found that the removal efficiency of the scale was the best when the inclination of the nozzle 32 was disposed to be inclined by about 30 ° with respect to the longitudinal direction of the work rolls 10 and 12.

Referring back to FIG. 5, an air compressor 20 and an air tank 22 are provided at one side of the calibrator, and the air distribution pipe 26 communicates with the air tank 22, and the air distribution pipe 26 is connected to the air compressor 22. The nozzle pipe 30 is connected, respectively. In addition, a plurality of nozzles 32 are disposed in the nozzle pipe 30, respectively. Among them, as shown in FIG. 3, the nozzles 32a and 32b disposed at both ends in the traveling direction of the steel plate W are curved outwardly along the progress. Accordingly, when the steel sheet W is introduced into the calibrator, the scale attached to the steel sheet W is blown outward. When the steel plate W is introduced, the nozzle 32b disposed at the discharge side end does not operate. When the steel plate W is introduced in the opposite direction, the nozzle 32b becomes a nozzle of the introduction end and is operated to be introduced. The scale on the steel plate W is blown out.

On the other hand, a dust cover 42 is disposed on one side of the frame 1 facing these nozzles 32 to block and collect the scattered scale 42, and the scale collected by the dust cover 42 is a cy. It is processed through a dust collector 46 such as a clone.

According to the present invention described above, the nozzle mechanism is disposed between the work roll (10, 12) scales generated by the oxide layer, foreign matter or stress deformation of the surface of the steel sheet while the steel sheet passed through the rolling mill in the rolling equipment passes through the straightener It can be blown out effectively by the scale, the scale is caught between the work rolls (10, 12) and the steel sheet (W) in the calibration step, the work rolls (10, 12) are damaged or scratches on the surface of the steel sheet (W) The quality can be prevented from deteriorating. In particular, by arranging the nozzle pipe 30 in the empty space between the work rolls 10 and 12, the apparatus can be compactly constructed while eliminating interference with other apparatuses.

Further, by arranging the nozzles 32 on the nozzle pipe 30 alternately inclined along the longitudinal direction of the work rolls 10 and 12, the scale generated between the steel plate W and the work rolls 10 and 12 can be effectively adjusted. Blowing in one direction can increase the removal efficiency of the scale. In addition, the nozzles 32a and 32b disposed at both ends of the steel sheet W in the traveling direction are formed to be bent or inclined outwardly to blow out the scale already accumulated on the steel sheet W introduced into the calibrator and to scale out first. Can be removed.

In addition, a dust cover 42 and a dust collector 46 which collect scales scattered on the spraying direction side of the nozzle 32 are trapped and removed so that the working environment can be kept clean.

Claims (4)

The upper and lower work rolls 10 and 12 are disposed in the frame 1, and the backup rolls 14 and 16 are disposed above and below the work rolls 10 and 12, and a pressurizing cylinder is disposed above the main body 1. In the straightener of a rolling line, the air compressor 20, the air distribution pipe 26 which distribute | distributed by this air compressor 20, and this air distribution pipe 26 communicate with and adjoin the said adjacent work roll 10 And a nozzle tube 30 extending between the lower work rolls 12 and adjacent lower work rolls 12, and are generated in the air compressor 20 when the workpiece steel sheet W passes between the work rolls 10 and 12. De-scaling device of the rolling line straightener, characterized in that for blowing the compressed air through the nozzle pipe (30) onto the steel sheet (W) The scale of the rolling line straightener of claim 1, wherein the plurality of nozzles 32 arranged along the nozzle tube 30 are alternately inclined toward one longitudinal direction of the work rolls 10 and 12. Removal device. The rolling line of claim 1 or 2, wherein the nozzles 32a and 32b provided at both ends of the nozzle tube 30 in the traveling direction of the steel plate W are inclined or curved toward the outside. Descaler of the calibrator. The dust cover 42 is disposed on one side of the plurality of nozzles 32 of the calibrator, and the dust cover 46 communicates with the dust cover 42. Descaling device of rolling line straightener.

Images