CN102899478A - Method for removing matter adhered to furnace roller of annealing furnace - Google Patents

Abstract

The invention relates to a method for removing matters adhered to furnace rollers of an annealing furnace, belonging to the technical field of continuous annealing furnaces. Devices comprise a man-machine monitoring interface, an Ethernet module, a first-level PLC (programmable logic controller) system, a DP (decentralized periphery) communication module, motors, frequency converters and the like. The man-machine monitoring interface is built through Ethernet communication cables and the Ethernet module and is communicatively connected with the CPU (central processing unit) module of the first-level PLC system; the first-level PLC system is built through DP network communication and the DP communication module and is communicatively connected with furnace roller motor frequency converters; and the motors are connected with the frequency converters through control cables. Compared with the traditional manual cleaning method by opening the furnace during maintenance, the method provided by the invention has the advantages of no production influence, good effect, low cost and high safety and reliability, and solves the problem that the matters adhered to the furnace rollers cannot be cleaned on line, wherein the problem is eagerly expected to be solved but is not solved for a long time.

Description

A kind of method of removing the annealing furnace roller bur

Technical field

The invention belongs to the continuous annealing furnace technical field, a kind of method of removing the annealing furnace roller bur particularly is provided.

Background technology

In continuous annealing furnace, furnace roller plays the effect of pilot tape steel trend, makes the band steel keep continuous annealing in stove under the kinestate.Can produce impurity in the stove in the normal productive process, some impurity is attached to the furnace wall, does not affect production in the short period of time.Some impurity is attached on the furnace roller, and small impurity can be smoothed by the tension force effect with steel; But the hard larger impurity of quality is difficult to self falling or smooths owing to the gravity reason is attached in the stove bottom roller surface, causes belt steel surface to produce " pressing against the hole ", directly has influence on strip quality.

The traditional method of cleaning furnace roller is labor cleaning after the maintenance blow-on.This method need take the production time, and cost is high, and security risk is large.Now make furnace roller and band steel produce velocity contrast by automatic control, eliminate the roll surface dirt settling by friction.The method has four kinds of benefits: the one, do not need parking maintenance, and do not take the production time, can polish when normally producing; The 2nd, cleaning is timely, and the operative employee finds to be with steel to have " pressing against the hole " can send immediately the polishing instruction at any time; The 3rd, do not drop into cleaning up cost, reduce cost, save the repair time; The 4th, reduce the artificial number of times that cleans roll surface, reduced security risk.

Although this method by time variable control polishing roll surface, removal furnace roller bur can not substitute the maintenance blow-on fully and clean, and is with steel " to press against the hole " for reducing, and improves the quality of products and plays good action.Present this cleaning furnace roller method is not yet found report.

Summary of the invention

The object of the invention is to provide a kind of method of removing the annealing furnace roller bur, has solved the furnace roller bur Hand scarf problem that long-term serious hope solves.Eliminate belt steel surface and " press against the hole ", the band steel that causes for the furnace roller bur is especially pressed against the hole.By adjusting the furnace roller diameter, change the furnace roller linear velocity, and then realize the differential control furnace roller, make furnace roller produce relative friction with the band steel, remove furnace roller surface adhesion thing.

The furnace roller bur is removed in the furnace roller polishing, and the speed that it is to control furnace roller at all makes furnace roller produce velocity contrast with the band steel that contacts.Therefore, how producing velocity contrast is core of the present invention.The automatic control foundation of paper this invention once.In continuous annealing furnace was controlled automatically, PLC comprised the parameters such as linear velocity set(ting)value, furnace roller diameter in the data set of furnace roller motor frequency conversion device transmission.Frequency transformer converses circular frequency control furnace roller motor according to the linear velocity set(ting)value that receives and furnace roller diameter.Change this parameter of furnace roller diameter in this process, can reach the purpose that the change frequency transformer exports motor angular velocity to, realize the change of furnace roller linear velocity.During normal annealing furnace was produced, all furnace rollers all moved under identical linear velocity set(ting)value in the annealing furnace.Linear velocity according to above theory this roller after changing one of them furnace roller diameter namely changes.

The present invention relates to man-machine monitoring interface, ethernet module, primary PLC system, DP communication module, motor, frequency transformer etc.Setting up man-machine monitoring interface 1 by ethernet communication line 7, ethernet module 5 is connected with the communication of the CPU module 4 of primary PLC system; Set up the primary PLC system and be connected with the communication of furnace roller motor frequency conversion device by DP Netcom news 8, DP communication module 6; Motor links to each other with frequency transformer by control cables 10.

Man-machine monitoring interface function of the present invention is that furnace roller linear velocity and furnace roller diameter data with operator's input are sent to primary PLC.

Primary PLC system function of the present invention is to process the parameters such as furnace roller linear velocity and furnace roller diameter, and finally send steering order to frequency transformer.

Frequency transformer function of the present invention is, the steering orders such as the linear velocity that PLC is sent, diameter change into circular frequency control motor.

Motor of the present invention will be accepted the circular frequency that frequency transformer sends, and finally control furnace roller and rotate.

Specific as follows:

(1) man-machine monitoring interface input furnace roller linear velocity, original roller diameter value, initial polishing zone, roller changes directly that set(ting)value, polishing time, polishing model selection, polishing function are opened, the polishing function is closed parameter, by ethernet communication line 7 and ethernet module 5 parameter is issued to the primary PLC system;

The man-machine interface parameter implication of the present invention is as follows

The range of set value that roller directly changes parameter is 3% to 10%;

The range of set value of polishing time parameter is 10 seconds to 9999 seconds;

The polishing pattern is divided into: order polishing, the polishing of fixed zone; The order polishing is with the furnace roller subregion, 1 zone of can only polishing simultaneously; The polishing of fixed zone is to formulate a certain zone of polishing according to input value;

Limit according to the quantity to the furnace roller subregion in initial polishing zone;

The polishing time is only effective under order polishing pattern; The polishing function continues certain zone of polishing, stops the current region polishing after exceeding polishing time of regulation, and next zone begins to polish.

(2) by ethernet communication line 7 and ethernet module 5, primary PLC system CPU module receives the parameter that man-machine monitoring interface issues;

(3) PLC processing parameter, logic is judged

Below introduce in order PLC processing parameter, logic deterministic process, i.e. Fig. 2, the description of Fig. 3.

PLC checks " roller directly changes set(ting)value ", keeps this set(ting)value constant in 3% to 10% scope; Be lower than specialized range former set(ting)value is changed to 3%, be higher than specialized range former set(ting)value is changed to 10%;

PLC checks " polishing time ", keeps this set(ting)value constant in the scope at 10 seconds to 9999 seconds; Be lower than specialized range former set(ting)value is changed to 10 seconds, be higher than specialized range former set(ting)value is changed to 9999 seconds;

PLC checks " polishing model selection ", and the PLC User is set the corresponding polishing pattern of carrying out;

When PLC carries out " order polishing ", be written into " initial polishing zone ", PLC records the polishing time in this zone, and the time of record stops current region after exceeding polishing time of regulation polishes, and next zone begins to polish;

When PLC carries out " polishing of fixed zone ", be written into " initial polishing zone ", PLC does not record the polishing time in this zone;

PLC backup original roller diameter data;

PLC checking mode initiation command;

Polishing beginning PLC revises the diameter of specifying furnace roller according to the zone that " roller directly changes set(ting)value ", " order polishing " or " polishing of fixed zone " issue.

The present invention does not change the linear velocity setup parameter, and PLC directly is sent to frequency transformer with the linear velocity value.

(4) PLC directly joins by DP Netcom news 8, DP communication module 6 roller after the frequency transformer transmission processing.

(5) frequency transformer generates circular frequency with linear velocity, the roller footpath parameter integration that receives, and by three-phase control cables 10 control motors.

Advantage positively effect of the present invention:

The present invention removes the furnace roller bur effective, and has good economic benefit and social benefit in actual applications.The present invention has overcome many drawbacks of traditional maintenance blow-on labor cleaning method, get final product Hand scarf during production, do not need parking maintenance, have advantages of save man-hour, cleaning in time, need not the expense of clearing up, security risk is low, to improve the quality of products, to reduce cost significant, has good application value.

Description of drawings

Fig. 1 is that roll surface bur control network diagram is removed in the furnace roller polishing.Wherein, man-machine monitoring interface 1, primary PLC frame 2, power module 3, CPU module 4, ethernet module 5, DP communication module 6, ethernet communication line 7, Profibus-DP connection 8, furnace roller motor 9, motor three-phase control cables 10.

Fig. 2: furnace roller roller footpath parameter processing flow chart

Fig. 3: furnace roller polishing program " order polishing ", " polishing of fixed zone " control flow chart.

Embodiment

The present invention includes: man-machine monitoring interface, ethernet module, primary PLC system, DP communication module, furnace roller motor frequency conversion device etc.Setting up man-machine monitoring interface 1 by ethernet communication line 7, ethernet module 5 is connected with the communication of the CPU module 4 of primary PLC system; Set up the primary PLC system and be connected with the communication of furnace roller motor frequency conversion device by DP Netcom news 8, DP communication module 6.

Step 1: man-machine monitoring interface input

The linear velocity value is 4 metre per second (m/s)s;

It is 1.2 meters that roller directly is worth;

Directly reorganization value of roller is 5%;

Initial polishing zone is set as the first district;

The polishing time is 300 seconds;

The polishing model selection is the circulation polishing;

The polishing function is opened.

Step 2: by ethernet communication line 7 and ethernet module 5, primary PLC system CPU module receives the parameter that man-machine monitoring interface issues.

Step 3: PLC processing parameter.

Linear velocity 4 metre per second (m/s)s do not deal with;

Directly modification value of measuring roll legitimacy is also revised, and must change 5%, and it is 1.14 meters that roller directly changes rear value;

Detect polishing time value legitimacy and modification, get every zone polishing 300 seconds;

Start circulation polishing pattern, circulate to polish according to Fig. 3 and control.

Step 4: PLC is by DP Netcom news 8, the DP communication module 6 roller footpath parameter after the frequency transformer transmission processing.

Step 5: frequency transformer generates circular frequency with linear velocity, the roller footpath parameter integration that receives.Get circular frequency 3.508rad/s, by three-phase control cables 10 control motors.

Claims (1)

1. a method of removing the annealing furnace roller bur relates to man-machine monitoring interface, ethernet module, primary PLC system, DP communication module, motor, frequency transformer; Setting up man-machine monitoring interface by ethernet communication line, ethernet module is connected with the communication of the CPU module of primary PLC system; Set up the primary PLC system and be connected with the communication of furnace roller motor frequency conversion device by DP Netcom news, DP communication module; Motor links to each other with frequency transformer by control cables; It is characterized in that, processing step is as follows:

1) man-machine monitoring interface input furnace roller linear velocity, original roller diameter value, initial polishing zone, roller changes directly that set(ting)value, polishing time, polishing model selection, polishing function are opened, the polishing function is closed parameter, by ethernet communication line (7) and ethernet module (5) parameter is issued to the primary PLC system;

The range of set value that roller directly changes parameter is 3% to 10%;

The range of set value of polishing time parameter is 10 seconds to 9999 seconds;

The polishing pattern is divided into: order polishing, the polishing of fixed zone; The order polishing is with the furnace roller subregion, 1 zone of can only polishing simultaneously; The polishing of fixed zone is to formulate a certain zone of polishing according to input value;

Limit according to the quantity to the furnace roller subregion in initial polishing zone;

The polishing time is only effective under order polishing pattern; The polishing function continues certain zone of polishing, stops the current region polishing after exceeding polishing time of regulation, and next zone begins to polish;

2) by ethernet communication line (7) and ethernet module (5), primary PLC system CPU module receives the parameter that man-machine monitoring interface issues;

3) PLC processing parameter, logic is judged

Below introduce in order PLC processing parameter, logic deterministic process,

PLC checks " roller directly changes set(ting)value ", keeps this set(ting)value constant in 3% to 10% scope; Be lower than specialized range former set(ting)value is changed to 3%, be higher than specialized range former set(ting)value is changed to 10%;

PLC checks " polishing time ", keeps this set(ting)value constant in the scope at 10 seconds to 9999 seconds; Be lower than specialized range former set(ting)value is changed to 10 seconds, be higher than specialized range former set(ting)value is changed to 9999 seconds;

PLC checks " polishing model selection ", and the PLC User is set the corresponding polishing pattern of carrying out;

When PLC carries out " order polishing ", be written into " initial polishing zone ", PLC records the polishing time in this zone, and the time of record stops current region after exceeding polishing time of regulation polishes, and next zone begins to polish;

When PLC carries out " polishing of fixed zone ", be written into " initial polishing zone ", PLC does not record the polishing time in this zone;

PLC backup original roller diameter data;

PLC checking mode initiation command;

Polishing beginning PLC revises the diameter of specifying furnace roller according to the zone that " roller directly changes set(ting)value ", " order polishing " or " polishing of fixed zone " issue;

4) PLC directly joins by DP Netcom news (8), DP communication module (6) roller after the frequency transformer transmission processing;

5) frequency transformer generates circular frequency with linear velocity, the roller footpath parameter integration that receives, and by three-phase control cables (10) control motor.

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