KR101620703B1 - Appraus for preventing solidification of meniscus wave in twin roll strip casting - Google Patents

Abstract

The present invention relates to a pair of casting rolls facing each other; An edge dam body which seals both end portions of the pair of casting rolls so as to form a molten metal pool between the casting rolls; And a molten metal flow portion which is partially immersed in the molten metal stagnation region generated in the molten metal adjacent to the edge dam main body to flow the molten metal molten metal molten metal molten metal molten metal molten metal molten metal molten metal molten metal molten metal molten metal molten metal molten metal molten metal molten metal molten metal, And a protruding vibrator protruding from the molten metal pool and capable of oscillating in the transverse direction of the molten metal pool together with the edge dam main body to flow the molten metal surface of the molten metal pool.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a double-

[0001] The present invention relates to an apparatus for preventing the coagulation of a molten metal on a molten metal bath, and more particularly, to a system for preventing coagulation of molten metal on a molten metal by using a twin roll casting machine The present invention relates to an apparatus for preventing the coagulation of a hot-

In general, the twin-roll thin-sheet casting process is a method of continuously supplying thin metal sheets of several millimeters directly from a molten metal to two rotating casting rolls.

1, the twin roll type thin sheet casting apparatus uniformly supplies the molten metal from the tundish 10 to the pair of casting rolls 30 through the dipping nozzle 20, and a pair of casting rolls 30 The solidified layers of the molten metal formed on the surface of each casting roll 30 being cooled are combined at the latest contact points to continuously manufacture the main pieces having a constant thickness.

Since the sump portion of the casting roll 30 is opened to preheat the edge dam and the immersion nozzle 20 before casting, scum is generated due to the oxidizing atmosphere already existing at the start of casting.

In this way, it is natural that the molten metal is brought into contact with the air, the oxygen and the inclusions in the molten metal generate the molten metal scum, and when the stagnation area D in which the scum is generated and the flow is weak is generated, (S).

When the skull S gradually grows and becomes larger in size and the skull S repeats growth and dropout during casting and is mixed into the edge of the cast steel and the skull S hardens, So that the operation of the casting roll 30 may be interrupted due to damage or plate breakage of the casting roll 30, and the productivity of the thin plate may be deteriorated.

A pair of edge dams provided with refractories such as ceramics are provided on both sides of the pair of casting rolls 30 in order to prevent the molten metal from flowing out. The molten high temperature supplied between the casting rolls 30 and the casting roll 30 being water-cooled simultaneously come into contact with each other.

As a result, the surface of the refractory surface of the edge dam that is in contact with the casting roll 30 is immediately cooled, and heat loss is generated around the periphery, so that the molten metal can be easily solidified.

The molten metal solidifies on the moving surface of the refractory of the edge dam, and a skull S is generated. This skull S is grown on the surface of the refractory of the edge dam.

The skull S is repeatedly grown and dropped during casting, and then mixed into the edge portion of the cast steel, thereby deteriorating the quality of the cast steel.

Further, when the skull S is hardened, it is pressed against the lower skull S between itself and the casting roll 30, causing the casting roll 30 to be damaged or causing plate breakage or the like.

In order to solve the above problems, there has been proposed a technique for preventing the coagulation of molten metal by blowing an inert gas into the molten metal at the lower end of the edge dam. However, this inert gas blowing technique has a problem that a thin metal pipe is installed at the lower end of the refractory of the edge dam, The inert gas is blown into the molten metal at the lower end portion of the edge dam to prevent the molten metal from solidifying to reduce the skull. Although there is some effect in reducing the lower skull S of the edge dam, There is a problem that the edge skew S generated on the contact surface of the edge dam operation surface with the casting roll is continuously generated and grown.

The present invention is realized by recognizing at least any one of the above-mentioned problems or problems generated in the conventional art.

The present invention provides, as one aspect, a method for preventing the scum from being skulled by making smooth the flow of scum generated on the bath surface due to oxygen or inclusion in the molten metal, whether the molten metal is in contact with air, Which is capable of improving the quality of the blanket roll coining machine.

As one aspect of the present invention, there is provided a method for preventing a stagnation of scum on a hot water surface by flowing a hot water surface in a hot water stagnation region to prevent a decrease in productivity due to sheet rupture, casting stop, And to provide an apparatus for preventing the coagulation of the hot-dip pan of a twin-roll thin plate casting machine.

According to an aspect of the present invention, there is provided a casting machine comprising: a pair of casting rolls facing each other; An edge dam body which seals both end portions of the pair of casting rolls so as to form a molten metal pool between the casting rolls; And a molten metal flow portion which is partially immersed in the molten metal stagnation region generated in the molten metal adjacent to the edge dam main body to flow the molten metal molten metal molten metal molten metal molten metal molten metal molten metal molten metal molten metal molten metal molten metal molten metal molten metal molten metal molten metal molten metal, And a protruding vibrator protruding from the molten metal pool and capable of oscillating in the transverse direction of the molten metal pool together with the edge dam main body to flow the molten metal surface of the molten metal pool.

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Preferably, the protruding vibrator may be disposed so as to be interlocked between the lowest molten metal surface of the molten metal pool and the highest molten metal surface of the molten metal pool so as to vibrate in conjunction with the molten metal surface of the molten metal stagnation region.

Preferably, the scum weir is provided between the immersion nozzle and the casting roll, which is immersed in the molten metal pool to supply the molten metal, and is capable of shutting off the flow of the molten metal pool; And a gas injection unit provided between the scum weir and the casting roll to inject an inert gas.

Preferably, the protruding vibrator may be installed by being fastened to the bolt groove formed in the edge dam body by a refractory bolt.

Preferably, the plurality of bolt grooves are formed spaced apart from each other in the height direction of the molten metal pool, the refractory bolts are fastened to either side of the bolt grooves to determine the mounting position of the protruding vibrator, A sealing refractory bolt for sealing the bolt groove can be fastened to the remaining bolt grooves.

Preferably, the width of the projecting vibrator in the width direction in contact with the edge dam main body is the same in the height direction or decreases in a downward direction in the height direction, and the protrusion protruding from the edge dam main body in the direction of the molten metal pool The lengths may equally be provided in the height direction.

Preferably, the protruding oscillator may be provided with an inverted polyhedron type or a truncated inverted polyhedron type.

Preferably, the outer circumferential surface of the protruding vibrator in contact with the molten metal pool has an inner curved portion and a protruded curved portion having a predetermined curvature, and the protruded curved portion is protruded from the front surface of the protruded vibrator, And is formed between the protruding curved portion and the edge dam main body, and can be formed inwardly of the protruded vibrator.

Preferably, the radius of curvature of the inner curved portion may be set to have a relatively large radius of curvature in comparison with the radius of curvature of the curved portion.

According to an embodiment of the present invention as described above, the structure of the molten metal flow portion, which is immersed in the molten metal stagnation region generated at the junction portion between the edge dam main body and the casting roll, It is possible to prevent the stagnation of the scum on the bath surface by flowing the bath surface in the stagnant area of the molten metal so that the productivity can be prevented from being lowered due to plate rupture, casting interruption and casting roll damage caused by scum scumming.

According to an embodiment of the present invention, the molten metal flow portion is formed to protrude from the inside of the edge dam main body in the direction of the molten metal pool and is oscillatable together with the edge dam main body, There is an effect that the generation of skulls can be reduced by flowing the bath surface in a simple manner without having to provide a separate vibration device for vibrating the vibrating flow passage.

According to an embodiment of the present invention, the protruding vibrator is formed separately from the edge dam main body, and the bolt groove formed in the edge dam main body is fastened by the refractory bolt so as to improve the productivity of the edge dam main body, The protruding vibrator can be coupled by a simple method, and the workability at the time of installation can be improved.

According to the embodiment of the present invention, the protruding vibrator can be installed at any one side of the plurality of bolt grooves by spacing the protruding vibrator in the height direction of the molten metal pool so that the protruding vibrator can be installed at an appropriate position according to the height of the molten metal bath surface There is an effect.

According to the embodiment of the present invention, the outer circumferential surface of the protruding vibrator includes the constitution of the inner curved portion and the protruded curved portion having a predetermined curvature, thereby guiding the flow of the molten metal along the surface of the curved portion to prevent congestion of the scum, There is an effect that it is possible to minimize the occurrence of the problem.

According to an embodiment of the present invention, the radius of curvature of the inner curved portion is configured to have a relatively large radius of curvature as compared with the radius of curvature of the curved portion of the inner curved portion, The molten metal that moves is abruptly moved in contact with the protruding curved portion having a relatively small radius of curvature, so that the scum formed on the molten metal surface is easily dispersed to effectively prevent the occurrence of skulls.

According to an embodiment of the present invention, there is provided a spark weir having a protruding oscillator and a slurry weir provided so as to block the flow of the molten metal pool, and a structure of a gas injection means provided between the scum weir and the casting roll, The scum is prevented from being skulled, so that economic loss due to interruption of operation due to plate breakage or damage to the casting roll, and deterioration of productivity can be minimized.

1 is a side view showing a skull formed on a conventional twin roll thin plate casting machine.
2 is a plan view showing a skull formed on the conventional twin roll thin plate casting machine of FIG.
FIG. 3 is a side view of the apparatus for preventing the coagulation of the beating face of the twin roll thin plate casting machine according to the embodiment of the present invention.
FIG. 4 is a plan view of the apparatus for preventing the coagulation of the beating face of the twin roll thin plate casting machine according to the embodiment of the present invention shown in FIG.
FIG. 5 is a cross-sectional view of the apparatus for preventing the coagulation of the bamboo surface of the twin roll thin plate casting machine according to the embodiment of the present invention shown in FIG.
6 is a perspective view showing a state in which the protruding vibrator of the present invention is vibrated together with the edge dam main body.
7 is a cross-sectional view showing a state in which the mounting height of the protruding vibrator of the present invention is adjusted.
8 is a perspective view showing a protruding vibrator applied to another embodiment of the present invention.
9 is a cross-sectional view taken along line AA 'of FIG.
10 is a view showing a state before the scum is activated on the bath surface but a state before the scum is activated and a state where the bath surface is activated by the skull.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Further, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art. The shape and size of elements in the drawings may be exaggerated for clarity.

Hereinafter, an apparatus for preventing the coagulation of the supernatant surface of the twin roll thin plate casting machine according to an embodiment of the present invention will be described in detail with reference to the drawings.

1 to 10, an apparatus for preventing the coagulation of an elevated surface of a twin roll thin plate casting machine according to an embodiment of the present invention includes a casting roll 30, an edge dam body 100, and a molten metal flow portion 200, In addition, it may include a scumware 300 and a gas injection means 400.

The apparatus for preventing the coagulation of the casting roll surface of a twin roll casting machine includes a pair of casting rolls 30 facing each other and a pair of casting rolls 30 for sealing the opposite ends of the pair of casting rolls 30 so as to form a molten metal pool between the casting rolls 30 The edge dam main body 9100) and a molten metal flow portion 200 which is partially immersed in the molten metal stagnation region generated in the molten metal adjacent to the edge dam main body to flow the molten metal pool surface.

The apparatus for preventing the coagulation of the casting roll surface of a twin roll casting machine includes a pair of casting rolls 30 facing each other and a pair of casting rolls 30 for sealing the opposite ends of the pair of casting rolls 30 so as to form a molten metal pool between the casting rolls 30 The present invention can be applied to a double-roll sheet casting machine including an edge dam body 100.

4, the apparatus for preventing the coagulation of the molten metal on the molten metal in the molten metal congestion region D generated in the joining portion between the edge dam main body 100 and the casting roll 30 is partially immersed And a molten metal flow portion 200 for flowing the molten metal by rotating the molten metal pool.

As shown in Fig. 5, the molten metal flow portion 200 may be provided so as to be partially immersed in the molten metal stagnation region D. That is, the molten metal flow portion 200 should be installed in the edge dam body 100 so that the entire molten metal flow portion 200, which must flow the molten metal pool surface, is not immersed in the molten metal surface.

The molten metal flow portion 200 protrudes from the inside of the edge dam main body 100 in the direction of the molten metal pool and is oscillatable together with the edge dam main body 100 to supply the molten metal to the projecting oscillator 210 may be provided.

As shown in Figs. 3 and 4, the molten metal flow portion 200 may be provided to vibrate the edge dam body 100 when the edge dam body 100 vibrates. As described above, the molten metal flow portion 200 is provided to vibrate the edge dam main body 100 so that the edge dam main body 100 vibrates together with the casting roll 30 and does not cause interference with the casting roll 30.

6, the protruding vibrator 210 is disposed between the lowest molten metal surface P1 of the molten metal pool and the highest molten metal surface P2 of the molten metal pool so as to oscillate in association with the molten metal surface of the molten metal stagnating region D. As shown in FIG.

This is because the protruding vibrator 210 is configured to prevent the scum on the bath surface from flowing into the bath surface of the molten metal stagnant region D, The protruding vibrator 210 must be placed so as to be disposed in a region between the lowest melt bath surface P1 and the highest melt bath surface P2 of the melt pool since the protruding oscillator 210 must be in contact with the melt surface have.

4, the protruding vibrator 210 of the molten metal flow portion 200 may be spaced apart at equal intervals at the junction of the pair of casting rolls 30 and the edge dam body 100. That is, since the molten metal flow portion 200 is formed on the central axis of the molten metal surface, which is the center between the casting roll 30 and the casting roll 30, the molten metal flow is uniformly flowed to reduce the generation of scum .

As shown in FIG. 3 and FIG. 4, the apparatus for preventing coagulation of the molten metal on the spinneret casting machine may further include a scum ware 300 and a gas injection means 400.

The apparatus for preventing coagulation of the molten metal in the twin roll thin film casting machine includes a scum ware 300 provided between the immersion nozzle 20 for immersing the molten metal in the molten metal pool and the casting roll 30, And a gas injecting unit 400 disposed between the scumware 300 and the casting roll 30 to inject an inert gas.

As shown in FIG. 3, the scumware 300 may be provided so as to be movable in the vertical direction of the bath surface of the molten pool, and may be configured to induce the flow of the scum formed on the bath surface by being immersed in the molten pool.

As shown in FIG. 4, a pair of scumware 300 is installed in the widthwise direction of the casting roll 30 on both sides of the casting roll 30 to provide scum in the area between the casting roll 30 and the scumware. Can be guided in the left and right directions.

In the pair of scumware 300, the edge dam bodies 100 of both sides are spaced apart at regular intervals, and this interval forming the interval is called a side scum outlet.

The flow of the molten metal between the casting roll 30 and the scum ware 300 flows toward the edge dam main body 100 by adjusting the angle and the flow rate of the immersion nozzle 20 for supplying the molten metal, So that the scum between the roll 30 and the scum ware 300 is discharged through the scum outlet on both edge sides.

However, there is a limit to making a strong flow by the immersion nozzle 20 alone. When scum is generated and flow is not generated, and congestion occurs, the scum is hardened and becomes skull (S).

As shown in FIG. 3, when a large amount of scum is generated, a gas injection means 400 may be additionally disposed to prevent backflow of the scum, so that an inert gas may be blown onto the bath surface to induce the scum discharge flow to the side scum outlet .

As described above, the scum or the skull S guided through the side scum outlet by the immersion nozzle 20, the scumware 300, and the gas injection means 400 is discharged from the edge dam main body 100, The scum formed on the bath surface is easily dispersed by the vibration of the east portion 200, and the generation of the skull S can be effectively prevented.

3 and 4, the gas injecting means 400 injects the inert gas through a plurality of nozzles formed in the gas injecting means 400 in a state in which the scum ware 300 is immersed in the bath surface to block the flow of the molten metal pool, And the flow of the molten metal which has been moved upward of the casting roll 30 by the flow formed by the immersion nozzle 20 is guided by the gas injection means 400 in the left and right direction can do.

The scum or skull S passing through the molten metal congestion region D by the flow of the induced bath surface is configured to be dispersed by the vibration applied by the protruding vibrator 210 protruding from the edge dam body 100 .

10 shows a state where the scum is made into a skull S, and when the skull S is overdrawn, the scum 300 is brought into collision with the skull S formed on the bath surface during the up- The scum or squeeze passing through the molten metal stagnation area D is easily dispersed when the apparatus for preventing coagulation of the molten metal in the twin roll thin plate casting machine according to the present invention is easily dispersed, Can be prevented.

5, the protruding vibrator 210 can be installed in a manner that the refractory bolts 230 are fastened to the bolt grooves 110 formed in the edge dam body 100. As shown in FIG.

Of course, it is also possible to form the protruding vibrator 210 as a single member by molding it integrally with the edge dam body 100.

However, when the protruding vibrator 210 is integrally formed on the inner surface of the edge dam body 100, the moldability and manufacturability of the edge dam body 100 is lowered due to the protruding vibrator 210 having a protruding shape There may be a problem.

Therefore, the protruding vibrator 210 is formed separately from the edge dam body 100 and is installed by being fastened to the bolt groove 110 formed in the edge dam body 100 by the refractory bolts 230, The manufacturing efficiency of the main body 100 can be improved and the protruding vibrator 210 can be coupled by a simple method of bolting, thereby improving the workability at the time of installation.

7, a plurality of bolt grooves 110 are formed spaced apart from each other in the height direction of the molten metal pool, and the refractory bolts 230 are fastened to either side of the bolt grooves 110, 210 are installed and a sealing refractory bolt 250 for sealing the bolt groove 110 is fastened to the remaining bolt grooves 110 except for the bolt groove 110 in which the protruding vibrator 210 is installed Lt; / RTI >

The projecting oscillator 210 can be installed at an appropriate position in accordance with the height of the bath surface of the molten metal pool by configuring the protruding vibrator 210 so as to be installed on any one of the plurality of bolt grooves 110 by being spaced in the height direction of the molten metal pool There is an effect.

9 and 9, the width of the protruding vibrator 210 in the width direction in contact with the edge dam body 100 is the same in the height direction or reduced in the height direction toward the lower side, The protruding lengths protruding from the edge dam body 100 in the direction of the molten metal pool may be equally provided in the height direction.

Here, the width in the width direction refers to the width of the portion where the protruding vibrator 210 contacts the edge dam body 100, as shown in Fig.

The width of the protruding vibrator 210 in the width direction in contact with the edge dam body 100 may be the same in the height direction.

However, as shown in FIG. 3, the width of the protruded vibrator 210 in the width direction in contact with the edge dam body 100 may be reduced toward the lower side in the height direction. This is because the protruding vibrator 210 may collide with the casting rolls 30 on both sides of the casting roll 30 in consideration of the position where the protruding vibrator 210 is installed and the shape in which the cross- Or the breakage of the edge dam main body 100 and the like.

6 and 8, the cross-sectional area of the protruding vibrator 210 in the horizontal direction may be reduced toward the lower side in the height direction.

As shown in FIGS. 5 to 8, the protrusion length protruding from the edge dam main body 100 in the direction of the molten metal pool may be formed so as to decrease toward the lower side in the height direction.

As shown in Figs. 8 and 9, protruding lengths protruding from the edge dam body 100 in the direction of the molten metal pool may be equally provided in the height direction. Accordingly, even if the height of the melt surface of the molten metal pool varies, the protruding length of the protruding vibrator 210 protruding from the edge dam body 100 is made constant, so that the flow of the melt surface of the molten metal pool due to the vibration of the protruding vibrator 210 So that the occurrence of scum can be prevented.

The protruding oscillator 210 may be provided with an inverted polyhedron type or a truncated inverted polyhedron type.

As shown in FIG. 6, the protruding vibrator 210 may be provided in an inverted triangular pyramid shape, and may be formed in an inverted pyramidal edge dam body 100 of a mold in which a polygonal pyramid of various shapes such as a pyramid- And may be configured to be bonded.

8, the outer circumferential surface of the protruding vibrator 210 in contact with the molten metal pool has an inner curved portion 211 having a predetermined curvature and a protruded curved portion 213, The inner curved portion 211 is formed between the protruded curved portion 213 and the edge dam body 100 and is formed in a shape protruding from the front surface of the protruding vibrator 210, As shown in Fig.

The inner curved portion 211 may be formed in the edge dam main body 100 and interposed in the inner side of the protruding vibrator 210.

The protruding curved portion 213 may be formed in connection with the inner curved portion 211 and protrude outwardly of the protruded vibrator 210.

8, the protruding curved portion 213 is formed on the entire surface of the protruded vibrator 210 in the direction of the molten metal surface. The inner curved portion 211 is connected to the protruded curved portion 213 to extend to the edge dam body 100 .

8, the protruding curved portion 213 and the inner curved portion 211 may be formed symmetrically with respect to the axis of the protruding vibrator 210 in the A-A 'direction.

The outer circumferential surface of the protruding vibrator 210 includes the inner curved portion 211 and the protruded curved portion 213 having a predetermined curvature so that the flow of the molten metal along the surface of the curved portion is guided to prevent congestion of the scum, (S) can be minimized.

8, the radius of curvature R1 of the inner curved portion 211 may be set to have a radius of curvature relatively larger than a radius of curvature R2 of the curved portion 213. [

The inner curved portion 211 and the projected curved portion 213 guide the flow of the molten metal in the adjacent molten metal stagnant region D between the casting roll 30 and the joint surface of the edge dam body 100 to form a scum or skull S ) Can be induced.

Specifically, as the protruding vibrator 210 vibrates, the molten metal that has been gently moved along the large radius of curvature of the inner curved portion 211 abruptly moves in contact with the protruding curved portion 213 having a relatively small radius of curvature, The scum is easily dispersed and the generation of the skull S can be effectively prevented.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. And will be apparent to those skilled in the art.

10: tundish 20: immersion nozzle
30: casting roll 40: edge dam
100: edge dam main body 110: bolt groove
200: molten metal flow portion 210: protruding vibrator
211: Inner curved portion 213: Projected curved portion
230: Refractory bolt 250: Sealed refractory bolt
300: Scumware 400: Gas injection means
D: the molten metal congestion region P1: the lowest molten metal surface
P2: highest melting surface R1: radius of curvature of inner curve
R2: curvature radius of the projecting curved portion S:

Claims (10)

delete A pair of casting rolls facing each other;
An edge dam body which seals both end portions of the pair of casting rolls so as to form a molten metal pool between the casting rolls; And
And a molten metal flow portion which is partially immersed in the molten metal stagnation region generated in the molten metal adjacent to the edge dam main body to flow the molten metal pool surface,
The molten metal flow portion
And a protruding vibrator protruding from the inside of the edge dam main body in the direction of the molten metal pool and capable of oscillating in the transverse direction of the molten metal pool along with the edge dam main body to flow the molten metal surface of the molten metal pool. Anti-freezing device for hot water surface.
3. The apparatus according to claim 2,
Wherein the molten metal is placed so as to be interlocked between the lowest molten metal surface of the molten metal pool and the highest molten metal surface of the molten metal pool so as to vibrate in conjunction with the molten metal surface of the molten metal stagnation region.
3. The method of claim 2,
A scum weir provided between the immersion nozzle and the casting roll which is immersed in the molten metal pool to supply the molten metal and is capable of shutting off the flow of the molten metal pool; And
And a gas spraying means provided between the scum weir and the casting roll for spraying an inert gas on the surface of the casting roll.
3. The method of claim 2,
Wherein the protruding vibrator is installed in the bolt groove formed in the edge dam main body by refractory bolts.
6. The method of claim 5,
The plurality of bolt grooves being spaced apart from each other in the height direction of the molten metal pool,
The refractory bolt is fastened to one side of the bolt groove to determine the mounting position of the protruding vibrator,
And a sealing refractory bolt for sealing the bolt groove is fastened to the remaining bolt grooves except for the bolt groove provided with the protruding vibrator.
3. The apparatus according to claim 2,
The width in the width direction in contact with the edge dam main body is the same in the height direction or reduced in the height direction downward,
Wherein the protruding lengths protruding from the edge dam main body in the direction of the molten metal pool are equally provided in the height direction.
3. The method of claim 2,
Wherein the protruding vibrator is provided with an inverted polygonal pyramid or truncated inverted polygonal pyramid.
3. The method of claim 2,
Wherein the outer circumferential surface of the protruding vibrator which is in contact with the molten metal pool has an inner curved portion and a protruded curved portion each having a predetermined curvature,
Wherein the protruded curved portion is provided on the front surface of the protruded vibrator in a protruded form,
Wherein the inner curved portion is formed between the protruded curved portion and the edge dam body and is formed inwardly inward of the protruded vibrator.
10. The method of claim 9,
Wherein the radius of curvature of the inner curved portion is set to have a radius of curvature relatively larger than a curvature radius of the curved portion of the protruding curved portion.

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