CN102371283B - Method for improving ultra-fast cooling uniformity of medium and heavy plate after rolling - Google Patents
Method for improving ultra-fast cooling uniformity of medium and heavy plate after rolling Download PDFInfo
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- 238000000034 method Methods 0.000 title claims abstract description 40
- 238000005096 rolling process Methods 0.000 title claims abstract description 20
- 229910000831 Steel Inorganic materials 0.000 claims abstract description 123
- 239000010959 steel Substances 0.000 claims abstract description 123
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 53
- 239000008234 soft water Substances 0.000 claims abstract description 33
- 239000000498 cooling water Substances 0.000 claims abstract description 32
- 238000005507 spraying Methods 0.000 claims abstract description 13
- 239000007921 spray Substances 0.000 claims description 46
- 230000000694 effects Effects 0.000 claims description 9
- 230000001133 acceleration Effects 0.000 claims description 7
- 238000004781 supercooling Methods 0.000 claims description 6
- 230000003068 static effect Effects 0.000 claims description 3
- 238000006243 chemical reaction Methods 0.000 claims description 2
- 238000007664 blowing Methods 0.000 abstract 1
- 230000009466 transformation Effects 0.000 abstract 1
- 238000005406 washing Methods 0.000 abstract 1
- 238000005516 engineering process Methods 0.000 description 8
- 238000010586 diagram Methods 0.000 description 7
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- 238000010926 purge Methods 0.000 description 2
- RMLPZKRPSQVRAB-UHFFFAOYSA-N tris(3-methylphenyl) phosphate Chemical compound CC1=CC=CC(OP(=O)(OC=2C=C(C)C=CC=2)OC=2C=C(C)C=CC=2)=C1 RMLPZKRPSQVRAB-UHFFFAOYSA-N 0.000 description 2
- 230000015572 biosynthetic process Effects 0.000 description 1
- 238000004140 cleaning Methods 0.000 description 1
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- 239000002184 metal Substances 0.000 description 1
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- 239000008400 supply water Substances 0.000 description 1
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Abstract
The invention relates to a method for improving the ultra-fast cooling uniformity of a medium and heavy plate after rolling, the position of a jet flow header can be reasonably adjusted, and the method is characterized in that, 1) the position of an upper header is set as follows: an ultra-fast cooling upper header framework is adjusted up and down in the vertical direction, and the conditions of the formula: Hu*tg(theta)=Hd*tg(theta)+D are met; 2) the setting of a soft water seal of a washing water region on the upper surface of a steel plate meets the conditions of the formula: 1/2*the sum of flow rates of all forward headers in the region<water amount of the soft water seal<2*the sum of the flow rates of all the forward headers in the region; 3) the flow rate of a lower header is increased to compensate the heat exchange capacity of the lower surface, and the optimal ratio of water supply to water discharge is set to be between 1: 1.1 and 1: 2.5; 4) the measure of clearing residual cooling water on the upper surface is taken, side spraying devices are arranged on the two sides of an ultra-fast cooling roller table, a middle spraying device is arranged on the upper header framework and strong blowing devices are arranged at the two ends of the ultra-fast cooling device; and 5) the head and tail shading control of the speed of the roller table is performed as follows: an ultra-fast cooling control system is used for transformation control of the speed of the roller table of a steel plate head and a tail part low-temperature region according to a speed curve. By adopting the method, the cooling uniformity of a steel plate of the medium and heavy plate after rolling under ultra-fast cooling condition can be realized.
Description
Technical field
The present invention relates to the process for cooling of steel rolling, specifically is the improvement method that a kind of cut deal rolls the supper-fast cooling uniformity in back.
Background technology
In recent years, cut deal rolls back control cooling technology and has been subjected to people and more and more payes attention to.Meanwhile, along with chilling temperature develops to low-temperature space, cooldown rate improves, because residual stress and plate shape problem that inhomogeneous cooling brings are particularly outstanding.We can say that the plate shape control under the high cooldown rate situation has become the bottleneck problem of utilizing the TMCP technology to carry out the high-strength steel exploitation.If do not adopt effective cooling uniformity to improve measure, roll under the supper-fast cooling condition in back at cut deal, will produce the even problem of serious inhomogeneous cooling, even cause comparatively serious plate shape problem.Reason is that under supper-fast cooling condition cut deal is with the speed of service operation of 0.5~2.0m/s, and cooling water sprays heat exchange along the direction of steel plate operation to surface of steel plate with the speed of about 6~20m/s by certain angle.With this understanding, the lower collector pipe cooling water is stopped by roller-way, and flow into the gutter under the effect of gravity.Meanwhile, the upper header cooling water can not in time be cleared out of the steel plate upper surface, and it will form comparatively strong heat exchange with surface of steel plate so that very fast speed is mobile to the steel plate traffic direction rapidly along the steel plate upper surface.At this moment, the steel plate lower surface that leaves ultrafast cool region conducts heat exchange based on air cooling with the heat of roller-way, and the steel plate upper surface is under the secondary heat exchange state of high speed flush water and residual water, causes steel plate upper and lower surface heat exchange inequality.In addition, often there are low-temperature zone in the head and the afterbody that roll the back steel plate, and traditional laminar flow type of cooling adopts changes in flow rate or collector to open and close and realizes the steel plate special control of low-temperature zone end to end, reduces cooling water to steel plate sub-cooled end to end.And for supper-fast cooling system, way of supplying water adopts pump directly to supply water usually, will cause greater impact to the stability of water system as adopting changes in flow rate or collector to open and close, and influences the stability of cooling system.
Summary of the invention
The purpose of this invention is to provide a kind of be used to improving the method that cut deal rolls the supper-fast cooling uniformity in back, by reasonable adjustment jet collector position, set up " soft water envelope ", optimize water ratio up and down, utilize side spray, middle spray and blow device to remove surperficial residual water and the control of optimization roller table speed, realize that cut deal rolls the steel plate cooling uniformity under the supper-fast cooling condition in back.
The present invention is used for improving the method that cut deal rolls the supper-fast cooling uniformity in back, Ultrafast cooling device adopts the jet impulse heat exchange, it is characterized in that one is that the upper header position arranges: it is static relatively that ultrafast cold upper header framework is designed to horizontal direction, and vertical direction is by mechanical leading screw and the upper and lower adjustment of hydraulic system; The upper frame desired location calculates by this formula: D be upper header and lower collector pipe the center line of vertical direction along roll to distance, H
dBe the distance of lower collector pipe jet exit apart from the roller-way upper surface, H
uBe the distance of upper header jet exit apart from the roller-way upper surface, θ is the angle of jet impulse and vertical direction, and above-mentioned parameter satisfies the condition shown in this formula: H
u* tg (θ)=H
d* tg (θ)+D.
The 2nd, the setting principle of steel plate upper surface flush water zone " soft water envelope ": the measure of (1) " soft water envelope " be in supper-fast cooling zone with collector along level and forward collector towards opposed; (2) principle is determined in " soft water envelope " zone of action: 1~3 group of forward collector+1 group " soft water envelope "; (3) " soft water envelope " flow is determined principle: the flow of " soft water envelope " is set separately according to concrete process for cooling, satisfies this formula condition: all forward collector flow sums in all forward collector flow sums in 1/2 * one's respective area<" soft water envelope " water yield<2 * one's respective area;
The 3rd, increase the lower collector pipe flow lower surface exchange capability of heat is compensated, the setting of water ratio and collector flow, roller table speed and steel plate thickness are closely related up and down, and optimum water up and down is than within the scope that is set in 1:1.1~1:2.5;
The 4th, the removal measure of the remaining cooling water of upper surface: (1) side-spraying device amounts to 4 covers, every covering device is made up of 3 nozzles, wherein 2 cover side-spraying devices are symmetrically arranged on the dash backplate of ultrafast cold entrance roller-way both sides, and 2 cover side-spraying devices are symmetrically arranged on the dash backplate of ultrafast cold outlet roller-way both sides in addition; Side-spraying device is realized the staggered of side water spray by adjusting nozzle angle, makes the side water spray impact remaining cooling water in offside 2/3rds steel plate surface area along the steel plate width direction, and remaining cooling water is cleared out of the steel plate upper surface from offside steel plate limit portion; (2) spray apparatus amounts to 4 covers in, and every covering device is made up of 2 nozzles.Spray apparatus is with on the upper frame of 3~4 groups of collectors in interval along the rolling centerline interlaced arrangement in Ultrafast cooling device in per 2 covers, the middle water spray outlet height distance roller-way about 300~500mm in surface, the middle water spray broad ways of spray apparatus ejection is impacted the remaining cooling water of 1/2nd steel plate upper surfaces at a certain angle in every cover, and it is cleared out of the steel plate upper surface; Side water spray and middle water spray pressure are that 1.2MPa, flow velocity are about 40m/s; (3) powerful blow device is 2 groups and is arranged in ultrafast device for cooling entrance and the ultrafast device for cooling outlet outside respectively, be across on the roller-way perpendicular to rolling direction, vertical range apart from roller-way is 800mm~1200mm, every group of powerful blow device is made up of a plurality of small nozzles, compressed air blows to the remaining cooling water of steel plate upper surface with edge, certain inclination angle, the removing effect of powerful blow device is covered in whole surface of steel plate, can play the effect of thorough removing for the small portion of residual cooling water;
The 5th, roller table speed cover control end to end: ultrafast cold control system adopts the designed speed of service of rate curve control steel plate in the cooling zone, steel plate head and afterbody low-temperature space are carried out the conversion control of roller table speed, improve steel plate head and enter the cooling zone, afterbody leaves the roller-way speed of service of cooling zone to reduce steel plate degree of supercooling end to end, adopts the little acceleration of roller-way to eliminate the bulk temperature gradient of steel plate length direction simultaneously when the plate body passes through the cooling zone.
Entered since 21 century, both at home and abroad roller author will have the cut deal of material impact to roll afterwards supper-fast cooling technology to the final tissue of product and performance to further investigate.Northeastern University's rolling technique and tandem rolling automation National Key Laboratory under the guidance of TMCP technological thought of new generation, unremitting research and the exploration of carrying out Ultrafast cooling device and technology.2010, Northeastern University's rolling technique and tandem rolling automation National Key Laboratory develop intensity of cooling height, advanced supper-fast cooling system that cooling uniformity is good (Advanced Cooling System, ADCOS-PM).Its basic principle is to adopt the high-pressure spray impingement heat transfer, realizes raising and each improvement to cooling uniformity of steel plate of the instantaneous intensity of cooling of steel plate.Pass through rationally to adjust Ultrafast cooling device upper header position among the present invention, set up " soft water envelope ", optimize water ratio up and down, adopt facilities such as side spray, middle spray, purging to remove surperficial residual water and the little acceleration control of ultrafast cold control system employing roller-way, eliminate the bulk temperature gradient of length direction, realized cut deal roll under the supper-fast cooling condition in back steel plate each to cooling uniformity.
Reasonable Arrangement " soft water envelope " quantity and position can also be avoided steel plate upper surface cooling water formation " tank " in the ultrafast cool region effectively, and residual water is thicker in " tank ", and it will hinder the upper header water jets to the percussion of steel plate upper surface.Simultaneously, the cooling water in " tank " will soak the steel plate upper surface, and with surface of steel plate generation film boiling and transition boiling, it is even to produce inhomogeneous cooling.And " soft water envelope " technology is divided into the thinner zone of several water layers with " tank ", and the impact water that flows out from collector can effectively be broken it like this, forms the impingement heat transfer that intensity of cooling is high and cooling uniformity is good with surface of steel plate.
Description of drawings
Fig. 1 a is that zero point is adjusted schematic diagram in the upper frame position;
Fig. 1 b is to be that the steel plate of h carries out upper frame set positions schematic diagram at the thickness specification;
Fig. 2 is the water spray collector schematic diagram that adopts " soft water envelope " method to arrange;
Fig. 3 is upper and lower surface heat exchange regional correlation schematic diagram;
Fig. 4 is remaining cooling water cleaning measure schematic diagram;
Fig. 5 rolls back cooling metal sheets roller table speed control tendency chart;
Fig. 6 is the roller table speed curve synoptic diagram of steel plate after rolling;
Fig. 7 steel plate length direction temperature distributing curve diagram.
The specific embodiment
The present invention is used for improving the method that cut deal rolls the supper-fast cooling uniformity in back, Ultrafast cooling device adopts the jet impulse heat exchange, it is characterized in that 1. upper header Position Control: it is static relatively that ultrafast cold upper header framework is designed to horizontal direction, and vertical direction can carry out upper and lower adjustment by mechanical leading screw and hydraulic system.Computational methods and the set-up procedure of upper frame zeroing and set positions are as follows:
(1) fixedly upper header center line and lower collector pipe center line along the distance B of rolling direction;
(2) fixing nozzle tip down is apart from the distance H on roller-way surface
d
(3) lower collector pipe is impacted the steel plate lower surface with the inclination angle of θ, then lower collector pipe jet impulse point apart from lower collector pipe center line edge roll to distance H
d* tg (θ), as shown in Figure 1a.
(4) same upper header impacts the steel plate upper surface with the inclination angle of θ, then upper header jet impulse point apart from upper header center line edge roll to distance H
u* tg (θ);
(5) for guaranteeing the impingement heat transfer zone symmetry of steel plate upper and lower surface, then must satisfy H
u* tg (θ)=H
d* tg (θ)+D;
(6) when the steel plate that to thickness is h cooled off, the upper header height H was set at: H=H
d+ h is shown in Fig. 1 b.
2. steel plate upper surface flush water Region control
As shown in Figure 2, for solving the serious inhomogeneous cooling problem of cooling zone outlet steel plate upper and lower surface, the present invention is cut apart supper-fast cooling zone with " soft water envelope " technology, make swiftly flowing cooling water be fixed within certain zone, avoid steel plate to leave ultrafast cold outlet back cooling water to the secondary cooling effect of steel plate upper surface.
The setting principle of " soft water envelope " technology is as follows:
(1) " soft water envelope " namely arranges reverse collector in supper-fast cooling zone, arranges collector towards on the contrary along level and forward collector;
(2) principle is determined in " soft water envelope " zone of action: 1~3 group of forward collector+1 group " soft water envelope ";
(3) " soft water envelope " flow is determined principle: the flow of " soft water envelope " collector is set separately according to concrete process for cooling, generally is set at all forward collector flow sums in all forward collector flow sums in 1/2 * one's respective area<" soft water envelope " water yield<2 * one's respective area.
As shown in Figure 2, under the acting in conjunction of forward collector and " soft water envelope " reverse collector, heat exchange in the cooling zone between steel plate upper surface and the cooling water is divided into following zone, and A district and E district are forward collector and " soft water envelope " reverse formed cooled region of collector; The B district is for the jet impulse heat exchange and wash away the heat exchange zone; The C district is jet impulse heat exchange, flush water heat exchange and " little tank " coefficient heat exchange zone; The D district is " soft water envelope " reverse collector residual water heat exchange zone afterwards; The F district is the air cooling zone behind the ultrafast device for cooling.
3. water ratio control up and down
When steel plate passes through the cooling zone, the steel plate upper surface experiences the cooled region that is formed jointly by forward collector and " soft water envelope " repeatedly, be jet impulse heat exchange zone A and by flush water zone of action B and impingement heat transfer, wash away the mixed heat transfer zone C that heat exchange and residual water cause, as shown in Figure 3.The steel plate lower surface then experiences the regional G of heat conduction heat exchange and the regional H of air cooling heat exchange that jet impulse heat exchange zone D, flush water heat exchange zone E, residual water heat exchange zone F, roller-way contacts with steel plate repeatedly.The heat exchange mode that the steel plate upper and lower surface experiences is not quite similar, and under equal conditions the heat exchange of steel plate upper surface is far longer than the heat exchange of steel plate lower surface.
For realizing the symmetrical heat exchange of steel plate upper and lower surface, need to increase the lower collector pipe flow so that the lower surface exchange capability of heat is compensated.And technological procedure parameter such as the ratio that goes up the lower collector pipe flow and collector water jets flow, the roller-way speed of service and steel plate thickness, width equidimension specification are closely related, and reasonably lower collector pipe and the upper header water yield are than controlling within the scope of 1:1.1~1:2.5 usually.
4. the removal measure of the remaining cooling water of upper surface
The enforcement of above-mentioned measure has ensured the cooling uniformity of steel plate in inside, cooling zone, but still have and cooling water flow out of on a small quantity beyond the cooling zone, remaining cooling water carries out unordered flowing at surface of steel plate, with surface of steel plate unsettled heat exchange takes place, and causes the surface of steel plate inhomogeneous cooling even.The present invention adopts side spray, middle spray and the powerful compound mode that purges to remove remaining cooling water.As shown in Figure 4, B and E are side-spraying device among the figure.Side-spraying device amounts to 4 covers, and every covering device is made up of 3 nozzles.Wherein 2 cover entrance side spray apparatus B are symmetrically arranged on the dash backplate of ultrafast cold entrance roller-way both sides, and 2 cover outlet side spray apparatus E are symmetrically arranged on the dash backplate of ultrafast cold outlet roller-way both sides in addition.Side-spraying device B and E realize the staggered of side water spray by adjusting nozzle angle, make the side water spray impact remaining cooling water in offside 2/3rds steel plate surface area along the steel plate width direction, and remaining cooling water is cleared out of the steel plate upper surface from offside steel plate limit portion; Side water spray pressure is that 1.2MPa, flow velocity are about 40m/s.
As shown in Figure 4, C and D are middle spray apparatus among the figure.Middle spray apparatus amounts to 4 covers, and every covering device is made up of 2 nozzles.In 2 covers in spray apparatus C and 2 covers on the upper frame of spray apparatus D along the rolling centerline interlaced arrangement in Ultrafast cooling device, spray apparatus is middle with 3~4 groups of collectors at interval in two covers, the middle water spray outlet height distance roller-way about 300~500mm in surface, the middle water spray broad ways of spray apparatus ejection is impacted the remaining cooling water of 1/2nd steel plate upper surfaces at a certain angle in every cover, and it is cleared out of the steel plate upper surface; Middle water spray pressure is that 1.2MPa, flow velocity are about 40m/s.A and F are powerful blow device among Fig. 4.Powerful blow device is 2 groups and is arranged in ultrafast device for cooling entrance and the ultrafast device for cooling outlet outside respectively, be across on the roller-way perpendicular to rolling direction, vertical range apart from roller-way is 800mm~1200mm, every group of powerful blow device is made up of a plurality of small nozzles, compressed air blows to the remaining cooling water of steel plate upper surface with edge, certain inclination angle, the removing effect of powerful blow device is covered in whole surface of steel plate, can play the effect of thorough removing for the small portion of residual cooling water.
5. that adjusts roller table speed covers control end to end
The present invention with control more flexibly roller table speed as control object, ultrafast cold control system is to the steel plate roller-way enforcement acceleration control of low-temperature region end to end, and there is " the head height tail is low " Temperature Distribution when entering the cooling zone at steel plate plate body along its length, adopt the little acceleration control of roller-way to be conducive to eliminate the bulk temperature gradient of length direction, prevent cold back temperature control result's fluctuation.
Figure 5 shows that steel plate in whole roller table speed curve design of rolling in the cooling procedure of back, steel plate throws steel after rolling and cooling procedure speed experiences following several zone.The velocity variations trend of steel process is thrown for rolling the back by the A district, from finishing mill, run to the throwing steel speed of 2~5m/s at rolled steel plate and to roll the back runout table, be reduced to the process for cooling roller-way speed of service in the runout table upper steel plate speed of service by throwing steel speed, be about 0.5~2m/s.B dodges the zone for steel plate head super cooled sect speed in the district, in B district light plate head enters into the supper-fast cooled region of opening collector.At this moment, suitably improve 1.3~1.7 times of the roller-way speed of service that the steel plate speed of service sets to normal process for cooling and keep time (look steel plate degree of supercooling can adjust) end to end about 3~5s.After this, the steel plate speed of service is reduced to conventional operation speed 0.5~2.0m/s, and continues little speed Control in plate body cooling procedure, wherein in little speed-change process the Acceleration Control scope be+0.02~-0.02m/s2, to eliminate steel plate thermograde longitudinally, shown in C district among Fig. 5; When the steel plate afterbody leaves when opening collector regional, similar with the rate control process of steel plate head, 1.3~1.7 times and the time that keeps 3~5s of the roller-way speed of service 0.5~2.0m/s that normal process for cooling is set, increase roller table speed to reduce the degree of supercooling of steel plate afterbody, shown in D district among Fig. 5.After the steel plate afterbody left ultrafast cool region, steel plate was transported to the aligning zone with fast speed, shown in E district among Fig. 5.
Embodiment
The heat (batch) number of producing with domestic certain steel mill is that 0313400000 pipe line steel is example, and its concrete specification is 17.2mm * 3403mm * 39750mm, and the target process parameter of cooling procedure is as shown in table 1.
Table 1
According to the process for cooling requirement, the control model should be set at H with the upper header frame height
0+ h=348.5+17.5=366mm, its corresponding cooling rules are set as shown in table 2 simultaneously.In order to realize steel plate longitudinal temperature uniformity, the steel plate speed of service sets value as shown in Figure 6.
Table 2
Above-mentioned cooling rules are carried out by the basic automatization control system, and the actual glacing flatness of steel plate is much smaller than the target call of 8mm/m.As shown in Figure 7, length direction 95% above temperature is controlled in distance objective and returns within the temperature range of red temperature ± 25 ℃.
Claims (5)
1. one kind is used for improving the method that cut deal rolls the supper-fast cooling uniformity in back, Ultrafast cooling device adopts the jet impulse heat exchange, it is characterized in that one is that the upper header position arranges: ultrafast cold upper header framework horizontal direction is static relatively, the upper and lower adjustment of vertical direction, the upper frame desired location calculates by this formula: H
u* tg (θ)=H
d* tg (θ)+D;
The upper frame desired location is set D in the formula be upper header and lower collector pipe the center line of vertical direction along roll to distance, H
dBe the distance of lower collector pipe jet exit apart from the roller-way upper surface, H
uBe the distance of upper header jet exit apart from the roller-way upper surface, θ is the angle of jet impulse and vertical direction;
The 2nd, the setting principle of steel plate upper surface flush water zone " soft water envelope ": the measure of (1) " soft water envelope " be in supper-fast cooling zone with collector along level and forward collector towards arranging on the contrary; (2) principle is determined in " soft water envelope " zone of action: 1~3 group of forward collector+1 group " soft water envelope "; (3) " soft water envelope " flow is determined principle: the flow of " soft water envelope " is set separately according to concrete process for cooling, satisfies this formula condition: all forward collector flow sums in all forward collector flow sums in 1/2 * one's respective area<" soft water envelope " water yield<2 * one's respective area;
The 3rd, increase the lower collector pipe flow lower surface exchange capability of heat is compensated, the setting of water ratio and collector flow, roller table speed and steel plate thickness are closely related up and down, and water is than within the scope that is set in 1:1.1~1:2.5 up and down;
The 4th, the removal measure of the remaining cooling water of upper surface: (1) per two groups of side-spraying devices are symmetrically arranged in respectively on the dash backplate of ultrafast cold entrance and exit roller-way both sides, and every group of side-spraying device broad ways impacted the remaining cooling water of upper surface opposite to each other from steel plate opposite side portion; (2) in per two groups spray apparatus at interval 3~4 groups of collectors be arranged on the upper frame of Ultrafast cooling device along rolling centerline, middle water spray outlet height distance roller-way surface 300~500mm, broad ways mind-set dual-side portion from steel plate impacts the remaining cooling water of steel plate upper surface; (3) 2 groups of powerful blow devices are arranged in ultrafast device for cooling entrance and the ultrafast device for cooling outlet outside opposite to each other respectively, be across on the roller-way perpendicular to rolling direction, vertical range apart from roller-way is 800mm~1200mm, can play the effect of thorough removing for the small portion of residual cooling water;
The 5th, roller table speed cover control end to end: ultrafast cold control system adopts the designed speed of service of rate curve control steel plate in the cooling zone, steel plate head and afterbody low-temperature space are carried out the conversion control of roller table speed, improve steel plate head and enter the cooling zone, afterbody leaves the roller-way speed of service of cooling zone to reduce steel plate degree of supercooling end to end, adopts the little acceleration of roller-way to eliminate the bulk temperature gradient of steel plate length direction simultaneously when the plate body passes through the cooling zone.
2. according to claim 1 be used to improving the method that cut deal rolls the supper-fast cooling uniformity in back, it is characterized in that side-spraying device amounts to 4 covers, every covering device is made up of 3 nozzles, wherein 2 cover entrance side spray apparatus B are symmetrically arranged on the dash backplate of ultrafast cold entrance roller-way both sides, and 2 cover outlet side spray apparatus E are symmetrically arranged on the dash backplate of ultrafast cold outlet roller-way both sides in addition; Side-spraying device B and E realize the staggered of side water spray by adjusting nozzle angle, make the side water spray impact remaining cooling water in offside 2/3rds steel plate surface area along the steel plate width direction, and remaining cooling water is cleared out of the steel plate upper surface from offside steel plate limit portion; Side water spray pressure is that 1.2MPa, flow velocity are about 40m/s.
3. according to claim 1 spray apparatus amounts to 4 covers in it is characterized in that be used to improving the method that cut deal rolls the supper-fast cooling uniformity in back, and spray apparatus is made up of 2 side nozzles in every cover; In 2 covers in spray apparatus C and 2 covers on the upper frame of spray apparatus D along the rolling centerline interlaced arrangement in Ultrafast cooling device, spray apparatus is middle with 3~4 groups of collectors at interval in two covers, middle spray apparatus passes through to adjust nozzle angle, under the effect of 1.2MPa pressure, and the about 40m/s of middle water spray flow velocity.
4. according to claim 1 be used to improving the method that cut deal rolls the supper-fast cooling uniformity in back, it is characterized in that every group of powerful blow device be made up of a plurality of small nozzles, compressed air with in opposite directions inclination angle along the steel plate upper surface blown to inside, cooling zone, the removing effect of powerful blow device is covered in whole surface of steel plate.
5. according to claim 1 be used to improving the method that cut deal rolls the supper-fast cooling uniformity in back, it is characterized in that steel plate head enters in the supper-fast cooled region of opening collector, improve the steel plate speed of service to 1.3~1.7 times and the time that keeps 3~5s of the roller-way speed of service 0.5~2.0m/s of normal process for cooling setting, look steel plate end to end degree of supercooling adjust; After this, the steel plate speed of service is reduced to conventional operation speed 0.5~2.0m/s, and continues little speed Control in plate body cooling procedure, wherein in little speed-change process the Acceleration Control scope be+0.02~-0.02m/s
2, to eliminate steel plate thermograde longitudinally; When the steel plate afterbody leaves when opening collector regional, similar with the rate control process of steel plate head, 1.3~1.7 times and the time that keeps 3~5s of the roller-way speed of service 0.5~2.0m/s that normal process for cooling is set, increase roller table speed to reduce the degree of supercooling of steel plate afterbody.
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Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2000192146A (en) * | 1998-12-22 | 2000-07-11 | Sumitomo Metal Ind Ltd | Method for cooling steel plate and device therefor |
JP3656707B2 (en) * | 1998-07-28 | 2005-06-08 | Jfeスチール株式会社 | Controlled cooling method for hot rolled steel sheet |
CN102019296A (en) * | 2009-09-15 | 2011-04-20 | 鞍钢股份有限公司 | Controlled cooling method for rolled high-carbon steel wire rod |
-
2011
- 2011-10-14 CN CN 201110312196 patent/CN102371283B/en not_active Expired - Fee Related
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3656707B2 (en) * | 1998-07-28 | 2005-06-08 | Jfeスチール株式会社 | Controlled cooling method for hot rolled steel sheet |
JP2000192146A (en) * | 1998-12-22 | 2000-07-11 | Sumitomo Metal Ind Ltd | Method for cooling steel plate and device therefor |
CN102019296A (en) * | 2009-09-15 | 2011-04-20 | 鞍钢股份有限公司 | Controlled cooling method for rolled high-carbon steel wire rod |
Non-Patent Citations (6)
Title |
---|
中厚板快速冷却过程中的温度均匀性控制;李国强等;《宽厚板》;20090430(第02期);第23-24页 * |
中厚板轧后控冷系统及其应用;詹胜利等;《轧钢》;20050830(第04期);第33-35页 * |
提高中厚板控制冷却精度的策略;胡加洪等;《材料与冶金学报》;20031225(第04期);第307-311页 * |
李国强等.中厚板快速冷却过程中的温度均匀性控制.《宽厚板》.2009,(第02期),第23-24页. |
胡加洪等.提高中厚板控制冷却精度的策略.《材料与冶金学报》.2003,(第04期),第307-311页. |
詹胜利等.中厚板轧后控冷系统及其应用.《轧钢》.2005,(第04期),第33-35页. |
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