Technical Progress Of High Speed Wire Rod Rolling Mill

Technical Progress Of High Speed Wire Rod Rolling Mill

Technical progress of high-speed wire rod rolling mill as followings: 

1) Continuous, torsionless and high-speed rolling. Roughing rolling and intermediate rolling are arranged alternately, and pre-finishing rolling is installed in front of the finishing mill. The maximum final rolling speed is designed to reach 120 m/s. 

According to the latest production practice, the maximum rolling speed will be guaranteed according to different specifications of wire rods. For example, in 2010, Siemens Austria Steel United Corporation (Morgan Company was annexed by the company) designed and manufactured high-speed for Xuanhua Iron and Steel Company. The guaranteed final rolling speed of the wire rod rolling mill is small wire rod Φ5.5-7.5 mm | 112 m/s, Φ5mm | 105 m/s for medium and 85 m/s for small diameter 6 mm quenched threaded steel. 

Improving the finishing rolling speed of the wire rod mill is a systematic project. It involves not only the main rolling mill machinery and electrical equipment but also the number of finishing mills, the rack spacing, and the cooling system. It does not affect the mechanical properties of products because of the high finishing rolling speed and the high finishing rolling temperature. 

It also requires supporting equipment such as a spinning machine and flying shear to withstand the high-speed impact of wire rods. 

2) Adding reducing and sizing equipment to improve product accuracy and solve the temperature control problem in the wire rod finishing rolling process.

3) Increasing the cross-section of the feed billet can not only meet the need for an upstream continuous caster to improve the productivity and quality of the billet but also increase the coil weight and increase the productivity and yield of the wire rod rolling mill.

4) The qualified billet is heated and soaked directly into the heating furnace through the hot charging roller. The hot charging temperature can reach over 600 C, which improves the productivity of the heating furnace, reduces the energy consumption during billet heating and the loss of oxide scale during billet cooling and heating, and improves the metal yield.

5) Low-temperature rolling. The starting rolling temperature is controlled at 950 C. The stiffness of the mill stand and the capacity of the main motor can meet this requirement in order to achieve overall energy savings and reduce metal burning.

6) Controlled cooling and temperature rolling.

7) Single-pass system. All products (small 5.0-25mm) only need to change rollers on four reducing and sizing mills, and no rollers need to be changed for other mills, thus significantly improving the productivity and productivity.

8) The latest generation of spinning machines and winding stations. In the form of asymptotic bending, the ideal trajectory of wire moving in the spinning tube is given, so that the wear of the spinning tube can be reduced and the running stability can be achieved.

The 90m High-Speed Wire Rod Rolling Line Project In Ethiopia Start Production

The 90m High-Speed Wire Rod Rolling Line Project In Ethiopia Start Production

December,13th,2016, the 90m high-speed wire rod rolling line project in Ethiopia contracted and constructed by Hani Tech has been put into production at 10 am local time. This means the whole rolling project and all the steel rolling mills it contains customized for SHENZHEN STELL with an annual capacity of 300,000 tons have been officially accomplished and transferred.

This whole project of a wire rod rolling production line with an annual capacity of 300,000 tons only takes WEIKEDUO less than a year to construct, which seems really miraculous for it could cost 3 years of construction for a complex project like this. As an experienced professional manufacturer of metallurgical types of machinery like monoblock mills, hot rolling mills, flying shears, and other associated equipment, WEIKEDUO has dedicated itself to developing and providing advanced and durable machinery equipment for all our clients around the world.

This brand new rolling line in Ethiopia will provide more job opportunities for local people and government while it would also boost the local economy vigorously. The present Director of Investment from the Ethiopian government, Fitsum, has once again declared the fact that the Ethiopian government will encourage and support all Chinese companies with competitive advantages and good faith to invest and develop in Ethiopia as always. And they will provide a solid foundation for all these companies to grow.

The deputy director of the Eastern Industry Zone, Jiao Yongshun, has also congratulated the success of the project and indicated that this rolling project could be another achievement to our current One Belt and One Road Initiative.

Technical Types of Endless Rolling of Bar and Wire Rolling Mill

Technical Types of Endless Rolling of Bar and Wire Rolling Mill

Headless rolling has a series of obvious advantages, such as high production efficiency, improving dimensional accuracy by reducing the loss of cutting head and tail to improve the yield, overcoming the dimensional deviation of the head and tail of the rolling piece, reducing the impact of the head and tail of the rolling piece on the motor, transmission system, roll, guide guard and reducing accidents. It is highly praised and researched by the steel rolling workers.

At present, there are two kinds of endless rolling technology for bar and wire rolling mill :

1. EWR Headless Rolling Technology

It is to cut off the slab first, then heat it, and then weld the front and back two billets (rolled pieces) end-to-end after the furnace is discharged, or after the roughing mill, so as to realize headless rolling. The technology of endless rolling by welding is called EWR, which was developed and first applied by Japanese manufacturers. China Tanggang, Xinggang, Bagang, etc. have tried it.

EWR headless rolling technology first cut off the slab which was originally headless and tailless, and then weld it into a workpiece that is headless and tailless. This is really a helpless move to solve the speed mismatch between the caster and the rolling mill.

This process not only enjoys many advantages of endless rolling but also brings a series of difficult problems. First of all, the complexity of welding equipment and the increase of accident points affect the operation rate in the early stage of commissioning. After short-term trial use, Tang steel, Ba steel, and other manufacturers gave up their efforts to further improve the technology and returned to the original single rolling operation mode, which affected other manufacturers' views on the EWR headless rolling process, which made the later ones flinch.

2. Luna Headless Rolling Process

One is Luna headless rolling developed by Danieli company in Italy, which has been applied in Udine company in Italy. It is characterized in that the billet caster and the continuous rolling mill are directly connected in a production line, the billet is not cut off, and the direct rolling is realized after induction heating in the tunnel furnace. After rolling, it is cut to a fixed length for cooling and subsequent treatment.

Compared with the EWR process, Luna's headless rolling process avoids the embarrassment of cutting and re-welding, which is a major technological innovation in the field of bar and wire rod production and represents the future development direction of rod and wire production technology. However, the disadvantage of the Luna process is that it still needs to use a longer tunnel furnace for induction heating, and its construction cost and operation cost are high.

Generally speaking, there is still a need for further research on the endless rolling technology of bar and wire rod rolling mill.

Please contact stella@hanrm.com for a quotation.
And free send inquiry to us.
Email: stella@hanrm.com   stellarollingmill@gmail.com
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Research on Energy-saving Technology of the Rolling Process

Research on Energy-saving Technology of the Rolling Process  

Steel rolling energy saving has a great impact on steel rolling production, especially in our country, the energy consumption is huge, so it is urgent to improve the energy-saving technology of production process. At present, the development of steel rolling technology in Lulei is also based on energy saving. New technology, process, and equipment of steel rolling are emerging constantly. The energy-saving effect is adjusted and the energy consumption of the process is reduced by changing the coefficient of each process in steel rolling production. This paper analyzes the energy-saving technology of the Lulei steel rolling process. 

About 12% of the total energy consumption of the whole country is the energy consumption of the iron and steel industry, while the energy consumption of steel rolling accounts for about 15% of the energy consumption of iron and steel. At the same time, due to the continuous improvement of the quality of steel, the energy consumption of steel rolling is still increasing. Based on this, energy conservation and emission reduction of the steel rolling production process are of great significance to reduce energy consumption and pollution. In terms of current energy and ecological environment, the concept of energy conservation and emission reduction must be put into practice.

Current Situation of Steel Rolling Production

China is a large country of production and manufacturing, and the iron and steel industry accounts for an important proportion. With the expansion of the iron and steel industry, energy consumption is increasing day by day. According to incomplete data, the energy consumption of the iron and steel industry accounts for about 13% of the world's total energy consumption, while the energy consumption in steel rolling production process accounts for 15% - 20% of the total energy consumption of China's iron and steel industry. With the expansion of all walks of life, the types of steel products are increasing, and the total demand is also increasing. At the same time, the rolling process is becoming more and more complex. The relevant research shows that the energy consumption of cold rolling and hot rolling processes in China is significantly higher than that of foreign steel rolling processes. Compared with foreign advanced technology, China's rolling technology, management technology, and related equipment are still relatively backward. At present, steel rolling equipment is the main energy consumption equipment in China's iron and steel production. Its energy consumption accounts for about 70% in the whole steel rolling system. Therefore, it can be seen that China's steel rolling production also contains great energy-saving potential.

Analysis of Factors Affecting Energy Consumption in the Rolling Process

1. Effect of heating temperature. The energy consumption of the rolling process mainly includes fuel energy consumption, power equipment energy consumption, and oxidation burning loss. Although there are many factors influencing the energy consumption of the rolling process in rolling production, the heating temperature is an important factor. According to the investigation, single heat consumption has a great relationship with the billet heating temperature. When the heating temperature is between 1150 ℃ and 1250 ℃, the heating temperature is between 1150 ℃ and 1250 ℃ Within the range of ℃, the unit heat consumption will decrease when the temperature drops by 10 ℃. Therefore, to properly reduce the heating temperature, not only to ensure the normal production of billet, but also to reduce energy consumption. However, there is a linear relationship between the heating temperature and the unit power consumption, but it has little effect on the power consumption, but reducing the heating temperature can still effectively save the power consumption.

2. The thermal efficiency of the rolling furnace. The heating mode and internal structure of the steel rolling furnace are also one of the main factors affecting energy consumption. A good heating mode of steel rolling furnace can effectively improve the combustion efficiency of fuel, and more heat is generated per unit fuel. In addition, the internal structure of the furnace, especially the good lining structure, can effectively improve the heat preservation effect of the furnace and reduce the heat loss.

3. Influence of steel production mode. The heating process, temperature, and time of different steel grades are different. In the process of production, the consumption of fuel is also different. If the production process of steel grades is not used properly, not only the ideal rolling effect can not be achieved, but also the consumption of additional energy is caused. This is one of the key points of energy saving in the rolling production process.

Energy-saving Technology of Lulei Steel Rolling Process

1. Wire energy-saving technology. First, the cooling technology of the air cooling line is energy-saving. The imported high-quality high-speed wire production lines all adopt the whole closed-loop cooling system. At the same time, the spinning temperature is gradually reduced, and the product performance and uniformity are improved. The total length of the air cooling line tends to be longer, and the insulation section is longer. In order to improve the cooling rate, some enterprises began to try to reduce the wind temperature, water mist cooling and other ways to improve the cooling rate. In the annealing furnace, the hot-rolled wire rod is treated by on-line solid solution treatment. After being spun into continuous coils, the hot-rolled wire rod is cooled after holding for about 5min. The equipment investment is high, the final grain size can be controlled, and the austenitic and ferritic stainless steel can be treated. The product quality is equivalent to the traditional off-line solid solution treatment. After the hot rolling wire is spun, the fan and water mist are used in the air cooling line to improve the heat exchange efficiency and increase the wire cooling rate. High-speed pulse airflow generated by the infrasonic wave is also used to cool wire rod, which can accelerate heat transfer between wire rod and surrounding air and obtain high cooling rate. The second is the collection and packaging of energy-saving products.

The collecting drum is a kind of high-speed wire that is wound in a circle and transported by an air-cooled roller table. When the coil is transported to the opening of the collecting drum through the roller table, it falls into the collecting drum in a parabolic shape at a certain initial speed and is sheathed on the nose cone held by the supporting claw in the center of the collecting drum. The packaging process is the last process of wire packing, which has a great influence on the appearance of products. When the tangent velocity at the exit of the wire rod is not equal to that at the exit of the spinneret, and the coil falling point deviates to one side, the phenomenon of uneven coil distribution and left and right position caused by the velocity can be partially offset by adjusting the claw under the spinneret. And reasonably adjust the tray running speed to strictly ensure the coiling in the drum. In this way, due to the small falling space, the coil is always in the middle of the mandrel and the cylinder wall when falling, avoiding the occurrence of a staggered layer.

2. The steel rolling process accounts for a considerable proportion of the energy consumption in the whole country, which also indicates that the steel rolling process has a great space for energy conservation, and reducing the energy consumption of the steel rolling process will surely bring China's industrial production into a new era. All in all, in order to reduce the energy consumption of steel rolling technology and achieve the purpose of energy saving, we can mainly explore new steel rolling technology, research new steel rolling technology, and replace advanced equipment from three aspects. Through the improvement of these three aspects, we can achieve the purpose of energy saving of steel rolling technology to a large extent. In addition, we should not only pay attention to these three aspects but also start from every step of the rolling process, strictly limit the energy consumption to avoid excessive loss of energy. All in all, the energy-saving of the rolling process is a necessary project now, which has a great influence on the development of the industry. All in all, in order to achieve the goal of energy saving in the rolling process, it is necessary to explore new rolling technology, innovate the rolling process, introduce more advanced rolling equipment, and do a good job in the control of energy consumption in every step of rolling. Only by strictly controlling the rolling process can the goal of energy saving in the rolling process be achieved to the maximum extent.

3. Optimize the production process. Optimization of the production process can greatly improve the production efficiency, but also save a lot of energy, improve the heat utilization of the hot billet. In the production process of steel rolling, the corresponding production process shall be set according to different steel grades, order batches, hot billet connection, and equipment conditions to give full play to the energy-saving effect of hot charging and formulate the basic principle of furnace charging. First, when a certain amount of high-grade hot billet is in the stockyard, the furnace charging shall be arranged immediately. At the same time, in the process of furnace charging, the number of continuous blocks of medium cooling and hot billet shall be as large as possible and as small as possible In addition, scientific heating time should be established to meet the production needs of different requirements of steel grades, and the connection between heating time and different grades of hot billets should be maintained.

4. Properly reduce the heating temperature of billet. The results show that reducing the heating temperature of billet to a certain extent can effectively save heat energy, electric energy, and steel oxidation loss. Generally speaking, there are three control stages in the heating furnace. The heating temperature and section temperature difference when the billet is discharged is the coupling results of the actual parameters control in each stage. In order to introduce the unknown coupling results in different stages, the heating temperature should be reduced by 30 to 40 ℃ according to different steel types and specifications. In addition, the heating time and temperature should be shortened for the hot billets with temperature more than 300 ℃, and the comprehensive energy-saving effect can be achieved by reducing the heating temperature.

5. Low temperature rolling and rolling process lubrication technology. Low temperature rolling technology is an important energy-saving measure to reduce the process energy consumption of the rolling system. Reducing the tapping temperature of the reheating furnace can reduce fuel consumption, but its deformation resistance and rolling power increase. In recent years, the practical experience of many rolling productions has proved that the energy-saving effect of reducing fuel consumption is more significant. When the temperature is 1100 ℃, the energy-saving of cooling reaches 9.6%, and when the temperature is lower, the amount of iron oxide scale is significantly reduced. The benefits of low temperature rolling on the reduction of fuel consumption and iron oxide amount can completely offset and exceed the cost of increasing rolling power 。 For many rolling mills, the use of process lubrication technology can reduce the energy consumption of rolling, especially for plate mills. The hot rolling temperature of steel is generally between 800 ℃ and 1250 ℃, and the temperature of the roll surface in the deformation zone can reach 450 ℃ - 550 ℃. Therefore, a lot of water is needed to cool the roll. Through the experiment, it can be found that the consumption of rolling power decreases by about 8% due to the reduction of the rolling force.

The energy crisis is becoming more and more serious, we must pay enough attention to the use of energy-saving technology in steel rolling production. The development form of the iron and steel industry in our country urgently requires iron and steel enterprises to use the new technology of energy-saving and consumption reduction. It is necessary to increase the research on energy-saving technology and energy-saving technology in steel rolling production, increase the investment in science and technology, save resources, meet the technical needs of modern steel rolling production to the greatest extent, reduce energy consumption, save resources, and promote the sustainable development of economy and society.


Please contact stella@hanrm.com for a quotation.
And free send inquiry to us.
Email: stella@hanrm.com   stellarollingmill@gmail.com
Whatsapp/Wechat:+8615877652925

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SMS No-twist Wire Rod Mill

SMS No-twist Wire Rod Mill

SMS designed a set of rocker arm type high-speed wire rod mill with adjustable roll gap. There are two types of rolling mills layout. One is similar to Morgan type wire rod mill. The adjacent frames are arranged at 90 degrees and 45 degrees alternately with the horizontal plane. The other is that the adjacent frames are still arranged at 90 degrees, but the other is that the adjacent frames are still arranged at 90 degrees with each other. They are at 15/75 degrees above and below the horizontal plane.

According to rolling different steel grades, SMS Group developed three kinds of wire rod finishing mills:

• High-pressure reduction finishing mill for common steel grades with elongation of 14.5%.
• The elongation of the finishing mill for high-quality steel grades reaches 9.54%.
• The elongation of high-grade alloy steel can reach 6.93% in the finishing mill.

The three types of finishing mills have the same basic design, but the reduction rate of each stand is different. So the speed distribution is different. The low reduction rate is used for rolling high deformation resistance steel, while a very high reduction rate can be used for finishing mill when rolling common carbon steel. SMS finishing mill can roll threaded steel bars with diameters of 5.5-16 mm and 6-14 mm, in addition to wire rods with diameters of 5.5-16 mm. The unit has the following characteristics:

The structure of all stand of wire rod finishing mill is the same, so it can be interchanged, and the spare stand can be reduced, which reduces the investment accordingly.

The diameter of the roll ring is standard 210mm. Compared with other roll rings with smaller diameter, it can reduce the rotational speed of the driving system and improve the service life of the rolling groove.

With hydraulic quick clamping and loosening device, the roll ring part can be quickly changed, which can ensure the high productivity of the finishing mill.

The roll shaft installed in the rocker arm can adjust the roll gap symmetrically in a wide range, so as to keep the rolling line constant, which is very advantageous for stabilizing the rolling process, reducing production accidents, and improving the mill operation rate.

The rocker arm mechanism is used to increase the cross-section coefficient of the roller bearing, improve the stiffness and strength of the rolling mill, thus improving the precision of the product and the rolling force of the finishing mill.

The driving system does not use a coupling to prevent vibration.

Compared with the standard roll ring, the life of the tungsten carbide roll ring groove is increased from 400 tons/mm diameter to 900-1000 tons/mm diameter, and the time interval of roll ring replacement is greatly increased.


Please contact stella@hanrm.com for a quotation.
And free send inquiry to us.
Whatsapp/Wechat:+8615877652925

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Bar and Wire Rod Rolling Mill For Sale

Bar and Wire Rod Mill Production Line

50000-300000 tons of bar and wire rod mill production line, 8-32mm of full continuous rolling production line, is common carbon steel, excellent carbon structural steel and low alloy steel; the designed annual production capacity is 50000-300000 tons, and the large line speed of finishing mill is 5-16m / s.



1. Billets: 100 × 100 -- 150 × 150 continuous casting billets with a length of 3000mm -- 6000mm are provided by the internal steel-making and continuous casting workshop of the company.


2. A new regenerative pusher reheating furnace will be built for the whole continuous rolling mill production line. The fuel is blast furnace gas and the air will be preheated by single preheating. The hourly heating capacity is 40-80t / h, end in and side out, a single row of cloth, which can meet the requirements of 50000-300000 tons of rolling material per year. The inner chamber size of the reheating furnace is 6.6x24m.

3. 16 rolling mills are adopted, which are divided into roughing mill, intermediate mill and finishing mill, forming the whole continuous rolling production line, with the layout of 6 + 6 + 4 horizontal and vertical alternation, and the main drive of rolling mill is controlled by full digital PLC. Micro tension continuous rolling is adopted for rough rolling and medium rolling. There is one side looper in the middle of medium rolling and finishing rolling, and there is a vertical looper between each rolling mill of finishing the rolling unit, forming no tension and no torsion rolling. The high speed of the rolling mill can reach 5-16m / s.


4. Three flying shears are set on the rolling line, which is located behind the three units and is respectively used for cutting head, accident breaking and finished product multiple length sections. The structure of scissors is crank type, rotary type, and crank rotary combination.


5. Rolling process: round 6.5mm, threaded steel 8-32mm. The annual output of 50000-300000 tons of material requires 330000 tons of continuous casting slab, and the comprehensive yield is 98% (negative deviation is considered).

6. Controlled rolling water piercing cooling device is set in front of the finishing mill and a controlled cooling water piercing device is set behind the finishing mill to produce high-strength steel bars (grade III steel) and improve the mechanical properties of the products.



7. Semi-automatic packing equipment and 50t cold shear are used in the finishing collection area.



8. The control system adopts computer secondary control, which is divided into four areas (heating furnace area, rolling area, controlled cooling area, and finishing area), and each control point is controlled in a decentralized and centralized way.

Production Process and Product Structure

It adopts the international advanced equipment and advanced production technology: the heating furnace is a walking beam type, adopts the double regenerative high air temperature combustion technology of energy saving and environmental protection, and uses the blast furnace gas with low calorific value as fuel, which can greatly reduce the fuel consumption, with the characteristics of fast heating speed and good heating quality.



There are 18 rolling mills in the whole line. In order to ensure the dimensional accuracy of the products, 6 loopers are set in the finishing mill room, and the water-cooling device is set after finishing rolling, which can realize the torsion-free controlled rolling of the whole line. In the production of φ 10 ~ φ 16 threaded steel, three-section rolling is used; in the production of φ 18 ~ φ 22 threaded steel, two-section rolling technology is used. Among them, φ 22 two slitting rollings is a domestic innovation, and the family has this technology, and the slitting rolling capacity is at the first level in China. The main drive of the rolling line adopts the full digital control DC motor, which can realize the automatic operation of the whole line, and the large rolling speed can reach 18 m / s. The raw materials used are continuous casting billets, all supplied by hot delivery.

The main product specifications include national standard II, national standard III, British standard, Japanese standard, plus standard Φ 10 - Φ 40 straight thread steel and round steel of various specifications.


Production steel includes ordinary carbon structural steel, excellent carbon structural steel, low alloy steel, etc. All products are delivered in straight condition.


Please contact stella@hanrm.com for quotation.
And free send inquiry to us.
Whatsapp/Wechat:+8615877652925
Website: https://www.hanrm.com

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Automatic Control Analysis of Bar Continuous Rolling Flying Shear

Flying Shear Start Control

Before rolling, the engineer's station personnel passed the screen set to transfer the cut and cut the size of the flying shear to the PLC. When the HMD detects the steelhead or steel tail signal before the shear, the detection signal is sent to the PLC that controls the scissors, and the scissors PLC then according to the line speed of the rolling piece passed by the basic PLC, the last cut of the scissors The error, and the set length of the cutting head and the tail length, calculate the flying shear start delay time. When the delay time is up, the start command of the flying shear is issued immediately, and the cutting function of the flying shear is completed. For the shredding function of the scissors, the manual start control is adopted, and the operation table manually breaks according to the accident. The shredding function of the scissors takes precedence over the function of cutting and cutting.

Rolling Steel Simulation Analysis Function

When the hot test run is not set at the production site, in order to comprehensively evaluate the linkage effect of each device, it can be completed by cold adjustment; when it is judged whether the cascade blocking function is normal, it can be analyzed by the automatic control model; When it is reasonable, it can be operated in a targeted manner, which shortens the trial hot car time to some extent. At the same time, under the action of rolling steel simulation analysis function, online simulation analysis is realized, and through the continuous improvement of offline simulation function, it provides necessary reference information for the development of transmission inverter equipment program. When the PLC is connected correctly, all module performance can be tested in real-time.

Bar Speed Correction

The rolling speed of the bar is the basis for control and the key to controlling the accuracy of the cutting, so the estimation of the speed of the rolled bar is particularly important. When the calibration function is activated, the speed of the bar is corrected. The speed of the rolled material is generally calculated by the mill control system based on the roll diameter, roll profile and motor type, due to elastic strain and rolled material at the stand roll. The actual reduction on the amount, the calculated value may not be consistent with the actual value. The actual speed is estimated by measuring the elapsed time of the end of the bar from the HMD before the flying shear to the time after the HMD. Alternatively, the flying shear performs shearing, and the measurement starts from the interlacing of the blade to the cutting. The time at which the end reaches the HMD downstream of the flying shear. The ratio of the distance between the HMDs and the measured time gives an estimate of the average speed of a bar during operation. A speed calibration factor is obtained relative to the average of the speeds calculated by the mill control system at the same interval. The speed received from the mill control system becomes a speed calibration factor, thereby obtaining the best estimate of the actual speed of the bar during shearing.

Flying shear Zero Compensation Control

After the end of a cutting process, the flying shear must be accurately parked at the zero position to prepare for the next cut. The zero detection of the flying shear is calibrated by the proximity switch. However, in practice, there is a certain error in the stop position from the original zero points. The error must be compensated to ensure that the speed of the scissors is accelerated to the set shear speed within the specified distance to meet the shear torque requirement. For this purpose, the position of the cutting edge is detected using the positioning code dial. The code wheel adopts 2048 two-phase orthogonal pulse. Each rotation of one wheel, the code wheel count is 0-8192, corresponding to the cutting edge angle of 0-360 degrees so that the angle of the scissors from the zero position can be calculated by counting the pulse of the code wheel. By this value and the angle between the zero point and the shear point, the initial angle of the flying shear can be calculated. Since the code wheel can achieve high precision and can effectively suppress the counting error caused by the vibration, the next cutting edge can be accurately compensated for the next cutting edge error.

In summary, the application of the bar shear system, the main technical performance indicators such as shear accuracy, shear section quality, shear response speed and optimized shear reliability can meet the on-site process requirements, in the rolling mill room Under the premise of normal cascading relationship, stable rolling mill speed and normal operation of all detecting components, the absolute value of the positive and negative shear length of the shearing length generally does not exceed the maximum linear velocity (m/s) of the rolling line multiplied by 5 milliseconds. The application of the automation control system has improved the production level to a certain extent, which is an inevitable trend in future development.

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Continuous Rolling Mill

Continuous Rolling Mill

The main working principle of continuous rolling mill is that when the billet is heated and discharged from the furnace, the oxidized iron sheet is removed by high-pressure water, and then the billet is processed in a four-roll reversible roughing mill. Finally, the intermediate billet which we need and suitable for continuous rolling mill is rolled. In the process of billet opening, the vertical roll can effectively ensure the precise width of the steel plate and the intermediate billet. After shearing, it will directly enter the continuous rolling mill to wait for processing and can be rolled to the specifications required by customers at one time. After rolling, the coiler will take up the coil. In the process of rolling, the roughing and finishing mill needs high-pressure water for secondary dephosphorization.

Introduction of Four-roll Continuous Rolling Mill:

Main Uses: This kind of mill is a one-way and irreversible four-high cold rolling mill. It is mainly used for rolling stainless steel, aluminum, carbon steel, copper and zinc, and other metals.

Main Features and Structures: The main components of this rolling mill are reducer, motor, universal joint shaft, human gearbox, stand, pressing part, electronic control cabinet, and roll system. The roll system uses special bearings for continuous rolling mill. The material of roll is 9Cr2Mo. If it is a large mill bearing base, it will also have a roll changing device.

HOT ROLLING MILL PROJECT

HOT ROLLING MILL PROJECT

2. Production wire rod mill line Summarize

  1) Annual Capacity: Around 30,000tons wire rod mill

  2) Raw material: 100*100*3000mm billet 

  3) Finished products: wire rod ¢5.5--¢12

  4) Steel-types of rolling：Low carbon alloy steel, stainless steel, plain  carbon steel

2. Power consumption of total loads for the equipment

     Around 2650kw Approximately

3. Total price for the Turn Key ( Including Furnace, motor, etc. )

      

4. Design process: 

   The Billets feeding into the reheating furnace, and come to the rolling mill, through 3hi rolling mill to 2hi rolling mill, after 22 passes, and become finished products wire rod.

5. All equipment list from Manufacturing Area：

1).  Φ350 Rough rolling mill, 3-hi

Scope of supply

Item	Quantity	Note
Φ1800mm flying wheel	1 set	cast steel
Reducer 1pcs	1pcs	cast steel (herringbone tooth)
Three axle box A=350mm	1pcs	cast steel
Cardan joint	3pcs	cast steel
Rack  A=350mm	1set	cast steel
Mill roll	3pcs	70MO2Mn
Bearing pedestal	6set	cast steel
630KW-8 Motor	1pcs	630kw

2). Φ280 Rough rolling mill, 3-hi

Item	Quantity	Note
Motor	1set	540KW
Reducer 1pcs	1set	cast steel (herringbone tooth)
Three axle box A=350mm	1pcs	cast steel
Cardan joint	3pcs	cast steel
Rack  A=280mm（3-hi）	2set	cast steel
Rack  A=280mm（2-hi）	1set	cast steel
Mill roll	8pcs	70MO2Mn
Bearing pedestal	16sets	cast steel

Item	Quantity	Note
Motor	1pcs	280KW
Reducer	1pcs	ZD60
Composite reducer	1pcs
Herringbone tooth 2-axle box	2pcs	A=250
Rack	6pcs	A=250
Cardan joint	12pcs	SWP235type
Mill roll	12pcs	Nodular cast iron
Bearing pedestal	24set

3).  Φ250 one-drive-two rolling mill, 1 set    (K6--K5)              

    

4).  Φ250 one-drive-two rolling mill, 1 set    (K4--K3)  

Item	Quantity	Note
Motor	1pcs	280KW
Reducer	1pcs	ZD60
Composite reducer	1pcs
Herringbone tooth 2-axle box	2pcs	A=250
Rack	6pcs	A=250
Cardan joint	12pcs	SWP235type
Mill roll	12pcs	Nodular cast iron
Bearing pedestal	24set

5).  Φ250 one-drive-two rolling mill, 1 set   (K2--K1)                  

Scope of supply

Item	Quantity	Note
Motor	1pcs	320KW
Reducer	1pcs	ZD60
Composite reducer	1pcs
Herringbone tooth 2-axle box	2pcs	A=250
Rack	6pcs	A=250
Cardan joint	12pcs	SWP235type
Mill roll	12pcs	Nodular cast iron
Bearing pedestal	24set

6. Other equipment：

Item	Quantity	Note
Reheating furnace	1set	22m*3.5m
Pushing device	1pcs	form a complete set
Discharge machine	1pcs
Runout roller table	1set
Scattered cold roller	1set	40m
Head cutting shear	1pcs	Form  A  complete set
Tail cutting shear	1pcs
Pinch roll	2pcs
Winding machine	1set
Before the roller billet	1set
Lift roller	3set
Transportation Roller	3set
The connection roller	1set

7. Wire Rod Mill Layout: