JP2012111002A - Method and device for scrapping steel cut piece - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method and a device for scrapping steel cut pieces, capable of scrapping steel cut pieces within a relatively short time even when a shape failure part is present widely at the end of a steel.SOLUTION: The device for scrapping a steel cut piece 16 generated when the end of a steel strip 12 is cut by a shear 14 includes a cut piece discharge shoot 17 for discharging the steel cut piece 16, a cut piece conveyor 19 for conveying the steel cut piece 16 slid down on the cut piece discharge shoot 17 to a scrap processing device, and a shoot height adjusting mechanism 23 for adjusting the height of the cut piece discharge shoot 17. By using the scrapping device, the height of the cut piece discharge shoot 17 is adjusted by the shoot height adjusting mechanism 23 according to the length of the steel cut piece 16, and then the steel cut piece 16 is scrapped.

Description

  The present invention relates to a steel strip cutting piece scrap processing method used when manufacturing, for example, a cold-rolled steel sheet and the like, and a steel strip cutting piece scrap processing apparatus used in the method.

  Generally, when the steel strip after cold rolling is annealed in a continuous line, as shown in FIG. 9, it is paid out from the rear end portion of the steel strip 12 (preceding material) paid out from the payoff reel 11a and the payoff reel 11b. After connecting the leading end of the steel strip 12 (following material) with a steel strip connector 13 such as a welding machine, the plate is passed through a continuous line. And when connecting the edge part of the steel strip 12, in order to remove the shape defect part of a steel strip end part, the edge part of the steel strip 12 is moved by the shear 14 arrange | positioned at the entrance side of the steel strip connection machine 13. After cutting, the end portions are connected to each other, and the steel strip to which the end portions are connected is sent to a continuous annealing furnace (not shown) through a steel strip storage facility such as a looper.

  In such a steel strip continuous processing line, a steel strip is generated when the end of the steel strip is cut, and the steel strip is continuously processed when the steel strip is retained in the vicinity of the shear. May not be possible. Therefore, Patent Document 1 discloses a roller conveyor that receives a steel strip cutting piece from a pass line switching table and conveys it diagonally downward, an end plate receiving chute that is tiltably provided on the tip side of the roller conveyor, and this end. There is disclosed a method of scrap-treating steel strip cut pieces using an end plate processing apparatus including a scrap receiving box that receives steel strip cut pieces falling from a plate receiving chute.

Japanese Utility Model Publication No. 61-195918

  According to the method disclosed in Patent Document 1, it is possible to prevent the steel strip piece from staying in the vicinity of the shear. However, when the cutting length of the end portion of the steel strip cut by the shear is long, the steel strip cutting piece may be caught in the scrap receiving box. For this reason, when cutting the end portion of the steel strip with a shear, it is necessary to cut the end portion of the steel strip to such a length that the steel piece is not caught on the scrap receiving box. Furthermore, when steel strip cut pieces are once placed on a conveyor for transport to a scrap processing facility, if the steel strip cut pieces are long, they will not fit in the conveyor when dropped on the conveyor, and subsequent transport processing will be delayed, resulting in productivity. Will fall. In particular, when the steel strip to be processed is a steel strip after being annealed in a bell-type box annealing furnace, there is a wide range of shape defects at the end of the steel strip. There has been a problem that the number of times of cutting of the part has increased, and along with this, the scrap processing time of the steel strip cut pieces also takes a long time.

  The present invention has been made in view of the above-described problems, and its purpose is to scrap the steel strip in a relatively short time even when there is a wide range of defective parts at the end of the steel strip. It is an object of the present invention to provide a steel strip cutting piece scrap processing method and a steel strip cutting piece scrap processing apparatus that can be used.

  In order to solve the above-mentioned problem, the present invention according to claim 1 is the case where the end of the steel strip is cut by a shear disposed on the entry side of the steel strip connecting machine that connects the ends of the steel strip. A scrap processing method for scraping a steel strip cut piece generated as a scrap processing apparatus for scrap processing the steel strip cut piece, a cutting piece discharge chute for discharging the steel strip cutting piece obliquely downward, and the cutting piece discharge Using a scrap processing apparatus provided with a cut piece transporting conveyor for transporting a cut piece of steel strip sliding down on a chute to a scrap processing facility, and a chute height adjusting mechanism for adjusting the height of the cut piece discharge chute The steel strip cut piece is scrapped after the height of the cut piece discharge chute is adjusted by the chute height adjusting mechanism according to the length of the steel strip cut piece.

  The present invention according to claim 2 further includes a chute angle adjusting mechanism that adjusts an inclination angle of the cut piece discharge chute as the scrap processing apparatus in the scrap processing method for steel strip cut pieces according to claim 1. A scrap processing device is used to scrape the steel strip piece after adjusting the inclination angle of the cut piece discharge chute according to the amount of warp of the steel strip piece by the chute angle adjusting mechanism. .

  The present invention according to claim 3 is the scrap processing method for steel strip cut pieces according to claim 1 or 2, wherein the tip of the steel strip cut pieces dropped on the cut piece discharge chute is for conveying the cut pieces. The height of the cut piece discharge chute is adjusted by the chute height adjusting mechanism so that the rear end portion of the cut piece of steel strip is separated from the cut piece discharge chute before dropping onto the conveyor. To do.

According to a fourth aspect of the present invention, in the scrap processing method of the steel strip cut piece according to claim 2 or 3, the steel strip cut piece sliding down from the cut piece discharge chute onto the cut piece conveying conveyor is provided. The inclination angle of the cut piece discharge chute is adjusted by the chute angle adjusting mechanism so as not to rotate in the width direction of the cut piece conveying conveyor.
The present invention according to claim 5 is a method for scrapping steel strip cut pieces generated when the end of the steel strip is cut by a shear disposed on the entry side of a steel strip connecting machine that connects the ends of the steel strip. An apparatus for processing, for cutting piece conveyance for conveying a cut piece discharge chute for discharging the cut piece of steel strip obliquely downward, and a cut piece of steel strip sliding down on the cut piece discharge chute to a scrap processing facility A conveyor and a chute height adjusting mechanism for adjusting the height of the cut piece discharge chute are provided.

  The present invention according to claim 6 is the steel strip cut piece scrap processing apparatus according to claim 5, further comprising a chute angle adjusting mechanism for adjusting an inclination angle of the cut piece discharge chute.

  According to the first, third, and fifth aspects of the invention, the steel strip cut pieces that have fallen on the cut piece transporting conveyor are transported in an inclined state with respect to the transport direction of the cut piece transporting conveyor. In order to prevent this, the length of the steel strip cutting piece is shortened, and it is not necessary to divide the end of the steel strip into a plurality of times. Therefore, when the end of the steel strip is cut, a large number of steel strip cut pieces are not generated, so even if there are a wide variety of defective parts at the end of the steel strip, the steel strip cut pieces are compared. It can be scrapped in a short time.

  According to the inventions according to claims 2, 4 and 6, even if the steel strip cut piece is a rear end portion of the steel strip having a large amount of warping, it does not fall from the side end portion of the cut piece conveying conveyor. The steel strip can be reliably conveyed to the scrap processing facility.

It is a figure which shows an example of the scrap processing apparatus used when enforcing the scrap processing method of the steel strip cutting piece which concerns on this invention. It is a top view which shows the cut piece discharge chute of the scrap processing apparatus used when enforcing the scrap processing method of the steel strip cut piece which concerns on this invention. It is a figure which shows the termination | terminus part of the conveyor for cut piece conveyance of the scrap processing apparatus used when implementing the scrap processing method of the steel strip cut piece which concerns on this invention. It is a figure which shows a part of scrap processing apparatus used when implementing the scrap processing method of the steel strip cut piece which concerns on this invention. It is a figure which shows the state which adjusted the height of the cutting piece discharge chute by the chute height adjustment mechanism. It is a figure which shows the state which adjusted the inclination angle of the cutting piece discharge chute by the chute angle adjustment mechanism. It is a figure for demonstrating the effect at the time of adjusting the height of a cutting piece discharge chute according to the length of a steel strip cutting piece. It is a figure for demonstrating the effect at the time of adjusting the inclination-angle of a cutting piece discharge chute according to the curvature amount of a steel strip cutting piece. It is a figure which shows the shear arrange | positioned at the steel strip connection machine which connects the edge parts of the steel strip paid out from the payoff reel, and the entrance side.

Hereinafter, with reference to FIGS. 1-8, the scrap processing method of the steel strip cut piece which concerns on this invention is demonstrated. The same parts as those shown in FIG. 9 are denoted by the same reference numerals, and detailed description thereof will be omitted.
The scrap processing method of the steel strip cutting piece according to the present invention is a method of scrap processing the steel strip cutting piece 16 using, for example, the scrap processing device 15 shown in FIG. 1, and the scrap processing device 15 shown in FIG. A cut piece discharge chute 17, a cut piece conveying conveyor 19, a chute height adjusting mechanism 23, and a chute angle adjusting mechanism 28 are provided.

The cut piece discharge chute 17 discharges the steel strip cut piece 16 obliquely downward, and is disposed at a position below the shear 14 with the upper surface portion inclined. Therefore, the steel strip cutting piece 16 generated in the shear 14 falls on the cutting piece discharge chute 17 and slides on the cutting piece discharge chute 17 to be discharged obliquely downward.
The cut piece discharge chute 17 has a pair of left and right pivots 18 a and 18 b (see FIG. 2) protruding in the horizontal direction, and these pivots 18 a and 18 b are provided at the upper end of the cut piece discharge chute 17.
The cut piece conveying conveyor 19 conveys the steel strip cut pieces 16 discharged obliquely downward by the cut piece discharge chute 17 to a scrap processing facility. As shown in FIG. 3, a conveyor chute 20 for introducing the steel strip cutting piece 16 is provided in the cutting piece receiving bag 21 mounted on the scrap carriage 22.

  The chute height adjusting mechanism 23 adjusts the height of the cut piece discharge chute 17, and supports the upper end portion of the cut piece discharge chute 17 so as to be rotatable around a horizontal axis via pivots 18a and 18b, for example. A pair of left and right support plates 24a and 24b (see FIG. 2), a support base 25 that supports these support plates 24a and 24b on both sides of the cut piece discharge chute 17, and a cut piece discharge chute via the support base 25. And a hydraulic jack 26 that drives the hoist 17 up and down.

  The chute angle adjusting mechanism 28 adjusts the inclination angle of the cut piece discharge chute 17. For example, the hydraulic jack 29 protrudes from the support base 25 of the chute height adjustment mechanism 23 toward the lower surface portion of the cut piece discharge chute 17. A bar-like link member 30 disposed horizontally between the tip of the hydraulic jack 29 and the lower surface of the cut piece discharge chute 17; and the lower surface of the cut piece discharge chute 17 at the front end of the link member 30 And a connecting pin 31 (see FIG. 4) that is rotatably connected to the motor. The chute angle adjusting mechanism 28 has a connecting pin 32 (see FIG. 4) for rotatably connecting the rear end portion of the link member 30 to the front end portion of the hydraulic jack 29, and the piston rod of the hydraulic jack 29 is expanded and contracted. By doing so, the inclination angle of the cut piece discharge chute 17 changes.

  A pair of upper and lower pinch rolls 34a and 34b are arranged on the entrance side of the shear 14, and the steel strip 12 paid out from the payoff reel is fed into the shear 14 by the pinch rolls 34a and 34b. A gate 35 is provided between the steel strip connecting machine 13 and the shear 14, and the gate 35 is raised when the end of the steel strip 12 is cut by the shear 14.

Next, the method in the case of scrap-processing the steel strip cutting piece 16 using such a scrap processing apparatus will be described with reference to FIGS.
When scrapping the steel strip cut piece 16 using the scrap processing device 15 described above, first, the hydraulic jack 26 of the chute height adjusting mechanism 23 is operated to adjust the height of the cut piece discharge chute 17 to the chute height. Adjustment is performed by the mechanism 23. Specifically, as shown in FIG. 5, the rear end portion of the steel strip cut piece 16 is separated from the cut piece discharge chute 17 before the front end portion of the steel strip cut piece 16 falls on the cut piece transporting conveyor 19. The height of the cut piece discharge chute 17 is adjusted according to the length of the steel strip cut piece 16 (the cut length of the end portion of the steel strip cut by the shear 14) so as to leave.

  If the height of the cut piece discharge chute 17 has been adjusted according to the length of the steel strip cut piece 16, the hydraulic jack 29 of the chute angle adjusting mechanism 28 is then operated, and the inclination angle of the cut piece discharge chute 17 is adjusted. Adjustment is performed by the chute angle adjusting mechanism 28. Specifically, as shown in FIG. 6, the cutting piece discharge chute 17 is arranged so that the steel strip cutting piece 16 dropped on the cutting piece transporting conveyor 19 does not rotate in the width direction of the cutting piece transporting conveyor 19. The inclination angle is adjusted according to the warp amount (bending amount) of the steel strip cutting piece 16.

  When the height and the inclination angle of the cut piece discharge chute 17 are adjusted in this way, the end portion of the steel strip 12 paid out from the payoff reel 11a or 11b (see FIG. 9) is pushed by the shear 14 by a predetermined length. Disconnect. At this time, the end of the steel strip 12 cut by the shear 14 becomes a steel strip cut piece 16 and falls onto the cut piece discharge chute 17 and slides down on the cut piece discharge chute 17. Then, the steel strip cutting piece 16 slid down on the cutting piece discharge chute 17 falls on the cutting piece transporting conveyor 19 and is transported to the scrap processing facility by the cutting piece transporting conveyor 19.

  Here, when the height of the cut piece discharge chute 17 is not adjusted according to the length of the steel strip cut piece 16, the movement of the cut piece transporting conveyor 19 causes the steel strip cut piece 16 to move as shown in FIG. When the tip portion rotates on the cut piece transporting conveyor 19, the steel strip cutting piece 16 may be transported in an inclined state with respect to the transport direction of the cut piece transporting conveyor 19. And if the steel strip cutting piece 16 is conveyed in such a state, the corner | angular part of the steel strip cutting piece 16 will bump into the conveyor chute 20, and will not be able to fall normally into the cutting piece accommodation back | bag 21. Since there is a possibility, when the height of the cut piece discharge chute 17 is not adjusted, the end of the steel band cut by the shear 14 in order to prevent the corner of the cut piece 16 from sticking to the conveyor chute 20. It is necessary to make the cutting length of the portion as short as possible and to cut the end portion of the steel strip 12 in a plurality of times.

  When the inclination angle of the cut piece discharge chute 17 is not adjusted according to the amount of warp of the cut steel piece 16, the cut steel piece 16 dropped on the cut piece transporting conveyor 19 as shown in FIG. May rotate in the width direction of the cut piece conveying conveyor 19 and fall from the side end of the cut piece conveying conveyor 19 before being conveyed to the scrap processing facility. In particular, when the steel strip cutting piece 16 is the rear end portion of the steel strip 12, the amount of warpage is larger than that of the front end portion of the steel strip 12, so that the steel strip cutting piece 16 easily falls from the side end portion of the cut piece transporting conveyor 19.

  On the other hand, as in the above-described embodiment, the rear end portion of the steel strip cut piece 16 is cut into the cut piece discharge chute 17 before the front end portion of the steel strip cut piece 16 falls on the cut piece conveying conveyor 19. When the height of the cut piece discharge chute 17 is adjusted according to the length of the steel strip cut piece 16 by the chute height adjusting mechanism 23 so as to be separated from the cut piece, the cut piece discharge chute 17 is placed on the cut piece conveying conveyor 19. It is possible to prevent the steel strip cut piece 16 that has been dropped from being conveyed obliquely with respect to the transport direction of the cut piece transporting conveyor 19, and the corners of the steel strip cutting piece 16 are connected to the conveyor chute 20. There is no need to shorten the end length of the steel strip cut by the shear 14 in order to prevent it from sticking. Therefore, it is not necessary to divide the end of the steel strip 12 into a plurality of times, and when the end of the steel strip 12 is cut, a large number of steel strip cut pieces 16 are not generated. Even when the shape defect portion exists in a wide range at the end, the steel strip cutting piece 16 can be scrapped in a relatively short time.

  Further, as in the present embodiment described above, the steel strip cutting piece 16 dropped on the cutting piece transporting conveyor 19 is cut by the chute angle adjusting mechanism 28 so as not to rotate in the width direction of the cutting piece transfer conveyor 19. When the inclination angle of the piece discharge chute 17 is adjusted according to the amount of warp of the steel strip cutting piece 16, even if the steel strip cutting piece 16 is the rear end portion of the steel strip 12, Since it does not fall, the steel strip cutting piece 16 can be reliably conveyed to the scrap processing facility.

  In this embodiment mentioned above, after adjusting the height of the cutting piece discharge chute 17 according to the length of the steel strip cutting piece 16, the inclination angle of the cutting piece discharge chute 17 is set according to the warp amount of the steel strip cutting piece 16. However, after adjusting the inclination angle of the cut piece discharge chute 17 according to the warp amount of the steel strip cut piece 16, the height of the cut piece discharge chute 17 is adjusted according to the length of the steel strip cut piece 16. May be.

DESCRIPTION OF SYMBOLS 11a, 11b ... Pay-off reel 12 ... Steel strip 13 ... Steel strip connection machine 14 ... Shear 15 ... Scrap processing device 16 ... Steel strip cutting piece 17 ... Cutting piece discharge chute 19 ... Conveyor for cutting piece conveyance 20 ... Conveyor chute 21 ... Cutting Single accommodation bag 22 ... Scrap cart 23 ... Chute height adjustment mechanism 28 ... Chute angle adjustment mechanism

Claims (6)

It is a method of scrap processing a steel strip cutting piece generated when cutting the end of the steel strip by a shear arranged on the entry side of a steel strip connecting machine that connects the ends of the steel strip,
As a scrap processing apparatus for scrap processing the steel strip cut pieces, a scrap processing facility for cutting the steel strip cut chute to discharge the steel strip cut pieces obliquely downward, and the steel strip cut pieces sliding down on the cut piece discharge chute A scrap processing device including a conveyor for transporting the cut pieces to be transported and a chute height adjusting mechanism for adjusting the height of the cut discharge chute, and the height of the cut discharge chute by the chute height adjusting mechanism. The steel strip cut piece is scrap-treated after adjusting the length according to the length of the steel strip cut piece.   The scrap processing method for steel strip cut pieces according to claim 1, wherein the scrap processing device is a scrap processing device further comprising a chute angle adjusting mechanism that adjusts an inclination angle of the cut piece discharge chute, and the chute angle. A steel strip cut piece scrap processing method, comprising: adjusting an inclination angle of the cut piece discharge chute according to an amount of warpage of the steel strip cut piece by an adjusting mechanism;   In the scrap processing method of the steel strip cutting piece of Claim 1 or 2, before the front-end | tip part of the said steel strip cutting piece falls on the said cut piece conveyance conveyor, the rear end part of the said steel strip cutting piece is A steel strip cut piece scrap processing method, wherein the height of the cut piece discharge chute is adjusted according to the length of the steel strip cut piece so as to be separated from the cut piece discharge chute.   In the scrap processing method of the steel strip cutting piece according to claim 2 or 3, the steel strip cutting piece dropped on the cutting piece transporting conveyor is not rotated in the width direction of the cutting strip transporting conveyor. A steel strip cut piece scrap processing method, wherein an inclination angle of the cut piece discharge chute is adjusted according to a warp amount of the steel strip cut piece. An apparatus for scrap-processing steel strip cut pieces generated when cutting the end of the steel strip by a shear arranged on the entrance side of a steel strip connecting machine that connects the ends of the steel strip,
A cut piece discharge chute for discharging the cut piece of steel strip obliquely downward, a cut piece conveying conveyor for transferring the cut piece of steel strip slid down on the cut piece discharge chute to a scrap processing facility, and the cut piece discharge A steel strip cutting piece scrap processing apparatus comprising: a chute height adjusting mechanism for adjusting a chute height.   The steel strip cutting piece scrap processing apparatus according to claim 5, further comprising a chute angle adjusting mechanism for adjusting an inclination angle of the cutting piece discharge chute.