JPH0280161A - Side weir in single belt type continuous casting machine - Google Patents

Abstract

PURPOSE:To facilitate shift of side weirs and to easily change width of a sheet by constituting the side weirs with plural side blocks endlessly connected, arranging them along guides in the running direction of the metallic belt and running while laying them on the metallic belt. CONSTITUTION:At least parts forming side walls for a mold in the side weirs are run while arranging toward the running direction of the metallic belt 10 and laying on the metallic belt 10. This running of the side weir 11 can be achieved by adjusting position of sprockets 3, 4 so that the side wall of the side weir 11 runs toward the running direction of the metallic belt 10 and the (m) point and (n) point are laid on the metallic belt 10. At the time of setting the position by shifting the sprockets 3, 4 and the sprockets 3', 4' toward the dotted arrow mark 20 direction, the strip having narrow width W3 is obtd. Further, reversely, at the time of setting the position by shifting them toward the solid arrow mark 20, the cast sheet 17 having wide width is obtd.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a single-belt continuous casting machine for producing thin metal sheets directly from molten metal.

[Prior Art] Fig. 3 is a diagram showing an example of a single-belt type continuous casting machine described in Japanese Patent Application No. 188862/1982, in which (A) is an explanatory side view, and (B) is an explanatory plan view. It is. The side weirs 11 and 11' are placed on both sides of the metal belt 10, which is stretched between pulleys 19 (19') that rotate in the direction of the arrow, and runs endlessly with an upward slope. Run at a speed synchronized with the

The side weir 11 (11') is formed by connecting a large number of side blocks 1 in an endless manner, and runs endlessly on the outside of the running track of the metal belt IO as a running track. A rear weir 12 extends between both side weirs and is placed on the metal belt 10. Note that the rear weir 12 includes the metal belt 10 and the side weir 11.
(11'), but is held at a predetermined position. The molten metal 14 is injected into the pool 13 formed by the metal belt 10, the side weir 11, and the rear weir 12, but since the back side of the metal belt IO is cooled by the cooling device 16, the molten metal is poured onto the metal base 10. A solidified shell 15 is formed. This solidified shell 15 runs in the direction of arrow 18 together with the metal belt.

A thin plate 17 is taken out. In addition, 21 in the figure is an example of a coiler that winds up a thin plate.8This continuous casting machine is used.

When manufacturing thin plates having different widths W, the side weirs 11 and 11' are moved to match the widths W of the plates. That is, Fig. 3 (
In Fig. 3 (
When adjusting C) for a thin plate with a width of W2, please refer to Figure 3 (B).
), the side weir II (If') is moved in the direction of arrow 20. However, as shown in FIG. 3(A), the side weir 11 (11') of this device is an endless side weir whose running track is outside the running track of the metal belt 10. ) is extremely long, and therefore the operation of moving it in the direction of arrow 20 and setting it at a predetermined position is extremely cumbersome.

[Problems to be Solved by the Invention] According to the present invention, when changing the width of a thin plate to be manufactured in a single-belt continuous casting machine, the side weir can be easily moved and set at a predetermined position. It provides a side weir.

[Means for Solving the Problems] In order to achieve the object, the present invention forms a pool 13 on the metal belt 10 that runs upward at an incline using the side weirs 11 (11') and the rear weir 12. , a molten metal 14 is poured into a pool 13 and a solidified shell 1 is placed on a running metal belt 10.
In a single-belt continuous casting machine that forms a metal belt 10 and takes it out as a thin plate, a side weir 11 (11') connects a large number of side blocks 1 in an endless manner, and connects it to a metal belt 10 on the same surface. The running track is made to run and rotate endlessly,
Among the large number of side blocks, at least a group of side blocks forming the side walls of the mold are aligned in the running direction of the metal belt 10 along the guide 2 and run on the metal belt 10, and the guide 2 runs on the metal belt 10. This is a side weir of a nine-piece belt type continuous hammer making machine, characterized in that its position can be set by moving it forward or backward in the width direction.

[Example] Hereinafter, the present invention will be specifically described with reference to the drawings.

FIG. 1 is a diagram illustrating a single-belt type continuous spinning machine having a side weir according to the present invention. The invention will be explained with reference to FIG.

The present invention provides a metal belt 10'' which runs upwards at an incline, and a side weir 11. A pool 13 is formed at the rear weir 12, and molten metal is injected into the pool 13, and the metal belt 1 runs.
The side weir 11 of the present invention is a side weir formed by connecting a large number of side blocks endlessly. In the present invention, the metal belt IO runs and rotates endlessly on the same running track as the metal belt IO.
The same plane as the metal belt 10 refers to an extension plane of the metal belt 10, and therefore an extension plane having the same inclination as the metal belt 10. This running rotation of the side weir is achieved by, for example, extending the endless side weir 11 between the sprockets 3 and 4 and rotating the sprockets 3 and 4 in the direction of the arrow in FIG. 1(B). In the present invention, at least the portion of the side weir forming the side wall of the mold is placed on the metal belt 10 and runs in alignment with the running direction of the metal belt.

This running of the side weir is carried out so that the side wall of the side weir (for example, between m and n in FIG. This can be achieved by adjusting the positions of sprockets 3 and 4 so that they are seated. In the example of FIG. 1(B), therefore, the side weir 11
The part forming the side wall of the mold runs guided by a guide consisting of sprockets 3 and 4.

In the present invention, the guide 2, that is, the guide mechanism combining the sprockets 3 and 4 in the example of FIG.
The position can be set by moving it forward or backward in the width direction of 0 (direction of arrow 20).

In FIG. 1(B), another side weir 11' is also stretched between sprockets 3' and 4', and similarly to the above, it is guided by the guide made up of 3' and 4', and the mold is Sprockets 3' and 4' form other side walls and run and rotate.
It is also possible to set the position by moving it in the direction of the arrow 20.

In FIG. 1(B), when the sprocket 3.4 and the sprockets 3', 4' are moved and positioned in the direction of the dotted arrow 20, a narrow thin plate 17 with a small plate width W is obtained.

When the correspondence is moved and positioned in the direction of the solid line arrow 20, a wide piece 17 is obtained.

FIG. 2 is a diagram showing another example of the side weir 11 of the present invention,
(A) is a plan view, (B) is a front view, (C) is a side view, (
D) is a detailed view of the A part, and (E) is a detailed view of the mouth part.

A side weir 11 is provided at the other end of the metal belt 10 in the width direction.
'' (not shown). In FIG. 2(A), the side weir 11 is formed by connecting a large number of side blocks 1 in an endless manner, but in this example, the side blocks 1 are arranged as shown in FIG. When the sprocket 3 is rotated in the direction of the arrow, the chain link 5 is rotated in the direction of the arrow 18, and the side blocks forming the side weirs also run in the direction of the arrow 18.The chain is connected by chain links 5 as shown in FIG. The link 5 also runs guided by a guide 2. This guide 2 is a box-shaped groove rail 6 in this example, as shown in FIGS. It is guided by the rail 6 and runs smoothly.

An arm 7.7' is attached to the box-shaped groove rail 6, and the arm 7.7' is movable in the direction of arrow 20. When the arm 7.7' is moved in the direction of arrow 20, the guide 2 (box-shaped groove rail 6), chain link 5, sprocket 3, and side block 1 are also moved in the direction of arrow 20.
Move in the 0 direction. As a result,! Thin plates with different widths will be produced with the gap between the sides of the 8-type die adjusted.

An example of a guide 2 in which a group of side dam blocks that form the side walls of a spinning die are aligned in the running direction of the metal belt 10 and run on the metal belt 10 is shown in FIGS. 1 and 2.
Although illustrated in the figure, the guide 2 may use other mechanisms.

[Effects of the invention] The side weir of the present invention is shorter than conventional side weirs, the equipment is compact, maintenance and inspection is easy, and the side weir is easy to move, so it is suitable for single-belt continuous casting machines. The width of the thin plate produced can be easily changed.

4. Figure 1 is an explanatory diagram of an example of the side weir of the present invention. Figure 2 is a diagram showing another example of the side weir of the present invention. Figure 3 is an explanatory diagram of an example of the side weir of the present invention. It is a figure showing an example of a belt type continuous casting machine.

l: side block, 2 guide, 3 varnish pro-kent, 4: sprocket, 5: chain link, 6
: Box groove rail, 7.7': Arm, lO: Metal belt, 11: Side weir, 12: Rear weir, 13: Pool, 14: Molten metal, 15: Solidified shell, 16: Cooling device, 17: Thin plate , 18: Thin plate running direction, 19 (
19') :Pulley Figure 1

Claims (1)

[Claims] A side weir 11 is placed on the metal belt 10 that runs upward at an incline.
(11') A pool 13 is formed with the rear weir 12, molten metal 14 is poured into the pool 13, a solidified shell 15 is formed on the running metal belt 10, and the solidified shell 15 is taken out as a thin plate. Single-belt continuous casting In the machine, side weir 11 (11'
) is made up of a large number of side blocks 1 connected in an endless manner, which are run and rotated endlessly on a running track on the same plane as the metal belt 10, and form at least the side wall of the mold among the large number of side blocks. The side block group is aligned in the running direction of the metal belt 10 along the guide 2 and runs on the metal belt 10, and the guide 2 runs on the metal belt 10.
A side weir for a single-belt continuous casting machine whose position can be set by moving it forward or backward in the width direction.