WO2021213706A1 - Method for operating a metal strip processing system, and metal strip processing system - Google Patents

Abstract

The invention relates to a method for operating a metal strip processing system which has at least one strip processing unit for processing a metal strip running through the metal strip processing system, said strip processing unit being provided in the form of a rolling train, which has at least one roll stand, or a cooling section or a winder. The aim of the invention is to allow a complete automatic detection and analysis of cobbles. This is achieved in that it is electronically ascertained whether or not the metal strip is passing properly through the metal strip processing system while taking into consideration at least one metal strip parameter detected by means of a measuring unit of the metal strip processing system and/or while taking into consideration at least one operating parameter of the strip processing unit.

Description

The invention relates to a method for operating a metal strip processing system which has at least one strip processing unit for processing a metal strip passing through the metal strip processing system, the strip processing unit being in the form of a rolling train having at least one rolling stand, a cooling section or a reel. The invention also relates to a metal strip processing system with at least one strip processing unit for processing a metal strip passing through the metal strip processing system and at least one system electronics for operating the metal strip processing system, the strip processing unit being in the form of a rolling train having at least one rolling stand, a cooling section or a reel.

A so-called high-walker or band-walker in a metal strip processing plant is an event in which a rolling stock in the form of a metal strip is not gripped by a rolling stand of a rolling mill. If such a high-walker is present, the metal strip no longer runs properly through the metal strip processing system. Instead, the rolling stock remains on a roll stand or between roll stands, so that a material jam forms. The rolling stock can also remain lying on an outfeed roller table of a cooling section or in an infeed of a reel system or bump, which also results in a material jam.

The consequence of such high-flying is, on the one hand, a loss of the rolling stock due to scrapping and, on the other hand, a plant malfunction and / or plant damage. This results in production downtimes and costs for restoring the operational readiness of the metal strip processing system caused. Overall, the output and the economy of a metal strip processing system are impaired by high walkers.

High levels in a metal strip processing system can be influenced by a mechanical and electrical condition of the rolling train of the metal strip processing system. Depending on the process, temperature control and a minimization of sabotage of the rolling stock play the main roles in the entire metal strip processing plant. Effects in the material, such as phase changes between or in the roll stands, can also lead to high-flying.

Geometrical effects when high walkers occur are wedge-shaped thickness profiles of metal strips from upstream process stages of a continuous casting plant or when slitting slabs. Insufficiently maintained reheating furnaces with false air entry at leaky furnace doors during slab discharge and the resulting temperature gradients across the width of a metal strip lead to asymmetrical rolling behavior across the width of the metal strip and thus to one-sided bumps and bumps in the rolling mill. Logistics of the rolling program design with geometrical and material-related commission changes in the rolling plan and slab allocation in the reheating furnaces are further causes of high-ups.

State-of-the-art when high-walkers occur is manual documentation either in paper form or PC-based by operating personnel with the data "piece number" or "rolling plan number" together with the time and location of the high-walker in the rolling mill or at the reel. Another possibility is the acquisition of a digital "EMERGENCY STOP" signal during a rolling process. A subsequent high-going analysis from the previous day only takes place in early meetings of a production and maintenance department and - if available at all - in a department for rolling technology. With a high-walker, the operating staff only has the option of pressing an EMERGENCY STOP button on one To press the control station, whereby the entire metal strip processing plant is shut down with immediate effect.

KR 10 1997 0 033 119 discloses a device for analyzing data from a hot strip rolling mill with a faulty rolling detection unit.

The article “Advanced Control to Reduce the Likelihood of Cobbles in the Tandem Rolling of Hot Metal Strip”, Pittner et al. , January 2015 concerns the influence of phase changes within a rolled stock on its rollability.

The article “Reduction of Cobble Generation in Hot Strip Mill,” Rath et al., Addresses one way of predicting misrolling within a rolling mill.

One object of the invention is to enable a holistic, automatic detection and analysis of high-levelers.

This problem is solved by the independent patent claims. Advantageous refinements are given in the following description and the dependent claims, whereby these refinements taken individually or in combination of at least two of these refinements with one another can represent a further developing, in particular also preferred or advantageous, aspect of the invention. Refinements of the method can correspond to refinements of the metal strip processing system, even if this is not explicitly referred to in the following in the individual case.

According to a method according to the invention for operating a metal strip processing system, the at least one strip processing unit for processing a metal strip passing through the metal strip processing system wherein the strip processing unit is in the form of a rolling train having at least one roll stand, a cooling section or a reel, is determined electronically taking into account at least one parameter of the metal strip detected by means of a measuring unit of the metal strip processing system and / or taking into account at least one operating parameter of the strip processing unit whether the metal strip can run properly through the

Metal strip processing system is given or not. According to the invention, it is automatically determined electronically whether a proper passage of the metal strip through the

Metal strip processing system is given or, in particular due to a high walker, is not given. This enables automatic documentation and storage of high-level work and associated production data, some of which can also contain fault data. The storage of high goers and associated production data makes a holistic automatic analysis of high goers possible, which in turn enables a prediction of the risk of the occurrence of high goers for certain production data. Such predictions can, for example, be displayed to an operating personnel in order to be able to carry out an optimal planning of a rolling process. In addition, preventive maintenance of a metal strip processing system is possible on the basis of the analysis of high walkers, which reduces

Production downtimes as well as system malfunctions and system damage are prevented. The holistic documentation of high walkers and system malfunctions allows a definition of measures for the maintenance of the

Metal strip processing line. These measures can either be carried out immediately or during the next planned repair shutdown. In this way, high levels of activity and the associated system downtimes can be reduced in the long term, which increases the degree of utilization and improves product quality will. The result is an optimization of the costs for the plant operation and an increase in the output.

An example calculation for a metal strip processing plant with a hot strip mill should clarify this. Maintenance measures should reduce the number of high-walkers by half. In extreme cases, the number of high walkers can be up to thirty metal bands in a month. At a sales price of around € 800 / t and an average coil weight of 30 tons, this initially results in an additional income of € 24,000 per high walker avoided. Extrapolated to one year, 180 more metal strips can be produced, which means an additional income of 180 strips x € 24,000 = € 4,320,000.

The method according to the invention can be carried out taking into account at least one parameter of the metal strip recorded by means of a measuring unit of the metal strip processing system. Such a band parameter can be, for example, a thickness, a width, a thickness profile, a flatness, a temperature or the like. These strip parameters can be recorded, for example, by means of measuring units arranged in the exit of the rolling train or finishing train directly behind the last roll stand of the rolling train. The method can also be carried out taking into account two or more such band parameters. The strip parameter is measured at a specific location within the metal strip processing plant, for example within the rolling train, at an outlet of the rolling train, within the cooling section, at an outlet of the cooling section, at an inlet of the reel or the like. At an inlet of the reel, for example, the temperature and / or, if a corresponding measuring unit is available, the width of the incoming metal strip can be measured as strip parameters. As an alternative or in addition, the method according to the invention can take into account at least one operating parameter Belt processing unit are carried out. The operating parameters can be continuously recorded electronically for this purpose. The operating parameter can be, for example, a speed of a work roll of a roll stand of the rolling train, a mechanical load on the roll stand by means of a rolling process carried out with it, an activation state of the reel or the like. The method according to the invention can also take into account two or more operating parameters of the

Belt processing unit are carried out. If two or more strip processing units are present, the method according to the invention can be carried out by each strip processing unit, taking into account at least one operating parameter.

The automated recording of high-walkers together with pass schedule data offers the possibility of a holistic evaluation of high-walkers depending on geometry data and material data. The consideration of the material of the metal strip can be via the

Deformation resistance k _w take place. The deformation resistance is according to the elementary rolling theory according to the equations

and

to be determined from the pass schedule data. F means the rolling force in the roll stand, Id the pressed length in the roll gap, ho the entry thickness of the metal strip into the respective roll stand, hi the exit thickness of the metal strip from the respective roll stand, r the work roll radius and b the metal strip width. This can be used for future rolling programs depending on the rolled Materials and geometry parameters indicate a probability for the occurrence of high-walkers by forming a correlation between the number of high-walkers and the product mix (material characterized by deformation resistance, as well as thickness and width).

According to an advantageous embodiment, using a constant volume equation

, _, opening act

Finished tape ~ opening tape ^'

O'Fertigband and a current rolling speed, a meter stamp for the parameters of the metal strip or for the operating parameters of the strip processing unit is determined electronically. Here / means the length of the finished strip or preliminary strip and d the thickness of the finished strip or preliminary strip. From a

Pass schedule forecast, for example in a hot strip mill, the pre-strip parameters and the finished strip parameters, in particular the temperature and thickness, of the metal strip and the pass decrease in the respective roll stand of the hot strip mill are known. Due to the law of constant volume, these parameters satisfy the above constant volume equation, from which in particular a theoretical finished strip length I finished strip results. In the case of a high walker in the rolling mill, the metal strip either does not reach the respective measuring point in the exit of the rolling mill or implausible meter stamps are formed. Both are a clear indication of the presence of a high walker, which can thus be recorded electronically.

According to a further advantageous embodiment, an AND query is carried out electronically for a meter stamp to be expected at a measurement location. As a result, errors in the measuring unit can be ruled out even when ascertaining the presence of a high-rise. For example, a meter stamp can be detected and at the same time queried or it can be determined from a signal from the measuring unit used to detect the meter stamp whether the measuring unit is properly operational. So here is the The measuring signal of the measuring unit is linked to an operating status signal of the measuring unit via an AND query, so that it can be ruled out that a measuring signal is used to determine the presence of a high walker, which is essentially caused by an operating error of the measuring unit. Alternatively or additionally, for example by means of the measuring unit, a plausibility check with regard to the respective measuring signal can be carried out. A plausibility signal generated in this way can be linked to the measurement signal via an AND query, so that it can be ruled out that a measurement signal is used to determine the presence of a high-walker that is not plausible.

According to a further advantageous embodiment, a length of the metal strip to be expected at a measuring location is electronically compared with a length of the metal strip measured at the measuring location, and it is electronically determined that the metal strip does not pass through the metal strip processing system properly if the measured length is <80%. the expected length. In the case of a strip processing unit in the form of a reel, the presence of an improper strip passage of the metal strip through the metal strip processing system can be determined if the measured length is <30% of the expected length.

According to a further advantageous embodiment, when it has been determined electronically that the metal strip does not pass through the metal strip processing system properly, a time stamp is electronically generated and stored with parameters of a currently running rolling program. With the time stamp, together with the parameters of the currently running rolling program, an assignment of a high-leveler to the rolling data, which contains, for example, a strip geometry, a strip material or the like, as well as data on a furnace in the rolling mill and data on a continuous casting plant for a starting material is given. Of the Time stamps can be generated from signals from a measuring unit, such as a camera, on the tape processing unit itself and / or from entries in a level 2 or level 3 system across all process stages.

According to a further advantageous embodiment, the parameter of the metal strip is recorded electronically by means of a measuring unit arranged in an outlet of the rolling train or by means of a measuring unit arranged in an outlet of the cooling section or by means of a measuring unit arranged in an inlet of the reel.

According to a further advantageous embodiment, it is electronically determined that the metal strip does not run properly through the metal strip processing system if there is a time difference between a point in time at which the operating parameter of the strip processing unit is electronically recorded and a subsequent point in time at which an operating parameter of another Strip processing unit of the metal strip processing system is recorded electronically, is more than 10 s. This is a direct method for determining high walkers, especially in rolling mills. For example, an operating parameter of the rolling stand “stand loaded” can be recorded at a first point in time, while an operating parameter of the reel “reel active” can be recorded at a later point in time. If there is a difference of 10 s between the two times, it is concluded electronically that there is a high walker.

According to a further advantageous embodiment, it is electronically determined that the metal strip does not pass through the metal strip processing system properly if a strip speed of the metal strip on a roll stand of the multi-stand rolling train is less than a predetermined limit value. This method of ascertaining walkover can be used, for example, in a hot strip mill. The respective strip speed at the respective roll stand of the rolling mills can be over a rotational speed of the respective work rolls of the roll stands can be detected. This results in a speed profile of the metal strip or the work rolls over the length of the rolling train. As soon as a metal strip has a work roll speed of, for example, less than one meter per second at a given coordinate within the rolling train of, for example, greater than ten meters with respect to an entry into the rolling train, it can be concluded electronically that there is a high walker within the rolling train . A metal strip processing system according to the invention has at least one strip processing unit for processing a metal strip passing through the metal strip processing system and at least one system electronics for operating the metal strip processing system, the strip processing unit being in the form of a rolling train having at least one rolling stand, a cooling section or a reel and the system electronics for performing the method is set up according to one of the above-mentioned configurations or a combination of at least two of these configurations with one another. The advantages mentioned above with reference to the method are correspondingly associated with the metal strip processing system. The metal strip processing plant can also have the rolling train, the cooling section and the reel.

Claims

Patent claims:

1. A method for operating a metal strip processing system which has at least one strip processing unit for processing a die

Having metal strip processing system running through metal strip, the strip processing unit in the form of at least one

The rolling mill having a rolling stand, a cooling section or a reel is given, characterized in that taking into account at least one by means of a measuring unit

Metal strip processing system detected parameters of the metal strip and / or, taking into account at least one operating parameter of the strip processing unit, it is determined electronically whether a proper strip passage of the metal strip through the metal strip processing system is given or not.

2. The method according to claim 1, characterized in that under

Using a constant volume equation l = _Fert igband orband 'dvorband _{unc | ejner} current rolling speed a meter stamp d-finished strip is electronically determined for the parameter of the metal strip.

3. The method according to claim 2, characterized in that an AND query is carried out electronically for a meter stamp to be expected at a measuring location.

4. The method according to claim 2 or 3, characterized in that a length of the metal strip to be expected at a measuring location is electronically compared with a length of the metal strip measured at the measuring location, and it is determined electronically that a proper strip passage of the metal strip is not given by the metal strip processing system if the measured length is <80% of the expected length.

5. The method according to any one of claims 1 to 4, characterized in that when it has been determined electronically that the metal strip does not pass through the metal strip processing system properly, a time stamp is electronically generated and stored with parameters of a currently running rolling program.

6. The method according to any one of claims 1 to 5, characterized in that the parameter of the metal strip is recorded electronically by means of a measuring unit arranged in an outlet of the rolling train or by means of a measuring unit arranged in an outlet of the cooling section or by means of a measuring unit arranged in an inlet of the reel will.

7. The method according to any one of claims 1 to 6, characterized in that it is determined electronically that a proper strip passage of the metal strip through the metal strip processing system is not given if there is a time difference between a point in time at which the

Operating parameters of the strip processing unit is recorded electronically, and a subsequent point in time at which an operating parameter of a further strip processing unit of the metal strip processing system is electronically recorded is more than 10 s.

8. The method according to any one of claims 1 to 7, characterized in that it is determined electronically that a proper strip passage of the metal strip through the metal strip processing system is not given if a strip speed of the metal strip on a roll stand of the multi-stand rolling mill is less than a predetermined limit value.

9. Metal strip processing system with at least one

Strip processing unit for processing a metal strip passing through the metal strip processing system and at least one system electronics for operating the

Metal strip processing system, the strip processing unit being in the form of a rolling train having at least one rolling stand, a cooling section or a reel, characterized in that the system electronics are set up to carry out the method according to one of claims 1 to 8.