CN109596049A - A kind of hot steel plate end Shearing Optimization method after rolling - Google Patents

Abstract

The present invention relates to a kind of steel plate end hot after rolling Shearing Optimization method, the method uses high definition area array cameras, triggers shooting steel plate head and tail portion picture using grating signal, carries out edge extracting with picture Processing Algorithm.By the measurement of length to the steel plate both ends region in irregular shape in movement, end irregular shape and optimizing shear position are finally determined according to marginal point, width centreline, strip ontology and scanning line width.Measuring system hardware configuration of the present invention is simple, and calculation method is efficiently accurate, can fast and accurately calculate the optimization length of cutting head, back-end crop.

Description

A kind of hot steel plate end Shearing Optimization method after rolling

Technical field

The present invention relates to metallurgical automation production and detection fields, and in particular to hot steel plate end shearing after a kind of rolling Optimization method.

Background technique

In the Plate Production technique of steel industry, after hot rolled strip steel rolling, steel plate is generated due to roll pressure Unevenly, the head, tail portion of steel plate will appear fishtail, ligulate, super-wide shape, other asymmetric shape defects such as shape or lateral bending, The steel plate end of these irregular shapes seriously affects final product quality.To solve the above problems, having to the strip after rolling Head, tail portion carry out shear treatment.

In the prior art, shear line is the important procedure that production meets dimensions steel plate, due to the complexity of its technique It is limited with capacity of equipment, the production capacity of shear line usually becomes the bottleneck that whole steel plate production line production capacity is promoted.Steel plate shearing There is cutting head to cut on line, three key equipments such as bilateral scissors and fixed size scissors, cutting head, which is cut, is cut to crosscutting equipment with scale, bilateral to be cut to indulge Cut equipment.Wherein, cutting head cut be responsible for excision rolling wrench, tail irregular shape and rolled plate be segmented slightly cut.Mesh It is all to be sheared with the shear line set in advance to band steel toe, tail that the cutting head of preceding most domestic production line, which is cut, shear line Too long to be easy to cause the wasting of resources, shear line is too short and product quality requirement is not achieved.

Summary of the invention

In view of the problems of the existing technology, the present invention provides a kind of hot steel plate end Shearing Optimization method after rolling. This method may be implemented to carry out real-time measurement to the steel plate end Different Rule shape area length in movement, accurately calculates and cuts The cutting line position of head, back-end crop；

Hot steel plate end Shearing Optimization method after a kind of rolling provided by the invention, the system packet measured using this method Include: 2 grating sensors, 1 high definition area array cameras, 1 set of high intense light source and control system, high definition camera side dispose two light Gate sensor, camera shoot the whole region between field range 2 grating sensors of covering, high intense light source covering camera shooting Field range；

This method step include: step 1 to steel plate head irregular area along rolling direction maximum length it is online precisely Measurement；Step 2 accurately measuring online along rolling direction maximum length to steel plate tail irregular area:

Step 1 accurately measures steel plate head irregular area along rolling direction maximum length, comprising:

Step 1.1: installation measuring system guarantees that high definition area array cameras shooting field range covers No. 1, No. 2 grating sensings Region between device, high intense light source covering camera shoot field range；It is installed the rear inside and outside ginseng of calibration for cameras shooting area Number；

Step 1.2: after calibration for cameras, control system calculates the actual range σ of single pixel, foundation according to calibration numerical value Picture measured zone (ROI) is shot in calibrated camera shooting area parameter setting control system, which includes tested steel Plate whole end features；

Step 1.3: being travelled forward after steel plate completes cooling with speed v, after triggering No. 1 grating sensor, make No. 1 grating Sensor becomes 1 signal from 0 signal, and high definition area array cameras is opened, into state to be clapped, when steel plate triggers No. 2 grating sensors Afterwards, high definition area array cameras shoots picture, passback shooting picture to control system；

Step 1.4: control system carries out distortion correction to shooting picture, extracts the characteristic area wheel of shooting picture light plate Exterior feature, the i.e. outer shape of steel plate generate scan line close to steel plate tail side in the ROI region of shooting picture, perpendicular to water Horizontal line starts scan by column for the first time to shooting picture, and sweep spacing is a pixel, and scanning pertains only to ROI for the first time Caudal one third region is leaned in region；

Step 1.5: each column, i.e. m column, scan line and steel plate characteristic area profile can generate two intersection points, control system The pixel coordinate of record intersection point calculates the midpoint (R of two intersection points_m,C_m) and record；

Step 1.6: after scanned for the first time, the midpoint coordinates being calculated being fitted to straight line, straight line is opposite In the angle that horizontal inclination angle theta is steel plate length direction center line and roller-way center line thus, i.e. steel plate and horizontal direction Inclination angle；

Step 1.7: affine transformation being carried out to shooting picture using inclination angle theta, picture after being corrected makes steel plate length center Line direction is vertical with the direction of scan line, i.e. steel plate length centerline direction and horizontal direction parallel；

Step 1.8: the steel plate characteristic area profile in picture after amendment being scanned by column for the second time, sweep spacing is One pixel, m=0, second of scanning area are related to entire ROI region at this time, and scan line intersects with steel plate characteristic area profile, Count the pixel coordinate (R of intersection point number and record intersection point_mk,C_mk)；

Step 1.9: calculating with first intersection point (R when single pass_m1,C_m1) and the last one intersection point (R_mk,C_mk) between Distance D_kAnd it records；

Step 1.10: as intersection point number k > 2 or D_kWhen significant change occurs, that is, determine after the position part for head not Regular domain, the position are head cutting line position, the m of scan line traveling at this time₁A pixel distance calculates what scan line was advanced Actual range S₁, calculation formula S₁=m₁*σ；

Step 1.11: when intersection point number becomes 0, that is, determining the position for steel plate most head position；Scan line row at this time Into m₂A pixel distance calculates the actual range S that scan line is advanced₂, calculation formula S₂=m₂*σ；

Step 1.12: the length of steel plate head irregular area is S_head=S₂-S₁, that is, determine that head cutting line position is Apart from steel plate most head part S_head；

Step 2 accurately measures steel plate tail irregular area along rolling direction maximum length, comprising:

Step 2.1: leaving No. 1 grating sensor when travelling forward after steel plate completion is cooling with certain speed, make No. 1 grating Sensor becomes 0 signal from 1 signal, and high definition area array cameras shoots picture, passback shooting picture to control system；

Step 2.2: control system carries out distortion correction to shooting picture, carries out affine change to shooting picture using inclination angle theta It changes, keeps the direction of scan line vertical with steel plate length direction, picture after being corrected；

Step 2.3: the steel plate characteristic area profile in picture after amendment being scanned, scan line is from far from cooling device Side starts, and moves by column, each column, i.e., the n-th column, at this time n=0, and sweep spacing is a pixel, and scanning is related to the entire area ROI Domain, scan line intersect with steel plate characteristic area profile, the pixel coordinate (R of statistics intersection point number and record intersection point_nk,C_nk)；

Step 2.4: calculating with first intersection point (R when single pass_n1,C_n1) and the last one intersection point (R_nk,C_nk) between Distance D₂And it records；

Step 2.5: as intersection point number k > 2 or D₂When significant change occurs, that is, determine after the position part for tail portion not Regular domain, the position are tail portion cutting line position, the n of scan line traveling at this time₁A pixel distance utilizes picture single after correction The actual range σ of element calculates the actual range S that scan line is advanced₃, calculation formula S₃=n₁*σ；

Step 2.6: when intersection point number becomes 0, that is, determining the position for steel plate most tail position, scan line is advanced at this time n₂A pixel distance calculates the actual range S that scan line is advanced using the actual range σ of single pixel after correction₄, calculation formula For S₄=n₂*σ；

Step 2.7: the length of steel plate tail irregular area is S_tail=S₄–S₃；

Step 2.8: when steel plate makes No. 2 grating sensors become 1 signal from 0 signal, closing high definition area array cameras；

Tested steel plate width answers < 4000mm；Steel plate is in roller-way movement velocity v≤3m/s after heat is rectified；The temperature of steel plate after rolling ≤ 650 DEG C of degree；

The beneficial effects of the present invention are:

The present invention realizes the on-line measurement to hot steel plate end irregular shape zone length after rolling in movement, is Subsequent cut out of steel plate provides accurately cutting head, back-end crop length data, and then improves the product quality of steel plate, can be more accurate Cut off, back-end crop, make for thin plate roughing subsequent processing (finish rolling) can smoothly threading, rolling, effectively prevent because End shape problem and caused by be caught in roller-way or the damage accidents such as milling train；Shearing damage can be effectively reduced for slab Consumption improves the rhythm of production for cutting off and cutting with fixed size scissors.

Detailed description of the invention

Fig. 1 is hot steel plate end view after rolling, wherein (a) is wave and tongued terminal part；It (b) is wave and asymmetric shape End；It (c) is wave and semi-circular ends；It (d) is wave and fishtail end；

Fig. 2 is hot steel plate end Shearing Optimization method flow diagram after the rolling of one of specific embodiment of the invention；

Fig. 3 is specific embodiment of the invention head irregular area linear measure longimetry flow chart；

Fig. 4 is specific embodiment of the invention tail portion irregular area linear measure longimetry flow chart；

Fig. 5 is specific embodiment of the invention head irregular area length measurement diagram；

Fig. 6 is specific embodiment of the invention tail portion irregular area length measurement diagram；

Wherein, 1 is No. 1 grating sensor；2 be No. 2 grating sensors；AB line is high definition area array cameras area-of-interest (ROI) scan line generated in；Angle of the θ between plate centre line and roller-way center line；(a) for shooting photo into Row affine transformation process schematic；It (b) is amendment picture schematic diagram after affine transformation；(c) show for the calculating of end irregular area It is intended to.

Specific embodiment

With reference to the attached drawing in the embodiment of the present invention, technical solution in the embodiment of the present invention carries out clear, complete Ground description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.Based on this Embodiment in invention, every other reality obtained by those of ordinary skill in the art without making creative efforts Example is applied, shall fall within the protection scope of the present invention.

Hot steel plate end Shearing Optimization measuring system is by 2 grating sensors, model C IKENN-5, L-type cunning after rolling Slot, sectional dimension 35mm*35mm；1 high definition area array cameras, model: DALSA G3-GM-11-M2420；Resolution ratio: 2464x 2056, frame per second: 30fps；1 set of high-strength light-source system of LED, model: OPT-APA-6024, quantity: 3 and control system, I7- 5600,4k resolution ratio composition.Two grating sensors are placed in roller-way side below high definition area array cameras, and two sensors are apart 2.5 meters, grating sensor is numbered one by one from close to cooling device side, respectively No. 1, No. 2.Camera shoots visual field model Covering 1, the region between No. 2 grating sensors are enclosed, high intense light source covering camera shooting visual field card model biography is enclosed, and sensor is protected to touch The picture shot when hair includes enough steel plate end features.

Tested steel plate width 200mm；Steel plate is in roller-way movement velocity 0.3m/s；Steel plate reaches the temperature in shooting area after rolling It is 400 DEG C.

The outer shape of the end irregular area of hot steel plate is as shown in Fig. 1 after rolling.Measurement include to head not Regular domain length (S_head) and tail portion region of disorder length of field (S_tail) measurement, process is as shown in Figure 2, the specific steps are as follows:

Step 1 accurately measures steel plate head irregular area along rolling direction maximum length, process as shown in figure 3, Include:

Step 1.1: installation measuring system guarantees that high definition area array cameras shooting field range covers No. 1, No. 2 grating sensings Region between device, high intense light source covering camera shoot field range；The inside and outside ginseng of camera shooting area demarcated after being installed Number is as follows:

Intrinsic parameter: [0.0122531, -471.281,3.45087e-006,3.45e-006,1218.39,992.495, 2464,2056]

Outer parameter: [- 0.00610561,0.00553422,0.275833,357.708,0.348804,89.8773,0]；

Wherein, intrinsic parameter information includes: [focal length (m), distortion factor (1/m²), single pixel is wide (m), and single pixel is high (m), Center point coordinate (pixel), image is wide (pixel), image height (pixel)]

Outer parameter information includes: [direction x rotates (deg), and the direction y rotates (deg), and the direction z rotates (deg), and the direction x is flat It moves (m), the direction y translates (m), and the direction z translates (m), camera type]

Step 1.2: after calibration for cameras, control system according to calibration numerical value calculate the actual range σ of single pixel= 7.87*10^-5M shoots picture measured zone (ROI) according in calibrated camera shooting area parameter setting control system, should Region includes tested steel plate whole head, tail feature；

Step 1.3: being travelled forward after steel plate completes cooling with speed 0.3m/s, after triggering No. 1 grating sensor, make 1 Number grating sensor becomes 1 signal from 0 signal, and high definition area array cameras is opened, into state to be clapped, when steel plate triggers No. 2 gratings After sensor, high definition area array cameras shoots picture, passback shooting picture to control system；

Step 1.4: control system carries out distortion correction to shooting picture, extracts the characteristic area wheel of shooting picture light plate Exterior feature, the i.e. outer shape of steel plate generate scan line close to steel plate tail side in the ROI region of shooting picture, perpendicular to water Horizontal line starts scan by column for the first time to shooting picture, and sweep spacing is a pixel, and scanning pertains only to ROI for the first time Caudal one third region is leaned in region；

Step 1.5: each column, i.e. m column, scan line and steel plate characteristic area profile can generate two intersection points, control system The pixel coordinate of record intersection point calculates the midpoint (R of two intersection points_m,C_m) and record；

Step 1.6: after scanned for the first time, the midpoint coordinates being calculated being fitted to straight line, straight line is opposite In the angle that horizontal inclination angle theta is steel plate length direction center line and roller-way center line thus, i.e. steel plate and horizontal direction Inclination angle, the angle that θ is calculated is 0.77 °；

Step 1.7: affine transformation being carried out to shooting picture using inclination angle theta, as shown in figure 5, keeping steel plate long after obtaining amendment It is vertical with the direction of scan line to spend centerline direction, i.e. steel plate length centerline direction and horizontal direction parallel；

Step 1.8: the steel plate characteristic area profile in picture after amendment being scanned by column for the second time, sweep spacing is One pixel, m=0, second of scanning area are related to entire ROI region at this time, and scan line intersects with steel plate characteristic area profile, Count the pixel coordinate (R of intersection point number and record intersection point_mk,C_mk)；

Step 1.9: calculating with first intersection point (R when single pass_m1,C_m1) and the last one intersection point (R_mk,C_mk) between Distance D_kAnd it records；

Step 1.10: as intersection point number k > 2 or D_kWhen significant change occurs, that is, determine after the position part for head not Regular domain, the position are head cutting line position, and 719 pixel distances of scan line traveling at this time calculate scan line and advance Actual range S₁, calculation formula S₁=m₁* σ=56.58mm；

Step 1.11: when intersection point number becomes 0, that is, determining the position for steel plate most head position；Scan line row at this time Into 1345 pixel distances, the actual range S that scan line is advanced is calculated₂, calculation formula S₂=m₂* σ=105.85mm；

Step 1.12: the length of steel plate head irregular area is S_head=S₂-S₁, that is, determine that head cutting line position is Apart from steel plate most head part S_head=49.27mm；

Step 2 accurately measures steel plate tail irregular area along rolling direction maximum length, process as shown in figure 4, Include:

Step 2.1: leaving No. 1 grating sensor when travelling forward after steel plate completion is cooling with speed 0.3m/s, make No. 1 light Gate sensor becomes 0 signal from 1 signal, and high definition area array cameras shoots picture, passback shooting picture to control system；

Step 2.2: control system carries out distortion correction to shooting picture, as shown in fig. 6, using inclination angle theta to shooting picture Affine transformation is carried out, keeps the direction of scan line vertical with steel plate length direction, picture after being corrected；

Step 2.3: the steel plate characteristic area profile in picture after amendment being scanned, scan line is from far from cooling device Side starts, and moves by column, each column, i.e., the n-th column, at this time n=0, and sweep spacing is a pixel, and scanning is related to the entire area ROI Domain, scan line intersect with steel plate characteristic area profile, the pixel coordinate (R of statistics intersection point number and record intersection point_nk,C_nk)；

Step 2.4: calculating with first intersection point (R when single pass_n1,C_n1) and the last one intersection point (R_nk,C_nk) between Distance D₂And it records；

Step 2.5: as intersection point number k > 2 or D₂When significant change occurs, that is, determine after the position part for tail portion not Regular domain, the position are tail portion cutting line position, and scan line is advanced 824 pixel distances at this time, using single after correction The actual range σ of pixel calculates the actual range S that scan line is advanced₃, calculation formula S₃=n₁* σ=64.84mm；

Step 2.6: when intersection point number becomes 0, that is, determining the position for steel plate most tail position, scan line is advanced at this time 1455 pixel distances calculate the actual range S that scan line is advanced using the actual range σ of single pixel after correction₄, calculate public Formula is S₄=n₂* σ=114.50mm；

Step 2.7: the length of steel plate tail irregular area is S_tail=S₄–S₃=49.66mm；

Step 2.8: when steel plate makes No. 2 grating sensors become 1 signal from 0 signal, closing high definition area array cameras.

The combination of pattern or any two kinds of patterns for any one steel plate end in attached drawing 1 can use embodiment In measurement method carry out dynamic steel plate end shear line on-line optimization measurement.

Claims (7)

1. a kind of hot steel plate end Shearing Optimization method after rolling characterized by comprising

Step 1, the accurately measuring online along rolling direction maximum length to steel plate head irregular area hot after rolling；

Step 2, the accurately measuring online along rolling direction maximum length to steel plate tail irregular area hot after rolling.

2. hot steel plate end Shearing Optimization method after a kind of rolling according to claim 1, which is characterized in that the step Rapid 1 includes:

Step 1.1: installation measuring system guarantees that high definition area array cameras shooting field range covers No. 1, No. 2 grating sensors it Between region, high intense light source covering camera shoots field range；It is installed the rear inside and outside parameter of calibration for cameras shooting area；

Step 1.2: after calibration for cameras, control system calculates the actual range σ of single pixel according to calibration numerical value, and foundation has been marked Picture measured zone (ROI) is shot in fixed camera shooting area parameter setting control system, which includes that tested steel plate is complete Portion's end features；

Step 1.3: being travelled forward after steel plate completes cooling with speed v, after triggering No. 1 grating sensor, make No. 1 grating sensing Device becomes 1 signal from 0 signal, and high definition area array cameras is opened, high after steel plate triggers No. 2 grating sensors into state to be clapped Clear area array cameras shoots picture, passback shooting picture to control system；

Step 1.4: control system carries out distortion correction to shooting picture, extracts the characteristic area profile of shooting picture light plate, That is the outer shape of steel plate generates scan line close to steel plate tail side in the ROI region of shooting picture, perpendicular to level Line starts scan by column for the first time to shooting picture, and sweep spacing is a pixel, and scanning pertains only to the area ROI for the first time Caudal one third region is leaned in domain；

Step 1.5: each column, i.e. m column, scan line and steel plate characteristic area profile can generate two intersection points, control system record The pixel coordinate of intersection point calculates the midpoint (R of two intersection points_m,C_m) and record；

Step 1.6: after scanned for the first time, the midpoint coordinates being calculated being fitted to straight line, straight line is relative to water The inclination angle theta of horizontal line is the angle of steel plate length direction center line and roller-way center line thus, the i.e. inclination angle of steel plate and horizontal direction；

Step 1.7: affine transformation being carried out to shooting picture using inclination angle theta, picture after being corrected makes steel plate length center line side To vertical with the direction of scan line, i.e. steel plate length centerline direction and horizontal direction parallel；

Step 1.8: the steel plate characteristic area profile in picture after amendment being scanned by column for the second time, sweep spacing is one Pixel, m=0, second of scanning area are related to entire ROI region at this time, and scan line intersects with steel plate characteristic area profile, statistics Pixel coordinate (the R of intersection point number and record intersection point_mk,C_mk)；

Step 1.9: calculating with first intersection point (R when single pass_m1,C_m1) and the last one intersection point (R_mk,C_mkThe distance between) D_kAnd it records；

Step 1.10: as intersection point number k > 2 or D_kWhen significant change occurs, that is, part is irregular for head after determining the position Region, the position are head cutting line position, the m of scan line traveling at this time₁A pixel distance calculates the reality that scan line is advanced Distance S₁, calculation formula S₁=m₁*σ；

Step 1.11: when intersection point number becomes 0, that is, determining the position for steel plate most head position；The m of scan line traveling at this time₂It is a Pixel distance calculates the actual range S that scan line is advanced₂, calculation formula S₂=m₂*σ；

Step 1.12: the length of steel plate head irregular area is S_head=S₂-S₁, that is, determine that head cutting line position is distance Steel plate most head part S_head。

3. hot steel plate end Shearing Optimization method after a kind of rolling according to claim 1, which is characterized in that the step Rapid 2 include:

Step 2.1: leaving No. 1 grating sensor when travelling forward after steel plate completion is cooling with certain speed, become it by 1 signal When for 0 signal, high definition area array cameras shoots and records steel plate tail picture, and system starts to steel plate tail region of disorder length of field It is accurately measured；

Step 2.2: completing the distortion correction to shooting picture, affine transformation is carried out to shooting picture using inclination angle theta, makes scan line Direction it is vertical with steel plate length direction；

Step 2.3: the steel plate characteristic area in the picture after affine transformation being scanned, scan line is from far from cooling device one Side starts, and moves by column, each column, i.e., the n-th column, at this time n=0, and sweep spacing is a pixel, and scanning is related to entire ROI region, Scan line intersects with steel plate characteristic area profile, the pixel coordinate (R of statistics intersection point number and record intersection point_nk,C_nk)；

Step 2.4: calculating with first intersection point (R when single pass_n1,C_n1) and the last one intersection point (R_nk,C_nkThe distance between) D₂And it records；

Step 2.5: as intersection point number k > 2 or D₂When significant change occurs, that is, part is tail portion region of disorder after determining the position Domain, the position are tail portion cutting line position, the n of scan line traveling at this time₁A pixel distance utilizes the reality of single pixel after correction Border distance delta calculates the actual range S that scan line is advanced₃, calculation formula S₃=n₁*σ；

Step 2.6: when intersection point number becomes 0, that is, determine the position for steel plate most tail position, the n of scan line traveling at this time₂It is a Pixel distance calculates the actual range S that scan line is advanced using the actual range σ of single pixel after correction₄, calculation formula S₄ =n₂*σ；

Step 2.7: the length of steel plate most tail portion irregular area is S_tail=S₄–S₃；

Step 2.8: when steel plate makes No. 2 grating sensors become 1 signal from 0 signal, closing high definition area array cameras.

4. using the measuring system of claim 1 the method, which is characterized in that the measuring system includes: 2 grating sensings Device, 1 high definition area array cameras, 1 set of high intense light source and control system, high definition camera side dispose two grating sensors, camera Shooting field range covers the region between the grating sensor, and high intense light source covering camera shoots field range.

5. hot steel plate end Shearing Optimization method after a kind of rolling according to claim 1, which is characterized in that after rolling Hot steel plate width range is < 4000mm.

6. hot steel plate end Shearing Optimization method after a kind of rolling according to claim 1, which is characterized in that after heat is rectified Movement velocity≤3m/s of the steel plate on roller-way.

7. hot steel plate end Shearing Optimization method after a kind of rolling according to claim 1, which is characterized in that after rolling Temperature≤650 DEG C of steel plate.