CN113333464A - Method for reducing incidence rate of steel plate shearing buckling with thickness of more than 23mm - Google Patents

Abstract

The invention discloses a method for reducing the occurrence rate of steel plate shearing buckling with the thickness of more than 23mm, which relates to the technical field of steel production and comprises the following steps: s1, discharging the steel billet out of the furnace, rolling the steel billet by a roughing mill and a finishing mill, straightening by a pre-straightening machine, ultra-fast cooling, straightening by a finishing straightening machine, and then reaching a section shear to prepare for shearing and sectioning; s2, the segmentation shear operator clicks a forward or backward roller way button according to the size of the three-level steel plate issued by the MES system and the position of the on-site scale to convey the steel plate to a corresponding position; s3, pressing a shearing button to start shearing; s4, the upper blade drops the steel plate from the inner side to the outer side, when the upper blade drops for 1 second, the steel plate is not cut, the table roller way is swung after the cutting, and the first daughter board is conveyed to the cooling bed roller way after the steel plate is cut; s5, lifting the upper blade after the steel plate is sheared; and S6, opening the front shearing roller way, and then conveying the second daughter board steel plate to the cooling bed roller way. Effectively reduce the degree of lying prone down of steel sheet cutting, reduce the steel sheet and because the inside compression causes the shearing buckling at the shearing in-process.

Description

Method for reducing incidence rate of steel plate shearing buckling with thickness of more than 23mm

Technical Field

The invention relates to the technical field of steel production, in particular to a method for reducing the occurrence rate of steel plate shearing buckling with the thickness of more than 23 mm.

Background

At present, the curvature of a 2800 medium plate line steel plate is as high as 6%, wherein the shearing buckling incidence rate is about 1.82%, the buckling of the steel plate needs to be carried out by procedures of flattening, cold straightening and the like, the production cost is greatly increased, even the contract exchange rate is influenced, and the buckling problem of the steel plate becomes a big mountain transversely spanned in front of a medium plate factory. The phenomena of transverse pot shape of the head and the tail of the steel plate, longitudinal warping and buckling of the head and the tail, wave bending and the like of the steel plate are basically controlled in a middle plate factory through technical attack. At this stage, the shear buckling type steel plate already accounts for about 50% of the total amount of the buckling plate.

2800, the product line of the plate factory has complicated and variable specifications, including 6-60mm low alloy and part of high strength products, wherein the segmented shearing capacity is weaker, and only steel plates with the thickness of less than 40mm can be sheared, wherein the shearing buckling incidence rate is higher after the steel plates with the thickness of more than 23mm are sheared, and the production cost and the contract cashing rate are seriously influenced. Therefore, the problem of steel plate shear buckling needs to be solved.

Disclosure of Invention

Aiming at the technical problems, the invention overcomes the defects of the prior art and provides a method for reducing the occurrence rate of steel plate shearing buckling with the thickness of more than 23mm, which comprises the following steps:

s1, discharging the steel billet out of the furnace, rolling the steel billet by a roughing mill and a finishing mill, straightening by a pre-straightening machine, ultra-fast cooling, straightening by a finishing straightening machine, and then reaching a section shear to prepare for shearing and sectioning;

s2, the segmentation shear operator clicks a forward or backward roller way button according to the size of the three-level steel plate issued by the MES system and the position of the on-site scale to convey the steel plate to a corresponding position;

s3, pressing a shearing button to start shearing;

s4, the upper blade drops the steel plate from the inner side to the outer side, when the upper blade drops for 1 second, the steel plate is not cut, the table roller way is swung after the cutting, and the first daughter board is conveyed to the cooling bed roller way after the steel plate is cut;

s5, lifting the upper blade after the steel plate is sheared;

and S6, opening the front shearing roller way, and then conveying the second daughter board steel plate to the cooling bed roller way.

The technical scheme of the invention is further defined as follows:

the method for reducing the incidence rate of the steel plate shear buckling with the thickness of more than 23mm is suitable for the steel plate with the thickness of 23-40 mm.

According to the method for reducing the buckling incidence rate of the steel plate with the thickness of more than 23mm, a segmentation shear operator automatically adjusts the shearing mode according to the plate shape condition, and if a pot-shaped steel plate is met, a table roller way does not need to be swung after shearing.

In the method for reducing the incidence rate of the steel plate shearing buckling with the thickness of more than 23mm, the length of the steel plate mother plate needs to be more than 12 m.

In the method for reducing the steel plate shearing buckling incidence rate with the thickness of more than 23mm, the frequency of clicking the roller bed button is 1 time/second.

The method for reducing the occurrence rate of the steel plate shearing buckling with the thickness of more than 23mm comprises the steps of hoisting a steel billet to a plate stacking platform by a feeding travelling crane, then pushing the steel billet to a feeding roller way by an operator by pressing a steel pushing button, after the steel billet runs to a furnace tail designated position, the steel billet is pushed into the furnace tail by the pusher, the steel billet is heated to the designated process by the three stepping heating furnaces according to the temperature system given by the MES system, the steel is tapped from the furnace head, and is conveyed to the roughing mill by the roller way in front of the furnace, the roughing mill is responsible for cogging and width control, and then the intermediate blank is transmitted to a finishing mill, the finishing mill rolls the intermediate blank into a semi-finished product, then the semi-finished product is sent to ultra-fast cooling, an ultra-fast cooling operator cools the steel plate and sends the steel plate to a fine straightening machine to prepare straightening, the straightening machine straightens the steel plate, finally the steel plate is sent to a section shear to prepare shearing and section cutting, and after section cutting, the steel plate is sent to a cooling bed to be cooled, offline and warehoused.

The invention has the beneficial effects that:

(1) according to the invention, the swing platform is opened in advance, so that the two ends of the steel plate are subjected to tensile stress, the bending degree of the shearing opening of the steel plate is effectively reduced, the shearing buckling of the steel plate caused by the compression of the inner side in the shearing process is reduced, the problem of the shearing buckling of the steel plate with the thickness of more than 23mm is solved, and the shearing buckling incidence rate is reduced to be less than 0.8% from 1.82%. More importantly, the shearing method does not scratch the steel plate because the roller way is opened in advance, and the original production rhythm is not influenced;

(2) the implementation of the heating, steel rolling, cooling, segmenting and other processes in the invention all issue instructions through the MES system, and the implementation of the MES system realizes resource allocation and monitoring, operation planning and scheduling, production scheduling and optimization and the like, so that the production efficiency is improved, and the process waste is reduced.

Detailed Description

The method for reducing the occurrence rate of the steel plate shearing buckling of the steel plate with the thickness of more than 23mm is particularly suitable for the steel plate with the thickness of 23-40mm, the length of a mother plate of the steel plate needs to be more than 12m, a feeding travelling crane lifts a steel blank onto a stacking plate platform, an operator presses a steel pushing button to push the steel blank onto a feeding roller way, the steel blank runs to a furnace tail designated position, a steel pusher pushes the steel blank into a furnace tail, three stepping heating furnaces heat the steel blank to a designated process according to a temperature system issued by an MES system, a furnace head steel tapping worker taps the steel, the steel is conveyed to a roughing mill through a furnace front roller way, the roughing mill is responsible for cogging and width control, then an intermediate blank is conveyed to a finishing mill, the intermediate blank is rolled into a semi-finished product by the finishing mill, then the intermediate blank is conveyed to an ultra-fast cooling machine, the steel plate is cooled by the ultra-fast cooling worker and then conveyed to the finishing mill to prepare straightening, the straightening machine straightens the steel plate, and finally conveys the steel plate to a segmented shearing and segmenting, and after segmentation, sending the materials to a cooling bed for cooling, unloading and warehousing.

The segmentation shear comprises the following steps:

s1, discharging the steel billet out of the furnace, rolling the steel billet by a roughing mill and a finishing mill, straightening by a pre-straightening machine, ultra-fast cooling, straightening by a finishing straightening machine, and then reaching a section shear to prepare for shearing and sectioning;

s2, the segmentation shear operator inching the forward or backward roller way button according to the size of the three-level steel plate issued by the MES system and the position of the on-site scale, wherein the inching frequency is 1 time/second, and conveying the steel plate to a corresponding position;

s3, pressing a shearing button to start shearing;

s4, the upper blade drops the steel plate from the inner side to the outer side, when the upper blade drops for 1 second, the steel plate is not cut, the table roller way is swung after the cutting, and the first daughter board is conveyed to the cooling bed roller way after the steel plate is cut;

s5, lifting the upper blade after the steel plate is sheared;

and S6, opening the front shearing roller way, and then conveying the second daughter board steel plate to the cooling bed roller way.

The segmentation shear operator automatically adjusts the shearing mode according to the plate shape condition, and if a pot-shaped steel plate is met, the table roller way does not need to be swung after the shear is started.

Because the inside steel sheet is pressed to the preference in last blade shearing process, when the blade was cut to the outside, the inside position still is being stressed, produces the mouth of cut phenomenon of bending over easily, greatly increased the problem of buckling incidence. The unevenness of the ordinary steel plate is required to be 8mm/2m, the cut is about lying about 8-10mm in the original cutting mode, and the judgment is unqualified. After the method is used, the degree of lying prone is reduced, the unevenness is about 3mm/2m, and the qualified standard is reached.

200 ten thousand tons of rolled steel plates per year in the factory, about 80 ten thousand tons of rolled steel plates with the diameter of more than 23mm per year, the cost of cold straightening and flattening for steel plate buckling is 180 yuan per ton, the incidence rate of shearing buckling is reduced from 1.82 percent to 0.68 percent at the present stage, and therefore, the annual cold straightening and flattening saving cost is saved by 800000 x (1.82 to 0.68 percent) multiplied by 180=164 ten thousand yuan.

In addition to the above embodiments, the present invention may have other embodiments. All technical solutions formed by adopting equivalent substitutions or equivalent transformations fall within the protection scope of the claims of the present invention.

Claims (6)

1. A method for reducing the occurrence rate of steel plate shearing buckling with the thickness of more than 23mm is characterized by comprising the following steps: the method comprises the following steps:

s1, discharging the steel billet out of the furnace, rolling the steel billet by a roughing mill and a finishing mill, straightening by a pre-straightening machine, ultra-fast cooling, straightening by a finishing straightening machine, and then reaching a section shear to prepare for shearing and sectioning;

s2, the segmentation shear operator clicks a forward or backward roller way button according to the size of the three-level steel plate issued by the MES system and the position of the on-site scale to convey the steel plate to a corresponding position;

s3, pressing a shearing button to start shearing;

s4, the upper blade drops the steel plate from the inner side to the outer side, when the upper blade drops for 1 second, the steel plate is not cut, the table roller way is swung after the cutting, and the first daughter board is conveyed to the cooling bed roller way after the steel plate is cut;

s5, lifting the upper blade after the steel plate is sheared;

and S6, opening the front shearing roller way, and then conveying the second daughter board steel plate to the cooling bed roller way.

2. The method for reducing the incidence of shear buckling of a steel plate with a thickness of 23mm or more as claimed in claim 1, wherein: is suitable for steel plates with the thickness of 23-40 mm.

3. The method for reducing the incidence of shear buckling of a steel plate with a thickness of 23mm or more as claimed in claim 1, wherein: the segmentation shear operator automatically adjusts the shearing mode according to the plate shape condition, and if a pot-shaped steel plate is met, the table roller way does not need to be swung after the shear is started.

4. The method for reducing the incidence of shear buckling of a steel plate with a thickness of 23mm or more as claimed in claim 1, wherein: the length of the steel plate mother plate needs to be more than 12 m.

5. The method for reducing the incidence of shear buckling of a steel plate with a thickness of 23mm or more as claimed in claim 1, wherein: the frequency of clicking the roller bed button is 1 time/second.

6. The method for reducing the incidence of shear buckling of a steel plate with a thickness of 23mm or more as claimed in claim 1, wherein: a loading traveling crane lifts a steel billet to a stacking plate platform, then an operator presses a steel pushing button to push the steel billet to a loading roller way, the steel billet runs to a furnace tail designated position, a steel pusher pushes the steel billet into the furnace tail, three stepping heating furnaces heat the steel billet to a designated process according to a temperature system issued by an MES system, the steel is discharged from a furnace end steel tapping operator, the steel billet is conveyed to a roughing mill through a furnace front roller way, the roughing mill is responsible for cogging and width control, then an intermediate billet is conveyed to a finishing mill, the finishing mill rolls the intermediate billet into a semi-finished product, then the semi-finished product is conveyed to ultra-fast cooling, the ultra-fast cooling operator cools the steel plate and then conveys the steel plate to a fine straightening machine for straightening, the steel plate is finally conveyed to a section shear for section shearing, and the steel plate is conveyed to a cooling bed for cooling, unloading and warehousing after the section.