CN202527702U - Submersed nozzle for continuous bloom casting mold - Google Patents
Submersed nozzle for continuous bloom casting mold Download PDFInfo
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- CN202527702U CN202527702U CN2012200252297U CN201220025229U CN202527702U CN 202527702 U CN202527702 U CN 202527702U CN 2012200252297 U CN2012200252297 U CN 2012200252297U CN 201220025229 U CN201220025229 U CN 201220025229U CN 202527702 U CN202527702 U CN 202527702U
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- crystallizer
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- side opening
- submersed nozzle
- side holes
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Abstract
The utility model relates to a submersed nozzle for a continuous bloom casting mold. The submersed nozzle comprises sidewalls forming a nozzle body, a closed bottom connected to the sidewalls, a vertical inner cavity surrounded by the sidewalls and the bottom, and four side holes evenly distributed on the sidewalls and communicated with the inner cavity, wherein the top end of the inner cavity is opened; among the four side holes, the center lines of the two adjacent side holes are perpendicular to each other, and the two opposite side holes are completely the same in size and shape and are axisymmetric with each other along the center line of the inner cavity of the nozzle; the center lines of the four side holes are respectively coincident with the central symmetrical lines of the four wall surfaces of the mold. The submersed nozzle is characterized in that the wall surfaces on the periphery of the four side holes are all inclined from inside to outside and appear to be in an expanding trumpet shape; and on the outer wall surface of the nozzle, a ratio of the hole area of the wide-surface side holes distributed on the wide surface of the mold to the hole area of the narrow-surface side holes distributed on the narrow surface of the mold is equal to a ratio of the wide surface area to the narrow surface area of the mold. By virtue of the scheme, the homogenization of transverse temperatures and components in the mold promotes the rational and even solidification of a primary bloom case, and bloom cracks and crusting on the liquid level of the mold are reduced.
Description
Technical field
The utility model belongs to the continuous cast mold technical field of steel, relates in particular to bloom (referring to the square billet of cross dimensions greater than 200mm * 200mm) continuous cast mold and uses the submersed nozzle device.
Background technology
Molten Steel Flow behavior in the crystallizer all plays crucial effects to continuous casting process direct motion and strand final mass; And the Molten Steel Flow situation in the crystallizer depends on the geometry size of submersed nozzle to a great extent; Therefore, suitable submersed nozzle physical dimension is for controlling rational crystallizer flow field, promoting the continuous casting process direct motion and improve final slab quality to have crucial effects.Up to now, submersed nozzle has become the most frequently used and most important refractory material device in the continuous casting production, and the optimization of its physical dimension and design also become by the important content of extensive concern and research.
Submersed nozzle is the communication apparatus between tundish and the crystallizer, and its function is exactly continuously the molten steel in the tundish to be transferred to crystallizer in confined conditions.For the direct motion that guarantees continuous casting process and good slab quality, the molten steel that gets in the crystallizer must keep flow pattern preferably.Generally; Whether rationally be exactly when seeing cast crystallizer in whether can obtain preferably flow pattern, good flow pattern generally comprises following three aspects: 1) liquid level fluctuation of crystallizer and surface velocity are suitable and stable if weighing submersed nozzle class molded dimension and arrangement; In actual casting process, liquid level fluctuation of crystallizer generally will be controlled at ± 3mm in.Excessive liquid fluctuating and surface velocity can cause the crackle at volume slag and meniscus place; It should be noted that liquid fluctuating is not more little good more yet in the crystallizer, dead excessively liquid level is can causing slag bad; Cause covering slag crust and inflow not smooth, possibly cause crack defect equally; 2) the wide mask of crystallizer has uniform flow field and temperature field; Guarantee that the temperature field is even, the flow field just must evenly can avoid molten steel component uneven like this, and more important is the crack due to thermal stress that can prevent the bigger generation of the temperature difference; 3) crystallizer is vertically gone up the rational temperature gradient; In order to promote the base shell to solidify preferably; In the thermal center (-tre) that guarantees to improve molten steel under above-mentioned two conditions as far as possible; Make and form the low reasonable temperature gradient of the high temperature of lower of upper temp in the crystallizer; So both can improve the strand internal soundness as far as possible, can prevent again that crystallizer from exporting the base shell and crossing thin and bleed-out.
Under the prior art, continuous casting blooms crystallizer submersed nozzle mainly contains three types at the through-type mouth of a river, the mouth of a river, bilateral hole and the mouth of a river, four holes.Because the mouth of a river, four holes can be flowed stock with molten steel and loose, and promotes the uniformity of composition and temperature, has reduced the impact depth of molten steel simultaneously; Improved the thermal center (-tre) of molten steel; Help to improve the strand internal soundness, therefore, the steel grade of having relatively high expectations for slab quality can adopt four hole submersed nozzles usually.In the middle of the four at present used hole submersed nozzles is vertical circular mesopore; The bottom surface sealing; Even four identical side openings of size shape that distribute on the side wall surface more than the bottom surface, the lower edge wall is the inclination angle of equal angular simultaneously downward or upward on the side opening, and it is parallel promptly to go up the lower edge wall; The left and right sides wall of side opening is straight, parallels with the center line of side opening.During cast-in-site; Bottom, the mouth of a river is inserted below the crystallizer molten steel surface, and four side openings are aimed at the centre position of four sides of crystallizer respectively, and mesopore flows into molten steel from the mouth of a river; Evenly flow out from four side openings, rebounding behind the stream strand collision crystallizer wall also slowly diffuses to whole crystallizer lateral cross section again.Adopt this four hole submersed nozzle cast; Have following two weak points: 1) existing bloom has wide the branch with leptoprosopy; And wide there are differences with the leptoprosopy width, and still, the geomery of present four side openings of four hole submersed nozzles is identical; The high-temperature molten steel flow that distributes on this just feasible side that varies in size is identical, and significant adverse is in the temperature homogeneity in strand cross section and the reasonable growth of nascent solidified shell; 2) wall parallel, left and right sides wall in lower edge is the straight wall parallel with the side opening center line on the side opening of present four hole submersed nozzles; Therefore molten steel portals from the mouth of a river when flowing out, and strand to expand outwardly angle very little for stream; High-temperature molten steel can only collide and rebound behind the crystallizer wall centre again and diffuse to whole wide; The time that arrives the crystallizer bight is longer, is unfavorable for very much the crystallizer temperature transversely and the uniformity of composition, is easy to generate defectives such as longitudinal crack or component segregation.Especially the bight belongs to the two dimension cooling, and intensity of cooling is very big, is difficult to obtain simultaneously the temperature-compensating of high-temperature molten steel again, problems such as cold steel of knot or covering slag crust therefore usually occur, has had a strong impact on continuous casting process direct motion and slab quality.
The utility model content
The technical problem that the utility model will solve is; To the above-mentioned deficiency of prior art and provide a kind of cogged ingot continuous casting crystallizer to use submersed nozzle; Make and obtain flow field and temperature field preferably in the crystallizer; Improve the uniformity of interior transverse temperature of crystallizer and composition, promote rationally evenly solidifying of initial solidification shell, reduce strand crackle and mold liquid level crust.
For solving the problems of the technologies described above, the technical solution of the utility model is:
A kind of bloom crystallizer is used submersed nozzle, on the inner chamber of the vertical and top end opening that the bottom of the sealing that comprise the sidewall that constitutes mouth of a river body, links to each other with sidewall, sidewall and bottom surround and the sidewall with equally distributed four side openings of intracavity inter-connection; In said four side openings, the center line of adjacent two side holes is perpendicular, relative two side holes size shape identical and along the mouth of a river lumen centers line is axisymmetricly; The center line of four side openings overlaps respectively with the centre symmetry line of four walls of crystallizer; It is characterized in that: the wall around said four side openings by interior outward-dipping, be extend out horn-like; On the outer side surface of the mouth of a river, the ratio of hole area and the hole area of the leptoprosopy side opening that is arranged in the crystallizer leptoprosopy that is arranged in wide side opening of wide of crystallizer equals the ratio of wide area of crystallizer and leptoprosopy area.
Said four side openings are in the sustained height of mouth of a river sidewall and near mouth of a river at; The equal flush of the intersecting lens of lower edge wall and sidewall on each hole.
The upper surface distance of the intersecting lens of each side opening lower edge wall and outer wall is dried up mouthful bottom is 0~40mm.
The inclination angle scope that wall tilts from inside to outside around the said side opening is 5 °~60 °.
Said inner chamber is cylindrical or the square column type of band chamfering.Said bottom is sunken bottom, flat or concave bottom.Said body is the ring body of refractory material through hydrostatic pressing.
Said four side openings are shaped as the rectangle of band chamfering, and chamfer radius is 5mm~20mm; Each side opening height is identical, and the ratio of wide side opening and the hole width of leptoprosopy side opening equals the width ratio of wide of crystallizer and crystallizer leptoprosopy on the outer side surface.
During cast, the inner chamber top end opening flows into molten steel from the mouth of a river, flows out from four side openings near the bottom.
There is following beneficial effect in the utility model with respect to prior art:
(1) owing to wall around the side opening has the inclination angle that extends out; The molten steel that flows out from mouth of a river side opening can extend out under the guide functions at inclination angle to motion all around; Make molten steel evenly be dispersed to the zone, top of crystallizer; Can increase the transverse temperature uniformity of molten steel like this, prevent mass defects such as crackle that invar liquid transverse temperature and uneven components cause or segregation.
(2) angle that extends out of side opening both sides can be with high-temperature molten steel drainage to crystallizer folding corner region; Corner two dimension cooled region has temperature-compensating; Can effectively avoid the bight because of cast problems such as the cold steel of knot of crossing cold generation and covering slag cakings, help the continuous casting process direct motion.
(3) molten steel disperses under the guide functions that extends out the shape side opening more, can reduce the flowing velocity and the intensity of molten steel, has reduced the stream thigh to the impact of solidified shell and the fluctuation of mold liquid level, has guaranteed the normal growth of nascent solidified shell.
(4) side opening area in the mouth of a river is provided with according to the area that solidifies the zone, can make high-temperature molten steel obtain in the horizontal more reasonably distributing, and has further promoted the temperature and the homogeneity of ingredients of molten steel on the cross section, helps the improvement of final slab quality.
Description of drawings:
Fig. 1 is the structural representation of submersed nozzle among embodiment of the utility model;
Fig. 2 is that the A-A of submersed nozzle is to cutaway view;
Fig. 3 is that submersed nozzle is arranged in the cross sectional representation in the bloom crystallizer.
Label is following in the accompanying drawing, 1-sidewall, 2-bottom, 3-inner chamber, wide side opening of 4-, 5-leptoprosopy side opening, 6-crystallizer, wide of 7-crystallizer, 8-crystallizer leptoprosopy
The specific embodiment:
Below in conjunction with embodiment and accompanying drawing the utility model is described further, but does not limit the utility model.
Like Fig. 1~shown in Figure 3, a kind of bloom crystallizer is used submersed nozzle, comprises mouth of a river sidewall 1, and the lower end of said mouth of a river sidewall 1 is the bottom 2 of sealing, and bottom 2 can be convex, flat shape or spill.The central passage that mouth of a river sidewall 1 surrounds is an inner chamber 3, and the shape of said inner chamber 3 can be circular cylinder or chamfering square cylinder.Have four side openings on the mouth of a river sidewall 1 of 2 tops bottom being positioned at; It is identical with relative 5, two wide side opening 4 size shape of two leptoprosopy side openings to comprise two relative wide side openings 4, and the lumen centers line is axisymmetricly along the mouth of a river; Two leptoprosopy side opening 5 size shape are also identical; Simultaneously along the mouth of a river lumen centers line axisymmetricly, wide side opening 4 is 90 ° with leptoprosopy side opening 5 center line angles, is vertical layout.Wide side opening 4 is 5 °~60 ° inclination angle from inside to outside with leptoprosopy side opening 5 wall all around, is extend out horn-like.Said wide side opening 4 is connected with inner chamber 3 with leptoprosopy side opening 5, forms the flow channel of molten steel.The hole area of wide side opening 4 and the outside wall surface of leptoprosopy side opening 5 is than equaling wide 7 in the crystallizer area ratio with crystallizer leptoprosopy 8.
Said wide side opening 4 and leptoprosopy side opening 5 are in the sustained height place of mouth of a river sidewall 1, the equal flush of intersecting lens of lower edge wall and sidewall 1 on each hole, and 2 upper surface was apart from being 0~40mm bottom the intersecting lens of each lower edge, hole wall and outer wall was dried up mouthful.The sidewall 1 of said submersed nozzle and coupled bottom 2 all adopt refractory material to pass through hydrostatic pressing, and it is very good that its effect of field application has been proved to be.
As a kind of shape of optimization, wide side opening 4 is the square of chamfering with leptoprosopy side opening 5, and chamfer radius is 5mm~20mm.Wide side opening 4 is identical with the height of leptoprosopy side opening 5; But width is decided according to wide 7 area with crystallizer leptoprosopy 8 of the crystallizer of casting crystallizer 6; Because wide 7 height with crystallizer leptoprosopy 8 of crystallizer is identical in the reality; The height of said wide side opening 4 and leptoprosopy side opening 5 is also identical, therefore, the hole width that only needs to guarantee wide side opening 4 and the outside wall surface of leptoprosopy side opening 5 than the width that equals wide 7 in crystallizer and crystallizer leptoprosopy 8 than getting final product.
During actual the cast; Molten steel is from the inflow suitable for reading of submersed nozzle inner chamber 3; And according to the area of side opening leniently face side opening 4 and leptoprosopy side opening 5 are dispensed to wide 7 in crystallizer and crystallizer leptoprosopy 8 respectively; Extend out the inclination angle to diffusion all around along side opening simultaneously, the uniformity of highly beneficial assurance molten steel transverse temperature and composition promotes the evenly reasonable growth of nascent solidified shell.
The above disclosed preferred embodiment that is merely the utility model can not limit the interest field of the utility model certainly with this, so according to the equivalence variation that the utility model claim is done, still belong to the protection domain of the utility model.
Claims (8)
1. a bloom crystallizer is used submersed nozzle, on the inner chamber of the vertical and top end opening that the bottom of the sealing that comprise the sidewall that constitutes mouth of a river body, links to each other with sidewall, sidewall and bottom surround and the sidewall with equally distributed four side openings of intracavity inter-connection; In said four side openings, the center line of adjacent two side holes is perpendicular, relative two side holes size shape identical and along the mouth of a river lumen centers line is axisymmetricly; The center line of four side openings overlaps respectively with the centre symmetry line of four walls of crystallizer; It is characterized in that: the wall around said four side openings by interior outward-dipping, be extend out horn-like; On the outer side surface of the mouth of a river, the ratio of hole area and the hole area of the leptoprosopy side opening that is arranged in the crystallizer leptoprosopy that is arranged in wide side opening of wide of crystallizer equals the ratio of wide area of crystallizer and leptoprosopy area.
2. submersed nozzle according to claim 1 is characterized in that said four side openings are in the sustained height of mouth of a river sidewall and near mouth of a river at; The equal flush of the intersecting lens of lower edge wall and sidewall on each hole.
3. submersed nozzle according to claim 2 is characterized in that the upper surface distance of the dried up mouthful of bottom of intersecting lens of each side opening lower edge wall and outer wall is 0~40mm.
4. according to the described submersed nozzle of one of claim 1-3, it is characterized in that the inclination angle scope that wall tilts from inside to outside around the said side opening is 5 °~60 °.
5. submersed nozzle according to claim 4 is characterized in that: said inner chamber is cylindrical or the square column type of band chamfering.
6. according to one of claim 1-3 or 5 described submersed nozzles, it is characterized in that: said bottom is sunken bottom, flat or concave bottom.
7. submersed nozzle according to claim 6 is characterized in that said body is the ring body of refractory material through hydrostatic pressing.
8. according to one of claim 1-3 or 5 or 7 described submersed nozzles, it is characterized in that said four side openings are shaped as the rectangle of band chamfering, chamfer radius is 5mm~20mm; Each side opening height is identical, and the ratio of wide side opening and the hole width of leptoprosopy side opening equals the width ratio of wide of crystallizer and crystallizer leptoprosopy on the outer side surface.
Priority Applications (1)
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CN2012200252297U CN202527702U (en) | 2012-01-18 | 2012-01-18 | Submersed nozzle for continuous bloom casting mold |
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CN2012200252297U CN202527702U (en) | 2012-01-18 | 2012-01-18 | Submersed nozzle for continuous bloom casting mold |
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CN2012200252297U Expired - Fee Related CN202527702U (en) | 2012-01-18 | 2012-01-18 | Submersed nozzle for continuous bloom casting mold |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102554208A (en) * | 2012-01-18 | 2012-07-11 | 中冶南方工程技术有限公司 | Submersed nozzle for bloom continuous casting crystallizer |
CN108480609A (en) * | 2018-03-30 | 2018-09-04 | 东北大学 | A kind of continuous casting Anti-blocking immersion nozzle |
-
2012
- 2012-01-18 CN CN2012200252297U patent/CN202527702U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102554208A (en) * | 2012-01-18 | 2012-07-11 | 中冶南方工程技术有限公司 | Submersed nozzle for bloom continuous casting crystallizer |
CN108480609A (en) * | 2018-03-30 | 2018-09-04 | 东北大学 | A kind of continuous casting Anti-blocking immersion nozzle |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20121114 Termination date: 20180118 |