CN108247021B - Electroslag remelting device and method for producing composite roller by preheating consumable electrode - Google Patents

Electroslag remelting device and method for producing composite roller by preheating consumable electrode Download PDF

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CN108247021B
CN108247021B CN201810313328.7A CN201810313328A CN108247021B CN 108247021 B CN108247021 B CN 108247021B CN 201810313328 A CN201810313328 A CN 201810313328A CN 108247021 B CN108247021 B CN 108247021B
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consumable electrode
crystallizer
metal
metal consumable
roller
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CN108247021A (en
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常立忠
施晓芳
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Anhui University of Technology AHUT
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22DCASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
    • B22D19/00Casting in, on, or around objects which form part of the product
    • B22D19/16Casting in, on, or around objects which form part of the product for making compound objects cast of two or more different metals, e.g. for making rolls for rolling mills
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22DCASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
    • B22D23/00Casting processes not provided for in groups B22D1/00 - B22D21/00
    • B22D23/06Melting-down metal, e.g. metal particles, in the mould
    • B22D23/10Electroslag casting

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Abstract

The invention discloses an electroslag remelting device and method for producing a composite roller by preheating a consumable electrode, and belongs to the technical field of electroslag remelting. The invention comprises an eccentric crystallizer, a bottom water tank and a metal consumable electrode; the eccentric crystallizer comprises an upper crystallizer and a lower crystallizer, the diameter of the lower crystallizer is smaller than that of the upper crystallizer, the lower crystallizer is arranged at the lower part of the upper crystallizer, and the axes of the upper crystallizer and the lower crystallizer are not on the same straight line; the metal consumable electrode is arranged on the upper part of the upper crystallizer, the bottom water tank is arranged on the lower part of the lower crystallizer, and the metal consumable electrode and the bottom water tank are respectively connected with two poles of a power supply. According to the invention, through the eccentric design of the electroslag remelting crystallizer, the thickness of the material of the real working face can be flexibly adjusted; the outside of the metal consumable electrode is surrounded by the induction coil, so that the consumable electrode can be preheated in the remelting process, the melting of the electrode is accelerated, the surface layer of the roller core is prevented from being largely melted, and the roller core and the roller body are effectively welded.

Description

Electroslag remelting device and method for producing composite roller by preheating consumable electrode
Technical Field
The invention belongs to the technical field of electroslag remelting, and particularly relates to an electroslag remelting device and method for producing a composite roller by preheating a consumable electrode.
Background
Currently, the most typical and bimetallic composite materials are used more often as metallurgical rolls, which are the major large tools for rolling steel. If the roller is integrally made of high-hardness materials, the production cost is increased, and the machining difficulty of a non-working face is increased. For this reason, the bimetal composite material is produced at the same time, the working surface is made of a material with high hardness, good wear resistance and high price, while the non-working surface is made of a material with high toughness or good processing performance and relatively low price, for example, a high-speed steel roller, if the roller is made of an integral high-speed steel material, the cost is high; if a bimetal composite roller is adopted, namely the roller core adopts low alloy steel with lower price, and the roller body adopts high-speed steel, the cost is greatly reduced. In order to achieve the above objects, a great deal of basic research and technical development work is conducted by metallurgists, but at present, the manufacture of the bimetal composite roll does not achieve ideal effects.
Through retrieval, the invention has the name: a liquid electroslag roller compound device (application number: 201120453174.5, application date: 2011.11.16) comprises: the water-cooled crystallizer is provided with a channel with the inner diameter equivalent to the outer diameter of the preset composite layer of the roller to be compounded; and the upper part of the crystallizer is also provided with an intermediate holding furnace for pouring pre-melted metal liquid and slag liquid into a gap between the water-cooled crystallizer and the roller to be compounded inserted into the channel. This application is through setting up water-cooled crystallizer and to water-cooled crystallizer and waiting to topple over the middle holding furnace of fused metal liquid and slag bath in the clearance between the compound roll, just so can directly compound the roll, but the roll shaft material that the device produced and roll core material seam effect probably are unsatisfactory, and topple over the easy production of in-process metal liquid and mix with, influence the working face quality.
The roller is produced by adopting an electroslag remelting mode, and because an electroslag remelting technology is adopted, the surface of the roller core is always positioned in high-temperature slag, a thin melting layer is arranged on the surface of the roller core, and the melting layer is isolated from air under the protection of the high-temperature slag, so that the purity of the roller is ensured; meanwhile, the outer layer metal is slowly melted under the action of high-temperature slag and then welded with the surface of the roller core, but in the process of producing the composite roller by the existing electroslag remelting, the bimetal composite interface cannot be effectively welded.
Therefore, the bimetal composite roller is developed by an electroslag remelting method, is applied to the field of cold rolling, can greatly reduce the production cost of the cold rolling roller, can ensure that the bimetal composite roller conforms to the effective welding of an interface, and has important significance for the development of an electroslag technology.
Disclosure of Invention
1. Technical problem to be solved by the invention
The invention aims to overcome the problem that the existing bimetal composite roll production technology can not produce high-quality bimetal composite rolls efficiently, and provides an electroslag remelting device and a method for producing the composite rolls by preheating consumable electrodes.
2. Technical scheme
In order to achieve the purpose, the technical scheme provided by the invention is as follows:
the invention discloses an electroslag remelting device for producing a composite roller by preheating a consumable electrode, which comprises an eccentric crystallizer and a metal consumable electrode, wherein the eccentric crystallizer comprises an upper crystallizer and a lower crystallizer, the diameter of the lower crystallizer is smaller than that of the upper crystallizer, the lower crystallizer is arranged at the lower part of the upper crystallizer, the axes of the upper crystallizer and the lower crystallizer are not on the same straight line, the metal consumable electrode is arranged at the upper part of the upper crystallizer, and a heating part is arranged outside the metal consumable electrode and used for heating and preheating the metal consumable electrode.
Preferably, the heating member is an induction coil surrounding the exterior of the metal consumable electrode, the induction coil being for heating the metal consumable electrode.
Preferably, the frequency of the coil induction coil is 1-10 KHz.
Preferably, the upper crystallizer has a diameter of Φ and the lower crystallizer has a diameter of Φ
Figure BDA0001619019930000021
Figure BDA0001619019930000022
Preferably, the periphery of the upper crystallizer is provided with an electromagnetic stirring coil.
Preferably, the upper end of the lower crystallizer is connected with the lower part of the opening side of the upper crystallizer, and the metal consumable electrode is arranged above the smelting side of the upper crystallizer.
Preferably, the diameter of the upper crystallizer is phi, the distance from the axis of the metal consumable electrode to the circle center of the upper crystallizer is D1, and 1/2 phi is more than D1 and is more than or equal to 1/4 phi; the distance from the axis of the lower crystallizer to the circle center of the upper crystallizer is D2, and 1/2 phi is more than D2 and is more than or equal to 1/4 phi.
Preferably, a flow guide dam is arranged between the opening side and the smelting side.
Preferably, a vibration mechanism is externally arranged at the upper part of the lower crystallizer.
The method for producing the composite roller by adopting the electroslag remelting device comprises the steps of taking a roller core as inner layer metal of the composite roller, inserting the bottom of a metal consumable electrode into an upper crystallizer, preheating the metal consumable electrode by a heating part, and accelerating the melting of the metal consumable electrode and welding the metal consumable electrode on the surface of the roller core to obtain the composite roller.
3. Advantageous effects
Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects:
(1) the invention relates to an electroslag remelting device for producing a composite roller by preheating a consumable electrode, wherein a crystallizer of the electroslag remelting device is an eccentric crystallizer and is divided into an upper crystallizer and a lower crystallizer, the diameter of the lower crystallizer is smaller than that of the upper crystallizer, the lower crystallizer is arranged at the lower part of the upper crystallizer, and the axes of the upper crystallizer and the lower crystallizer are not on the same straight line, so that the metal consumable electrode is not influenced by the position and the size of a roller core in the smelting process, and the thickness of the working surface of the roller can be adjusted freely; the outside of the metal consumable electrode is surrounded by the induction coil, so that the consumable electrode can be preheated in the remelting process, the melting of the electrode is accelerated, the retention time of the roller core in a slag pool is reduced, the surface layer of the roller core is prevented from being largely melted, and the roller core and the roller body can be effectively welded.
(2) According to the electroslag remelting device for producing the composite roller by preheating the consumable electrode, the electromagnetic stirring coil is arranged on the periphery of the eccentric crystallizer, and the electromagnetic stirring coil is arranged from the upper end area of the lower crystallizer to the top end of the upper crystallizer, so that the metal consumable electrode is stirred in the remelting process in the slag bath of the upper crystallizer, the temperature of the slag bath is uniform, and meanwhile, the working surface material of the roller can be more uniformly coated on the surface of the roller core of the roller.
(3) The electroslag remelting device for producing the composite roller by preheating the consumable electrode is characterized in that an electromagnetic stirring coil is arranged on the periphery of an eccentric crystallizer, the electromagnetic stirring coil is arranged in the range from the upper end area of a lower crystallizer to the top end of the upper crystallizer, the flowing of molten metal in the area is accelerated by electromagnetic stirring in the upper end area of the lower crystallizer, a molten pool can refine grains, and the solidification quality of the working surface of the roller is improved.
(4) According to the electroslag remelting device for producing the composite roller by preheating the consumable electrode, the guide dam is arranged at the edge of the opening side in the upper crystallizer, molten metal near the metal consumable electrode can be guided to a far position through the guide dam, the coating of the roller core deviating from the working layer of the roller on the metal consumable electrode surface is accelerated, and the material of the working surface of the roller is promoted to be coated on the surface of the roller core more uniformly.
(5) The electroslag remelting device for producing the composite roller by preheating the consumable electrode is characterized in that a vibration mechanism is arranged outside the upper end of a lower crystallizer, and molten pool crystal grains are refined through vibration to strengthen the quality of a working surface of the roller.
(6) The method for producing the composite roller by adopting the electroslag remelting device comprises the steps of taking a roller core as inner layer metal of the composite roller, inserting the bottom of a metal consumable electrode into an upper crystallizer, preheating the metal consumable electrode by a heating part, accelerating the melting of the metal consumable electrode, reducing the retention time of the roller core in a slag bath, accelerating the melting of the metal consumable electrode and welding the metal consumable electrode on the surface of the roller core, and realizing the uniform coating of a working surface material on the surface of the roller core.
Drawings
FIG. 1 is a schematic structural diagram of an electroslag remelting device for preheating a consumable electrode to produce a composite roll according to the present invention;
FIG. 2 is a top view of an electroslag remelting apparatus for preheating a consumable electrode to produce a composite roll according to the present invention;
FIG. 3 is a schematic structural diagram of an electroslag remelting device for preheating a consumable electrode to produce a composite roll according to the present invention;
FIG. 4 is a top view of an electroslag remelting device for preheating a consumable electrode to produce a composite roll according to the present invention;
FIG. 5 is an enlarged structural diagram of a cross section of a diversion dam of an electroslag remelting device for producing a composite roll by preheating a consumable electrode according to the present invention.
FIG. 6 is a schematic structural view of embodiment 3;
FIG. 7 is a schematic structural view of example 4;
FIG. 8 is a schematic structural view of example 5;
FIG. 9 is a schematic structural view of example 6;
FIG. 10 is a flow chart of the method for producing the composite roll by using the electroslag remelting device.
The reference numerals in the schematic drawings illustrate:
110. an upper crystallizer; 111. a diversion dam; 1112. a drainage groove; 111A, the incident flow surface; 111B, a back flow surface; 112. an opening side; 113. smelting side; 120. a lower crystallizer; 121. a vibration mechanism;
200. an electromagnetic stirring coil; 210. a lower stirring coil;
300. a bottom water tank;
400. a transformer;
510. a metal consumable electrode; 520. a roll core; 530. a slag pool; 540. a molten bath.
600. An induction coil; 610. a coil shield; 611. a shield side plate.
Detailed Description
The detailed description and exemplary embodiments of the invention will be better understood when read in conjunction with the appended drawings, where the elements and features of the invention are identified by reference numerals.
Example 1
Referring to fig. 1, 2, 3 and 4, the electroslag remelting device for preheating the consumable electrode to produce the composite roll of the embodiment comprises an eccentric crystallizer, a bottom water tank 300 and a metal consumable electrode 510; the eccentric crystallizer comprises an upper crystallizer 110 and a lower crystallizer 120, wherein the axes of the upper crystallizer 110 and the lower crystallizer 120 are not on the same straight line, and the lower crystallizer 120 is arranged at the lower part of the upper crystallizer 110; the bottom of the upper crystallizer 110 comprises an opening side 112 and a smelting side 113, the lower part of the opening side 112 is connected with the lower crystallizer 120, and the shape of the opening side 112 is matched with the upper end opening surface of the lower crystallizer 120; the bottom surface of the upper crystallizer 110 except the opening side 112 and other areas are smelting sides 113, and metal consumable electrodes 510 are vertically arranged above the smelting sides 113; when in use, the roller core 520 is arranged along the axial lead of the lower crystallizer 120, and the roller core 520 is the inner layer metal material of the metal composite roller.
In the electroslag remelting smelting process, if the distance between the metal consumable electrode 510 and the roller core 520 is too small, high temperature near the metal consumable electrode 510 can excessively melt the roller core 520, which affects the welding between the working surface material of the lower roller and the roller core 520 and the welding between the working surface material of the roller and the roller core 520, and the welding firmness between the working surface material of the roller and the roller core 520 is affected, so as to avoid the situation, the diameter of the roller core 520 is limited in the prior art, and the thickness of the working surface of the roller is limited in the production process. In this embodiment, since the axial lines of the upper mold 110 and the lower mold 120 are not on the same straight line, the axial line of the metal consumable electrode 510 and the axial line of the roller core 520 are not on the same straight line, the metal consumable electrode 510 and the roller core 520 do not touch each other, the diameter of the upper mold 110 is Φ, and the diameter of the lower mold 120 is Φ
Figure BDA0001619019930000041
Figure BDA0001619019930000042
In this embodiment, the selection
Figure BDA0001619019930000043
The distance from the axis of the metal consumable electrode 510 to the center of the upper mold 110 is D1, 1/2 Φ > D1 is equal to or greater than 1/4 Φ, D1 is preferably 1/4 Φ in this embodiment, the distance from the axis of the lower mold 120 to the center of the upper mold 110 is D2, 1/2 Φ > D2 is equal to or greater than 1/4 Φ, and D2 is preferably 1/4 Φ in this embodiment. The distance between the metal consumable electrode 510 and the roller core 520 is increased by the arrangement that the side wall of the lower crystallizer 120 is tangent to the side wall of the opening side 112 of the upper crystallizer 110, so that the metal consumable electrode 510 is not influenced by the position and the size of the roller core 520 in the smelting process, the roller cores 520 with different diameters are placed without contacting the metal consumable electrode 510 to influence the melting of the metal consumable electrode 510, the thickness of a working surface of a roller can be adjusted at will by changing the diameter of the roller core 520, the inner diameter of the lower crystallizer 120 is D, the thickness of the working surface of the roller is h, the diameter of the roller core 520 is D, and D is D-2 h; the placement mode improves the quality of roller production, and the metal consumable electrode 510 and the slag are in the electroslag remelting processThe temperature of the contact part of the pool 530 is high, and the distance between the metal consumable electrode 510 and the axial lead of the roller core 520 is long, so that the welding of the working surface material of the lower roller and the roller core 520 is prevented from being influenced by the excessive melting of the surface of the roller core 520 by the slag pool 530, the working surface material of the roller and the roller core 520 are firmly welded, and the quality of the roller is ensured.
The induction coil 600 is surrounded outside the metal consumable electrode 510, the frequency of the induction coil 600 is 1-10KHz in this embodiment, and preferably 5KHz in this embodiment, so that the metal consumable electrode 510 can be preheated in the remelting process, the melting of the metal consumable electrode 510 is accelerated, the retention time of the roller core 520 in the slag bath 530 is reduced, the surface layer of the roller core 520 is prevented from being largely melted, and meanwhile, the roller core 520 and the working surface material of the roller can be effectively welded.
The periphery of the eccentric crystallizer of this embodiment is provided with the electromagnetic stirring coil 200, the frequency of the electromagnetic stirring coil 200 in this embodiment is 2-10Hz, preferably 5Hz in this embodiment, and the action range of the electromagnetic stirring coil 200 is in the slag bath 530 of the upper crystallizer 110. In the slag pool 530 of the upper crystallizer 110, the metal consumable electrode 510 remelts in the slag pool 530 to form molten metal which is stirred by the stirring action of the electromagnetic stirring coil 200, so that the molten metal is uniformly distributed in the slag pool 530, and the material of the working surface of the roller can be more uniformly coated on the surface of the roller core 520.
In the upper mold 110 of this embodiment, a diversion dam 111 is disposed on a side of the opening side 112 close to the consumable electrode 510, and the diversion dam 111 is arc-shaped, in this embodiment, the center of the diversion dam 111 is on a straight line between the axis of the consumable electrode 510 and the axis of the lower mold 120, the arc length of the diversion dam 111 is 1/4 of the circumference, and the height of the diversion dam 111 is 1/4 of the inner diameter of the lower mold 120.
The consumable electrode 510 is melted in the slag bath 530 to diffuse the molten metal toward the roller core 520 in the lower crystallizer 120, after the guide dam 111 is added, the molten metal impacts the guide dam 111, and due to the guide effect of the guide dam 111, a part of the molten metal flows to the two sides of the guide dam 111 along the arc direction of the guide dam 111, so that the molten metal flows farther, the coating of the roller working layer of the roller core 520 away from the consumable electrode 510 is accelerated, and the material of the roller working surface is uniformly coated on the surface of the roller core 520.
The external vibrating mechanism 121 that has been equipped with in lower crystallizer 120 upper end of this embodiment, vibrating mechanism 121's scope of action is molten bath 540 position, vibrating mechanism 121 encircles the setting outside lower crystallizer 120, for strikeing the vibration, the molten metal drips to solidify behind the molten bath 540, inside crystal begins nucleation length, vibrating mechanism 121 strikes the vibration effect, the vibration wave spreads into in the molten bath 540, the part is being broken after the crystal texture that grows up receives the vibration, produce more nucleation cores, form the better crystal texture of performance.
The bottom water tank 300 of this embodiment is disposed below the lower mold 120 and connected to the roller core 520, the bottom water tank 300 of this embodiment is made of copper, the roller core 520 moves downward, the bottom water tank 300 and the metal consumable electrode 510 are connected to a power source, the power source is an ac power source in this embodiment, the transformer 400 transforms the voltage, and the bottom water tank 300 and the metal consumable electrode 510 form an electrical circuit.
Example 2
As shown in fig. 5, the present embodiment is substantially the same as embodiment 1, except that in the present embodiment, an angle α between a flow-facing surface 111A of the flow guide dam 111 and a bottom surface is 45 °, an angle β between a back flow surface 111B of the flow guide dam 111 and the bottom surface is 70 °, the height of the flow guide dam 111 is 1/4 of a distance from the bottom surface of the upper mold 110 to the bottom surface of the consumable electrode 510, when the molten metal impacts on the flow guide dam 111, a portion of the molten metal that is not guided directly crosses over the top of the flow guide dam 111, the top of the flow guide dam 111 in the cross-sectional direction is circular arc, the molten metal is more likely to cross the top of the flow guide dam 111, an angle α between the flow-facing surface 111A of the flow guide dam 111 and the bottom surface is smaller than an angle β between the back flow surface 111B of the flow guide dam 111 and the bottom surface, when the molten metal flows through the flow-facing surface 111A, the molten metal has a smaller gradient and is easier to pass through, the molten metal if the molten metal flows toward the back flow surface 111B, the molten metal has a larger gradient and thus the molten metal is more likely to be prevented from flowing back to the opening side, and the rolls 112 are more likely to be coated, thereby increasing the production efficiency of.
Example 3
As shown in fig. 6, this embodiment is basically the same as embodiment 1 except that: in the embodiment, the lower stirring coil 210 is arranged below the electromagnetic stirring coil 200, the stirring action range of the lower stirring coil 210 comprises the molten pool 540 and a nearby area above the molten pool 540, the temperature of the nearby area above the molten pool 540 is low, the temperature of molten metal in the area is difficult to control, the molten metal is easy to solidify to cause interruption of a smelting process, and after the stirring action of the lower stirring coil 210, the interactive flow of the molten metal in the area and the molten metal with high temperature above the area is promoted, and the reduction of the temperature in the area is relieved; the molten pool 540 flows under the stirring action of the lower stirring coil 210, so that the produced columnar crystal is broken, more nucleation cores are generated, and the transformation of the columnar crystal to the isometric crystal is promoted. The quality of the working surface of the roller is improved.
Example 4
As shown in fig. 7, this embodiment is substantially the same as embodiment 1 except that the flow guide dam 111 is disposed with the incident surface 111A facing the flow direction of the molten metal. Under the action of the electromagnetic stirring coil 200, the molten metal in the slag pool 530 makes a spiral centripetal motion, the molten metal is stirred in a rotating mode, after the molten metal impacts the incident flow surface 111A of the diversion dam 111, due to the diversion effect, part of the molten metal moves towards the edge of the upper crystallizer 110, the probability that the molten metal moves to the opening side 112 is increased, and the metal at the opening side 112 is promoted to be gathered and uniform.
Example 5
Referring to fig. 8, the present embodiment is substantially the same as embodiment 1 except that the guide dam 111 of the present embodiment is provided with the drainage grooves 1112, and the bottom of the drainage grooves 1112 is 1/2 of the guide dam 111 in the present embodiment. The part of the molten metal guided to the two sides of the guiding dam 111 by the guiding dam 111 can be directly guided into the opening side 112 through the guiding groove 1112, so as to promote the accumulation and uniformity of the molten metal at the opening side 112.
Example 6
Referring to fig. 9, this embodiment is substantially the same as embodiment 1, except that a coil shield 610 is disposed between the induction coil 600 and the upper mold 110, the coil shield 610 is U-shaped or groove-shaped, that is, the end of the coil shield 610 is provided with an upwardly extending shield side plate 611, the shield side plate 611 is used to protect the bottom of the induction coil 600, so as to prevent the side radiation loss from damaging the induction coil 600, and prevent the induction coil 600 from being damaged by the radiation heat generated by the high temperature of the slag during use.
According to the method for producing the bimetal composite roller by adopting the electroslag remelting device, the roller core 520 is used as inner layer metal of the composite roller, the bottom of the metal consumable electrode 510 is inserted into the upper crystallizer 110, the heating part preheats the metal consumable electrode 510, the metal consumable electrode 510 is accelerated to be melted and welded on the surface of the roller core 520, and the composite roller is obtained.
As shown in fig. 10, the specific implementation steps of examples 1 to 6 are:
step one, equipment installation
Arranging a metal consumable electrode 510 above the smelting side 113 of the upper crystallizer 110, arranging a roller core 520 in the lower crystallizer 120, supporting the roller core 520 at the bottom of the lower crystallizer 120 by a bottom water tank 300, and electrically connecting the bottom water tank 300 with the metal consumable electrode 510 to form an electric loop;
step two, preheating the consumable electrode
The metal consumable electrode 510 is provided with a heating component, the heating component is used for heating the metal consumable electrode 510, and the metal consumable electrode 510 is preheated by turning on the heating component;
step three, electroslag remelting
The remelting slag is poured into an eccentric crystallizer after being melted to form a slag pool 530, one end of a metal consumable electrode 510 is inserted into the slag pool 530, the metal consumable electrode 510 is melted to form molten metal which is uniformly distributed in the slag pool 530 above the opening side 112 of the upper crystallizer 110 and uniformly falls into a molten pool 540;
step four, roller welding and solidification
The molten metal in the molten pool 540 is cooled and solidified, welded to the surface of the roll core 520, and ingot drawing is performed by continuously pulling the bottom water tank 300, so that a finished roll product is obtained.
The invention has been described in detail hereinabove with reference to specific exemplary embodiments thereof. It will, however, be understood that various modifications and changes may be made without departing from the scope of the invention as defined in the appended claims. The detailed description and drawings are to be regarded as illustrative rather than restrictive, and any such modifications and variations are intended to be included within the scope of the present invention as described herein. Furthermore, the background is intended to be illustrative of the state of the art as developed and the meaning of the present technology and is not intended to limit the scope of the invention or the application and field of application of the invention.
The invention has been described in detail hereinabove with reference to specific exemplary embodiments thereof. It will, however, be understood that various modifications and changes may be made without departing from the scope of the invention as defined in the appended claims. The detailed description and drawings are to be regarded as illustrative rather than restrictive, and any such modifications and variations are intended to be included within the scope of the present invention as described herein. Furthermore, the background is intended to be illustrative of the state of the art as developed and the meaning of the present technology and is not intended to limit the scope of the invention or the application and field of application of the invention.

Claims (7)

1. An electroslag remelting device for producing a composite roller by a preheated consumable electrode is characterized by comprising an eccentric crystallizer and a metal consumable electrode (510), wherein the eccentric crystallizer comprises an upper crystallizer (110) and a lower crystallizer (120), the diameter of the lower crystallizer (120) is smaller than that of the upper crystallizer (110), the lower crystallizer (120) is arranged at the lower part of the upper crystallizer (110), the axes of the upper crystallizer (110) and the lower crystallizer (120) are not on the same straight line, the metal consumable electrode (510) is arranged at the upper part of the upper crystallizer (110), a heating part is arranged outside the metal consumable electrode (510) and used for heating the preheated metal consumable electrode (510), the diameter of the upper crystallizer (110) is phi, the diameter of the lower crystallizer (120) is phi, phi is not less than 2 phi, the distance from the axis of the metal consumable electrode (510) to the center of the upper crystallizer (110) is D1, not less than D1 and not less than D1/4, the distance from the axis of the lower crystallizer (120) to the upper crystallizer (110) is D2, the arc-shaped flow guiding dam working surface of the metal consumable electrode (510) is more than 357), the guide dam working surface of the metal consumable electrode (510) and the metal consumable electrode (510) is coated on the side of the upper dam, the guide dam working surface of the metal consumable electrode (111) and the metal consumable electrode (510) is more close to the guide dam, the metal consumable electrode (111) and the metal consumable electrode (510) and the guide dam working surface of the metal consumable electrode (510) is more than the metal consumable electrode (357) and the metal consumable electrode (111) and the metal consumable electrode (120) is more close to the metal consumable electrode (111) and the metal consumable electrode (357) is coated on the side, the bottom surface of the metal consumable electrode, the metal consumable electrode (35111) and the metal consumable electrode (357) and the metal consumable electrode (120) is more close to the metal consumable electrode, the metal consumable electrode (35111) and the metal consumable electrode (120.
2. The electroslag remelting device for preheating the consumable electrode to produce the composite roll according to claim 1, wherein: the heating component is an induction coil (600), the induction coil (600) surrounds the exterior of the metal consumable electrode (510), and the induction coil (600) is used for heating the metal consumable electrode (510).
3. The electroslag remelting device for preheating the consumable electrode to produce the composite roll according to claim 1, wherein: the frequency of the high-frequency induction coil (600) is 1-10 KHz.
4. The electroslag remelting device for preheating the consumable electrode to produce the composite roll according to claim 1, wherein: an electromagnetic stirring coil (200) is arranged on the periphery of the upper crystallizer (110).
5. The electroslag remelting device for preheating the consumable electrode to produce the composite roll according to claim 1, wherein: the upper end of the lower crystallizer (120) is connected with the lower part of the opening side (112) of the upper crystallizer (110), and the metal consumable electrode (510) is arranged above the smelting side (113) of the upper crystallizer (110).
6. The electroslag remelting device for producing the composite roller by preheating the consumable electrode according to any one of claims 1 to 5, wherein: a vibrating mechanism (121) is externally arranged at the upper part of the lower crystallizer (120).
7. The electroslag remelting device for producing the composite roll by using the preheated consumable electrode as claimed in any one of claims 1 to 5, is characterized in that: the roller core (520) is used as the inner layer metal of the composite roller, the bottom of the metal consumable electrode (510) is inserted into the upper crystallizer (110), the heating component preheats the metal consumable electrode (510), and the metal consumable electrode (510) is accelerated to be melted and welded on the surface of the roller core (520) to obtain the composite roller.
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