KR101360552B1 - Continuous Casting Device - Google Patents

Abstract

The present invention is to provide a segment that can prevent the cast surface from swelling periodically between the roller and the neighboring roller due to the pressure even if the casting of the hot cast at high speed, it is disposed in the cooling line for solidifying the unsolidified cast A fixed frame and a flooded frame spaced apart so that the slab passes; And a plurality of rollers provided in each of the fixed frame and the flow frame, wherein the number of the rollers provided in the fixed frame (N _fixed ) and the number of the rollers provided in the flow frame (N _loosed ) are different from each other. do.

Description

Continuous Casting Device

The present invention relates to a continuous casting plant comprising segments for guiding the transfer of molds and strands. Specifically, the number and spacing of the rolls of the outer frame and the rolls of the inner frame are different to provide casts of improved quality. It is about possible playing equipment.

In general, a continuous casting process is to continuously inject molten steel into a mold of a constant shape, and continuously draw the reacted cast pieces in the mold to the lower side of the mold.

A schematic configuration and a configuration of a segment of a general continuous casting facility (performance facility) in which this playing process is performed are shown in FIG. 1.

Typical playing equipment is a tundish 20, a tundish 20 for supplying molten steel through a ladle 10 containing molten steel refined in a steelmaking process and an injection nozzle connected to the ladle 10 and temporarily storing the molten steel. The mold 30 receives the molten steel temporarily stored in the mold 30, and a plurality of segments 50 are arranged at the lower part of the mold to guide the cooling of the unsolidified slab and guide the cooling of the strand. Strand 40.

In this case, the segments 50 are arranged so that the plurality of rolls 52 and 54 are opposed to each other, and the upper and lower frames 51 and lower frames 53 and the upper frames 51 and lower frames 53 spaced apart from each other up and down. By applying a plurality of tie rods (not shown) and tie rods connected by the piston to adjust the separation distance between the upper frame 51 and the lower frame 53, a plurality of hydraulic pressure to apply a pressing force to the slab (1) Cylinder (not shown).

It is important that the level of the molten metal in the mold 30 is kept constant during casting in the casting equipment. In the case of the segment 50 used in the casting equipment, the casting speed increases, the level fluctuations. This deepening can no longer increase the casting speed, and the hot slab surface swells periodically between the rolls and the neighboring rolls due to the pressure, thereby causing the hot water hunting.

The present invention is to solve the problems of the prior art as described above, it is possible to reduce the hot water hunting due to the swelling of the cast slab periodically between the roll and the neighboring roll due to the pressure when casting the hot slab at high speed It is to provide a continuous casting facility.

In addition, an object of the present invention is to provide a playing equipment capable of providing a cast having improved quality by reducing hot water hunting caused by swelling of the cast surface periodically.

The present invention provides the following segments and playing equipment to achieve the above object.

The invention provides a mold for providing a cast; And a plurality of segments for guiding and cooling the strand transfer of the cast steel, wherein the segments include an inner frame, an outer frame spaced apart from the inner frame, and a plurality of rolls mounted to the inner frame and the outer frame, respectively. In addition, the number of rolls (N _fixed ) provided in the outer frame and the number (N _loosed ) of the rolls provided in the inner frame provides a continuous casting facility different.

In the present invention, the average roll pitch (P _{avg , fixed} ) of the outer frame and the average roll pitch (P _{avg , loosed} ) of the inner frame may be different from each other.

In the present invention, the length of the outer frame side segment and the length of the inner frame side segment may be the same so as to be disposed on the horizontal portion or the vertical portion of the strand.

Alternatively, in the present invention, the length of the outer frame side segment is longer than the inner frame side segment length so as to be disposed in the bow zone of the strand, and the average roll pitch (P _{avg , fixed} ) of the outer frame and the inner frame The average roll pitch of P _{avg , loosed} may satisfy the following relationship.

(t_slab: 주편의 두께, r: 냉각 라인의 반경)

(t _slab : thickness of _{cast steel} , r: radius of cooling line)

It is preferable that the number of rolls provided in the inner frame is larger than the number of rolls provided in the outer frame.

In addition, the segment of the present invention includes a pinch roll for drawing the cast pieces passing through the outer frame and the inner frame, respectively, the center of the pinch roll of the outer frame and the center of the pinch roll of the inner frame may be disposed to be offset. .

Alternatively, in the present invention, the outer frame is a fixed frame, the inner frame provides a continuous casting installation, characterized in that the movable frame.

The present invention can provide a segment that can reduce the hot water hunting caused by swelling periodically between the roll and the neighboring roll due to the pressure even if the casting of the hot cast at a high speed through the above configuration. .

In addition, the present invention provides a playing equipment that provides improved cast steel by reducing hot water hunting due to swelling of the cast steel surface periodically.

1 is a schematic diagram of a conventional playing facility.
2 is a view showing a state in which the slab swells in the segment of the conventional playing equipment.
3 is a schematic view of a segment of the horizontal portion of the present invention.
4 is a schematic view of a segment of a curved portion of the present invention.
5 is a schematic diagram of a playing facility to which the segment of the present invention is applied.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 shows a schematic of the segment used in the horizontal or vertical portion of the strand as a segment of the invention.

Segment 150 of the present invention is disposed on top and movable by play, a flowed frame 151 as an inner frame facing the radial center of the strand, and disposed below and fixed radially outward of the strand. A fixed frame 154 as a facing outer frame, a plurality of rolls 152, 154 disposed on the flow frame 151 and the fixed frame 154, the plurality of rolls 152, 154 Includes a pair of pinch rolls 153, 156.

In the flow frame 151 of the present invention, the rolls 152 are arranged in a plurality (N _loosed ) over the entire segment length (l _{seg , loosed} ) at regular intervals. Specifically, in the flow frame 151, the pitch (P _loosed ) between the roll 152 and the roll 152 is uniformly arranged, the distance (l _loosed ) between the roll 152 and the roll 152 is a pinch roll ( 153 are arranged almost identically, although with slight differences in diameter compared to normal roll 152.

Similarly, in the fixed frame 154 of the present invention, the rolls 155 are arranged in plurality (N _fixed ) over the entire segment length l _{seg and fixed} at regular intervals. Specifically, in the flow frame 151, the pitch P _fixed between the roll 155 and the roll 155 is uniformly arranged, and the distance l _fixed between the roll 155 and the roll 155 is a pinch roll ( 156 is arranged almost identically, although with slight differences in diameter compared to normal roll 155.

In the segment 150 of FIG. 3, the number of rolls 155 of the fixed frame 154 is greater than the number of rolls 152 of the flow frame 151. Accordingly, the center of the roll 152 of the flow frame 151 is positioned between the center of one roll 155 of the fixed frame 154 and the center of the neighboring roll 155.

In addition, in the case of the segment 150 of FIG. 3, the segment lengths (l _{seg , loosed ,} l _{seg , and fixed} ) of the flow frame 151 and the fixed frame 154 are the same so as to be disposed in the horizontal part or the vertical part. It is composed. The average pitch Pavg is obtained by dividing the total segment length lseg by the number N of rolls as in the following equation (1).

... 식(1)

... Expression (1)

According to the formula of the average pitch P _avg , the total segment lengths of the flow frame 151 and the fixed frame 154 are the same (l _{seg, loosed} = l _{seg, fixed} ), but the roll of the flow frame 151 Since the number of (152) N _loosed and the number of rolls 155 of the fixed frame 154 (N _fixed ) are different (N _fixed > N _loosed ), the average pitch of the floating frame 151 (P _{avg , loosed)} ) Is larger than the average pitch (P _{avg , fixed} ) of the fixed frame 154 (P _{avg , loosed} > P _{avg , fixed} ).

Thus, the average pitch (P _{avg, loosed)} of the flow-frame 151 is the interval between due to the average pitch (P _{avg, fixed)} of the fixed frame 154, the difference M, roll (152, 155) are not the same They will have different spacing. That is, the distance at which the slab in contact with the rolls 152 and 155 of the flow frame and the fixed frame 151 and 154 meets with the next rolls 152 and 155 is changed every time, and accordingly, the cast is rolled as in the prior art. Tang hunting caused by continuous repeated contact with can be prevented.

On the other hand, in the case of the pinch rolls 153 and 156 which draw the cast pieces passing through the segments of the rolls 152 and 155, the centers may be offset, and in the high-speed casting, the centers of the pinch rolls 153 and 156 are shifted. This is because the share generated is slight and the hunt surface hunting caused by the pinch rolls 153 and 156 are arranged to correspond periodically. Here, high-speed casting means to pull out 80-t slats at a speed of 5 m / min or more, and means 400 mm · m / min or more.

4 shows a segment 160 applied to the bow zone of the strand 140 in the present invention.

Segment 160 of FIG. 4 includes a flow frame 161 which is arranged in a curved center direction and movable by play, and a fixed frame 164 disposed and fixed in the opposite direction, and fixed with the flow frame 161. A plurality of rolls 162 and 164 are disposed in the frame 164, and the plurality of rolls 162 and 164 include a pair of pinch rolls 163 and 166.

Similar to the embodiment of FIG. 3, in the flow frame 161 of the segment 160 of FIG. 4, the rolls 162 are arranged in a plurality (N _loosed ) over the entire segment length l _{seg , loosed} at regular intervals. It is. In the flow frame 151, the pitch P _loosed between the roll 152 and the roll 152 is uniformly arranged, and the distance l _loosed between the roll 152 and the roll 152 is the pinch roll 163. Although the diameter is larger than that of the general roll 162, they are arranged almost identically although there is a slight difference.

In the fixed frame 164, the roll 165 is arranged in a plurality (N _fixed ) over the entire segment length (l _{seg , fixed} ) at regular intervals. In the flow frame 161, the pitch P _fixed between the roll 165 and the roll 165 is uniformly arranged, and the distance l _fixed between the roll 165 and the roll 165 is the pinch roll 166. The diameter is larger than that of the general roll 165, so that there is a slight difference, they are arranged almost identically.

4 is a segment 160 applied to the curved portion, in the case of the curved portion is configured to bend the slab to the radius (r) of the strand 140 (see FIG. 5) in the playing equipment 100 (see FIG. 5) Therefore, the segment lengths l _{seg and loosed} of the flow frame 161 arranged in the center of the curved portion are different from the lengths of the segment lengths l _{seg and fixed} of the fixed frame 164 arranged in the opposite direction. .

Specifically, the relationship between the segment length (l _{seg , loosed} ) of the floating frame 161 and the length of the segment length (l _{seg , fixed} ) of the fixed frame 164 is l _{seg , loosed} : l _{seg , fixed} = r: rt meets _slab Here, t _slab is the thickness of the _cast steel, where the thickness of the cast steel is positive, so that the segment length l _{seg , loosed} of the flow frame 161 is shorter than the segment length l _{seg , fixed} of the fixed frame 164.

Also in the present embodiment, as in the embodiment of FIG. 3, the numbers N _loosed and N _{fixed of the} fixed frames 164 and the rolls 162 and 165 of the floating frame 161 are different, and accordingly, the average The pitch also satisfies the following equation (2).

... 식 (2)

... (2)

The larger the difference between the average pitch of either the rolls 162 and 165 of the flow frame 161 and the fixed frame 164 and the average rolls of the other rolls 162 and 165, the more helpful it is to prevent hot water hunting. In particular, since the length l _{seg , loosed} of the flow frame 161 is shorter than the segment length l _{seg , fixed} of the fixed frame 164 as in the embodiment of FIG. 4 _, the roll 165 of the fixed frame 164 is provided. ) number (N _fixed) that is to be larger than the number of the rolls 162 of the flow-frame (161) (N _fixed) prevent the bath surface hunting caused by it cast shape can increase the difference between the average pitch effective. of

5 shows a performance facility comprising segments 150 and 160 of the present invention. The performance facility 100 of the present invention is a tundish 120 for supplying molten steel through the ladle 110 containing the molten steel refined in the steelmaking process and the injection nozzle connected to the ladle 110, and temporarily storing the molten steel, The mold 130 receives the temporarily stored molten steel in the tundish 120 and is provided at the bottom of the mold and a plurality of segments 150 and 160 to perform a series of molding operations while cooling the unsolidified cast. ) Includes a cooling line 140 arranged.

The number N _loosed of the rolls 152, 162 of the flow frames 151, 161 in the strand 140 of the performance facility 100 of the present invention is determined by the rolls 155, 165 of the fixed frames 154, 164. number (N _fixed) number (N _loosed> N _fixed) segment (150, 160) to, and accordingly, the average pitch (Pavg) of the roll is the stationary frame than the flow-frame (151, 161) (154, 164) was used than (P _{avg , loosed} <P _{avg , fixed} )

Accordingly, even when high-speed casting is performed with the performance equipment 100 of the present invention, hunting on the surface of the cast steel can be reduced, and thus, the quality of the cast steel can be improved.

Also in the embodiment of the five number of rolls (152, 162) of the strands 140, the flow-frame (151, 161) on both the curved section 141 and the horizontal portion 142 in the (N _loosed) a fixed frame (154, a roll of the roll (155, 165) number (N _fixed) number (N _loosed> N _fixed) segment (150, 160) for, in the curved section 141 is the flow-frame (151, 161 but use) than in the 164 The number N _loosed of 152 and 162 includes more than the number N _{fixed and} the number of rolls 155 and 165 of fixed frames 154 and 164 (N _loosed > N _fixed ) segments 150 and 160, In the horizontal portion 142, the number N _loosed of the rolls 152 and 162 of the flow frames 151 and 161 is smaller than the number N _fixed of the rolls 155 and 165 of the fixed frames 154 and 164 ( It is also possible to include N _loosed <N _fixed ) segments 150, 160.

100: playing equipment 110: ladle
120: tundish 130: template
140: cooling line 141: curved portion
142: horizontal portion 150, 160: segment
151, 161: Flow frames 152, 155, 162, 165: Roll
153, 156, 163, 166: Pinch Roll 154, 164: Fixed Frame

Claims (7)

delete A mold providing a cast steel; And
Includes; a plurality of segments for guiding and cooling the strand transfer of the cast steel,
The segment includes a plurality of inner frames disposed toward radial centers of the strands, outer frames positioned radially outwardly of the strands from the inner frames, and a plurality of roll supports mounted on the inner and outer frames, respectively. Rolls,
The number of rolls provided on the outer frame (N _fixed ) and the number of rolls provided on the inner frame (N _loosed ) are different so as to reduce the hunt surface hunting in the mold due to the shape of the passing slab,
Continuous casting plant having an average roll pitch (P _{avg, fixed)} of the outer frame and the inner frame average roll pitch (P _{avg, loosed)} it characterized in that the different with each other. 3. The method of claim 2,
A segment disposed in the horizontal or vertical portion of the strand among the plurality of segments has a length of an inner frame side segment and an outer frame side segment length equal to each other. 3. The method of claim 2,
Among the plurality of segments, a segment disposed in a bow zone of the strand has a length of an outer frame side segment longer than an inner frame side segment length,
And an average roll pitch (P _{avg, fixed} ) of the outer frame and an average roll pitch (P _{avg, loosed} ) of the inner frame satisfy the following relationship.

(t _slab : thickness of _{cast steel} , r: radius of strand) 5. The method of claim 4,
And the number of rolls provided in the inner frame is greater than the number of rolls provided in the outer frame (N _fixed <N _loosed ). A mold providing a cast steel; And
Includes; a plurality of segments for guiding and cooling the strand transfer of the cast steel,
The segment includes a plurality of inner frames disposed toward radial centers of the strands, outer frames positioned radially outwardly of the strands from the inner frames, and a plurality of roll supports mounted on the inner and outer frames, respectively. Rolls,
The number of rolls provided on the outer frame (N _fixed ) and the number of rolls provided on the inner frame (N _loosed ) are different so as to reduce the hunt surface hunting in the mold due to the shape of the passing slab,
Each of the inner frame and the outer frame includes a pinch roll for drawing the cast piece passing through, the center of the pinch roll of the outer frame and the center of the pinch roll of the inner frame are arranged to be shifted. The method according to claim 2 or 6,
And the outer frame is a fixed frame and the inner frame is a movable flow frame.

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