JP2001340942A - Mold apparatus in continuous casting plant - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a molding apparatus in the continuous casting plant which enables an exchange of composing equipment to be performed in an efficient pattern and simply. SOLUTION: A mold 25 comprises a pair of longer side copper plates 26a placed opposite to each other, a pain of shorter side copper plate 26b placed opposite to each other between longer side copper plates 26a, a pair of water jackets 27 opposing to each other by supporting each longer,side copper plate 21a, a pair of short side back plates 28 opposing to each other by supporting each shorter side copper plate 26b, and a water jacket clamp unit 29 supporting both water jackets 27 in an predetermined spacing, and by installing a foot roll 64a below the mold 25, a mold cassette 22 is composed and a cross beam 24 is installed, opposing to both ends of the water jacket 27 of the mold cassette 22 to a vibrating table 21, and the mold cassette 22 is provided detachably against the cross beam 24.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a molding apparatus in a continuous casting facility.

[0002]

2. Description of the Related Art FIG. 11 shows an example of a molding apparatus in a conventional continuous casting facility. In FIG. 11, the molding device is roughly divided into a vibration table 1, a mold 2 mounted on the vibration table 1, a width adjusting device 3, a width adjusting device driving device 4, and an electromagnetic stirring device (not shown).

The mold 2 has a pair of long-side copper plates 5 arranged opposite to each other, a pair of water boxes 6 on which the long-side copper plates 5 are mounted, and a pair of long-side copper plates 5 opposed to each other. And a short-side back plate 8 to which the short-side copper plates 7 are attached.

Each water box 6 is for cooling the mold 2, and is fixed to the mold support frame 1 via a fixing device 9. A cooling water pipe 10 for supplying or discharging cooling water is connected to the water box 6, and the cooling water pipe 10 is connected to a cooling water pipe 11 provided on the vibration table 1.

The width adjusting device 3 includes a screw rod 12 connected to the short side back plate 8 and a screw rod 1.
2 comprises a speed reducer 13 which moves back and forth in the axial direction.
3 is connected to a width adjusting device driving device 4.

[0006] A foot roll (not shown) is mounted below the mold 2, and a roll segment (not shown) is arranged below the foot roll.

[0007]

The above-mentioned mold 2 is a member which is frequently replaced especially in continuous casting equipment because the long side copper plate 5 and the short side copper plate 7 have short lifespans. In the conventional molding apparatus, since all members are fixedly arranged on the mold supporting frame 1, the mold 2, the width adjusting device 3, the width adjusting device driving device 4, the electromagnetic frame device (not shown), the foot roll (not shown) All members such as (omitted) were replaced at once, and the work load was heavy in terms of weight. In addition, since a similar spare molding device is required, the burden on cost is large. Further, even when the roll segment is replaced, it is necessary to remove all of the molding apparatus at once in order to extract the roll segment, which is a heavy work load. In addition, since the cooling water pipes 10 and 11 become obstacles in the maintenance / inspection work of the molding apparatus, these works are complicated,
In addition, this is a factor that deteriorates work efficiency.

[0008] In view of the above problems, an object of the present invention is to provide a molding apparatus in a continuous casting facility in which constituent devices can be easily replaced. Further, it is another object of the present invention to provide a molding apparatus in a continuous casting facility in which components can be exchanged in an efficient pattern.

[0009]

According to a first aspect of the present invention, there is provided a molding apparatus in a continuous casting facility according to the present invention, wherein a mold for continuous casting is mounted on a vibration table. A pair of long side copper plates arranged facing each other, a pair of short side copper plates arranged facing each other between the long side copper plates, and a pair of water boxes supporting each long side copper plate and facing each other A pair of short side back plates supporting each short side copper plate and a pair of short side back plates, and a water box clamp means for holding both water boxes at a predetermined interval constitute a mold, and a foot roll is attached to a lower part of the mold. The mold cassette is configured such that the cross beam is detachably mounted on the vibration table and the mold cassette is detachably mounted on the cross beam.

With the above structure, only the mold cassette can be easily removed and replaced with a spare mold cassette. Further, the cross beam and the mold cassette can be easily removed and replaced collectively.

According to a second aspect of the present invention, there is provided a molding apparatus in a continuous casting facility, wherein a width adjusting device which is detachably connected to a short side back plate and adjusts a distance between opposed short side copper plates is a cross beam. A width adjusting device driving device for mounting and driving the width adjusting device is mounted on the vibration table, and power transmission means for connecting the width adjusting device and the width adjusting device driving device is detachably connected to at least one of these devices. Things.

With the above arrangement, only the mold cassette can be removed while leaving the cross beam, the width adjusting device mounted on the cross beam, and the width adjusting device driving device for driving the width adjusting device. Further, the width adjusting device can be removed together with the cross beam.

According to a third aspect of the present invention, there is provided a molding apparatus in a continuous casting facility according to the present invention, wherein the vibrating table has an opening through which a roll segment arranged below the mold cassette can be taken in and out.

According to the above-described configuration, by removing the mold cassette and the cross beam from the vibrating table, the roll segments can be taken in and out from the opening of the vibrating table with the vibrating table left.

According to a fourth aspect of the present invention, there is provided a molding apparatus for a continuous casting facility, wherein an electromagnetic stirrer mounted on the outside of a water box is detachably mounted on a mold cassette, and the electromagnetic stirrer is mounted on a vibration table. An electromagnetic stirrer moving means to be attached to and detached from is installed,
The electromagnetic stirrer moving means can be tilted between a horizontal state and a state where it is tilted to a predetermined angle.

With the above arrangement, the electromagnetic stirring device is detached from the mold cassette by the electromagnetic stirring device moving means when the mold cassette is attached or detached, so that only the mold cassette can be removed while the electromagnetic stirring device is left on the vibration table side. Alternatively, the mold cassette and the cross beam can be removed. When taking out the roll segment disposed below the mold cassette, the electromagnetic stirring device moving means is tilted upright and retracted from the opening of the vibration table, so that the roll segment can be easily taken in and out.

According to a fifth aspect of the present invention, there is provided a molding apparatus in a continuous casting facility according to the present invention, wherein a cooling water pipe in the vibration table is disposed inside the vibration table, and an opening of the cooling water pipe in the vibration table is provided on the upper surface of the vibration table. The cooling water pipe in the cross beam is arranged inside the cross beam, the opening of the cooling water pipe in the cross beam is provided on the lower surface of the cross beam, and the seal device is arranged on the upper surface of the vibration table or the lower surface of the cross beam, and the cross beam is vibrated. By installing on a table, the sealing device is pressed and these pipes are connected in a watertight manner.

According to the above configuration, the cooling water pipe can be handled integrally with the vibration table and the cross beam by disposing the cooling water pipe inside the vibration table and the cross beam without disposing the cooling water pipe outside. Piping connection work can be easily performed when the cross beam is mounted on the table. Furthermore, since these pipes are not exposed to the outside of the molding apparatus, they do not hinder maintenance and inspection.

According to a sixth aspect of the present invention, there is provided a molding apparatus for a continuous casting facility according to the present invention, wherein a cooling water pipe in the cross beam is disposed inside the cross beam, and an opening of the cooling water pipe in the cross beam is provided on the upper surface of the cross beam. By disposing the cooling water pipe in the water box inside the water box, providing the opening of the cooling water pipe in the water box on the lower surface of the water box, disposing the sealing device on the upper surface of the cross beam or the lower surface of the water box, and installing the water box on the cross beam These pipes are connected in a watertight manner by pressing the sealing device.

With the above arrangement, the cooling water pipe can be handled integrally with the water box and the cross beam by disposing the cooling water pipe inside the water box and the cross beam without disposing the cooling water pipe outside. Piping connection work can be easily performed when mounting the mold cassette. Furthermore, since these pipes are not exposed to the outside of the molding apparatus, they do not hinder maintenance and inspection.

According to a seventh aspect of the present invention, there is provided a molding apparatus in a continuous casting facility according to the present invention, wherein a predetermined difference is provided between an area of an opening of a cooling water pipe in a cross beam and an area of an opening of a cooling water pipe in a water box. .

With the above configuration, even when the position of the water box is changed due to the change in the distance between the long side copper plates, the water-tight connection between the cooling water pipe in the water box and the cooling water pipe in the cross beam can be maintained.

According to an eighth aspect of the present invention, there is provided a molding apparatus for a continuous casting facility, comprising: a pair of long side copper plates arranged to face each other; and a pair of short sides arranged to face each other between the long side copper plates. In a molding apparatus having a side copper plate, a pair of short side back plates that support and support each short side copper plate, and a width adjusting device that adjusts a distance between these short side copper plates, the short side back plate , A plurality of projections are provided, and a hole through which the projections are inserted and projection clamping means for clamping the projections are provided on a movable plate of the width adjusting device.

With the above arrangement, the movable plate can be easily detached from the short side frame by releasing the clamp of the clamp means and detaching the projection from the hole of the movable plate. Conversely, by inserting the projection into the hole of the movable plate and clamping the projection with the projection clamping means, the movable plate can be joined to the short side frame. Therefore, the width adjusting device can be easily detached from the short frame.

According to a ninth aspect of the present invention, there is provided a molding apparatus in a continuous casting facility according to the present invention, wherein the projection clamping means includes a clamp claw inserted into a groove provided in the projection, and a cylinder device for driving the projection to be retractable. And a clamp device that presses and fixes the clamp claw by the urging force of a spring, and releases the fixing by hydraulic pressure against the urging force.

According to the above configuration, even when there is a failure in the hydraulic pressure supply system, a stable connection between the movable plate and the short side frame can be maintained.

[0027]

Embodiments of the present invention will be described below with reference to the drawings. In FIG. 1, the vibration table 21
Is a frame having four sides formed of a steel material or the like, and a roll segment (not shown) arranged below the mold cassette 22.
Has an opening 23 which can be taken in and out.

A pair of cross beams 24 are provided on both sides of the vibration table 21, and a mold cassette 22 is provided so as to extend over both cross beams 24. The mold 25 of the mold cassette 22 includes a pair of long-side copper plates 26a and a long-side copper plate 2
6a and a pair of short side copper plates 26b opposed to each other
A pair of water boxes 27 supporting each long side copper plate 26a and facing each other; a pair of short side back plates 28 supporting each short side copper plate 26b and facing each other; And a water box clamp device 29 which is held at the same position. The mold cassette 22 is configured by mounting a foot roll (described later) below the mold 25, and the mold cassette 22 is placed on the cross beam 24 at both ends of the water box 27.

The width adjusting device 3 mounted on the cross beam 24
Numeral 0 is for adjusting the distance between the opposed short side copper plates 27, and includes a variable plate 65 detachably connected to the short side back plate 28, a screw rod 31 connected to the variable plate 65, and a screw. It comprises a speed reducer 32 for driving the rod 31 out and back.

To the speed reducer 32, a width adjusting motor 33 provided on the vibration table 21 is detachably connected by a power transmission shaft 34b having a width adjusting universal joint 34a at both ends. An electromagnetic stirrer 35 mounted on the outside of each water box 27 is detachably mounted on the mold cassette 25. The electromagnetic stirrer moving means 3 for driving the electromagnetic stirrer 35 to be detachable from the mold cassette 25.
6 is mounted on the vibration table 21.

The cross beam 24 is detachably mounted on the vibration table 21 in a fixed structure at both ends. This fixing structure is shown in FIG. In FIG. 2, fixed plates 37 provided at both ends of the cross beam 24 have a pair of holes 38.
have. The fixing device 39 disposed inside the vibration table 21 has a pair of protrusions 41 penetrating through the hole 40 of the vibration table and the hole 38 of the fixing plate 37.
The cotter 42 is inserted into the hole formed in the above, and the projection 41 and the fixing plate 37 are fixed.

The fixing device 39 is provided with a movable frame 43 for fixedly supporting the protruding portion 41 so as to be able to move up and down. A spring 44 for urging the protruding portion 41 downward is disposed on the upper portion of the movable frame 43, and is movable. A jack 4 that pushes up the movable frame 43 and the projection 41 below the frame 43.
5 are arranged.

When fixing the cross beam 24 to the vibration table 21, the projection 41 is inserted into the hole 38 of the fixing plate 37, and the movable frame 43 and the projection 4 are
1 is pushed up against the force of the spring 44. In this state, the cotter 42 is inserted into the hole of the projection 41, the jack 45 is lowered, and the fixing plate 37 is pushed downward via the cotter 42 by the urging force of the spring 44 to fix the cross beam 24.

When removing the cross beam 24 from the vibration table 21, the cotter 42 is pulled out while the movable frame 43 and the projection 41 are pushed up by the jack 45 against the urging force of the spring 44.

A cooling water pipe 46 in the vibration table is arranged inside the vibration table 21, and a cooling water pipe 47 in the cross beam is arranged inside the cross beam 24. The cooling water pipe 46 in the vibration table is
The opening is formed through the hole formed on the upper surface of the opening, and a flange portion 48 having a wide margin is provided on the periphery of the opening. The cooling water pipe 47 in the cross beam penetrates a hole formed in the lower surface of the cross beam 24 and is opened, and a peripheral edge of the opening is fixed to the lower surface member 49 in a watertight manner.

When the opening of the cooling water pipe 46 in the vibration table and the opening of the cooling water pipe 47 in the cross beam face each other, the flange portion 48 of the cooling water pipe 46 in the vibration table has its flange surface at the lower surface member 49 of the cross beam 24. O-ring 5 is formed in an annular groove 50 formed on the flange surface of flange portion 48 of cooling water pipe 46 in the vibration table.
1 is arranged, and an O-ring 51 seals between both contact surfaces.

Therefore, the projections 41 are inserted into the holes 38 of the fixing plate 37 so that the cross beam 24 is
And fixed to the lower surface member 4 of the cross beam 24.
9 is pressed against the O-ring 51 to automatically seal the connection, so that the cooling water pipe 46 in the vibration table and the cooling water pipe 4
7 can be easily connected in a watertight manner. Further, since the cooling water pipes are disposed inside the cross beam 24 and the vibration table 21, respectively, the cooling water pipes can be integrally treated with the vibration table 21 and the cross beam 24. It does not become an obstacle in the maintenance and inspection work of the device.

In the present embodiment, the O-ring 51 is disposed in the annular groove 50 formed on the flange surface of the vibration table cooling water pipe 46, but the opening of the cross-beam cooling water pipe 47 on the lower surface of the cross beam 24. An O-ring may be arranged by forming an annular groove in a peripheral portion, and the flange surface may be configured to be pressed against the O-ring.

As shown in FIG. 3, the mold cassette 22
A plate member 52 for sealing is disposed at a portion where both ends of the water box 27 are placed. In the sealing plate member 52, two grooves 52 a having a convex cross section are formed in a direction perpendicular to the inner surface of the long side copper plate 5. A bolt 53 for fixing the mold cassette 22 has a head 53a formed in a convex shape loosely fitted in the groove 52a, and is provided so as to be movable along the groove 52a without being tightened. This makes it easy to change the position of the water box 27 in accordance with the change in the distance between the long side copper plates 5.

The bolt 53 is disposed so as to pass through a hole at the end of the water box 27, and a nut 54 is screwed into an end of the bolt 53 protruding from the upper part of the water box 27 to fasten the mold cassette 22. The beam 24 is detachably installed.

The cooling water pipe 47 in the cross beam arranged inside the cross beam 24 is open in the sealing plate member 52 arranged on the upper surface of the cross beam 24, and the radius of the circular opening is r1. The cooling water pipe 55 in the water box arranged inside the water box 27 is open at the lower surface of the water box 27, and the radius of the circular opening is r2. r2
Is smaller than the radius of the cross section of the cooling water pipe 55 in the water box. The lower surface 27a at the end of the water box 27 is in contact with the upper surface of the plate member 52 for sealing, and the O-ring 57 is disposed in an annular groove 56 formed on the upper surface of the plate member 52 for sealing so that both contact surfaces are watertight. Sealed.

With the above structure, by mounting the mold cassette 22 to the cross beam 24, a watertight connection between the cooling water pipe 47 in the cross beam and the cooling water pipe 55 in the water box can be performed without any special operation. it can. By setting r1> r2 for the radii r1 and r2, the range in which the position of the water box 27, that is, the interval between the long side copper plates 5, can be changed while maintaining the watertight connection of these pipes increases.

In the present embodiment, the O-ring 57 is disposed in the annular groove 50 formed in the sealing plate member 52. However, the cooling water pipe 55 in the water box on the lower surface 27a at the end of the water box 27.
Forming an annular groove in the periphery of the opening of the O-ring,
The sealing plate member 52 may be configured to be pressed against the sealing plate member 52. Further, in the present embodiment, the radii r1, r2
R1> r2, but in this case, r1 <r2. The pipe opening is generally circular, but is not limited to a circular shape as long as there is a difference in the width of the opening in the water box moving direction.

As shown in FIG. 4, the electromagnetic stirrer 35 has a plurality of coils 58 provided on the water box 27 and a yoke 59 which is detachably disposed between the coils 58. Is a carriage 60 supporting the yoke 59,
The vehicle has a swing frame 61 serving as a rail for guiding wheels 60 a of the truck 60, and a truck drive cylinder device 62 for reciprocating the truck 60 along the swing frame 61. The oscillating frame 61 is mounted on the vibration table 21 with a horizontal support shaft 61a, and a horizontal state and a predetermined angle around the axis of the horizontal support shaft 61a (for example, the yoke 5
9 is tilted to an angle at which the position 9 is no longer positioned). The tilt cylinder device 63 provided on the vibration table 21 is connected to the base end of the swing frame 61, and the tilt frame device 61 is tilted by the driving of the tilt cylinder device 63.

The electromagnetic stirrer 35 is used when the yoke 59 is used.
Is inserted between the coils 58, and when the mold cassette 22 is replaced, the carriage 60 is moved to a position where the yoke 59 is separated from the coils 58, and is retracted. When a roll segment (not shown) disposed below the mold cassette 22 is replaced, the swing frame 61 is further tilted upward by the tilt cylinder device 63, so that a space required for the replacement work is provided on the opening 23 of the vibration table 21. To secure. The electromagnetic stirrer 35 is configured such that the coil 58 is
It may be configured to be retracted together with the yoke 59 without being attached to the device.

As shown in FIGS. 5 to 10, the short side copper plate 2
6b is attached to the short side back plate 28, and the short side back plate 28 is
It is detachably attached to the movable plate 65 connected to the first plate 1. The short side back plate 28 has a pair of protrusions 66, and the movable plate 65 has a hole 67 through which the protrusions 66 are inserted.
The opening of the hole 67 is tapered so that the projection 66 can easily enter. The movable plate 65 is provided with a projection clamping device 68 for clamping the projection 66, a foot roll 64 a is provided below the short side frame 64, and a foot roll (not shown) is provided below the water box 27.

As shown in FIGS. 7 and 8, the projection clamping device 68 includes a casing 69 forming an oil chamber 68a.
A pressing member 71 having a hole 70 through which the projection 66 is inserted, and disposed inside the casing 69 so as to be movable in the axial direction of the projection 66, and a spring 72 for pressing the pressing member 71 outward. And a groove 73 formed at the tip of the protrusion 66.
Horseshoe-shaped clamp claw 74 to be inserted into
And a guide 76 for guiding the clamp pawl 74.

The short side back plate 28 is connected to the width adjusting device 30.
When mounting on the movable plate 65 connected to the screw rod 31, the protrusion 66 is inserted into the hole 70 and the groove 73 of the protrusion 66 is arranged on the upper surface of the casing 69. In this state, pressure oil is sent to the oil chamber 68a, and the pressing member 71
Is pressed into the casing 69 against the urging force of the spring 72, and the clamp pawl 74 is inserted into the groove 73 by the clamp pawl drive cylinder device 75. In this state, the pressure oil of the projection clamping device 68 is cut off, and the clamp pawl 74 is pressed and fixed by the pressing member 71 by the urging force of the spring 72.

In the above configuration, in order to change the thickness of the slab to be cast, the short side copper plate 26b
It is necessary to change the distance between the copper plate 26a and the long side copper plate 26a. The thickness of the short side copper plate 26b and the long side copper plate 26a is changed by modification to repair the surface plating.

In this case, the mold cassette 22 needs to be removed. For this reason, the nut 54 is removed from the bolt 53, the yoke 59 is retracted to a position separated from the coil 58 by the bogie driving cylinder device 62, and the electromagnetic stirring device 3
5 is detached from the mold cassette 22, the projection clamp device 68 is released, and the movable plate 65 is detached from the short side back plate 28.
4. With the width adjustment device 30 and the electromagnetic stirrer 35 left on the side of the vibration table 21, only the mold cassette 22 can be easily removed and replaced with a spare mold cassette.

Further, by pulling out the cotter 42 in a state where the movable frame 43 and the projection 41 are pushed up by the jack 45 against the urging force of the spring 44, the cross beam 24, the width adjusting device 30 and the mold cassette 22 are collectively assembled. It can be easily removed and replaced. Further, the mold cassette 22 and the cross beam 24 are removed from the vibration table 21, and the swing frame 61 is retracted by the tilt cylinder device 63 to an upright position that is not located on the opening 23 of the vibration table 21, thereby leaving the vibration table 21. In this state, a roll segment (not shown) can be taken in and out from the opening 23.

[0052]

As described above, according to the present invention, only the mold cassette or the cross beam and the mold cassette are left with the cross beam, the width adjusting device, the electromagnetic stirrer, etc., remaining on the side of the vibrating table. Can be easily removed in a lump and easily replaced with a spare mold cassette, and the roll segment can be easily taken in and out by tilting the electromagnetic stirrer moving means upright. Further, by arranging the cooling water pipe on the vibration table and the cross beam, maintenance and connection work of the cooling water pipe can be easily performed.

[Brief description of the drawings]

FIG. 1 is a plan view of a molding apparatus according to an embodiment of the present invention.

FIG. 2 is a sectional view showing a connection structure between the vibration table and the cross beam according to the embodiment.

FIG. 3 is a cross-sectional view showing a connection structure between a cross beam and a water box in the embodiment.

FIG. 4 is a cross-sectional view showing a structure of the electromagnetic stirring device according to the embodiment.

FIG. 5 is a front view showing a short side back plate in the embodiment.

FIG. 6 is an explanatory view showing the operation of the short side back plate.

FIG. 7 is a cross-sectional view showing the projection clamping device according to the embodiment.

FIG. 8 is an explanatory view showing the operation of the projection clamp device.

FIG. 9 is a plan view showing the projection clamping device.

FIG. 10 is an explanatory diagram showing an operation of the projection clamp device.

FIG. 11 is a plan view of a conventional molding apparatus.

[Explanation of symbols]

 Reference Signs List 21 Vibration table 22 Mold cassette 23 Opening 24 Cross beam 25 Mold 26a Long side copper plate 26b Short side copper plate 27 Water box 28 Short side back plate 29 Water box clamp device 30 Width adjustment device 31 Screw rod 32 Reduction gear 33 Width adjustment motor 34a Width Adjustable universal joint 34b Power transmission shaft 35 Electromagnetic stirrer 36 Electromagnetic stirrer moving means 37 Fixing plate 38 Hole 39 Fixing device 40 Hole 41 Projection 42 Cotter 43 Movable frame 44 Spring 45 Jack 46 Cooling water pipe in vibration table 47 Cross-beam cooling water pipe 48 Flange part 49 Lower surface member 50 Annular groove 51 O-ring 52 Sealing plate member 52a Groove 53 Bolt 54 Nut 55 Water box cooling water pipe 56 Annular groove 57 O-ring 58 Coil 59 Yoke 60 Bogie 61 Swing frame 61a Horizontal support shaft 62 Bogie drive cylinder device 63 Tilt cylinder device 64 Foot roll 65 Movable plate 66 Projection 67 Hole 68 Projection clamp device 69 Casing 69a Oil chamber 70 Hole 71 Pressing member 72 Spring 73 Groove part 74 Clamp pawl 75 Clamp pawl drive cylinder device 76 Guide

Claims (9)

[Claims] In a molding apparatus in which a mold for continuous casting is mounted on a vibrating table, a pair of long side copper plates disposed opposite each other and a pair of short side copper plates disposed opposite each other between the long side copper plates. Side copper plate, a pair of water boxes that support each long side copper plate and face each other, a pair of short side back plates that support each short side copper plate and face each other, and hold both water boxes at predetermined intervals The mold is composed of the water box clamp means, the foot roll is attached to the lower part of the mold, and the mold cassette is constructed.The cross beam is detachably installed on the vibration table, and the mold cassette is detached from the cross beam. A molding apparatus in a continuous casting facility, which is installed as possible. 2. A width adjusting device driving device which is detachably connected to a short side back plate and is attached to a cross beam to adjust a distance between opposed short side copper plates, and drives the width adjusting device. The continuous casting equipment according to claim 1, wherein the power transmission means for mounting the width adjusting device and the width adjusting device driving device is detachably connected to at least one of the devices. Mold equipment. 3. The molding apparatus in a continuous casting facility according to claim 1, wherein the vibrating table has an opening through which a roll segment disposed at a lower portion of the mold cassette can be taken in and out. 4. An electromagnetic stirrer mounted on the outside of the water box is detachably mounted on the mold cassette.
An electromagnetic stirrer moving means for detachably driving the electromagnetic stirrer with respect to the mold cassette is mounted on the vibration table, and the electromagnetic stirrer moving means is configured to be tiltable between a horizontal state and a state inclined to a predetermined angle. A molding apparatus in a continuous casting facility according to any one of claims 1 to 3, characterized in that: 5. A cooling water pipe in the vibration table is disposed inside the vibration table, an opening of the cooling water pipe in the vibration table is provided on the upper surface of the vibration table, and a cooling water pipe in the cross beam is disposed inside the cross beam. The opening of the cooling water pipe in the cross beam is provided on the lower surface of the cross beam, the sealing device is provided on the upper surface of the vibration table or the lower surface of the cross beam, and the sealing device is press-contacted by installing the cross beam on the vibration table. Is connected in a watertight manner, the molding apparatus in a continuous casting facility according to any one of claims 1 to 4. 6. A cooling water pipe in the cross beam is arranged inside the cross beam, an opening of the cooling water pipe in the cross beam is provided on the upper surface of the cross beam, and a cooling water pipe in the water box is arranged inside the water box. The opening of the internal cooling water pipe is provided on the lower surface of the water box, the sealing device is arranged on the upper surface of the cross beam or the lower surface of the water box, and the sealing device is pressed by placing the water box on the cross beam so that these pipes are connected in a watertight manner. A molding apparatus in a continuous casting facility according to any one of claims 1 to 5, characterized in that: 7. The molding apparatus according to claim 6, wherein a predetermined difference is provided between the area of the opening of the cooling water pipe in the cross beam and the area of the opening of the cooling water pipe in the water box. . 8. A pair of long-side copper plates disposed to face each other, a pair of short-side copper plates disposed to face each other between the long-side copper plates, and a pair of short-side copper plates supported by each other. In a molding apparatus having a pair of short side back plates facing each other and a width adjusting device for adjusting a distance between these short side copper plates, a plurality of protrusions are provided on the short side back plate, and the protrusions are inserted. A molding device in a continuous casting facility, wherein a hole and a projection clamping means for clamping the projection are provided on a movable plate of the width adjusting device. 9. A projection clamping means, comprising: a clamp claw inserted into a groove provided in the projection; a cylinder device for driving the claw to be able to move back and forth; and pressing and fixing the clamp claw by a biasing force of a spring. The mold device in a continuous casting facility according to claim 8, further comprising: a clamp device that releases the fixation by hydraulic pressure against the urging force.