CN201565599U

CN201565599U - Immerging water gap of thin slab

Info

Publication number: CN201565599U
Application number: CN2009202848170U
Authority: CN
Inventors: 唐继山; 徐叶君; 张兰银
Original assignee: Huanai International (Yixing) Advanced Ceramics Co Ltd
Current assignee: Huanai International (Yixing) Advanced Ceramics Co Ltd
Priority date: 2009-12-28
Filing date: 2009-12-28
Publication date: 2010-09-01
Anticipated expiration: 2019-12-28

Abstract

The utility model provides an immerging water gap of a thin slab, comprising two large water gap surfaces (1) extending downwards from an upper inlet (2) of the water gap, a lower water gap internal chamber (3) formed between the two large water gap surfaces (1), and a lower water gap part (4) consisting of the large water gap surfaces (1) of the and the lower water gap internal chamber (3). The immerging water gap of thin slab is characterized in that the lower part (4) of the water gap is provided with at least five shunting holes that are communicated with the lower water gap internal chamber (3); the shunting holes are distributed in the narrow surface of the water gap; and the remained parts of the water gap are in closed state. The immerging water gap is provided with a pair of upper shunting holes and the steel streams improve the temperature fields around the water gap. In the utility model, the shunting holes are arranged in radial shape; and when the steel streams pass by the shunting holes, the sectional area is increased and the speed is reduced, thus achieving the purpose of lightening the impact of the solidified blank shell at two sides of the crystallizer.

Description

Submersed nozzle of sheet billet

This case application is on the same day innovation and creation not only to be applied for utility model patent but also apply for patent of invention, and invention and created name is a Submersed nozzle of sheet billet.

Technical field

The utility model relates to the sheet blank continuous casting technical field, provide a kind of and can optimize flow field of molten steel in the thin-slab caster crystallizer, guarantee the molten steel liquid level stabilizing, improve the Submersed nozzle of sheet billet of mouth of a river temperature field surrounding simultaneously, thereby reach the effect that improves slab quality.

Background technology

At present, sheet blank continuous casting is the near net shape continuous casting continuous rolling process that develops before external 20 years, and last century, the nineties was introduced China, developed into ten now surplus.Because the strand of this conticaster production has thin thickness, and the duration of pouring is long, common submersed nozzle can not meet the needs of production at all.

Many people have proposed different schemes with regard to the design of Submersed nozzle of sheet billet.Publication number is that molten steel that the Chinese patent of CN1075968C will flow into crystallizer has been divided into four streams strand, the flow field of having improved crystallizer to a certain extent.The patent No. be 00920040677.2 Chinese patent at publication number be on the Chinese patent basis of CN1075968C by increasing deflector, the increase of steel flow amount is improved the flow field, this design is counted tame steel mills at home and is obtained popularization, customers' responsiveness is better.But all also there is certain defective in above two kinds of mouths of a river.That is exactly that backflow by molten steel makes hot molten steel get back to the top of crystallizer, because length of circumfluence is limited, cause near the molten steel temperature in the mouth of a river obviously on the low side, when so low for a long time pulling rate waters steel, the cold steel bridging phenomenon of knot appears sometimes, in case improve pulling rate once more, the mouth of a river might be broken, thereby causes production accident.

Summary of the invention

The purpose of this utility model is to address the aforementioned drawbacks, and a kind of Submersed nozzle of sheet billet that steel stream directly can be distributed to the molten steel surface is provided, and by adjusting the size and the shape of each tap hole, improves flow field of molten steel in the crystallizer simultaneously.

The technical solution of the utility model is:

Submersed nozzle of sheet billet of the present utility model is not established deflector on its molten steel flow channel, and mouth of a river tapping tap hole is divided into five at least, controls the molten steel water conservancy diversion by tap hole opening direction and angle.

A kind of Submersed nozzle of sheet billet, comprise mouth of a river lower lumen that constitutes between big along downward big, two mouths of a river, two mouths of a river of extending of mouth of a river upper entrance and the bottom, the mouth of a river that constitutes by big of the mouth of a river and mouth of a river lower lumen, bottom, the described mouth of a river is provided with at least five tap holes that are communicated with mouth of a river lower lumen, tap hole is distributed on the leptoprosopy at the mouth of a river, any type of tap hole do not occur on big of the mouth of a river, the remainder at the mouth of a river is a closed state.

Described tap hole is symmetrically distributed along the center line at the mouth of a river, mouth of a river lower bottom end is provided with first tap hole, bottom, the mouth of a river two upper lateral parts are provided with the 4th tap hole and the 5th tap hole that pair of openings makes progress, and bottom, the mouth of a river two side lower parts are provided with downward second tap hole of pair of openings and the 3rd tap hole.

The shape of the multi-curvature radius that is shaped as rectangle, cylindrical, truncated cone-shaped or combines by circular and rectangle of described tap hole.The direction of the center line of described first tap hole vertically downward, the first tap hole opening left and right sides equates with the angle α of mouth of a river centerline direction, parallels with mouth of a river center line or has an inside angle by the two sides at big of the mouth of a river.

The inboard discharge area of described first tap hole is d1*c1, outside discharge area is D1*C1, the inboard discharge area that is positioned at mouth of a river lower lumen accounts for the 5-15% of side outlet total sectional area, and outside discharge area D1*C1 is more than or equal to inboard discharge area d1*c1.

The center line of described second tap hole and the 3rd tap hole and the angle of vertical direction are angle β, and angle β is between 0 ° to 90 °, and second tap hole and the 3rd tap hole are between 20 millimeters to 150 millimeters apart from the distance h 2 on base, the mouth of a river; Second tap hole and the 3rd tap hole are parallel or have an inside angle near big of the two sides at big of the mouth of a river and the mouth of a river, the angle of second tap hole and the other two sides of the 3rd tap hole and its center line is β 1 and β 2, β 1 can equate with β 2, also can be unequal.

It is d2*c2 that described second tap hole or the 3rd tap hole are positioned at the inboard discharge area of mouth of a river lower lumen, outside discharge area is D2*C2, and the inboard discharge area that second tap hole and the 3rd tap hole are positioned at mouth of a river lower lumen accounts for the 55-85% of side outlet total sectional area.

The center line of described the 4th tap hole and the 5th tap hole and the angle of vertical direction are angle γ, and angle γ is between 0 ° to 90 °, and the 4th tap hole and the 5th tap hole are between 40 millimeters to 200 millimeters apart from the distance h 3 on base, the mouth of a river; The 4th tap hole and the 5th tap hole are parallel or have an inside angle near big of the two sides at big of the mouth of a river and the mouth of a river, the angle of the 4th tap hole and the other two sides of the 5th tap hole and its center line is γ 1 and γ 2, γ 1 and γ 2 can equate, also can be unequal.

It is d3*c3 that described the 4th tap hole and the 5th tap hole are positioned at the inboard discharge area of mouth of a river lower lumen, outside discharge area is D3*C3, and the inboard discharge area that the 4th tap hole and the 5th tap hole are positioned at mouth of a river lower lumen accounts for the 10-30% of side outlet total sectional area.

The projection of shape of described mouth of a river lower lumen wide direction along the mouth of a river is semicircle, rhombus, footpath circular arc, the geometric figure of multi-line section composition or the combination of above-mentioned shape mostly, and this figure is along how much symmetries of center line at the mouth of a river; The projection of shape of bottom, described mouth of a river external form wide direction along the mouth of a river is semicircle, rhombus, footpath circular arc, the geometric figure of multi-line section composition or the combination of above-mentioned shape mostly, and this figure is along how much symmetries of center line at the mouth of a river.

The beneficial effects of the utility model are:

The employed design principle of the utility model is theoretical for dissipating, and realizes by controlling the long-pending size of tap hole inner surface and increasing mouth of a river bottom area.She Ji Submersed nozzle of sheet billet in the past, steel flow to when reaching bottom, the mouth of a river, and steel stream does not almost directly enter crystallizer by tap hole in mouth of a river internal stops.And Submersed nozzle of sheet billet of the present utility model, the part steel flows to when reaching bottom, the mouth of a river, bumps with the mouth of a river diapire that seals, and consumes a part of kinetic energy, enters crystallizer by tap hole then.Simultaneously, tap hole is divergent shape, and when steel flowed by tap hole, sectional area increased to some extent, and speed will reduce to some extent, alleviates the purpose that crystallizer both sides solidified shell is impacted thereby reach.Wherein two tap hole directions upwards directly arrive the surface of crystallizer molten steel, to replenishing a part of hot molten steel around the mouth of a river, thereby reach eliminate mouth of a river environment temperature at the bottom of, the phenomenon of the cold steel of knot.

Description of drawings

Fig. 1 is the cross-sectional schematic of embodiment one of the present utility model.

Fig. 2 is that first tap hole of embodiment one of the present utility model is along the Way out perspective view.

Fig. 3 is that the 5th tap hole of embodiment one of the present utility model is along the Way out perspective view.

Fig. 4 is that the 3rd tap hole of embodiment one of the present utility model is along the Way out perspective view.

Fig. 5 is the cross-sectional schematic of embodiment two of the present utility model.

Fig. 6 is that first tap hole of embodiment two of the present utility model is along the Way out perspective view.

Fig. 7 is that the 5th tap hole of embodiment two of the present utility model is along the Way out perspective view.

Fig. 8 is that the 3rd tap hole of embodiment two of the present utility model is along the Way out perspective view.

Fig. 9 is a molten steel surface temperature distribution schematic diagram in the crystallizer of the Submersed nozzle of sheet billet actual measurement used of domestic certain steel mill.

Figure 10 is to use the Submersed nozzle of sheet billet of embodiment one of the present utility model, molten steel surface temperature distribution schematic diagram in the crystallizer of actual measurement.

Among the figure: 1 is that big of the mouth of a river, 2 is that mouth of a river upper entrance, 3 is that mouth of a river lower lumen, 4 is that bottom, the mouth of a river, 5 is that first tap hole, 6 is that second tap hole, 7 is that the 3rd tap hole, 8 is that the 4th tap hole, 9 is that the 5th tap hole, 10 is base, the mouth of a river.

The specific embodiment

Below in conjunction with accompanying drawing the utility model is further described:

A kind of Submersed nozzle of sheet billet, comprise mouth of a river lower lumen 3 that constitutes between big 1 along mouth of a river upper entrance 2 downward big 1, two mouth of a river, two mouths of a river of extending and the bottom, the mouth of a river 4 that constitutes by big 1 at the mouth of a river and mouth of a river lower lumen 3, bottom, the mouth of a river 4 is provided with at least five tap holes that are communicated with mouth of a river lower lumen 3, tap hole is distributed on the leptoprosopy at the mouth of a river, any type of tap hole do not occur on big 1 at the mouth of a river, the remainder at the mouth of a river is a closed state.

Tap hole is symmetrically distributed along the center line at the mouth of a river, 4 bottoms, bottom, the mouth of a river are provided with first tap hole 5, the 4 liang of upper lateral parts in bottom, the mouth of a river are provided with the 4th tap hole 8 and the 5th tap hole 9 that pair of openings makes progress, and the 4 liang of side lower parts in bottom, the mouth of a river are provided with downward second tap hole 6 of pair of openings and the 3rd tap hole 7.

The shape of the multi-curvature radius that is shaped as rectangle, cylindrical, truncated cone-shaped or combines by circular and rectangle of tap hole.

The direction of the center line of first tap hole 5 vertically downward, first tap hole, the 5 opening left and right sides equate with the angle α of mouth of a river centerline direction, parallel with mouth of a river center line or have an inside angle by the two sides at big 1 at the mouth of a river.

First tap hole, 5 inboard discharge area are d1*c1, outside discharge area is D1*C1, the inboard discharge area that is positioned at mouth of a river lower lumen 3 accounts for the 5-15% of side outlet total sectional area, and outside discharge area D1*C1 is more than or equal to inboard discharge area d1*c1.

The center line of second tap hole 6 and the 3rd tap hole 7 and the angle of vertical direction are angle β, and angle β is between 0 ° to 90 °, and second tap hole 6 and the 3rd tap hole 7 are between 20 millimeters to 150 millimeters apart from the distance h 2 on base, the mouth of a river 10; Second tap hole 6 and the 3rd tap hole 7 are parallel or have an inside angle near big 1 at the two sides at big 1 at the mouths of a river and the mouth of a river, the angle of second tap hole 6 and the 3rd tap hole 7 other two sides and its center line is β 1 and β 2, β 1 can equate with β 2, also can be unequal.

It is d2*c2 that second tap hole 6 or the 3rd tap hole 7 are positioned at mouth of a river lower lumen 3 inboard discharge area, outside discharge area is D2*C2, and the inboard discharge area that second tap hole 6 and the 3rd tap hole 7 are positioned at mouth of a river lower lumen 3 accounts for the 55-85% of side outlet total sectional area.

The center line of the 4th tap hole 8 and the 5th tap hole 9 and the angle of vertical direction are angle γ, and angle γ is between 0 ° to 90 °, and the 4th tap hole 8 and the 5th tap hole 9 are between 40 millimeters to 200 millimeters apart from the distance h 3 on base, the mouth of a river 10; The 4th tap hole 8 and the 5th tap hole 9 are parallel or have an inside angle near big 1 at the two sides at big 1 at the mouths of a river and the mouth of a river, the angle of the 4th tap hole 8 and the 5th tap hole 9 other two sides and its center line is γ 1 and γ 2, γ 1 and γ 2 can equate, also can be unequal.

It is d3*c3 that the 4th tap hole 8 and the 5th tap hole 9 are positioned at mouth of a river lower lumen 3 inboard discharge area, outside discharge area is D3*C3, and the inboard discharge area that the 4th tap hole 8 and the 5th tap hole 9 are positioned at mouth of a river lower lumen 3 accounts for the 10-30% of side outlet total sectional area.

The projection of shape of mouth of a river lower lumen 3 wide direction along the mouth of a river is semicircle, rhombus, footpath circular arc, the geometric figure of multi-line section composition or the combination of above-mentioned shape mostly, and this figure is along how much symmetries of center line at the mouth of a river; The projection of shape of bottom, the described mouth of a river 4 external forms wide direction along the mouth of a river is semicircle, rhombus, footpath circular arc, the geometric figure of multi-line section composition or the combination of above-mentioned shape mostly, and this figure is along how much symmetries of center line at the mouth of a river.

The summation of the inboard sectional area of first tap hole 5, second tap hole 6, the 3rd tap hole 7, the 4th tap hole 8 and the 5th tap hole 9 more than or equal to mouth of a river upper entrance 2 sectional areas.

The inboard width c1 of tap hole, c2, c3 and tap hole outside width C1, C2, C3 can equate also can be unequal.

Tap hole inside length d1, d2, d3 and tap hole outside length D1, D2, D3 can equate also can be unequal, and require usually: tap hole outside length D1 is greater than tap hole inside length d1; Tap hole outside length D2 is greater than tap hole inside length d2; Tap hole outside length D3 is greater than tap hole inside length d3.

Do not contain any guiding gutter or deflector in the inner chamber of the mouth of a river, do not establish deflector on the molten steel flow channel, the molten steel water conservancy diversion is controlled by tap hole opening direction and angle.

Embodiment one.

As Fig. 1, Fig. 2, Fig. 3 and Fig. 4, a kind of Submersed nozzle of sheet billet, the projection of shape of mouth of a river lower lumen 3 wide direction along the mouth of a river is semicircle, this figure is along how much symmetries of center line at the mouth of a river; The projection of shape of bottom, the described mouth of a river 4 external forms wide direction along the mouth of a river is semicircle, and this figure is along how much symmetries of center line at the mouth of a river.

Embodiment two.

As Fig. 5, Fig. 6, Fig. 7 and Fig. 8, a kind of Submersed nozzle of sheet billet, the projection of shape of mouth of a river lower lumen 3 wide direction along the mouth of a river is the geometric figure that five line segments are formed, this figure is along how much symmetries of center line at the mouth of a river; The projection of shape of bottom, the described mouth of a river 4 external forms wide direction along the mouth of a river is the geometric figure that five line segments are formed, and this figure is along how much symmetries of center line at the mouth of a river.

As Fig. 1, Fig. 2, Fig. 3 and Fig. 4, c1=24.5mm; C2=28.2mm; C3=33.8mm; C1=22.7mm; C2=27.3mm; C3=33.8mm; D1=10.0mm; D1=62.0mm; D2=80.0mm; D2=104.5mm; D3=30.0mm; D3=65.5mm; α=45 °; β=60 °; β 1=30 °; β 2=20 °; γ=70 °; γ 1=45 °; γ 2=20 °; H1=26mm; H2=78.6mm; H3=170.0mm; R=5.0mm.

Experimental condition of the present utility model is as follows: the test steel grade is Q235-B; Tundish molten steel mean temperature is 1545 ℃; The crystallizer section is 70*1500; Pulling rate is 3.8m/min.We are divided into two parts symmetrical to crystallizer surface, and every part is divided into A, B, C, D, five zones of E, simultaneously each regional temperature is measured result such as following table:

Table 1. crystallizer surface Temperature Distribution table

	Time 1	Time 2	Time 3	Mean value
	Time 1	Time 2	Time 3	Mean value	In bag temperature ℃	1542	1550	1543	1545

	Time 1	Time 2	Time 3	Mean value
	Time 1	Time 2	Time 3	Mean value	A district temperature ℃	1534	1540	1737	1537
B district temperature ℃	1537	1544	1539	1540	A district temperature ℃	1534	1540	1737	1537
B district temperature ℃	1537	1544	1539	1540	C district temperature ℃	1535	1542	1537	1538
D district temperature ℃	1540	1547	1542	1543	C district temperature ℃	1535	1542	1537	1538
D district temperature ℃	1540	1547	1542	1543	E district temperature ℃	1538	1545	1540	1541

Data from measuring raise gradually from the A district to B district temperature, adjust back to some extent in the C district then, peak occurs in the D district.The mean value of its temperature data is plotted figure, as shown in figure 10.

In addition, molten steel temperature is also measured in the crystallizer during to present use, result such as following table:

Molten steel temperature distribution table in table 2. crystallizer

	Time 1	Time 2	Time 3	Mean value
	Time 1	Time 2	Time 3	Mean value	In bag temperature ℃	1546	1553	1545	1548
A district temperature ℃	1532	1535	1531	1533	In bag temperature ℃	1546	1553	1545	1548
A district temperature ℃	1532	1535	1531	1533	B district temperature ℃	1535	1540	1535	1537
C district temperature ℃	1541	1546	1539	1542	B district temperature ℃	1535	1540	1535	1537
C district temperature ℃	1541	1546	1539	1542	D district temperature ℃	1544	1550	1543	1546
E district temperature ℃	1542	1546	1541	1543	D district temperature ℃	1544	1550	1543	1546

Data from measuring raise gradually from the A district to D district temperature, reach peak value, decline to some extent then to the position of D.Because the mean temperature of measured tundish is higher relatively, is 1545 ℃ of drafting patterns with its conversion, as shown in Figure 9.

Relatively above two groups of data can be found, having upwards, the Submersed nozzle of sheet billet of tap hole helps improving flow field on every side, the mouth of a river, temperature around the mouth of a river is higher relatively, can prevent that the cold steel around the mouth of a river from putting up a bridge, and can stop the mouth of a river fully and occur the phenomenon that cast is interrupted because of pulling rate changes.

Claims

1. Submersed nozzle of sheet billet, comprise along two mouths of a river that mouth of a river upper entrance (2) extends downwards the mouth of a river lower lumen (3) that constitutes between big (1), two mouths of a river big (1) and by the bottom, the mouth of a river (4) of the mouth of a river big (1) and mouth of a river lower lumen (3) formation, it is characterized in that bottom, the described mouth of a river (4) is provided with at least five tap holes that are communicated with mouth of a river lower lumen (3), tap hole is distributed on the leptoprosopy at the mouth of a river, and the remainder at the mouth of a river is a closed state.

2. Submersed nozzle of sheet billet according to claim 1, it is characterized in that described tap hole is symmetrically distributed along the center line at the mouth of a river, bottom, bottom, the mouth of a river (4) is provided with first tap hole (5), bottom, the mouth of a river (4) two upper lateral parts are provided with the 4th tap hole (8) and the 5th tap hole (9) that pair of openings makes progress, and bottom, the mouth of a river (4) two side lower parts are provided with downward second tap hole of pair of openings (6) and the 3rd tap hole (7).

3. Submersed nozzle of sheet billet according to claim 1 is characterized in that the shape of the multi-curvature radius that is shaped as rectangle, cylindrical, truncated cone-shaped or is combined by circular and rectangle of described tap hole.

4. Submersed nozzle of sheet billet according to claim 2, it is characterized in that described first tap hole (5) center line direction vertically downward, first tap hole (5) the opening left and right sides equates with the angle α of mouth of a river centerline direction, parallels with mouth of a river center line or has an inside angle by the two sides at the mouth of a river big (1).

5. Submersed nozzle of sheet billet according to claim 4 is characterized in that inboard discharge area that described first tap hole (5) is positioned at mouth of a river lower lumen (3) accounts for the 5-15% of side outlet total sectional area.

6. Submersed nozzle of sheet billet according to claim 2, it is characterized in that the center line of described second tap hole (6) and the 3rd tap hole (7) and the angle of vertical direction are angle β, angle β is between 0 ° to 90 °, and second tap hole (6) and the 3rd tap hole (7) are between 20 millimeters to 150 millimeters apart from the distance h 2 of base, the mouth of a river (10); Second tap hole (6) and the 3rd tap hole (7) are parallel or have an inside angle near the two sides at the mouth of a river big (1) and the mouth of a river big (1).

7. Submersed nozzle of sheet billet according to claim 6 is characterized in that inboard discharge area that described second tap hole (6) and the 3rd tap hole (7) are positioned at mouth of a river lower lumen (3) accounts for the 55-85% of side outlet total sectional area.

8. Submersed nozzle of sheet billet according to claim 2, it is characterized in that the center line of described the 4th tap hole (8) and the 5th tap hole (9) and the angle of vertical direction are angle γ, angle γ is between 0 ° to 90 °, and the 4th tap hole (8) and the 5th tap hole (9) are between 40 millimeters to 200 millimeters apart from the distance h 3 of base, the mouth of a river (10); The 4th tap hole (8) and the 5th tap hole (9) are parallel or have an inside angle near the two sides at the mouth of a river big (1) and the mouth of a river big (1).

9. Submersed nozzle of sheet billet according to claim 8 is characterized in that inboard discharge area that described the 4th tap hole (8) and the 5th tap hole (9) are positioned at mouth of a river lower lumen (3) accounts for the 10-30% of side outlet total sectional area.

10. Submersed nozzle of sheet billet according to claim 8, the projection of shape that it is characterized in that described mouth of a river lower lumen (3) wide direction along the mouth of a river is semicircle, rhombus, footpath circular arc, the geometric figure of multi-line section composition or the combination of above-mentioned shape mostly, and this figure is along how much symmetries of center line at the mouth of a river; The projection of shape of bottom, the described mouth of a river (4) external form wide direction along the mouth of a river is semicircle, rhombus, footpath circular arc, the geometric figure of multi-line section composition or the combination of above-mentioned shape mostly, and this figure is along how much symmetries of center line at the mouth of a river.