CN1502432A - Blank drawing technology for crystallizer of conticaster and special crystallizer structure - Google Patents

Abstract

The present invention provides a blank-drawing process of continuous casting machine crystallizer and its special-purpose crystallizer structure. Said process adopts a crystallizer capable of producing enough elastic deformation under the action of external force. When the steel blank is slided downward in the crystallizer, it can make the wide-edge copper plate of crystallizer produce an outward small transverse displacement, and when the steel blank is slided upward in the crystallizer, it can make the wide-edge copper plate of crystallizer produce an inward small transverse displacement, so that it can make crystallizer have large inverted taper and have higher capacity of heat transmission so as to raise blank-drawing speed and quality.

Description

A kind of billet withdrawing technology of conticaster crystallizer and special-purpose crystallizer structure thereof

Technical field

The architecture advances that the present invention relates to a kind of continuous casting of iron and steel production technology and use the special crystallizer of this technology.

Background technology

Continuous casting is the main mode of production that modern steel is produced, and conticaster is a special equipment of realizing this mode, and crystallizer is the core component of conticaster, the performance of crystallizer, the output of decision casting machine, the quality of steel billet and cast steel grade.

The plate slab crystallizer that existing conticaster is adopted is a fourplatemold, its structure is to be combined by two broadside copper coins and two narrow limit copper coins, in stable casting process, its geometry is constant, crystallizer is just adjusted copper coin position, narrow limit when changing width of plate slab, after adjusting width and tapering, crystallizer broadside copper coin is by hydraulic locking cylinder, in steel pouring process, crystallizer vibrates on the direction of motion that is parallel to molten steel (steel billet), be changeless perpendicular to the molten steel direction of motion, the relative position of copper plate of crystallizer is constant; For preventing the steel billet bleedout, the tapering of crystallizer dare not be transferred too greatly, causes the potential capacity of heat transmission of crystallizer not bring into play; For thin slab mold, also there is the problem that is easy to generate quality such as bridging, segregation; Because thin slab mold is easy to generate quality problems, so the steel grade of cast is restricted.

Molten steel solidifying in conticaster crystallizer is a heat that discharges and transmittance process.Heat release becomes and to solidify the base shell while moving.Form the quite long strand of liquid core.Conticaster can be divided into three heat transfer cooling zones:

1) the primary cooling zone molten steel forms enough base shells in crystallizer, to guarantee not bleedout;

2) the secondary cooling zone water spray solidifies strand to quicken the transmission of strand internal heat fully;

3) three cooling zone strands radiant heat transfer in air;

The process of setting of molten steel in crystallizer is very complicated, because the strong cooling effect of copper wall, molten steel just begins to be frozen into shell under the meniscus level, scull is along with throwing motion decline progressive additive, the scull cooling is shunk with the copper wall and is broken away from and the generation air gap, thereby weaken the cooling effect of crystallizer, continue it, scull has part to contact again with the copper wall under the ferrostatic pressure effect.In vertically air gap formation, disappearance, forming, be interruption and occur, answer the also variation thereupon of this hot-fluid on the copper wall.Hot transfer route is in the crystallizer: molten steel---solidified shell---air gap---copper wall---cooling agent (cooling water).Wherein the biggest obstacle of Chuan Reing is an air gap.For reducing the air gap influence, improve the heat-conducting effect of crystallizer, the base shell is tending towards evenly with fixed attention, crystallizer will have suitable back draught.General back draught is 0.5～1.0%, and the crystallizer that back draught is big is derived more heat, but the resistance of throwing is along with increase; Excessive back draught meeting base shell drawing crack (transverse crack occurring), strand can be stuck in the crystallizer when serious.

Summary of the invention

The present invention is directed to the existing problem of billet withdrawing technology of above-mentioned conticaster crystallizer, propose a kind ofly can improve casting speed and prevent bleedout, avoid producing the throwing new technology of conticaster crystallizer of the problem of quality such as bridging, segregation, and further propose a kind of new construction that can adapt to the crystallizer of this throwing new technology.

Technical scheme of the present invention is that the principle of solidifying when molten steel is carried out billet withdrawing technology in crystallizer is done to propose on the basis of deep study and analysis, and the inventor thinks; Improve casting speed and must the further ways such as air gap that reduce between base shell and the crystallizer copper wall reduce thermal resistance.Reduce thermal resistance and need increase back draught, back draught increases, and resistance of billet withdrawal increases, and the chance of bleedout increases greatly, so will try every possible means to reduce the resistance of throwing.The present invention proposes a kind of process that solves above-mentioned contradiction for this reason, promptly adopts a kind of crystallizer that can produce enough strains under the effect of external force, when steel billet when crystallizer glides, make the broadside copper coin of crystallizer produce one outside small traversing; When steel billet upwards slides in crystallizer, make the broadside copper coin of crystallizer produce one inside small traversing.Like this, can make crystallizer that bigger back draught is arranged, bigger back draught just has the bigger capacity of heat transmission, when when strand glides, force to make outside one small traversing, resistance of billet withdrawal is reduced, to reach the purpose that prevents bleedout; When steel billet upwards relatively slides, by force to give the broadside copper coin make one inside small traversing, put up a bridge to reduce, the generation of segregation phenomena.

In billet withdrawing technology of the present invention, the traversing amount of the broadside copper coin of described crystallizer generally is controlled in the scope into 0.01mm～1mm.

The present invention has designed a kind of crystallizer new construction that can implement above-mentioned billet withdrawing technology method well, this crystallizer is the same with existing crystallizer, also be to constitute the modular panel billet crystallizer by two broadside copper coins and two narrow limit copper coins, it is characterized in that said narrow limit copper coin for producing elastically-deformable elastomer under external force, thereby make crystallizer become " rigidity " very little what is called " soft crystallizer ".And broadside copper coin control is exerted pressure and lock crystallizer with servo hydraulic cylinder.This crystallizer employing servo hydraulic cylinder comes the broadside copper coin of control combination formula crystallizer, and the horizontal pressure of controllable variation can be provided the broadside copper coin, and it is traversing that the broadside copper coin is produced, to satisfy the requirement of billet withdrawing technology.

The elastomeric organization plan of said narrow limit copper coin is mainly a kind of structure that forms cavity in vivo, and has the wall that is interior curved arc or outer curved arc, and this cavity has cooling fluid input, delivery outlet, in order to import cooling fluid to cavity.The elastomeric chamber of copper coin, said narrow limit wall copper plate thickness can be 3mm～12mm.

The modular panel billet crystallizer that constitutes with the narrow limit copper coin of this structure and the combination of broadside copper coin, under the active force of servo hydraulic cylinder, this narrow limit copper coin can produce elastic deformation, thereby makes the broadside copper coin produce required traversing of technology.Simultaneously, because the cavity the inside can be satisfied at the throwing temperature conditions more than 1550 ℃ with the cooling fluid cooling, has the capacity of heat transmission the same with the broadside copper coin.

Description of drawings

Fig. 1 is the structural representation of conticaster crystallizer of the present invention;

Fig. 2 is that the A of Fig. 1 is to view;

Fig. 3, Fig. 4, Fig. 5 are respectively the elastomeric front view of a kind of narrow limit copper coin of the present invention, left view, vertical view;

Fig. 6, Fig. 7, Fig. 8 are respectively second kind of elastomeric front view of narrow limit copper coin of the present invention, left view, vertical view;

Fig. 9, Figure 10, Figure 11 are respectively the elastomeric front view of the third narrow limit copper coin of the present invention, left view, vertical view;

Figure 12, Figure 13, Figure 14 are respectively the 4th kind of elastomeric front view of narrow limit copper coin of the present invention, left view, vertical view;

The specific embodiment

Below in conjunction with accompanying drawing embodiments of the present invention are described in further detail:

Fig. 1 is a kind of Implementation Modes of the present invention, and Fig. 2 has shown structure of mould of the present invention.This structure of mould is combined by two narrow limit copper coins 1 and two broadside copper coins 2, and the outer wall that acts on broadside copper coin 2 by four servo hydraulic cylinders 3 makes it lock and is pressed into the modular panel billet crystallizer.The structure of two narrow limits of present embodiment copper coin 1 can be the elastomeric structure of narrow limit copper coin shown in Fig. 9,10,11, has a cavity 11 that is filled with cooling water in its body, this cavity is by cooling water intake 13 and delivery port 14, the cooling water that has fluctuation pressure to the cavity input.In two broadside copper coin bodies, also has the cavity 12 that is filled with cooling water.As shown in Figure 1, the crystallizer of this invention places on the Turbogrid plates 4, and 5 for driving the roller that steel billet moves.When carrying out billet withdrawing technology, molten steel is in the process that crystallizer glides, because the strong cooling effect of copper wall, molten steel just begins to be frozen into shell under the meniscus level, and scull is along with throwing motion decline progressive additive, and the scull cooling is shunk with the copper wall and broken away from and the generation air gap, in Fig. 1 model, 6 is not solidified molten steel, and 7 for solidifying steel billet, and 8 is air gap.In process of billet withdrawal, adopt following technology: when steel billet when crystallizer is upwards sliding, servo hydraulic cylinder increases extruding force to the broadside copper coin of crystallizer, make the broadside copper coin push the copper coin elastomer distortion of narrow limit, produce one inside small traversing, reduce thermal resistance to reduce the air gap between base shell and the copper wall; When steel billet in crystallizer during to lower slider, servo hydraulic cylinder reduces extruding force to the broadside copper coin of crystallizer, make the broadside copper coin produce one outside small traversing, the resistance of throwing is reduced.Want in this billet withdrawing technology, the back draught of crystallizer is 3%, and the traversing amount of crystallizer is 0.18mm, can improve casting speed and reach 10%.

The structure of described two narrow limit copper coins 1 also can adopt as Fig. 3,4,5 or as Fig. 6,7,8 or 3 kinds of elastomeric structures of narrow limit copper coin shown in Figure 12,13,14 each picture group, the structure of narrow limit of the present invention copper coin 1 also can adopt other structures, and the limit is not in above-mentioned disclosed structure.

Claims (5)

1. the billet withdrawing technology of a conticaster crystallizer, it is characterized in that when steel billet when crystallizer glides, make the broadside copper coin of crystallizer produce one outside small traversing; When steel billet upwards slides in crystallizer, make the broadside copper coin of crystallizer produce one inside small traversing.

2. billet withdrawing technology according to claim 1, the traversing amount that it is characterized in that the broadside copper coin of described crystallizer is 0.01mm～1mm.

3. an application rights requires the conticaster crystallizer of 1 described billet withdrawing technology, constitute the modular panel billet crystallizer by two broadside copper coins (2) and two narrow limit copper coins (1), it is characterized in that said narrow limit copper coin (1) for producing elastically-deformable elastomer under external force, with servo hydraulic cylinder to the broadside copper coin control exert pressure and lock crystallizer.

4. crystallizer according to claim 3, it is characterized in that said narrow limit copper coin elastomer, be a kind of structure that forms cavity in vivo, and have the wall that is interior curved arc or outer curved arc, this cavity has cooling fluid input, delivery outlet, in order to import cooling fluid to cavity.

5. crystallizer according to claim 4 is characterized in that the elastomeric chamber of copper coin, said narrow limit wall copper plate thickness is 3mm～12mm.

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