JP2017094370A - Tundish - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a tundish capable of preventing deformation of the tundish, by relieving stress imparted to a body part, even if the long size body part is placed or suspended in the lateral direction.SOLUTION: The present invention is a tundish 2 having a body part 9 having an overhang part 25 for storing molten steel 4 on the inside by forming an upper part in an opening shape and provided in a projecting shape from an outer wall surface and a cover body 21 placed in an upper part of the body part 9, in which the overhang part 25 is respectively provided on the front side long side 15 and the rear side long side 17 of the body part 9 formed in a long size in the lateral direction, and is arranged in at least two places or more in the lateral direction, and a fitting-in part 34 for inserting the cover body 21 is provided in the upper part of the body part 9, and one side of the fitting-in part 34 is arranged on the front side long side 15, and the other side of the fitting-in part 34 is also arranged on the rear side long side 17, and the cover body 21 is inserted between the one side and the other side of the fitting-in part 34, and an edge part of the cover body 21 abuts on the fitting-in part 34.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a tundish used in a continuous casting apparatus.

Generally, in a continuous casting facility, the molten steel produced from a converter, secondary refining facility, etc. is transported to the tundish by a ladle, and the molten steel in the ladle is poured into the tundish and then from this tundish. The molten steel is continuously cast by supplying the molten steel to the mold.
The tundish is mounted on a tundish car (molten steel container support device) and is transported to the tundish car and installed below the ladle and above the mold. In addition, the tundish is suspended by a crane device or the like and is transported to a maintenance shop or the like for regular maintenance.

  As a tundish mounting method in a tundish car and a tundish hanging method in a crane device, in other words, as a method for supporting a tundish, for example, “tundish with both ends in the left and right direction of the main body as supporting points” "A method for supporting the tundish using the protruding portions provided in a protruding manner from the front side wall and the rear side wall of the main body" (second support method). Method).

In the case of a tundish where the main body of the tundish does not protrude from side to side, in other words, one or two inlets (strands) and the length in the left-right direction is short, the above-mentioned first support method is adopted. Often done. Note that the above-described front-rear and left-right directions coincide with the directions defined in “Mode for Carrying Out the Invention” described later.
On the other hand, since the tundish provided with many strands extends in the left-right direction and becomes long, it is not preferable to employ the first support method.

  The reason for this is that when a long tundish is supported using the left and right ends of the main body as support points, the support state becomes a “both simple support beam”. In this supporting state, a large stress is applied to the entire tundish due to the weight of the tundish and the weight of the molten steel injected into the main body, and the tundish that is long in the left-right direction may be deformed into a curved shape. . If the molten steel is continuously cast in such a deformed state, the tundish life may be shortened. When the tundish is deformed into a curved shape, the refractory is deformed, and the refractory is cracked, which may result in steel leakage.

In order to prevent such deformation, it is conceivable to increase the rigidity of the tundish body.
However, when trying to improve the rigidity of the main body, the tundish itself becomes heavy, and it becomes difficult to smoothly transport the tundish, for example, when casting molten steel continuously. In addition, a tundish car or the like needs to be able to withstand the heavy tundish. That is, there is a possibility that the manufacturing cost of the tundish and the equipment related to the tundish and the casting cost of the molten steel increase.

Furthermore, in the case of a multi-strand tundish, for example, 5 strands or more, even if the rigidity of the main body is increased, it is originally quite long, so that deformation caused by the first support method cannot be prevented. .
For the above reasons, the second support method is adopted in the case of a tundish that is long to the left and right for a multi-strand.

Examples of the second support method, that is, a method of supporting the tundish by using the protruding portions provided in a protruding shape from the front and rear side walls include methods shown in Patent Documents 1 and 2, for example.
Referring to FIG. 1 of Patent Document 1, two rods projecting sideways are provided on both side surfaces of the long side of the tundish, and the rods are installed at both ends of the support beam of the lifting frame. It is in contact with the rod support. That is, in patent document 1, the tundish is supported via the rod provided in the main body.

  Referring to FIG. 8 (b) of Patent Document 2, the tundish is suspended by hooking a tundish-exclusive hanging tool on a member (projecting member) formed in a protruding shape from the outer wall of the tundish. That is, in patent document 2, the tundish is supported via the protruding member provided in the main body.

Japanese Patent No. 5139880 No. 7-50044

Also in the tundish support method (second support method) disclosed in Patent Documents 1 and 2 and the like, there are unsolved problems described below.
That is, when the tundish includes the main body and the molten steel injected into the main body, the weight of the main body may be several tens of tons. Furthermore, in a multi-strand tundish, its own weight may exceed 100 tons.

Here, FIG. 6 is a diagram showing a conventional example where the tundish is placed on a tundish car or the like by the second support method. FIG. 7 is a diagram showing a conventional example in which the tundish is lifted by a lifting tool or the like by the second support method.
As shown in FIG. 6, when the conventional tundish is placed through the overhanging portions provided on the front side wall and the rear side wall, the main body portion includes a refractory in order to support the overhanging portion from below. The moment by the weight which the weight of the part combined, the weight of the cover body, and the weight of the molten steel being injected acts.

Further, as shown in FIG. 7, when the conventional tundish is suspended through the overhanging portions provided on the front side wall and the rear side wall, the overhanging portion is pulled upward. A moment due to the total weight acts.
Due to the above-mentioned moment, a crushing force is generated on the opened upper part, that is, the thin iron skin constituting the main body part, and the upper part of the main body part is deformed (for example, a paper cup is crushed) Like deformation). In particular, in a multi-strand tundish, since it is long in the left-right direction, the rigidity against the crushing force on the inner side is lowered, and there is a possibility that it is greatly deformed. When the upper part of the body part of the tundish is deformed, the refractory is deformed and the refractory is cracked, and there is a risk of steel leakage.

As a solution to such a problem, for example, it is conceivable to arrange a bar (bar) so as to hang in the front-rear direction on the upper part of the opened main body.
However, in the case of a tundish with a bar at the top of the main body, it is provided so that it can be passed over when processing the remaining steel after pouring the molten steel, or when processing refractory materials such as replacing refractory bricks. The processed bar material becomes an obstacle, and the tundish cannot be easily processed.

That is, it is not realistic to hang a side wall on one side and another side wall facing the other side wall with a strength member such as a bar in the upper part of the main body of the tundish.
In addition to the above solutions, there is a method of increasing the thickness of the tundish main body, that is, increasing the thickness of the iron skin, but there is a limit even if the thickness of the iron skin is increased. It is difficult to significantly relieve the stress applied to the main body.

On the other hand, there is a method to reinforce the outside of the tundish body, that is, the outside of the iron skin, but when the tundish is placed on the tundish car, the members that make up the tundish car are It is difficult to apply reinforcement to greatly relieve stress on the outside of the iron skin.
In summary, even if the tundish iron skin (main body part) is thickened or the outside of the iron skin is reinforced, the stress cannot be relieved greatly.

  Therefore, in view of the above problems, the present invention relieves stress applied to the main body portion and prevents deformation of the tundish even when a long main body portion is placed or lifted in the left-right direction. The object is to provide a tundish that makes it possible.

In order to achieve the above-described object, the present invention takes the following technical means.
The tundish according to the present invention is open at the top so that molten steel can be stored inside, and covers a main body provided with a protruding portion provided in a protruding shape from the outer wall surface, and covers the top of the main body The projecting portion is provided on each of a long side on the front side and a long side on the rear side of the main body portion that is elongated in the left-right direction. And at least two or more places in the left-right direction, and an upper part of the main body part is provided with an insertion part into which the cover body is inserted, and one side of the insertion part is a front side of the main body part And the other side of the fitting part is arranged on the long side on the rear side of the main body part, and the cover body can be inserted between one side and the other side of the fitting part. The edge portion of the inserted cover body is the insertion portion Characterized in that it is contactable.

Preferably, the insertion portion may be provided at a position corresponding to the projecting portion.
Preferably, a gap adjusting means for adjusting a gap between the fitting portion and the cover body may be provided between the fitting portion and the cover body.
Preferably, at least two or more insertion portions are arranged in the left-right direction of the main body portion.

Preferably, the projecting part has a placement part for placing the main body part and a lifting part for lifting the main body part, and the fitting part is provided on the base end side of the projecting part. It is good to be.
Preferably, the cover body is provided with a compression resistant member, and the end of the compression resistant member is disposed at a position corresponding to the fitting portion.

  Preferably, the compression resistant member is a rod provided inside the cover body and extending in the front-rear direction.

  According to the tundish of the present invention, even if a long main body is placed in the left-right direction or lifted, stress applied to the main body can be relieved and deformation of the tundish can be prevented. it can.

It is the top view of the tundish concerning this invention, and is the figure which cut and showed a part of cover body. It is the side sectional view which cut the tundish concerning the present invention in the direction of order (section AA). It is the figure which expanded the side cross section which cut | disconnected the tundish in the front-back direction (enlarged view B). It is a figure which shows the case where the tundish of this invention is mounted in mounting bases, such as a tundish car, or a tundish exclusive mount | frame provided by the maintenance shop. It is a figure which shows the case where the tundish of this invention is lifted with a lifting tool etc. It is a figure which shows the state which mounted the conventional tundish on mounting bases, such as a tundish car, for example, a tundish stand provided in the maintenance shop etc. It is a figure which shows the state which lifted the conventional tundish with the hanger. It is the schematic diagram which showed the outline | summary of the continuous casting apparatus.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
Hereinafter, before explaining the tundish 2 according to the present embodiment, the continuous casting facility 1 provided with the tundish 2 of the present embodiment will be described.
As shown in FIG. 8, the continuous casting facility 1 includes a tundish 2 for temporarily storing molten steel 4, a mold 3 for casting the molten steel 4, and a plurality of slabs 5 that are transferred from the mold 3 while supporting them. And a support roll 6. In the continuous casting equipment 1 having such a configuration, the molten steel 4 carried by the ladle 7 is poured into the tundish 2, and the poured molten steel 4 is cast through an immersion nozzle 8 provided in the tundish 2. 3 is injected. In the mold 3, the injected molten steel 4 is cooled and becomes a cast slab 5 in which the surface portion is solidified so that the molten steel 4 is pulled out from the lower part of the mold 3 while being held by the support roll 6 and conveyed downstream. It has become.

Next, the configuration of the tundish 2 according to the present embodiment will be described in detail.
For convenience of explanation, as shown in FIG. 1, the lower side of FIG. 1 is the front side of the tundish 2 and the upper side of FIG. The left-right direction in FIG. 1 is the right-left direction or the width direction of the tundish 2. The front-rear direction of the tundish 2 may be referred to as the depth direction.

As shown in FIG. 2, the right side of FIG. 2 is the rear side of the tundish 2 and the left side of FIG. 2 is the front side of the tundish 2 when the tundish 2 is viewed from the side. The same applies to FIGS. 3 to 5 in which the tundish 2 is viewed from the side.
As shown in FIG. 1, the tundish 2 is elongated in the left-right direction, the upper part is open, the molten steel 4 can be stored inside, and the tundish 2 protrudes from the outer wall surface. And a cover body 21 placed so as to cover the upper part of the main body 9.

The main body 9 is a container formed in a bottomed box shape, and is provided in an injection chamber 11 into which the molten steel 4 from the ladle 7 is injected, and on the front side of the injection chamber 11, and the molten steel 4 is used as the mold 3. And a distribution chamber 12 for charging.
Specifically, the main body 9 (iron skin 10) of the tundish 2 includes a bottom wall 14 having a substantially T shape in plan view, a front wall 15 rising from the front edge side of the bottom wall 14, and the front wall 15 A pair of left and right first side walls 16 that are located at both ends in the width direction and rise from the edge of the bottom wall 14, and a first side wall 16 that rises from the edge of the bottom wall 14 that is the rear side of the front wall 15 and extends in the left and right direction. A pair of left and right first rear walls 17 connected to each other, a pair of left and right second side walls 18 rising from the edge of the bottom wall 14 on the inner side in the left and right direction of the first rear wall 17, and each second side wall 18 And a second rear wall 19 that rises from the rear edge of the bottom wall 14. A refractory (refractory brick) 20 is laid on the upper surface of the iron skin 10, that is, inside the main body 9.

As shown in FIG. 1, in the plan view of the tundish 2, the front wall 15 and the second rear wall 19 are parallel to the left-right direction, and the first rear wall 17 is a position facing the front wall 15. The front wall 15 is inclined in the left-right direction. The second side wall 18 is also inclined in the left-right direction with respect to the front wall 15.
Specifically, each first rear wall 17 gradually approaches the front side as it goes from the inner end to the outer end, and each second side wall 18 extends from the inner end to the outer end. As you go, you are approaching the front side rapidly.

The injection chamber 11 is a region surrounded by a pair of left and right second side walls 18, a second rear wall 19, and a bottom wall 14. A distribution chamber 12 is provided on the front side of the injection chamber 11.
The distribution chamber 12 is a region surrounded by the front wall 15, the pair of left and right first side walls 16, the first rear wall 17, and the bottom wall 14, and the molten steel 4 is charged into the mold 3. A plurality of inlets (strands) 13 are provided.

  In the present embodiment, a tundish 2 in which four inlets are provided in the distribution chamber 12 will be described as an example. Specifically, two inlets are provided equally in the width direction from the center to the left side of the distribution chamber 12, and two inlets are also provided equally in the width direction from the center to the right side. . That is, the distribution chamber 12 is provided with four injection ports which are evenly and substantially on the same straight line in the width direction.

Therefore, the tundish 2 of the present embodiment has the distribution chamber 12 that is elongated in the left-right direction with respect to the injection chamber 11. In the present embodiment, the tundish 2 that is long in the left-right direction, in which a large number of injection ports, such as four or more, are provided in the distribution chamber 12 is targeted.
A cover body 21 is placed on the upper part of the tundish 2 that is long in the left-right direction.

The cover body 21 is a member formed in a dish shape in which one side is opened, and the tundish is formed by facing the upper portion of the main body portion 9 with the open side facing downward and facing downward. 2 covers the whole.
Specifically, the cover body 21 is configured by a cover body 21 that is substantially T-shaped in plan view, and side walls that are provided so as to hang down from the respective edges of the cover body 21. The hanging side walls include, for example, a cover front wall 23 that hangs down from the front edge side of the cover body 21, and a pair of left and right cover rear walls 24 that hang down from the edge of the cover body 21 that extends behind the cover front wall 23 in the left-right direction. and so on.

By the way, the main body portion 9 of the tundish 2 that is long in the left-right direction is provided with an overhanging portion 25 that protrudes from the outer wall surface.
As shown in FIGS. 1, 4, and 5, the overhanging portion 25 is mounted on a mounting table 38 such as a tundish car or a tundish dedicated rack installed in a maintenance site or the like. A pair of members used in the case of lifting, etc. is provided at a position where the front wall 15 and the rear wall (first rear wall) 17 of the distribution chamber 12 face each other, and at least two or more places are provided in the left-right direction. Yes.

  In the present embodiment, one pair of overhang portions 25 is provided from the center to the left side of the main body 9 (distribution chamber 12), and one is provided from the center to the right side. That is, two overhang portions 25 are provided in the left-right direction of the main body portion 9. By providing two projecting portions 25 that are a pair of front and rear in the left-right direction of the main body portion 9, the projecting portions 25 can be suspended or placed in a stable state. That is, the tundish 2 can be transported safely.

The overhanging portion 25 is hung by mounting portions 28 and 33 that come into contact when the main body 9 is placed on a mounting table 38 such as a tundish car, and a rope or other rope when the main body 9 is lifted. Lifting portions 27 and 32 to be stopped are provided.
Note that the placement portions 28 and 33 and the lifting portions 27 and 32 may be provided together in one overhang portion 25 as in the present embodiment, or may be provided at different positions. For example, the overhanging portion 25 having only the placement portions 28 and 33 and the overhanging portion 25 having only the lifting portions 27 and 32 may be provided individually in the main body portion 9.

Specifically, as illustrated in FIG. 2, the overhanging portion 25 includes a first overhanging member 26 that protrudes from the front wall 15 (front long side) and a first rear wall 17 (rear side of the rear side). And a second projecting member 30 provided so as to protrude from the long side.
The first overhang member 26 is a member formed of a flat plate material such as a steel material, and is formed in a bowl shape in a side sectional view.

The first projecting member 26 first protrudes forward from the front wall 15 of the main body 9, rises until it exceeds the upper portion of the main body 9, then protrudes rearward, and further protrudes downward from its tip. is there. That is, the 1st overhang | projection member 26 is a member made into the collar shape which turned up in the side sectional view.
A hook-shaped portion that wraps upward in the first overhang member 26 is a lifting portion 27. In addition, a lower portion of the first projecting member 26 is formed with a mounting portion 28 that protrudes downward and has a rectangular shape in a side sectional view.

Further, a rectangular protruding piece 29 protruding upward is formed at a portion of the first protruding member 26 protruding forward from the front wall 15 of the main body 9, that is, at the base end side of the first protruding member 26. ing. The projecting piece 29 is an upper part on the base end side of the first projecting member 26 and projects upward from a position spaced forward from the base end by a predetermined distance.
In the present embodiment, when the cover body 21 is placed on the upper part of the main body 9, the rear end surface of the protruding piece 29 and the cover front wall 23 of the cover body 21 facing each other have a certain interval. It has become. That is, it can be said that the protruding piece 29 and the cover body 21 are disposed at a position separated by a predetermined distance.

Moreover, the 2nd overhang | projection member 30 is also a member formed with flat materials, such as steel materials, Comprising: It is formed in the bowl shape by the side sectional view.
The second projecting member 30 first protrudes rearward from the rear wall of the main body 9 (the first rear wall 17 of the distribution chamber 12) and rises until it exceeds the upper portion of the main body 9 (the rising portion 31), and then It has a shape that protrudes rearward and further protrudes downward from its tip. That is, the 2nd overhang | projection member 30 is a member made into the collar shape which turned down in the side sectional view.

A hook-shaped part that wraps downward in the second projecting member 30 is a lifting part 32. In addition, a lower portion of the second projecting member 30 is formed with a mounting portion 33 that protrudes downward and has a rectangular shape in a side sectional view.
By the way, in this embodiment, when the cover body 21 is mounted on the upper part of the main body 9, the front edge surface of the rising part 31 in the second projecting member 30 and the cover rear wall of the cover body 21 facing each other. 24 has a fixed interval. That is, it can be said that the rising portion 31 of the second projecting member 30 and the cover body 21 are disposed at a position separated by a predetermined distance.

The interval (gap) between the rising portion 31 and the cover body 21 in the second projecting member 30 is substantially the same as the interval between the protruding piece 29 and the cover body 21.
Next, a characteristic configuration of the tundish 2 of the present embodiment will be described in detail based on the drawings.
The tundish 2 of the present embodiment is provided with a fitting portion 34 that is inserted so that a part of the cover body 21 is fitted when the cover body 21 is placed on the upper portion of the main body portion 9. . The fitting portion 34 in the present embodiment is configured by a protruding piece 29 (one side of the fitting portion) of the first overhanging member 26 and a rising portion 31 (the other side of the fitting portion) of the second overhanging member 30. Is.

The fitting portion 34 comes into contact with the edge of the inserted cover body 21 via a gap adjusting means 35 (details will be described later). It is mounted so that it is fixed by.
As shown in FIGS. 1 to 3, the fitting portion 34 in the present embodiment is provided at a position corresponding to the overhang portion 25. That is, in the present embodiment, the overhang portion 25 has a role of the insertion portion 34, and the insertion portion 34 is provided on the proximal end side of the overhang portion 25.

By setting the insertion portion 34 and the overhanging portion 25 at the same position, the “operation point for deforming the main body portion 9 of the tundish 2” and the “operation point for preventing deformation of the main body portion 9” coincide. The shearing force and bending force are not applied to the main body 9 and the cover body 21.
A pair of insertion portions 34 are provided at positions facing the front wall 15 (the front long side) and the first rear wall 17 (the rear long side) constituting the distribution chamber 12, which are the upper part of the main body 9. And at least two or more locations in the left-right direction. The fitting portion 34 includes a protruding piece 29 of the first protruding member 26 and a rising portion 31 of the second protruding member 30, and the cover body 21 rises from the rear side surface of the protruding piece 29. It fits in the space with the front side surface of the part 31.

As shown in FIGS. 2 and 3, in the present embodiment, the position where the projecting piece 29 constituting the insertion portion 34 is disposed is spaced from the cover front wall 23 of the placed cover body 21 by a certain distance. Has been. Further, the deployment position of the rising portion 31 of the second projecting member 30 is a position spaced apart from the cover rear wall 24 of the placed cover body 21 by a certain distance.
That is, there is a certain gap between the inserted cover body 21 and the insertion portion 34. In view of the case where the thermal expansion amount of the cover body 21 is large, a slight gap is provided between the cover body 21 and the fitting portion 34.

A gap adjusting means 35 for adjusting the degree of fitting between the fitting portion 34 and the cover body 21 is provided in the gap.
In the present embodiment, as the gap adjusting means 35, the degree of fitting between the fitting portion 34 and the cover body 21 is determined by inserting a thin plate-like shim (spacer) into the fitting portion 34, and the insertion amount of the shim. The method of adjusting the gap is adopted. As the gap adjusting means 35, for example, a method is provided in which either the fitting portion 34 or the cover body 21 is provided with a rotatable screw, and the screw is expanded and contracted by rotation, and the clearance is adjusted by the expansion / contraction amount. It may be. That is, the gap adjusting unit 35 is not particularly limited as long as it is a unit that can adjust the gap between the fitting portion 34 and the cover body 21.

With this gap adjusting means 35, the gap can be adjusted (corrected) due to the deformation of the main body 9 and the cover body 21 constituting the tundish 2, which is caused by long-term use. That is, by using the gap adjusting means 35, it is possible to optimally adjust the fluctuation of the gap of the insertion portion 34, which is caused by the deformation of the tundish 2 over time.
On the other hand, a compression-resistant member 36 that prevents deformation of the cover body 21 is provided inside the cover body 21.

  As shown in FIG. 3, the compression resistant member (deformation preventing member) 36 is a rod body provided in the cover body 21 and extending in the front-rear direction, and its end portion is located at a position corresponding to the insertion portion 34. It is arranged. The compression-resistant member 36 includes a protruding piece 29 of the first projecting member 26 and a rising portion 31 of the second projecting member 30 when the main body 9 is placed or lifted via the projecting part 25. Therefore, the compression load applied to the cover body 21 is received to prevent the cover body 21 from being deformed.

That is, in a state where the insertion portion 34 (the overhang portion 25) is opposed to the cover body 21, the compression-resistant member 36 formed as a rod inside the cover body 21 sandwiched between the insertion portion 34 and the insertion portion 34 in the front-rear direction. So as to be substantially on the same straight line.
The compression resistant member 36 may be the illustrated rod body, or may be a plate material or a pipe material as long as it prevents deformation of the cover body 21. That is, there is no particular limitation as long as it is a member capable of receiving a compressive load.

According to the tundish 2 of the present invention described above, even if the long main body 9 is placed in the left-right direction or lifted, the stress applied to the main body 9 is relieved, and the tundish 2 Can be prevented from being deformed.
For example, as shown in FIG. 4, even when the tundish 2 is mounted on a mounting table 38 such as a tundish car or a tundish dedicated rack installed in a maintenance shop or the like, the feature of the present invention is achieved. The insertion portion 34 provided on the upper portion of the main body 9 and the compression resistant member 36 provided inside the cover body 21 prevent the main body 9 and the cover body 21 from being deformed, and no large stress is generated. By preventing the deformation of the main body 9 and the cover body 21, the refractory is not deformed and the refractory is not cracked.

On the other hand, as shown in FIG. 5, even when the tundish 2 is lifted by the lifting tool 37 or the like, the structure of the present invention prevents the main body 9 and the cover body 21 from being deformed and generates a large stress. No longer. By preventing the deformation of the main body 9 and the cover body 21, the refractory is not deformed and the refractory is not cracked.
Moreover, since this invention is a simple structure, it can be installed in arbitrary places and the manufacturing cost of the tundish 2 can also be reduced.

It should be noted that matters not explicitly disclosed in the embodiment disclosed this time, such as operating conditions and operating conditions, various parameters, dimensions, weights, volumes, and the like of a component, deviate from the range normally practiced by those skilled in the art. However, matters that can be easily assumed by those skilled in the art are employed.
In the present embodiment, a certain gap is provided between the cover body 21 and the fitting portion 34, and the gap adjusting means 35 is inserted into the gap to fit the cover body 21 into the fitting portion 34. The cover body 21 may be fitted to the fitting portion 34 without providing a certain gap. That is, in the cross section AA shown in FIG. 2, the length of the cover body 21 in the front-rear direction and the length of the insertion portion 34 in the front-rear direction may be substantially the same.

  The technique of the present invention can also be applied to a tundish having one or two injection ports (strands) and a short length in the left-right direction of the main body (distribution chamber).

DESCRIPTION OF SYMBOLS 1 Continuous casting equipment 2 Tundish 3 Mold 4 Molten steel 5 Cast slab 6 Support roll 7 Ladle 8 Immersion nozzle 9 Main part 10 Iron skin 11 Injection chamber 12 Distribution chamber 13 Inlet (strand)
14 bottom wall 15 front wall 16 first side wall 17 first rear wall 18 second side wall 19 second rear wall 20 refractory (refractory brick)
21 Cover body 23 Cover front wall 24 Cover rear wall 25 Overhang portion 26 First overhang member 27 Lifting portion 28 Placement portion 29 Projection piece 30 Second overhang member 31 Standing portion 32 Lifting portion 33 Placement portion 34 Inserting portion 35 Clearance adjusting means 36 Compression-resistant member 37 Lifting tool 38 Mounting table

Claims (7)

The upper part is open and the molten steel can be stored inside, and a main body part provided with a projecting part provided projecting from the outer wall surface, and a cover body placed so as to cover the upper part of the main body part A tundish having,
The overhanging portion is provided on each of the long side on the front side and the long side on the rear side of the main body that is elongated in the left-right direction, and is provided in at least two places in the left-right direction,
The upper part of the main body is provided with a fitting portion into which the cover body is inserted,
One side of the insertion part is provided on the long side on the front side of the main body part, and the other side of the insertion part is provided on the long side on the rear side of the main body part,
The tundish, wherein the cover body can be inserted between one side and the other side of the insertion portion, and an edge portion of the inserted cover body can be brought into contact with the insertion portion.   The tundish according to claim 1, wherein the fitting portion is provided at a position corresponding to the overhanging portion.   The gap according to claim 1 or 2, wherein a gap adjusting means for adjusting a gap between the fitting part and the cover body is provided between the fitting part and the cover body. Dish.   The tundish according to any one of claims 1 to 3, wherein at least two or more insertion portions are arranged in the left-right direction of the main body portion.   The overhanging part has a placement part for placing the main body part and a lifting part for lifting the main body part, and the fitting part is provided on the base end side of the overhanging part. The tundish according to any one of claims 1 to 4, which is characterized by the following.   The cover body is provided with a compression resistant member, and is arranged so that an end portion of the compression resistant member is located at a position corresponding to the insertion portion. Tundish as described in.   The tundish according to claim 6, wherein the compression-resistant member is a rod body provided in the cover body and extending in the front-rear direction.

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