CN117548494A - Automatic number reporting intelligent management system for steel rolling processing - Google Patents
Automatic number reporting intelligent management system for steel rolling processing Download PDFInfo
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- CN117548494A CN117548494A CN202410001409.9A CN202410001409A CN117548494A CN 117548494 A CN117548494 A CN 117548494A CN 202410001409 A CN202410001409 A CN 202410001409A CN 117548494 A CN117548494 A CN 117548494A
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- 229910000831 Steel Inorganic materials 0.000 title claims abstract description 251
- 239000010959 steel Substances 0.000 title claims abstract description 251
- 238000005096 rolling process Methods 0.000 title claims abstract description 208
- 238000012545 processing Methods 0.000 title claims abstract description 179
- 238000001514 detection method Methods 0.000 claims description 140
- 238000004519 manufacturing process Methods 0.000 claims description 62
- 230000007547 defect Effects 0.000 claims description 50
- 230000007704 transition Effects 0.000 claims description 42
- 230000000694 effects Effects 0.000 claims description 40
- 238000005520 cutting process Methods 0.000 claims description 35
- 238000000034 method Methods 0.000 claims description 26
- 238000000105 evaporative light scattering detection Methods 0.000 claims description 19
- 238000011156 evaluation Methods 0.000 claims description 9
- 238000004364 calculation method Methods 0.000 claims description 4
- 230000005477 standard model Effects 0.000 claims description 3
- 230000002950 deficient Effects 0.000 description 3
- 238000010586 diagram Methods 0.000 description 3
- 238000004458 analytical method Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 2
- 230000006698 induction Effects 0.000 description 2
- 238000007689 inspection Methods 0.000 description 2
- 239000002699 waste material Substances 0.000 description 2
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- 238000005516 engineering process Methods 0.000 description 1
- JEIPFZHSYJVQDO-UHFFFAOYSA-N iron(III) oxide Inorganic materials O=[Fe]O[Fe]=O JEIPFZHSYJVQDO-UHFFFAOYSA-N 0.000 description 1
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21B—ROLLING OF METAL
- B21B37/00—Control devices or methods specially adapted for metal-rolling mills or the work produced thereby
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21B—ROLLING OF METAL
- B21B37/00—Control devices or methods specially adapted for metal-rolling mills or the work produced thereby
- B21B37/70—Length control
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Abstract
The invention belongs to the technical field of steel rolling processing number reporting management, and particularly discloses an automatic number reporting intelligent management system for steel rolling processing.
Description
Technical Field
The invention belongs to the technical field of number reporting management in steel rolling processing, and particularly relates to an automatic number reporting intelligent management system in steel rolling processing.
Background
In automatic control of steel rolling, when changing rolling specifications, the number is an important link in steel rolling, and the main purpose is to remind a subsequent process to check whether the steel rolling specifications are reasonable or not, and meanwhile, the number is used as a specification switching mark, so that information exchange and communication can be carried out in a production link, and the method is beneficial to ensuring that related personnel know the specifications, batches and other information of products and avoid information confusion and misunderstanding.
The traditional steel rolling specification-changing number reporting is recorded manually by a number reporting staff, the number reporting mode easily causes error specification reporting or missing necessary information, thereby causing number reporting confusion or error, meanwhile, under the condition of high-speed rolling, the manual recording can not keep up with the production speed, thereby causing number reporting delay, and being difficult to meet the number reporting requirement.
Along with the rapid development of automatic technology, the traditional steel rolling specification-changing number reporting is gradually replaced by automatic number reporting due to the defects of the traditional steel rolling specification-changing number reporting, and the number reporting accuracy, efficiency and reliability are greatly improved. However, the current automatic number reporting has the following problems in the implementation process: firstly, the realization mode of the existing automatic number reporting is to install a ranging sensor at the key position of a rolling mill roller way, thereby detecting the steel rolling processing length, and comparing the steel rolling processing length of the current production batch in combination with the steel rolling processing length of the production plan, when the steel rolling processing length meets the steel rolling processing length of the current production batch, starting a number reporting system to automatically report the number switching specification, wherein the number reporting mode uses the steel rolling processing length as a number reporting control basis, so that the steel rolling processing length obtained after number reporting is the final length, but the steel rolling processing cannot be directly put into use, and appearance quality detection is required, once appearance quality defect occurs, the steel rolling with the appearance quality defect needs to be cut off, so that the steel rolling processing length cannot meet the required processing length in the production plan, and therefore, the hidden danger that the steel rolling processing length obtained under the automatic number reporting control is difficult to meet the production requirement exists in the automatic number reporting mode, and the implementation value of the automatic number reporting is greatly influenced.
Secondly, prior art does not analyze its control effect after utilizing automatic number reporting system to report number control, leads to unable clear knowing number reporting control effect, and then is difficult to in time discover the problem that automatic number reporting system exists, will initiate product quality problem when the automatic number reporting system who has the problem continues to put into use, increases the defective rate, probably leads to the wasting of resources simultaneously, increases manufacturing cost intangibly among.
Disclosure of Invention
In view of this, in order to solve the problems set forth in the background art, an intelligent management system for automatically reporting numbers in steel rolling processing is now proposed.
The aim of the invention can be achieved by the following technical scheme: an automatic number reporting intelligent management system for steel rolling processing, comprising: the production information input module is used for extracting production information from a production plan, specifically comprising the current batch of rolled steel processing length, the next batch of rolled steel production specification and the next batch of rolled steel processing length, and inputting the production information into the automatic number reporting system.
The number report management equipment setting module is used for setting a length detection terminal on a rolling mill roller way and setting quality detection equipment and cutting equipment at a fixed position away from a processing port.
The apparent mass detection module is used for detecting the apparent mass of the rolled steel body from the processing port to the fixed position in real time by using mass detection equipment in the current batch of rolled steel production process.
And the steel rolling body cutting judging processing module is used for cutting judgment based on the apparent mass detection result of the steel rolling body, acquiring the cutting length if the judgment is needed, and cutting by cutting equipment according to the switching length.
And the steel rolling processing number reporting automatic control module is used for detecting the standard of the steel rolling length processing by utilizing the length detection terminal and carrying out steel rolling processing number reporting automatic control according to the detection result.
The number reporting control indication acquisition module is used for dividing the rolled steel in the transition state from the rolled steel produced in the next batch after the number reporting automatic control of the rolled steel processing, and acquiring the number reporting control indication from the rolled steel in the transition state.
And the number reporting control effect evaluation feedback module is used for evaluating the number reporting control effect coefficient of the steel rolling processing based on the number reporting control instruction, and simultaneously, retrieving the number reporting control effect coefficient of the standard steel rolling processing from the cloud management library, and further, comparing the number reporting control effect coefficient of the steel rolling processing with the number reporting control effect coefficient of the standard steel rolling processing, thereby carrying out control feedback.
The cloud management library is used for storing degree influence factors corresponding to various defect types and storing standard steel rolling processing number reporting control effect coefficients.
In an alternative embodiment, the arrangement of the length detection terminals on the rolling mill roller table is described in the following manner: the length from the processing port to the roller way end point is obtained and recorded as the roller way length, the roller way length is divided according to a set distance interval to obtain a plurality of dividing points, a length detection terminal is arranged on the side wall of the roller way corresponding to each dividing point, and the length detection terminal is numbered according to the sequence from the near to the far from the processing port.
In an alternative embodiment, the quality detection device comprises a quality detection trigger device and a quality detection execution device, wherein the quality detection trigger device is arranged on a roller way surface corresponding to the fixed position, and the quality detection execution device is arranged on a roller way side wall corresponding to the fixed position.
In an alternative embodiment, the process of detecting the apparent mass of the rolled steel body from the processing port to the fixed position in real time by using the mass detection device is implemented as follows: and in the current batch of steel rolling processing process, the quality detection trigger equipment is utilized to transmit signals, feedback signal induction is carried out in real time, and when the feedback signal is induced, the quality detection execution equipment is started to acquire apparent images of the steel rolling bodies.
Identifying whether an apparent defect exists in the apparent image of the steel rolling body, if so, marking a defect area in the apparent image of the steel rolling body, and extracting defect indications, including defect areas and defect types.
And matching the defect types with the degree influence factors corresponding to the various defect types stored in the cloud management library, and matching the degree influence factors corresponding to the defect areas.
The rolling body surface area is obtained by extracting the rolling body outline from the apparent image of the rolling body.
Passing the degree influence factor corresponding to the surface area and the defect area of the steel rolling body through an expressionAnd calculating the apparent mass coefficient of the steel rolling body.
In an alternative embodiment, the cut length is obtained as follows: the rolling body profile is extracted from the rolling body surface image, and the start line and the end line are marked from the rolling body profile.
And extracting the edge contour of the defect area from the defect area marked by the apparent image of the steel rolling body.
Constructing a line parallel to the initial line of the profile of the steel rolling body as a reference line, and translating the reference line to the edge profile of the defect area until the reference line is tangent to the edge profile of the defect area.
The length between the reference line and the end line of the profile of the rolled steel body is taken as the cutting length.
In an alternative embodiment, the steel rolling length processing standard detection by using the length detection terminal is implemented by the following steps: extracting the processing length of the current batch of rolled steel from the production information, and combining the processing length with the set distance interval through a formulaObtaining the number of the target length detection terminal>In the formula->The representation is rounded up and is filled up>Expressed as the current batch rolling length, +.>Represented as a set distance interval.
Calculating a demand detection distance of the target length detection terminal based on the number of the target length detection terminalThe calculation formula is +.>In the formula->Expressed as a distance between a set position of the target length detection terminal and a dividing point corresponding to the set position,/>The representation is rounded down.
Starting a target length detection terminal to aim at a processing port in the current batch of steel rolling processing process to detect the distance between the setting position of the target length detection terminal and steel rolling from the processing port in real time as a detection distanceComparing the detection result with the required detection distance of the target length detection terminal, and using a standard model +.>Calculating the rolled steel length processing up to the scale->,/>Expressed as a natural constant.
In an alternative embodiment, the automatic control of the number reporting of the steel rolling process according to the detection result comprises the following operations: and comparing the rolled steel length processing reaching scale with the set qualified processing reaching scale, extracting the next batch of rolled steel production specification from the production information if the rolled steel length processing reaching scale meets the set qualified processing reaching scale, generating a number reporting mark corresponding to the next batch of production specification by utilizing an automatic number reporting system, and simultaneously transmitting the next batch of rolled steel production specification to a rolling mill control center, and automatically adjusting the rolling mill roll gap aiming at the next batch of rolled steel production specification.
In an alternative embodiment, the acquisition of the sign control indicator from the transitional rolled steel is performed by the following steps: and acquiring the length of the transition state rolled steel, carrying out image scanning on the transition state rolled steel, acquiring the profile of the transition state rolled steel, and further extracting a transition curve and a central line along the length direction from the profile.
And uniformly distributing a plurality of acquisition points on the transition curve, and making a vertical line to the central line along the length direction of each acquisition point to obtain the vertical line length corresponding to each acquisition point, thereby extracting the longest vertical line length, the shortest vertical line length and the median vertical line length from the vertical line length.
The longest vertical line length, the shortest vertical line length and the median vertical line length are led into a formulaAnd calculating the smoothness of the transition curve.
And taking the length of the steel rolling in the transition state and the transition curve smoothness as sign control indications.
In an alternative embodiment, the evaluation formula of the rolling processing number control effect coefficient is thatWherein->Expressed as a steel rolling processing number reporting control effect coefficient, < + >>Expressed as the length of the transition state rolled steel, +.>Expressed as the next batch of rolled steel processing length, +.>Expressed as transition curve smoothness.
In an alternative embodiment, the implementation of the control feedback is: if the number reporting control effect coefficient of the steel rolling processing is smaller than the number reporting control effect coefficient of the standard steel rolling processing, the number reporting control effect coefficient of the steel rolling processing is fed back to the steel rolling processing general control center, and the information that the number reporting control does not reach the standard is transmitted to the steel rolling processing general control center.
Compared with the prior art, the invention has the following beneficial effects: (1) According to the invention, the length detection terminal, the quality detection equipment and the cutting equipment are arranged on the rolling mill roller way, and the production information is input, so that the quality detection equipment is utilized to detect the apparent quality of rolled steel in real time in the current batch of rolled steel production process, the cutting equipment is utilized to carry out cutting treatment according to the detection result, and then the length detection terminal is utilized to carry out rolled steel processing length detection in the process, so that the automatic number reporting system is utilized to carry out number identification generation and specification switching according to the detection result in combination with the production information, the combination of automatic number reporting and the appearance quality detection of rolled steel in the rolled steel processing process is realized, the rolled steel processing length obtained under the automatic number reporting control can meet the production requirement to the maximum extent, and the implementation value of automatic number reporting is greatly improved.
(2) According to the invention, the length detection terminals are arranged on the rolling mill roller way at intervals, so that the target length detection terminals are selected from a plurality of length detection terminals arranged at intervals based on the rolling mill processing length of the current production batch, and then the target length detection terminals are started to detect the rolling mill processing length, thereby realizing the targeted detection of the rolling mill processing length.
(3) According to the invention, the analysis feedback of the number reporting control effect is increased after the number reporting control is performed by utilizing the automatic number reporting system, so that the problems of the automatic number reporting system can be found in time, the automatic number reporting system is convenient to maintain in time, the automatic number reporting system with the problems can be prevented from being continuously put into use to the maximum extent, on one hand, the defective rate can be reduced, and on the other hand, the reduction of the production cost can be realized by reducing the resource waste.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
FIG. 1 is a schematic diagram of the connection of the modules of the system of the present invention.
Fig. 2 is a schematic diagram illustrating the setup of the number management device according to the present invention.
FIG. 3 is a schematic view of the cutting length acquisition in the present invention.
FIG. 4 is a schematic view of the process length detection according to the present invention.
Fig. 5 is a schematic diagram of the distribution of the transition curve acquisition points in the present invention.
Reference numerals: 1, a machining port, 2, a fixed position, 3, a dividing point, 4, a length detection terminal setting position, 5, a starting line of a steel rolling body profile, 6, a reference line, 7, a defect area edge profile, 8, a termination line of the steel rolling body profile, 9, a cutting length, 10, a target length detection terminal setting position, 11, a detection distance, 12, steel rolling, 13, an acquisition point, 14, a central line along the length direction and 15, a transition curve.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
The invention provides an automatic number reporting intelligent management system for steel rolling processing, which comprises a production information input module, a number reporting management equipment setting module, an apparent quality detection module, a steel rolling body cutting judging and processing module, a steel rolling processing number reporting automatic control module, a number reporting control indication acquisition module, a number reporting control effect evaluation feedback module and a cloud management library.
The device comprises a central number management equipment setting module, an apparent mass detection module, a steel rolling body cutting distinguishing processing module and a steel rolling processing number reporting automatic control module, wherein the apparent mass detection module is connected with the steel rolling body cutting distinguishing processing module, the steel rolling body cutting distinguishing processing module and a production information input module are both connected with the steel rolling processing number reporting automatic control module, the steel rolling processing number reporting automatic control module is connected with a number reporting control indication acquisition module, the number reporting control indication acquisition module and the production information input module are both connected with a number reporting control effect evaluation feedback module, and a cloud management library is respectively connected with the apparent mass detection module and the number reporting control effect evaluation feedback module.
The connection between modules is shown in fig. 1.
The production information input module is used for extracting production information from a production plan, specifically comprises the current batch of rolled steel processing length, the next batch of rolled steel production specification and the next batch of rolled steel processing length, and inputs the production information into the automatic number reporting system.
The number reporting management equipment setting module is used for setting a length detection terminal on a rolling mill roller way, and setting quality detection equipment and cutting equipment at a fixed position away from a processing port, wherein the quality detection equipment comprises quality detection trigger equipment and quality detection execution equipment, the quality detection trigger equipment is arranged on a roller way surface corresponding to the fixed position, and the quality detection execution equipment is arranged on a roller way side wall corresponding to the fixed position. In particular, the fixed position should be located on a central line along the length of the roller table.
The length detection terminal is an ultrasonic sensor, the quality detection triggering device is a photoelectric sensor, and the quality detection executing device is a high-definition camera.
It should be understood that the quality detection trigger device is arranged on the roller way surface corresponding to the fixed position to emit the photoelectric signal upwards by utilizing the quality detection trigger device, when the rolled steel is processed from the processing port, the processing length of the rolled steel reaches the distance between the processing port and the fixed position, and the rolled steel is arranged above the quality detection trigger device, the emission of the photoelectric signal is blocked, and signal interruption feedback is formed, so that the apparent quality detection of the rolled steel by the quality detection execution device can be triggered.
It is further understood that the provision of the quality inspection execution device on the roller side wall corresponding to the fixed position facilitates the acquisition of the apparent image of the rolled steel on the one hand, and on the other hand, in order to avoid the blocking of the quality inspection execution device by the longer and longer rolling process.
In a specific embodiment, the following procedure is followed for setting the length detection terminal on the rolling mill roller way: the length from the processing port to the roller way end point is obtained and recorded as the roller way length, the roller way length is divided according to a set distance interval to obtain a plurality of dividing points, a length detection terminal is arranged on the side wall of the roller way corresponding to each dividing point, and the length detection terminal is numbered according to the sequence from the near to the far from the processing port.
It is to be understood that the demarcation point should be located on a centerline along the length of the roller way.
Specifically, length detection terminals are arranged on the side walls of the roller tables corresponding to the dividing points, so that the problem that the length detection terminals are directly arranged on the dividing points to block the processing length of the steel rolling is avoided.
Preferably, the setting of the number management device is as shown in fig. 2.
According to the invention, the length detection terminals are arranged on the rolling mill roller way at intervals, so that the target length detection terminals are selected from a plurality of length detection terminals arranged at intervals based on the rolling mill processing length of the current production batch, and then the target length detection terminals are started to detect the rolling mill processing length, thereby realizing the targeted detection of the rolling mill processing length.
The apparent mass detection module is used for detecting the apparent mass of a rolled steel body from a processing port to a fixed position in real time by using mass detection equipment in the current batch of rolled steel production process, and the specific implementation process is as follows: and in the current batch of steel rolling processing process, the quality detection trigger equipment is utilized to transmit signals, feedback signal induction is carried out in real time, and when the feedback signal is induced, the quality detection execution equipment is started to acquire apparent images of the steel rolling bodies.
It is to be added that the steel rolling body refers to the steel rolling when the steel rolling length is processed from 0 to a fixed position, and the apparent mass detection is performed on the steel rolling body to ensure that the processed steel rolling is only subjected to the apparent mass detection under a certain length, so that the detection frequency is too high due to the fact that the apparent mass detection is performed under the condition that the steel rolling is too short in processing, and the apparent mass detection is more reasonable and the detection cost is reduced by controlling the detection frequency of the apparent mass.
Identifying whether an apparent defect exists in the apparent image of the steel rolling body, if so, marking a defect area in the apparent image of the steel rolling body, and extracting defect indications, including defect areas and defect types.
Applied to the above embodiments, defect types include, but are not limited to, scratches, curls, ginning, rust spots, pits, waves, and the like.
And matching the defect types with the degree influence factors corresponding to the various defect types stored in the cloud management library, and matching the degree influence factors corresponding to the defect areas.
The rolling body surface area is obtained by extracting the rolling body outline from the apparent image of the rolling body.
Passing the degree influence factor corresponding to the surface area and the defect area of the steel rolling body through an expressionAnd calculating the apparent mass coefficient of the steel rolling body, wherein the smaller the defect area corresponding to the defect area is, the smaller the degree influence factor is, and the larger the apparent mass coefficient is.
The steel rolling body cutting judging and processing module is used for cutting and judging based on the apparent quality detection result of the steel rolling body, if the steel rolling body is judged to need cutting, the cutting length is obtained, and the cutting equipment cuts according to the switching length.
As a preferred implementation mode of the scheme, the cutting judging mode is to compare the apparent mass detection result of the steel rolling body with the set up standard apparent mass coefficient, and if the apparent mass detection result of the steel rolling body is greater than or equal to the standard apparent mass coefficient, the cutting is not required, otherwise the cutting is required.
In particular, in the above apparent mass coefficient calculation formula, the apparent mass coefficient has a value range ofThe standard apparent mass coefficient may be set to 0.9.
Further preferably, the cut length is obtained as follows: the rolling body profile is extracted from the rolling body surface image, and the start line and the end line are marked from the rolling body profile.
And extracting the edge contour of the defect area from the defect area marked by the apparent image of the steel rolling body.
Constructing a line parallel to the initial line of the profile of the steel rolling body as a reference line, and translating the reference line to the edge profile of the defect area until the reference line is tangent to the edge profile of the defect area.
It should be noted that the start and end lines of the profile of the rolled steel body are relative to the process orifice, the closest start line to the process orifice.
The length between the reference line and the contour stop line of the rolled steel body is referred to as a cut length, as shown in fig. 3.
The automatic control module for the steel rolling processing number report is used for detecting the steel rolling length processing standard by utilizing the length detection terminal and automatically controlling the steel rolling processing number report according to the detection result.
In the example of the scheme, the steel rolling length processing standard reaching detection is carried out by utilizing the length detection terminal, and the following process is adopted: extracting the processing length of the current batch of rolled steel from the production information, and combining the processing length with the set distance interval through a formulaObtaining the number of the target length detection terminal>In the formula->The representation is rounded up and is filled up>Expressed as the current batch rolling length, +.>Represented as a set distance interval.
Calculating a demand detection distance of the target length detection terminal based on the number of the target length detection terminalThe calculation formula is +.>In the formula->Expressed as a distance between a set position of the target length detection terminal and a dividing point corresponding to the set position,/>The representation is rounded down.
It should be understood that, because the length detection terminal is disposed on the roller side wall corresponding to the dividing point, the setting position of the target length detection terminal, the dividing point corresponding to the setting position and the rolled steel processed by the processing port form a right triangle, as shown in fig. 4.
Starting a target length detection terminal to aim at a processing port in the current batch of steel rolling processing process to detect the distance between the setting position of the target length detection terminal and steel rolling from the processing port in real time as a detection distanceComparing the detection result with the required detection distance of the target length detection terminal, and using a standard model +.>Calculating the rolled steel length processing up to the scale->,/>Expressed as a natural constant, wherein the closer the detection distance is to the required detection distance, the greater the scale of the rolled steel length process.
The principle that the length detection terminal is utilized to carry out steel rolling processing length detection is that an ultrasonic signal is sent to a processing port through the length detection terminal, when processing is not started, the sent ultrasonic signal directly reaches the processing port, the ultrasonic signal is reflected back through the processing port, the measured length is the length from the processing port to the setting position of the length detection terminal, when processing is started, the ultrasonic wave sent by the length detection terminal cannot directly reach the processing port due to the fact that steel rolling comes out from the processing port, after the steel rolling is encountered, the ultrasonic wave is reflected back, and the measured length is the length from the steel rolling to the setting position of the length detection terminal.
In still another example of the above solution, the following operations are automatically controlled according to the detection result for the steel rolling process report: comparing the rolled steel length processing reaching scale with the set qualified processing reaching scale, and if the rolled steel length processing reaching scale is 0.8, extracting the next batch of rolled steel production specification from production information, generating a number reporting mark corresponding to the next batch of production specification by utilizing an automatic number reporting system, simultaneously conveying the next batch of rolled steel production specification to a rolling mill control center, automatically adjusting a rolling mill roll gap according to the next batch of rolled steel production specification, and if the rolled steel length processing reaching scale does not meet the set qualified processing reaching scale, continuing detecting distance and calculating the rolled steel length processing reaching scale until the rolled steel length processing reaching scale meets the set qualified processing reaching scale.
It should be noted that the steel rolling production specification switching is generally diameter switching, and the production specification switching can be achieved by adjusting the roll gap of the rolling mill to conform to the next batch of steel rolling production specification.
According to the invention, the length detection terminal, the quality detection equipment and the cutting equipment are arranged on the rolling mill roller way, and the production information is input, so that the quality detection equipment is utilized to detect the apparent quality of rolled steel in real time in the current batch of rolled steel production process, the cutting equipment is utilized to carry out cutting treatment according to the detection result, and then the length detection terminal is utilized to carry out rolled steel processing length detection in the process, so that the automatic number reporting system is utilized to carry out number identification generation and specification switching according to the detection result in combination with the production information, the combination of automatic number reporting and the appearance quality detection of rolled steel in the rolled steel processing process is realized, the rolled steel processing length obtained under the automatic number reporting control can meet the production requirement to the maximum extent, and the implementation value of automatic number reporting is greatly improved.
The steel rolling processing number reporting control indication acquisition module is used for dividing transition state steel rolling from next batch of produced steel rolling after the steel rolling processing number reporting automatic control, and acquiring number reporting control indications from the transition state steel rolling, wherein the specific acquisition process is as follows: and acquiring the length of the transition state rolled steel, carrying out image scanning on the transition state rolled steel, acquiring the profile of the transition state rolled steel, and further extracting a transition curve and a central line along the length direction from the profile.
And uniformly distributing a plurality of acquisition points on the transition curve, and making a vertical line to the central line along the length direction from each acquisition point, wherein the vertical line length corresponding to each acquisition point is obtained as shown in fig. 5, and the longest vertical line length, the shortest vertical line length and the median vertical line length are extracted from the vertical line length.
The longest vertical line length, the shortest vertical line length and the median vertical line length are led into a formulaAnd calculating the transition curve smoothness, wherein the shorter the difference between the length of the longest vertical line and the length of the shortest vertical line is, the larger the transition curve smoothness is.
And taking the length of the steel rolling in the transition state and the transition curve smoothness as sign control indications.
The number reporting control effect evaluation feedback module is used for evaluating the number reporting control effect coefficient of the steel rolling processing based on the number reporting control indication, and the specific evaluation formula is as followsWherein->Expressed as a steel rolling processing number reporting control effect coefficient, < + >>Expressed as the length of the transition state rolled steel, +.>Expressed as the next batch of rolled steel processing length,the method is represented as transition curve smoothness, wherein the shorter the length of the rolled steel in the transition state is, the larger the transition curve smoothness is, the larger the number reporting control effect coefficient of the rolled steel processing is, and meanwhile, the number reporting control effect coefficient of the standard rolled steel processing is called from a cloud management library, so that the number reporting control effect coefficient of the rolled steel processing is compared with the number reporting control effect coefficient of the standard rolled steel processing, and therefore control feedback is carried out, and the specific feedback implementation mode is as follows: if the number reporting control effect coefficient of the steel rolling processing is smaller than the number reporting control effect coefficient of the standard steel rolling processing, the number reporting control effect coefficient of the steel rolling processing is fed back to the steel rolling processing general control center, and the information that the number reporting control does not reach the standard is transmitted to the steel rolling processing general control center.
The cloud management library is used for storing degree influence factors corresponding to various defect types and storing standard steel rolling processing number reporting control effect coefficients.
According to the invention, the analysis feedback of the number reporting control effect is increased after the number reporting control is performed by utilizing the automatic number reporting system, so that the problems of the automatic number reporting system can be found in time, the automatic number reporting system is convenient to maintain in time, the automatic number reporting system with the problems can be prevented from being continuously put into use to the maximum extent, on one hand, the defective rate can be reduced, and on the other hand, the reduction of the production cost can be realized by reducing the resource waste.
The foregoing is merely illustrative and explanatory of the principles of this invention, as various modifications and additions may be made to the specific embodiments described, or similar arrangements may be substituted by those skilled in the art, without departing from the principles of this invention or beyond the scope of this invention as defined in the claims.
Claims (10)
1. An automatic number-reporting intelligent management system for steel rolling processing, which is characterized by comprising:
the production information input module is used for extracting production information from a production plan, and specifically comprises a current batch of rolled steel processing length, a next batch of rolled steel production specification and a next batch of rolled steel processing length, and inputting the production information into the automatic number reporting system;
the number report management equipment setting module is used for setting a length detection terminal on a rolling mill roller way and setting a quality detection equipment and a cutting equipment at a fixed position away from a processing port;
the apparent mass detection module is used for detecting the apparent mass of the rolled steel body from the processing port to the fixed position in real time by using mass detection equipment in the current batch of rolled steel production process;
the steel rolling body cutting judging processing module is used for cutting judgment based on the apparent mass detection result of the steel rolling body, acquiring cutting length if the judgment is needed, and cutting by cutting equipment according to the switching length;
the automatic control module of the steel rolling processing number is used for detecting the standard of the steel rolling length processing by utilizing the length detection terminal and automatically controlling the steel rolling processing number according to the detection result;
the number reporting control indication acquisition module is used for dividing the rolled steel in the transition state from the rolled steel produced in the next batch after the number reporting automatic control of the rolled steel processing, and acquiring the number reporting control indication from the rolled steel in the transition state;
the number reporting control effect evaluation feedback module is used for evaluating the number reporting control effect coefficient of the steel rolling processing based on the number reporting control instruction, and at the same time, the number reporting control effect coefficient of the standard steel rolling processing is called from the cloud management library, and the number reporting control effect coefficient of the steel rolling processing is compared with the number reporting control effect coefficient of the standard steel rolling processing, so that control feedback is carried out;
the cloud management library is used for storing degree influence factors corresponding to various defect types and storing standard steel rolling processing number reporting control effect coefficients.
2. The automatic number reporting intelligent management system for steel rolling processing as claimed in claim 1, wherein: the length detection terminal is arranged on the roller way of the rolling mill, and the following process is adopted: the length from the processing port to the roller way end point is obtained and recorded as the roller way length, the roller way length is divided according to a set distance interval to obtain a plurality of dividing points, a length detection terminal is arranged on the side wall of the roller way corresponding to each dividing point, and the length detection terminal is numbered according to the sequence from the near to the far from the processing port.
3. The automatic number reporting intelligent management system for steel rolling processing as claimed in claim 1, wherein: the quality detection equipment comprises quality detection trigger equipment and quality detection execution equipment, wherein the quality detection trigger equipment is arranged on a roller way surface corresponding to the fixed position, and the quality detection execution equipment is arranged on a roller way side wall corresponding to the fixed position.
4. A steel rolling process automatic number reporting intelligent management system as claimed in claim 3, wherein: the implementation process of detecting the apparent mass of the steel rolling body from the processing port to the fixed position by using the mass detection equipment in real time is as follows:
in the current batch of steel rolling processing process, utilizing a quality detection trigger device to transmit signals, sensing feedback signals in real time, and starting a quality detection execution device to acquire apparent images of a steel rolling body when sensing the feedback signals;
identifying whether apparent defects exist in the apparent images of the steel rolling bodies, if so, marking defect areas in the apparent images of the steel rolling bodies, and extracting defect indications, wherein the defect indications comprise defect areas and defect types;
matching the defect types with the degree influence factors corresponding to the various defect types stored in the cloud management library, and matching the degree influence factors corresponding to the defect areas;
extracting the appearance outline of the steel rolling body from the apparent image of the steel rolling body, thereby obtaining the surface area of the steel rolling body;
passing the degree influence factor corresponding to the surface area and the defect area of the steel rolling body through an expressionAnd calculating the apparent mass coefficient of the steel rolling body.
5. The automatic number reporting intelligent management system for steel rolling processing as claimed in claim 1, wherein: the cut length is obtained as follows:
extracting a rolling body contour from the rolling body surface image, and marking a start line and a stop line from the rolling body contour;
extracting the edge contour of the defect area from the defect area marked by the apparent image of the steel rolling body;
constructing a line parallel to the initial line of the profile of the steel rolling body based on the initial line of the profile of the steel rolling body, taking the line as a reference line, and translating the reference line to the edge profile of the defect area until the line is tangent to the edge profile of the defect area;
the length between the reference line and the end line of the profile of the rolled steel body is taken as the cutting length.
6. The automatic number reporting intelligent management system for steel rolling processing as claimed in claim 1, wherein: the steel rolling length processing standard reaching detection by utilizing the length detection terminal is realized by the following steps:
extracting the processing length of the current batch of rolled steel from the production information, and combining the processing length with the set distance interval through a formulaObtaining the number of the target length detection terminal>In the formula->The representation is rounded up and is filled up>Expressed as the current batch rolling length, +.>Indicated as a set distance interval;
calculating target length detection based on number of target length detection terminalDemand detection distance of terminalThe calculation formula isIn the formula->Expressed as a distance between a set position of the target length detection terminal and a dividing point corresponding to the set position,/>The representation is rounded down;
starting a target length detection terminal to aim at a processing port in the current batch of steel rolling processing process to detect the distance between the setting position of the target length detection terminal and steel rolling from the processing port in real time as a detection distanceComparing the detection result with the required detection distance of the target length detection terminal, and using a standard model +.>Calculating the rolled steel length processing up to the scale->,/>Expressed as a natural constant.
7. The automatic number reporting intelligent management system for steel rolling processing as claimed in claim 1, wherein: the automatic control of the steel rolling processing number reporting according to the detection result comprises the following operations:
and comparing the rolled steel length processing reaching scale with the set qualified processing reaching scale, extracting the next batch of rolled steel production specification from the production information if the rolled steel length processing reaching scale meets the set qualified processing reaching scale, generating a number reporting mark corresponding to the next batch of production specification by utilizing an automatic number reporting system, and simultaneously transmitting the next batch of rolled steel production specification to a rolling mill control center, and automatically adjusting the rolling mill roll gap aiming at the next batch of rolled steel production specification.
8. The automatic number reporting intelligent management system for steel rolling processing as claimed in claim 1, wherein: the method for obtaining the number reporting control indication from the transition state steel rolling comprises the following steps:
acquiring the length of the transition state steel rolling, and carrying out image scanning on the transition state steel rolling to acquire the profile of the transition state steel rolling, thereby extracting a transition curve and a central line along the length direction from the profile;
uniformly arranging a plurality of acquisition points on the transition curve, and making a vertical line on each acquisition point towards the central line along the length direction to obtain the vertical line length corresponding to each acquisition point, thereby extracting the longest vertical line length, the shortest vertical line length and the median vertical line length from the vertical line length;
the longest vertical line length, the shortest vertical line length and the median vertical line length are led into a formulaCalculating the smoothness of the transition curve;
and taking the length of the steel rolling in the transition state and the transition curve smoothness as sign control indications.
9. The intelligent management system for automatic number reporting in steel rolling process as claimed in claim 8, wherein: the evaluation formula of the steel rolling processing number reporting control effect coefficient is as followsWherein->Expressed as a steel rolling processing number reporting control effect coefficient, < + >>Expressed as the length of the transition state rolled steel, +.>Expressed as the next batch of rolled steel processing length, +.>Expressed as transition curve smoothness.
10. The automatic number reporting intelligent management system for steel rolling processing as claimed in claim 1, wherein: the implementation mode of the control feedback is as follows: if the number reporting control effect coefficient of the steel rolling processing is smaller than the number reporting control effect coefficient of the standard steel rolling processing, the number reporting control effect coefficient of the steel rolling processing is fed back to the steel rolling processing general control center, and the information that the number reporting control does not reach the standard is transmitted to the steel rolling processing general control center.
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