CN209021188U - A kind of continuous casting production Argon metallurgical plant - Google Patents

Abstract

The utility model discloses a kind of continuous casting production Argon metallurgical plants, including support base, the upper end of the support base is connected with turret, the lower end of the steel ladle is connected with the first discharge nozzle, the lower end of the blanking monitoring device is connected with pans, the bottom inner portion of the pans is provided through argon gas bubbling device, the bosom of the pans is symmetrically arranged with barricade, hole is arranged in the internal reservation of the filter, run through at left and right sides of the lower end of the pans and is connected with the second discharge nozzle, the lower end of second discharge nozzle is connected with crystallizer, support plate is fixedly connected on the left of the lower end of the crystallizer, the outer surface front and rear sides of the support plate are fixedly connected to baffle.The problem of continuous casting production Argon metallurgical plant, barricade, the combination arrangement on shelves dam are relatively reasonable, and Argon control method is relatively reasonable, not will cause molten steel slag, raw material is not easy drop leaching when discharging.

Description

A kind of continuous casting production Argon metallurgical plant

Technical field

The utility model relates to metallurgical plant correlative technology field, specially a kind of continuous casting production Argon metallurgical plant.

Background technique

Tundish metallurgy is a special furnace outer refining technology, is from the melting of steel and to be refined to solid-state continuous casting billet is made One step of key for guaranteeing to obtain excellent steel quality in this production procedure, plays an important role in continuous casting process, at For the essential important technology of high efficiency continuous casting, it is to expansion continuous casting kind, increase continuous casting ratio, raising caster work rate, grasp The changing rule of the molten steel temperature in tundish of casting process plays an important role.

General continuous casting production Argon metallurgical plant barricade, the combination arrangement on shelves dam are defective, and Argon control method has Defect, the problem of causing molten steel slag, are easy drop leaching, therefore, it is proposed that a kind of continuous casting production Argon smelting when raw material discharges Golden clothes are set, in order to solve the problems, such as to propose among the above.

Utility model content

The purpose of this utility model is to provide a kind of continuous casting production Argon metallurgical plants, to solve above-mentioned background technique The existing continuous casting production Argon metallurgical plant barricade of middle proposition, the combination arrangement on shelves dam are defective, and Argon control method has Defect, the problem of causing molten steel slag, the problem of drop leaching is easy when raw material discharges.

To achieve the above object, the utility model provides the following technical solutions: a kind of continuous casting production Argon metallurgical plant, Including support base, the upper end of the support base is connected with turret, and is provided with steel at left and right sides of the upper end of turret Water packet, the lower end of the steel ladle is connected with the first discharge nozzle, and the outer surface of the first discharge nozzle is fixed with blanking monitoring device, The lower end of the blanking monitoring device is connected with pans, and the rear end of pans is fixedly connected on support base, and intermediate The inner surface of tank, which fits closely, is provided with inner lining refractory, and the bottom inner portion of the pans is provided through argon gas purging dress It sets, and the inner upper end of pans is provided with coverture, the bosom of the pans is symmetrically arranged with barricade, and barricade Outside is provided with filter, and the upper and lower ends of filter are each attached to the inside of pans, and the inside of the filter is pre- Setting hole is stayed, runs through at left and right sides of the lower end of the pans and is connected with the second discharge nozzle, and the second discharge nozzle is outer Surface installation settings has blanking monitoring device, and the lower end of second discharge nozzle is connected with crystallizer, and crystallizer is connected to branch The right lateral surface of seat is supportted, is fixedly connected with support plate on the left of the lower end of the crystallizer, and the lower end of support plate is fixedly installed with Supporting leg, the outer surface front and rear sides of the support plate are fixedly connected to baffle, and installation is connected with branch between the baffle of 2 groups of front and back Deflector roll is held, the centre of the support plate is fixedly installed induction stirrer, and the right end of support plate is fixedly installed cutting Device.

Preferably, the turret is rotational structure on support base, and steel ladle is symmetrical about the central axes of turret It is provided with 2 groups.

Preferably, the barricade is symmetrically arranged with 2 groups about pans, and every group of dams setting has 2, and 2 gears Wall is staggered in the inside of pans.

Preferably, described hole is set in qually spaced in the outer surface of filter, and hole is incline structure, and filter Trapezoidal structure.

Preferably, second discharge nozzle and crystallizer are symmetrically arranged with 2 groups, and crystallizer fixing card about pans Conjunction is connected on support base.

Preferably, the arc-shaped structure in the left end of the support plate, and baffle is equidistantly welded to connect on the supporting plate, and Supporting deflector roll is rotational structure on baffle.

Compared with prior art, the utility model has the beneficial effects that the continuous casting production Argon metallurgical plant, barricade, The problem of combination arrangement on shelves dam is relatively reasonable, and Argon control method is relatively reasonable, not will cause molten steel slag, when raw material discharges It is not easy drop leaching；

1. being provided with blanking monitoring device, blanking is monitored by blanking monitoring device, to facilitate staff Control turbulence inhibitor is adjusted, coutroi velocity increases the effect of Argon；

2. being provided with inner lining refractory and argon gas bubbling device, liner fire proofed wood is arranged by the inner surface in pans Material, improves resistance to fire action, while can be avoided and other reactions occur when to heating in pans, while in inner lining refractory Lower end inside bury argon gas bubbling device, to improve Argon effect；

3. barricade, filter and hole are provided with, by being staggered barricade in the two sides of pans, to change fluid Flow direction, extend the residence time of fluid, be conducive to the floating of field trash, and filter is mounted at deflector hole, according to hole The design structure in hole not only plays the role of dross inclusion adsorption, even more plays the role of flow control apparatus；

4. being provided with support plate and baffle, by the way that support plate is designed to plate structure, deflector roll is supported with the multiple groups of upper end Matching design facilitates raw material that can be limited to certain space discharging before uncolled, avoids drop from drenching, cause to waste.

Detailed description of the invention

Fig. 1 is that the utility model faces the schematic diagram of the section structure；

Fig. 2 is the schematic diagram of the section structure of the utility model pans；

Fig. 3 is the planar structure schematic diagram of the utility model filter.

In figure: 1, support base；2, turret；3, steel ladle；4, the first discharge nozzle；5, blanking monitoring device；6, pans； 7, inner lining refractory；8, argon gas bubbling device；9, coverture；10, barricade；11, filter；12, hole；13, the second discharging Pipe；14, crystallizer；15, support plate；16, supporting leg；17, baffle；18, deflector roll is supported；19, induction stirrer；20, it cuts Device.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: a kind of continuous casting production Argon metallurgical plant, packet Include support base 1, turret 2, steel ladle 3, the first discharge nozzle 4, blanking monitoring device 5, pans 6, inner lining refractory 7, argon Air-blowing cleaning device 8, coverture 9, barricade 10, filter 11, hole 12, the second discharge nozzle 13, crystallizer 14, support plate 15, branch Leg 16, baffle 17, bearing deflector roll 18, induction stirrer 19 and cutter 20, the upper end of support base 1 are connected with revolution Tower 2, and it is provided with steel ladle 3 at left and right sides of the upper end of turret 2, the lower end of steel ladle 3 is connected with the first discharge nozzle 4, and The outer surface of first discharge nozzle 4 is fixed with blanking monitoring device 5, and the lower end of blanking monitoring device 5 is connected with pans 6, and in Between the rear end of tank 6 be fixedly connected on support base 1, and the inner surface of pans 6 fits closely and is provided with inner lining refractory 7, the bottom inner portion of pans 6 is provided through argon gas bubbling device 8, and the inner upper end of pans 6 is provided with coverture 9, The bosom of pans 6 is symmetrically arranged with barricade 10, and the outside of barricade 10 is provided with filter 11, and filter 11 Upper and lower ends are each attached to the inside of pans 6, and hole 12 is arranged in the internal reservation of filter 11, and the lower end of pans 6 is left Right two sides, which are run through, is connected with the second discharge nozzle 13, and the outer surface installation settings of the second discharge nozzle 13 has blanking monitoring device 5, The lower end of second discharge nozzle 13 is connected with crystallizer 14, and crystallizer 14 is connected to the right lateral surface of support base 1, crystallizer 14 It is fixedly connected with support plate 15 on the left of lower end, and the lower end of support plate 15 is fixedly installed with supporting leg 16, the outer surface of support plate 15 Front and rear sides are fixedly connected to baffle 17, and installation is connected with bearing deflector roll 18 between the baffle 17 of 2 groups of front and back, support plate 15 Centre is fixedly installed induction stirrer 19, and the right end of support plate 15 is fixedly installed cutter 20.

Turret 2 is rotational structure on support base 1 as shown in figure 1, and steel ladle 3 is symmetrical about the central axes of turret 2 2 groups are provided with, facilitates conversion using steel ladle 3, as barricade 10 about pans 6 is symmetrically arranged with 2 groups, and every group of gear in Fig. 2 Wall 10 is provided with 2, and 2 barricades 10 are staggered in the inside of pans 6, by being staggered barricade 10 in centre The two sides of tank 6 extend the residence time of fluid to change the flow direction of fluid, are conducive to the floating of field trash.

As Fig. 3 Hole 12 is set in qually spaced in the outer surface of filter 11, and hole 12 is incline structure, and is filtered The trapezoidal structure of device 11, filter 11 is mounted at deflector hole, according to the design structure of hole 12, not only there is dross inclusion adsorption Effect, even more play the role of flow control apparatus, as in Fig. 1-2 the second discharge nozzle 13 and crystallizer 14 about pans 6 are symmetrically arranged with 2 groups, and the fixed engaging of crystallizer 14 is connected on support base 1, improves discharging efficiency.

The arc-shaped structure in the left end of support plate 15 as shown in figure 1, and baffle 17 is equidistantly welded to connect in support plate 15, and And bearing deflector roll 18 is rotational structure on baffle 17, multiple groups bearing 18 matching design of deflector roll of support plate 15 and upper end is convenient Raw material can be limited to certain space discharging before uncolled, avoid drop from drenching, cause to waste.

Working principle: when using the continuous casting production Argon metallurgical plant, raw material is made by the revolution of turret 2 first With rear, steel ladle 3 is connected with the first discharge nozzle 4, and flows to the inside of pans 6 by the first discharge nozzle 4, while under passing through The effect of material monitoring device 5 is monitored flow, to facilitate staff to adjust control turbulence inhibitor, coutroi velocity The effect for increasing Argon under the action of barricade 10 of the left and right sides, is defined when fluid enters the inside of pans 6 The flow direction of fluid and speed, while field trash can float, and then pass through the filter 11 of two sides, pass through multiple groups hole 12 Filtration is completed in effect, meeting absorbed portion field trash in hole 12, while playing flowing control action, defines the stream of fluid Then speed is completed to operate the Argon of fluid by the effect of argon gas bubbling device 8, and make in the protection of inner lining refractory 7 It under, avoids that other reactions occur during pans 6 are heated, subsequent fluid flow to the inside of crystallizer 14, leads to It crosses crystallizer 14 and carries out decrease temperature crystalline, subsequent fluid forms to a certain extent, and flows out to the upper surface of support plate 15, passes through branch The effect of fagging 15 and bearing deflector roll 18 is driven, when the position that fluid is moved to induction stirrer 19 will be in its effect Under, fast cooling shaping, and reach the flat site of 15 right end of support plate makes material finally pass through cutter again in planar 20 are cut, the above sequence of operations for just completing the continuous casting production Argon metallurgical plant, are not made in this specification in detail The content of description belongs to the prior art well known to professional and technical personnel in the field.

The standardized element that the utility model uses can commercially, shaped piece according to specification and attached drawing Record can carry out customized, the specific connection type of each part is all made of in the prior art mature bolt, rivet, weldering Equal conventional means are connect, mechanical, part and equipment are all made of in the prior art, conventional model, in addition circuit connection is using existing Conventional connection type in technology, this will not be detailed here.

Although the utility model is described in detail with reference to the foregoing embodiments, come for those skilled in the art Say, it is still possible to modify the technical solutions described in the foregoing embodiments, or to part of technical characteristic into Row equivalent replacement, within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on should all It is included within the scope of protection of this utility model.

Claims (6)

1. a kind of continuous casting production Argon metallurgical plant, including support base (1), it is characterised in that: the upper end of the support base (1) It is connected with turret (2), and is provided with steel ladle (3) at left and right sides of the upper end of turret (2), the steel ladle (3) Lower end be connected with the first discharge nozzle (4), and the outer surface of the first discharge nozzle (4) is fixed with blanking monitoring device (5), under described The lower end of material monitoring device (5) is connected with pans (6), and the rear end of pans (6) is fixedly connected on support base (1), and And the inner surface of pans (6) is fitted closely and is provided with inner lining refractory (7), the bottom inner portion of the pans (6) runs through Be provided with argon gas bubbling device (8), and the inner upper end of pans (6) is provided with coverture (9), the pans (6) it is interior Portion's intermediate symmetry is provided with barricade (10), and filter (11) are provided on the outside of barricade (10), and filter (11) is upper Lower both ends are each attached to the inside of pans (6), and hole (12) are arranged in the internal reservation of the filter (11), the centre Run through at left and right sides of the lower end of tank (6) and be connected with the second discharge nozzle (13), and the outer surface installation of the second discharge nozzle (13) is set It is equipped with blanking monitoring device (5), the lower end of second discharge nozzle (13) is connected with crystallizer (14), and crystallizer (14) connects The lower end left side of right lateral surface in support base (1), the crystallizer (14) is fixedly connected with support plate (15), and support plate (15) lower end is fixedly installed with supporting leg (16), and the outer surface front and rear sides of the support plate (15) are fixedly connected to baffle (17), it and between the baffle (17) of 2 groups of front and back installs and is connected with bearing deflector roll (18), the intermediate fixed setting of the support plate (15) Have induction stirrer (19), and the right end of support plate (15) is fixedly installed cutter (20).

2. a kind of continuous casting production Argon metallurgical plant according to claim 1, it is characterised in that: the turret (2) It is rotational structure on support base (1), and steel ladle (3) is symmetrically arranged with 2 groups about the central axes of turret (2).

3. a kind of continuous casting production Argon metallurgical plant according to claim 1, it is characterised in that: the barricade (10) is closed 2 groups are symmetrically arranged in pans (6), and every group of barricade (10) is provided with 2, and 2 barricades (10) are staggered in Between tank (6) inside.

4. a kind of continuous casting production Argon metallurgical plant according to claim 1, it is characterised in that: described hole (12) etc. Spacing setting is in the outer surface of filter (11), and hole (12) is incline structure, and filter (11) trapezoidal structure.

5. a kind of continuous casting production Argon metallurgical plant according to claim 1, it is characterised in that: second discharge nozzle (13) and crystallizer (14) is symmetrically arranged with 2 groups about pans (6), and the fixed engaging of crystallizer (14) is connected to support base (1) on.

6. a kind of continuous casting production Argon metallurgical plant according to claim 1, it is characterised in that: the support plate (15) The arc-shaped structure in left end, and baffle (17) is equidistantly welded to connect on support plate (15), and is supported deflector roll (18) and is being kept off It is rotational structure on plate (17).