CN212640545U - Blast furnace swinging chute with high-strength prefabricated flow nozzle - Google Patents

Abstract

The utility model relates to the field of refractory material application, in particular to a blast furnace swing chute with a high-strength prefabricated flow nozzle, which comprises a steel shell, a refractory brick lining is arranged in the steel shell, a working lining is arranged on the surface of the refractory brick lining, the surface of the working lining layer is provided with a spout which is provided with a groove and is formed by splicing high-strength prefabricated parts, the lower end of the steel shell is provided with a swing driving device which comprises a base, an upward supporting column is arranged on the base, the steel shell can swing at the upper end of the supporting column, the lifting driving piece is connected between at least one end of the steel shell and the base, the structure is simple, the stability is high, molten iron flows through the grooves, the temperature is sequentially transmitted from the high-strength prefabricated piece to the outside, through the protection of the working lining layer and the refractory brick lining layer and the support of the steel shell, the working stability of the high-strength prefabricated member nozzle can be ensured.

Description

Blast furnace swinging chute with high-strength prefabricated flow nozzle

Technical Field

The utility model relates to a refractory material application especially relates to a blast furnace swing chute with prefabricated stem bar of excelling in.

Background

With the progress of iron-making technology, blast furnaces develop in large scale, a swing chute is a key part of a large and medium blast furnace tapping channel, the lining process design and the material service life of a swing chute nozzle play an important role in the safe and smooth operation of blast furnace iron making, and a swing chute working lining and a nozzle lining are required to have good scouring resistance, wear resistance and thermal shock stability of high-temperature molten iron. At present, materials of a swing chute working lining and a spout lining for a blast furnace above 3200m are generally uniformly used by adopting Al2O3-SiC-C low-cement castable, and the once iron introducing amount is generally about 8-10 ten thousand tons. According to the influence of the service life of the swing chute working lining and the spout working lining in the actual use process, the influence is analyzed and considered as follows: the nozzle part is not only subjected to the abrasion of high-temperature molten iron, but also subjected to thermal impact of iron flow, has the advantages of high loss speed, short service life and long maintenance period, and influences the normal and safe production of the blast furnace; how effective stable improvement swing chute stem bar lining position for 3200m blast furnace once logical iron capacity more than 13 ten thousand tons. Under the circumstances, a product which is rapid in construction and installation, high in strength, excellent in thermal shock resistance, excellent in high-temperature molten iron scouring resistance and long in service life is urgently needed to be developed and designed.

Therefore, the novel product has the advantages of optimized design, reasonable formula, simple and easily-realized preparation method, capability of reducing the comprehensive operation cost of the lining material of the swing chute and prolonging the integral service life of the swing chute and the spout lining of the blast furnace with the length of 3200m or more, simple and safe field installation, long service life, wide market popularization prospect and wide application value.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the not enough among the prior art, provide a simple structure, job stabilization nature is high, long service life's blast furnace swing chute with prefabricated stem bar excels in.

The utility model discloses a realize through following technical scheme: the utility model provides a blast furnace swing chute with prefabricated stem bar excels in, includes the box hat, be provided with resistant firebrick lining in the box hat, resistant firebrick lining surface is provided with the work lining, work lining surface is provided with the stem bar, be provided with the slot on the stem bar, the stem bar is formed by the prefab concatenation that excels in, the box hat lower extreme is provided with swing drive arrangement, swing drive arrangement includes the base, be provided with ascending support column on the base, the box hat can be in the swing of support column upper end, the box hat has at least to be connected with the lift driving piece between one end and the base.

Further, the lift driving piece is ascending driving cylinder, all be connected through swing coupling assembling between support column, driving cylinder and the box hat, swing coupling assembling includes the first connecting seat of being connected with the box hat, the second connecting seat of being connected with corresponding support column or driving cylinder, first connecting seat and second connecting seat all include the base plate, be provided with support piece on the base plate, be provided with the spread groove on the support piece, connect through the connecting block between the corresponding spread groove of first connecting seat and second connecting seat.

Further, the steel shell cross section is U-shaped, 0-30 degrees that the both sides wall of steel shell leans out, the steel shell upper end is provided with outside bent plate, resistant firebrick lining includes bottom and side layer, the bottom is including laying the bed course in the steel shell bottom and laying the surface course at the bed course upper surface, bed course and side layer are constituteed by polylith fragment of brick one, the surface course comprises polylith fragment of brick two, the width value of fragment of brick two is greater than the width value of fragment of brick one, the brickwork joint of bed course does not coincide with the brickwork joint of surface course.

Furthermore, the upper end of the working lining layer extends to the upper side of the refractory brick lining layer, the upper end of the flow nozzle is flush with the upper end face of the working lining layer, and a lifting lug hole is machined in the upper end face of the flow nozzle.

A high-strength prefabricated part for a blast furnace swinging chute spout is prepared from the following raw materials in parts by weight: 30-45 parts of electric cast mullite, 20-30 parts of sintered tabular corundum, 10-25 parts of black silicon carbide, 3-5 parts of zircon sand, 3-6 parts of high-purity spinel micro powder, 5-8 parts of alumina micro powder, 1-3 parts of silica micro powder, 2-4 parts of high-strength solid bonding agent, 1-4 parts of sintering agent, 1-3 parts of antioxidant, 0.1-0.3 part of anti-explosion agent and 0.2-0.5 part of composite dispersant.

Further, the sintering agent consists of boric acid and borax, and the weight ratio of the boric acid to the borax is 3-5: 4-7.

Further, the antioxidant consists of metallic silicon and carbon black, and the weight ratio of the metallic silicon to the carbon black is 3-7: 4-8.

Further, the anti-burst agent consists of metal aluminum and anti-burst fibers, and the weight ratio of the metal aluminum to the anti-burst fibers is 4-7: 2-5.

Further, the composite dispersing agent is composed of sodium tripolyphosphate and sodium hexametaphosphate, and the weight ratio of the sodium tripolyphosphate to the sodium hexametaphosphate is 3-7: 2-5.

Further, the high-strength solid binder is solid aluminum dihydrogen phosphate.

The beneficial effects of the utility model reside in that: the blast furnace swinging chute with the high-strength prefabricated spout is provided with a steel shell, a refractory brick lining, a working lining and a high-strength prefabricated part, has a simple structure and high stability, can ensure the stable operation of the spout by the protection of the working lining, the refractory brick lining and the support of the steel shell when molten iron flows through a groove and the temperature is sequentially transferred outwards from the high-strength prefabricated part, and can drive the swinging chute to swing by the arrangement of a swinging driving device so as to distribute the molten iron to different containers; the cross section of the steel shell is U-shaped, the two side walls of the steel shell incline outwards by 0-30 degrees, and the upper end of the steel shell is provided with an outward bending plate which is convenient to position when a refractory brick layer is laid, particularly the bending plate can prevent the upper end of the steel shell from bending. The construction and installation are simple, convenient and quick, and the safety is improved.

Drawings

FIG. 1 is a schematic front view of a blast furnace swing chute;

FIG. 2 is a schematic view of a steel shell and a spout;

FIG. 3 is a schematic view showing a mounting position of the temperature detecting means;

FIG. 4 is a schematic sectional view of the connection between the temperature measuring plate and the steel shell;

FIG. 5 is a schematic view showing the connection between the temperature measuring plate and the pressing plate;

FIG. 6 is a schematic bottom view of the steel can;

FIG. 7 is a schematic view in elevation and section of the swing link assembly;

FIG. 8 is a schematic diagram of a first connecting base;

wherein: 1-steel shell, 2-bending plate, 3-cushion layer, 4-side layer, 5-surface layer, 6-working lining layer, 7-high-strength prefabricated part, 8-lug hole, 9-pressing plate, 10-stud, 11-cable, 12-detection plate, 13-groove, 14-thermocouple, 15-base, 16-support column, 17-first connecting seat, 18-driving oil cylinder, 19-second connecting seat, 20-connecting block, 21-base plate, 22-support plate, 23-guard plate and 24-sleeve.

Detailed Description

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The sintering agent consists of boric acid and borax in a weight ratio of 3-5: 4-7;

the antioxidant consists of metal silicon and carbon black, and the weight ratio of the metal silicon to the carbon black is 3-7: 4-8;

the anti-explosion agent consists of metal aluminum and anti-explosion fibers, and the weight ratio of the metal aluminum to the anti-explosion fibers is 4-7: 2-5;

the composite dispersant consists of sodium tripolyphosphate and sodium hexametaphosphate, and the weight ratio of the sodium tripolyphosphate to the sodium hexametaphosphate is 3-7: 2-5;

the high-strength solid binder is solid aluminum dihydrogen phosphate, the particle size of the solid aluminum dihydrogen phosphate is less than 0.044mm, and the content of phosphorus pentoxide in the solid aluminum dihydrogen phosphate is 32%, so that the combination quick-drying strength of particles and fine powder in a product combination, and the wear resistance in the application process can be effectively promoted;

the fused mullite has the granularity of 5-8mm and 3-5mm, is compounded by adopting the standard YB/T104-2005 and the brand DM-1, has the content of alumina more than or equal to 75 percent, and adopts the large-particle aggregate of 5-8mm and 3-5mm, so that the characteristics of high thermal shock stability and strength of the raw material of the capacitor mullite can be effectively exerted, and the stability of the product skeleton structure is further improved;

the granularity of the sintered plate-shaped corundum comprises 1-3mm and 0.1-1mm, the mark is TAL-99, the content of alumina in the sintered plate-shaped corundum is more than or equal to 99%, and the middle and small particles adopt two combinations, so that the sintered plate-shaped corundum is fully applied to the advantages of good filling and fluidity, excellent sintering property, excellent slag and iron corrosion resistance and the like;

the granularity of the black silicon carbide comprises 0.1-1mm and 0.044mm, the standard GB/T2480-2008 and the mark C-B are adopted, the content of the silicon carbide in the black silicon carbide is more than or equal to 98 percent, and the silicon carbide is compounded by small particles and fine powder to reasonably fill and promote sintering and improve the high-temperature scouring resistance of the product;

the granularity of the zircon sand is 0.1mm to 0.2mm, the standard YB/834-87 is adopted, the grade is a special grade, the content of zirconia in the zircon sand is 65 percent, and the high-temperature strength stability advantage of the zircon sand is utilized to improve the high-temperature wear resistance of the product so as to prolong the service life;

the granularity of the high-purity spinel micro powder is less than or equal to 2.5 mu m, the content of alumina in the high-purity spinel micro powder is more than or equal to 87 percent, the content of magnesia is more than or equal to 8 percent, and the high-purity spinel micro powder has the characteristics of high sintering strength and excellent high-temperature impact resistance, and the mark is 90 MA;

the granularity of the alumina micro powder is less than or equal to 1.5 mu m, the alumina content in the alumina micro powder is 99 percent, and the standard YS/T89-1995, the brand number AN-03 is adopted;

the granularity of the silicon dioxide micro powder is less than or equal to 1 mu m, the silicon oxide content in the silicon dioxide micro powder is 95 percent, and the silicon dioxide micro powder adopts the standard GB/T21236-2007, the mark SF96, and has the characteristics of good filling and flowing performance and product sintering promotion;

in examples 2 to 5, the high-strength preform for blast furnace swinging spout was prepared as follows:

step one, mixing materials, weighing the raw materials, mixing the raw materials by a forced mixer, firstly mixing the raw materials of fused mullite, sintered tabular corundum, black silicon carbide, zircon sand, high-purity spinel micro powder, alumina micro powder and silicon dioxide micro powder at the rotating speed of 100rpm for 10min, then sequentially adding a high-strength solid bonding agent, a sintering agent, an antioxidant, an anti-explosion agent and a composite dispersing agent, mixing and stirring uniformly at the rotating speed of 100rpm for 5min to obtain a mixture, weighing the mixture, and then filling the mixture into a moisture-proof packaging bag for later use;

pouring and prefabricating, namely adding the mixture into a high-speed mixing mill, adding 5% by weight of tap water, stirring for 3 minutes, pouring the mixture into a prefabricated part mould, inserting a vibrating rod with the diameter of 50 into the prefabricated part mould for vibration, and uniformly forming;

and step three, molding and drying, namely naturally drying the wet blank of the prefabricated part in a mold for 6 hours, then demolding, transferring into an oven for drying at 200 ℃ for 24 hours to fully volatilize water in the blank and improve the strength, and then naturally cooling to obtain the high-strength prefabricated part for the blast furnace swinging chute nozzle.

The steel shell is made of high-temperature resistant steel plates with the thickness of 20-30mm, and the specific mark is 0Cr25Ni 20;

the lining of the refractory brick is built by high-alumina silicon carbide bricks, and the high-alumina silicon carbide bricks are HX-LT70 refractory bricks of Hebei Hao xing company.

The working lining layer is made of an aluminum silicon carbide casting material which is HX-LTJ65 type material of Hebei Hao xing company, and the wall thickness of the working lining layer is 200-350 mm.

In the following examples, the blast furnace swing chute installation procedure was as follows,

a, prefabricating a high-strength prefabricated part for a base, a support column, a steel shell, a refractory brick, a swing connecting assembly and a blast furnace swing chute nozzle;

b, fixing a base, installing a driving oil cylinder, building a refractory brick lining in a steel shell, filling and bonding refractory bricks of the refractory brick lining through high-alumina fire clay, specifically HX-GL75 cement provided by Hebei Haoxing company, weaving a mold on the upper surface of the refractory brick lining, then pouring an aluminum silicon carbide castable to obtain a working lining, installing a high-strength prefabricated member for a blast furnace swinging chute flow nozzle before the working lining is cured, bonding and filling joints between the high-strength prefabricated members for the blast furnace swinging chute flow nozzle through high-temperature cement, selecting high-alumina-silicon carbide high-temperature cement of the Hebei Haoxing company with the trade name of HX-LTN65, and curing at normal temperature;

and C, installing a temperature detection device, and then installing a steel shell above the supporting column and the driving oil cylinder to obtain the blast furnace swinging chute.

Example 1

As shown in figures 1-8, a blast furnace swing chute with a high-strength prefabricated spout comprises a steel shell 1, the cross section of the steel shell is U-shaped, two side walls of the steel shell incline outwards by 15 degrees, an outward bending plate 2 is integrally formed at the upper end of the steel shell, the bending plate is transverse, the steel shell can well support two wings of the steel shell, further the steel shell is prevented from deforming, a plane can be provided in the process of weaving a mold, after a working lining is poured, the steel shell can be scraped through the guiding of the bending plate and can also protect a temperature detection assembly, a refractory brick lining is laid in the steel shell and comprises a bottom layer and a side layer 4, the bottom layer comprises a cushion layer 3 laid at the bottom of the steel shell and a surface layer 5 laid on the upper surface of the cushion layer, the cushion layer and the side layer are both composed of a plurality of bricks, the surface layer is composed of a plurality of bricks, the width value of the bricks is greater than that of the first brick, the, the brickwork joint of bed course does not coincide with the brickwork joint of surface course, can guarantee the job stabilization nature of resistant firebrick lining, avoid the bottom weeping, can protect the box hat, work lining 6 has been laid on resistant firebrick lining surface, work lining surface mounting has runner nozzle 7, the work lining upper end extends to resistant firebrick lining upside, runner nozzle upper end and work lining upper end, the parallel and level of buckling plate upper end, the runner nozzle is formed by the concatenation of a plurality of prefabs that excel in, the prefab that excels in by, runner nozzle up end processing has lug hole 8, runner nozzle upper end processing has the slot, slot cross section lower extreme is semi-circular, the upper end inner wall is parallel with the box hat, the flow is big, avoid the bottom atre.

Install the temperature-detecting subassembly on the box hat outer wall, the temperature-detecting subassembly includes a plurality of pick-up plates 12 along the installation of box hat length direction, interval between the adjacent pick-up plate is 300mm, the pick-up plate is aluminum plate, the pick-up plate is attached with clamp plate 9 outward, the clamp plate is the steel sheet, the welding has outside double-screw bolt 10 on the box hat outer wall, processing has the bolt hole with double-screw bolt matched with on the steel sheet, it has thermocouple 14 to attach at the surface of pick-up plate, processing has recess 13 with thermocouple matched with on the clamp plate, the cable 11 of thermocouple outwards wears out the clamp plate through the recess bottom, and then can carry out temperature detection to the box hat, when the installation, inwards promote the pick-up plate through the nut, the pick-up plate is aluminum.

The lower end of the steel shell is connected with a swing driving device, the swing driving device comprises a base 15, the base is a cement base, an upward supporting column 16 is installed on the base, the supporting column is made of I-steel or a pipe material, the steel shell can swing at the upper end of the supporting column, a lifting driving part is connected between the two ends of the steel shell and the base, concretely, the lifting driving part is an upward driving oil cylinder 18, the supporting column and the driving oil cylinder are connected through a swing connecting assembly, the swing connecting assembly comprises a first connecting seat 17 connected with the steel shell and a second connecting seat 19 connected with the corresponding supporting column or driving oil cylinder, the first connecting seat and the second connecting seat both comprise base plates 21, the base plates are steel plates, the base plates of the first connecting seat are attached to the lower surface of the steel shell and are welded and fixed, the base plates of the second connecting seat are connected with the corresponding supporting column or driving oil, the connecting groove is processed on the supporting piece, the corresponding connecting grooves of the first connecting seat and the second connecting seat are connected through the connecting block 20, in order to ensure stable connection, the supporting piece is composed of a plurality of supporting plates 22 which are parallel to each other, arc-shaped grooves are processed at the end parts of the supporting plates, the connecting groove is formed between the arc-shaped grooves, the connecting block is a round pipe, in order to prevent the connecting block from being separated from the connecting groove, a protective plate 23 is fixed at the end part of the base plate in a welding way, in the using process, the steel shell and the groove are alternately inclined towards two directions by controlling the lifting of two driving oil cylinders, the inclination angle is controlled within 8 degrees, further, molten iron is guided into containers at two sides, the supporting of the steel shell by the supporting columns and the driving oil cylinders can be ensured through the matching of the connecting groove and the connecting block, the cross, and the working stability is ensured.

In the embodiment, the working lining and the high-strength prefabricated member are both made of Al2O3-SiC-C castable and are provided by Hebei Haoxing company, the mark of the high-strength prefabricated member is HX-GYZ-75, and the wall thickness of the high-strength prefabricated member is 300-600 mm.

Example 2

1-8, a blast furnace swing chute having a high strength prefabricated spout, unlike the other embodiments, the high strength prefabricated spout is made from the following raw materials by weight: 30Kg of electric cast mullite, 23Kg of sintered plate-shaped corundum, 15Kg of black silicon carbide, 3.6Kg of zircon sand, 4.2Kg of high-purity spinel micropowder, 7Kg of alumina micropowder, 1.9Kg of silica micropowder, 2.9Kg of high-strength solid bonding agent, 3.1Kg of sintering agent, 2.2Kg of antioxidant, 0.2Kg of anti-explosion agent and 0.3Kg of composite dispersant, and the wall thickness of the high-strength prefabricated member is 250-450 mm.

Example 3

1-8, a blast furnace swing chute having a high strength prefabricated spout, unlike the other embodiments, the high strength prefabricated spout is made from the following raw materials by weight: 37Kg of electric cast mullite, 28Kg of sintered plate-shaped corundum, 12Kg of black silicon carbide, 4.5Kg of zircon sand, 4.8Kg of high-purity spinel micropowder, 6.2Kg of alumina micropowder, 2.3Kg of silica micropowder, 3.5Kg of high-strength solid bonding agent, 2.2Kg of sintering agent, 1.5Kg of antioxidant, 0.1Kg of anti-explosion agent and 0.4Kg of composite dispersant, and the wall thickness of the high-strength prefabricated member is 250-450 mm.

Example 4

1-8, a blast furnace swing chute having a high strength prefabricated spout, unlike the other embodiments, the high strength prefabricated spout is made from the following raw materials by weight: 45Kg of electric cast mullite, 20Kg of sintered plate-shaped corundum, 20Kg of black silicon carbide, 3Kg of zircon sand, 3.3Kg of high-purity spinel micropowder, 8Kg of alumina micropowder, 3Kg of silica micropowder, 2Kg of high-strength solid bonding agent, 3Kg of sintering agent, 3Kg of antioxidant, 0.3Kg of anti-explosion agent and 0.2Kg of composite dispersing agent, wherein the wall thickness of the high-strength prefabricated member is 250-450 mm.

Example 5

1-4, a blast furnace swing chute having a high strength prefabricated spout, unlike the other embodiments, the high strength prefabricated spout is made from the following raw materials by weight: 30Kg of electric cast mullite, 30Kg of sintered plate-shaped corundum, 25Kg of black silicon carbide, 5Kg of zircon sand, 5.7Kg of high-purity spinel micropowder, 5Kg of alumina micropowder, 1Kg of silica micropowder, 4Kg of high-strength solid bonding agent, 2Kg of sintering agent, 1Kg of antioxidant, 0.3Kg of anti-explosion agent and 0.4Kg of composite dispersing agent, wherein the wall thickness of the high-strength prefabricated member is 250-450 mm.

The test results of the blast furnace swing chute with the high-strength prefabricated nozzle obtained in examples 1 to 5 are shown in attached table 1.

Attached table 1

Item	Wall thickness/mm	One-time iron flux/ten thousand tons
			Example 1	700	8.6
Example 2	500	13.1
			Example 3	480	12.8
Example 4	580	13.9
			Example 5	630	14.6

In attached table 1, the wall thickness is the sum of the wall thicknesses of the working liner and the high-strength preform.

As can be seen from the attached Table 1, the blast furnace swing chute obtained in examples 2 to 5 had a single iron charge increased to 13 million tons or more and a service life prolonged by 30% or more, as compared with example 1.

The results of the performance tests of the high strength preforms obtained in examples 1-5 are shown in Table 2.

Attached table 2

Item	Compressive strength of one/MPa	Flexural strength of one/MPa	Volume density of one/Kg/dm 3	Compressive strength of two/MPa	Flexural strength of two/MPa	Volume density of two/Kg/dm 3	Heating permanent line Rate/%)
								Example 1	72	9.2	2.97	85	10.1	2.88	0.3
Example 2	85	11.3	3.02	103	13.7	3.00	0.05
								Example 3	91	12.5	3.08	112	14.1	3.05	0.08
Example 4	81	11.8	3.12	108	13.9	3.10	0.07
								Example 5	94	12.3	3.03	114	14.4	3.00	0.12

In the attached table 2, the first compressive strength, the first flexural strength and the first bulk density are measured at room temperature after being dried at 110 ℃ for 24 hours, the second compressive strength, the second flexural strength and the second bulk density are measured at room temperature after being fired at 1500 ℃ for 3 hours, and the rate of change of the heating permanent line is the rate of change of the permanent line after being fired at 1500 ℃ for 3 hours.

It can be known from embodiments 1-5 and attached table 1-2 that the utility model provides a blast furnace swing chute with prefabricated stem bar of high strength, simple structure, job stabilization nature is high, especially in embodiments 2-5, through optimizing the formula combination, adopt choice high-quality raw and other materials, introduce high strength solid binder, sintering agent etc. to obtain blast furnace swing chute and high strength prefabricated part for the stem bar, has effectively promoted the compactness, the thermal shock stability of high strength prefabricated part, and the permanent line rate of change is little inflation and more stable after the high temperature burns, and high temperature withstand voltage rupture strength promotes greatly; the formula is optimized, the carbon-containing materials with extremely high volatility are reduced or discarded, the emission of carbon content is reduced, the utilization and the environmental protection are realized, the comprehensive operation cost of the swing chute and the spout thereof can be effectively reduced, high-quality refractory raw material resources are saved, the once iron passing amount of the swing chute for the large blast furnace can be improved to be over 13 ten thousand tons, the service life is prolonged by over 30 percent, and the utility model has remarkable economic and social benefits.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (4)

1. The utility model provides a blast furnace swing chute with prefabricated stem bar excels in, a serial communication port, includes the box hat, be provided with resistant firebrick lining in the box hat, resistant firebrick lining surface is provided with the work lining, work lining surface is provided with the stem bar, be provided with the slot on the stem bar, the stem bar is formed by the prefab concatenation that excels in, the box hat lower extreme is provided with swing drive arrangement, swing drive arrangement includes the base, be provided with ascending support column on the base, the box hat can swing on the support column, the box hat has at least to be connected with the lift driving piece between one end and the base.

2. The blast furnace swing chute with the high-strength prefabricated spout according to claim 1, wherein the lifting driving member is an upward driving oil cylinder, the supporting column, the driving oil cylinder and the steel shell are connected through a swing connecting assembly, the swing connecting assembly comprises a first connecting seat connected with the steel shell and a second connecting seat connected with the corresponding supporting column or the driving oil cylinder, the first connecting seat and the second connecting seat respectively comprise a base plate, a supporting member is arranged on the base plate, a connecting groove is arranged on the supporting member, and the corresponding connecting grooves of the first connecting seat and the second connecting seat are connected through a connecting block.

3. The blast furnace swing chute with the high-strength prefabricated flow nozzle as claimed in claim 1, wherein the cross section of the steel shell is U-shaped, two side walls of the steel shell are inclined outwards by 0-30 degrees, the upper end of the steel shell is provided with an outward bending plate, the lining layer of the refractory bricks comprises a bottom layer and a side layer, the bottom layer comprises a cushion layer laid at the bottom of the steel shell and a surface layer laid on the upper surface of the cushion layer, the cushion layer and the side layer are both composed of a plurality of bricks I, the surface layer is composed of a plurality of bricks II, the width value of the bricks II is larger than that of the bricks I, and the brick gaps of the cushion layer and the brick gaps of the surface layer are not overlapped.

4. The blast furnace swing chute with a high tensile prefabricated spout according to claim 1, wherein said working lining upper end extends to the upper side of the refractory brick lining, said spout upper end is flush with the working lining upper end face, and said spout upper end face is provided with a lifting lug hole.

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