JPH05318037A - Shearing plant device in continuous casting - Google Patents

Abstract

PURPOSE:To enable production of ingots for galvanizing having different sizes to be carried out and to reduce loss of the ingot by cutting off one end side in the longitudinal direction to a projecting angle shape and forming a hooking hole to the projecting angle part, at the time of shearing a metal sheet. CONSTITUTION:The metal sheet 19 corrected to the straight sheet like by a streightening machine is cut off by a shearing machine 24. The sheared shape forms the projecting angle part at one end in the longitudinal direction so as to become the shape matching the ingot 25 for galvanizing and provided with the hooking hole at the center of the projecting angle part. The sheared metal sheet 19 is quickly sent to a finish cutting machine 30 and cut off to this circumference 29 to finish the ingot 25 for galvanizing. A metallic tool is hung in the hooking hole and the ingot 25 is hung into a galvanizing vessel. The ingot 25 is used as much as possible and the waste is reduced as less as possible.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a continuous casting cutting plant device.

[0002]

2. Description of the Related Art Conventionally known JP-A-51-126592, JP-A-49-130323, and JP-A-3-37
As described in the respective partial devices in Japanese Patent Publication No. 820, etc., a holding furnace for a molten metal of a conventional zinc compound alloy, a pump device for pumping the molten metal in the holding furnace, and a molten metal pumped by the pump device are disclosed. A rotary casting apparatus comprising: a casting trough to be transferred; a casting wheel having a groove formed on the outer periphery for receiving the molten metal supplied from the casting trough; and a metal endless belt for crimping a part of the outer periphery thereof to form a mold. A straightening device for straightening the curved metal strip cast by the rotary casting device, and a cutting device for cutting the metal strip passing through the straightening device to a predetermined length to obtain a zinc ingot original form And a finishing cutting device for removing burrs around the original shape of the zinc ingot to obtain a zinc plating ingot, a continuous casting cutting plant apparatus is known.

[0003]

The known continuous casting and cutting plant apparatus has two problems. The first is a complaint from a galvanizing company that the amount of remaining ingot is large and wasteful. What this means is that the zinc plating ingot is used only by hanging it down in the sulfuric acid solution in the plating tank, but the part above the hook hole for hanging cannot be used, so it will be discarded. .. However, it is a complaint that it is wasteful and the profit and loss are large when thrown away. Of course, it may be collected and reused, but it is difficult to handle because it is heavy, and there is not much benefit to reuse considering transportation costs and the like. The second problem is that when a galvanizing company places an order with an ingot company for ingots of different sizes, the known continuous casting cutting plant apparatus cannot handle this. That is, since the size (width and depth) of the mold of the rotary casting apparatus in the continuous casting cutting plant apparatus is determined, ingots having different lengths can be produced but those having different widths cannot be produced.

[0004]

Therefore, according to the present invention, the holding furnace 1 for the molten metal 3 of the zinc compound alloy and the molten metal 3 in the holding furnace 1 are provided.
A pump device 4 for pumping the molten metal, a casting trough 2 for transferring the molten metal 3 pumped by the pump device 4, and a casting wheel 14 having a groove 15 formed on the outer periphery for receiving the molten metal 3 from the casting trough 2.
Also, a rotary casting device 12 including a metal endless belt 17 that is pressure-bonded to a part of its outer circumference to form a mold, and a curved metal strip 19 cast by the rotary casting device 12.
A straightening device 20 for straightening the straight line, a cutting device 24 for cutting the metal strip 19 having passed through the straightening device 20 to a predetermined length to obtain a zinc ingot original form, and a burr 29 around the zinc ingot original form. In a continuous casting cutting plant device comprising a finishing cutting device 30 which is removed to form a galvanizing ingot 25, the cutting device 24 cuts one end side in the longitudinal direction when cutting the metal strip 19 into a certain length. The chevron is cut off to form a chevron 26 and the chevron 2
6, the above-mentioned device, which is adapted to form the hook hole 27 in the center, and the above-mentioned rotary casting device 12,
This is a continuous casting cutting plant device in which a plurality of units having different dimensions are arranged so that they can be freely replaced.

[0005]

An embodiment of the present invention will be described with reference to the drawings.
Reference numeral 1 is a holding furnace for a zinc compound alloy, 2 is a casting gutter provided in the vicinity of the holding furnace 1, and a suction port 5 of a pump device 4 is buried in the molten metal 3 of the holding furnace 1 so that the pump device 4 The discharge port 6 faces the inside of the casting trough 2. The casting trough 2 is axially fixed by a support shaft 7 in the vicinity of the center in the length direction, and is swung like a seesaw around the support shaft 7 by a separate motor (not shown). Reference numeral 8 is a supply port for the casting trough 2, 9 is a return port for the holding furnace 1, and 10 is a partition plate for removing residue.

A hot water supply amount control unit 11 is provided below the supply port 8 of the casting trough 2, and the hot water supply amount control unit 11 is provided in the rotary casting device 12.
Face tundish 13 of. Reference numeral 14 denotes a casting wheel having a groove 15 formed on the outer peripheral surface thereof, which is rotated at a low speed by a lateral rotation shaft 16. Reference numeral 17 denotes a metal endless belt wound around three guide rollers 18, which is pressed against the four-half circumference of the casting wheel 14 to rotate together. The molten metal 3 is supplied from the tundish 13 to the concave groove 15 closed by the metal endless belt 17, and the supplied molten metal 3 is gradually cooled and solidified by a cooling device (not shown) and cast as a metal strip 19. To be done.
Although illustration is omitted, as for the casting wheel 14 of the rotary casting device 12, a plurality of casting grooves 14 having different sizes of the concave groove 15 are prepared, and these are provided alternately so that the width of the metal strip 19 can be increased. And the thickness may be changed.

Reference numeral 20 denotes a straightening device (pull and leveler) provided on the side of the rotary casting device 12, and the rotary casting device 1
A curved metal strip 19 immediately after being cast by 2.
Straight plate. 21 is a pair of upper and lower pinch rollers,
Reference numeral 22 is a plurality of straightening rollers arranged in a zigzag pattern, and 23 is a guide roller.

A cutting device 24 cuts the metal strip 19 straightened by the straightening device 20 into a standard size of an ingot for galvanizing. Figure 3 shows ingot 2 for galvanizing
5 shows, short piece about 10 cm, long piece about 100 cm
Then, a chevron portion 26 is formed at one end in the longitudinal direction.
A hook hole 27 is formed in the central portion of 6. The cutting device 24 has a press blade 28 matched to the shape of the galvanizing ingot 25. While the press blade 28 is reciprocated by the cylinder 33 in synchronism with the traveling speed of the metal strip 19, The straightened metal strip 19 is punched with a press blade 28 and cut into a standard product size having a chevron portion 26 and a hook hole 27.

On the side of the cutting device 24, a finishing cutting device 30 for removing burrs 29 on the cut surface of the metal strip 19 cut by the cutting device 24 is provided. The cutting device 24 and the finishing cutting device 30 are connected by a fast-forward conveyor 31. A roller conveyor 32 is provided on the take-out side of the finishing cutting device 30, and a collecting device such as a stacking device is attached to the roller conveyor 32 as desired.

[0010]

[Action]

(Description of Overall Operation) The present invention has the above-described configuration. When the molten metal 3 prepared for the galvanizing ingot 25 is prepared in the holding furnace 1 and is pumped up by the pump device 4, the supporting shaft 7 is driven by the motor. Is supplied to the casting trough 2 which moves up and down like a seesaw, and tapping water is supplied from the supply port 8 according to the movement of the casting trough 2, and is supplied to the hot water supply amount control unit 11. Although not shown, if a discharge pipe is connected to the supply port 8 and the tip of the discharge pipe is exposed to the molten metal 3 accumulated in the hot water supply amount control unit 11, generation of residue is suppressed. it can. The molten metal 3 supplied to the hot water supply amount control unit 11 is supplied and supplied into a mold formed by a casting wheel 14 rotating at a low speed by a horizontal rotating shaft 16 and a metal endless belt 17 pressure-bonded thereto. The molten metal 3 is gradually cooled and solidified by a cooling device and cast as a metal strip 19.

Immediately after being cast by the casting wheel 14, the metal strip 19 is sent out in a curved state, guided by the guide roller 23 to the straightening device 20, and taken up by the pair of upper and lower pinch rollers 21 to stagger. The straightening roller 22 is straightened by a plurality of straightening rollers 22. The straight strip-shaped metal strip 19 is sent to the cutting device 24 and punched by the press blade 28 that reciprocates by the cylinder 33 in accordance with the transport direction of the metal strip 19. The cutting shape at this time is a shape that matches the galvanizing ingot 25 shown in FIG. 3, and has a chevron portion 26 formed at one end in the longitudinal direction and a hook hole 27 formed in the central portion of the chevron portion 26. The short piece is about 10 cm and the long piece is about 100 cm. The metal strip 19 cut in this way is fast-forwarded to the finishing cutting device 30 by the fast-forwarding conveyor 31, where the burr 2 of four laps is cut.
9 is removed to complete a galvanizing ingot 25. The galvanizing ingot 25 is a roller conveyor 3
It is taken out via 2 and collected by a collecting device such as a stacking device. The galvanized ingot 25 thus manufactured is shipped to a galvanizing factory and used for plating.

(Operation unique to the present invention) According to the present invention, when the metal strip 19 is cut by the cutting device 24, one end thereof is
Since it is cut into the chevron portion 26, and a hook hole 27 for suspension is formed in the center of the chevron portion 26, a metal fitting is passed through the hook hole 27, and the ingot 25 is placed in the galvanizing tank to the immediate vicinity of the hook hole 27. If you use it by hanging it so that it is soaked and dissolving all the soaked parts, the rest is small because it is a mountain shape,
The profits and losses of galvanizing companies are very small. Further, when an ingot 25 having a different size is ordered, the casting wheel 14 of the rotary casting device 12 may be replaced, and the concave groove 15 may be cast in accordance with the size of the ordered size.

[0013]

The known continuous casting cutting plant apparatus has the following features:
There were two challenges. The first is from the galvanizing company,
It is a complaint that the remaining amount of ingot is large and wasteful. This means that the zinc plating ingot can be used only by hanging it down in the sulfuric acid solution of the plating tank, but the part above the hook hole for hanging can not be used, so it will be discarded. .. However, it is a complaint that it is wasteful and the profit and loss are large when thrown away. Of course, it may be collected and reused, but it is difficult to handle because it is heavy, and there is not much benefit to reuse considering transportation costs and the like. The second problem is that when a galvanizing company places an order with an ingot company for ingots of different sizes, the known continuous casting cutting plant apparatus cannot handle this.

However, according to the present invention, the holding furnace 1 for the molten metal 3 of the zinc compound alloy, the pump device 4 for pumping the molten metal 3 in the holding furnace 1, and the molten metal 3 pumped by the pump device 4 are transferred. It is composed of a casting trough 2, a casting wheel 14 having a groove 15 formed on the outer periphery to which the molten metal 3 is supplied from the casting trough 2, and a metal endless belt 17 which is pressed against a part of the outer periphery to form a mold. The rotary casting device 12, the straightening device 20 that straightens the curved metal strip 19 cast by the rotary casting device 12, and the metal strip 19 that has passed through the straightening device 20 to a constant length. A continuous casting cutting plant apparatus comprising a cutting device 24 for cutting to obtain a zinc ingot original form and a finishing cutting device 30 for removing a burr 29 around the zinc ingot original form to form a zinc plating ingot 25. When the metal strip 19 is cut into a certain length, one end side in the longitudinal direction is cut into a mountain shape to form a mountain shape portion 26 and a hook hole 27 is formed in the center of the mountain shape portion 26. Because of the above device,
If the ingot 25 is hung in the galvanizing tank by passing the metal fitting through the hook hole 27 and the ingot 25 is used as much as possible, only a very small amount remains, so the profit and loss of the galvanizing company is very small. Further, in the above, since the rotary casting device 12 is a continuous casting cutting plant device in which a plurality of different sizes are arranged to be replaceable, when an ingot 25 having a different size is ordered, By changing the casting wheel 14 of the rotary casting device 12 and matching the concave groove 15 with the size of the order size, it is possible to meet orders of various sizes.

[Brief description of drawings]

FIG. 1 is a front process diagram of a continuous casting cutting plant apparatus according to the present invention.

FIG. 2 is a post-process diagram of a continuous casting cutting plant apparatus according to the present invention

FIG. 3 is a partially omitted plan view of a galvanizing ingot.

[Explanation of symbols]

1 ... Holding furnace, 2 ... Cast gutter, 3 ... Molten metal, 4 ... Pump device,
5 ... Suction port, 6 ... Discharge port, 7 ... Support shaft, 8 ... Supply port, 9
... Return port, 10 ... Partition plate for removing residue, 11 ... Hot water supply amount control unit,
12 ... Rotary casting device, 13 ... Tundish, 14 ... Casting wheel, 15 ... Concave groove, 16 ... Horizontal rotating shaft, 17 ... Metal endless belt, 18 ... Guide roller, 19 ... Metal strip, 20 ... Correcting device, 21 … Pinch rollers, 22… Straightening rollers, 23
... guide roller, 24 ... cutting device, 25 ... galvanizing ingot, 26 ... chevron portion, 27 ... hook hole, 28 ... press blade, 29 ... burr, 30 ... finishing cutting device, 31 ... fast-forwarding conveyor, 32 ... roller conveyor , 33 ... Cylinder.

Claims (2)

[Claims] 1. A holding furnace 1 for a molten metal 3 of a zinc alloy, a pump device 4 for pumping the molten metal 3 in the holding furnace 1, and a casting trough 2 for transferring the molten metal 3 pumped by the pump device 4. When,
A rotary casting device 12 comprising a casting wheel 14 having a groove 15 formed in the outer periphery thereof, which is supplied with the molten metal 3 from the casting trough 2, and a metal endless belt 17 which is pressure-bonded to a part of the outer periphery thereof to form a mold. A straightening device 20 for straightening a curved metal strip 19 cast by the rotary casting device 12.
And a cutting device 24 that cuts the metal strip 19 that has passed through the straightening device 20 into a predetermined length to obtain a zinc ingot original form,
In a continuous casting cutting plant device comprising a finishing cutting device 30 for removing a burr 29 around the original shape of the zinc ingot to obtain an ingot 25 for galvanizing, the cutting device 24 cuts the metal strip 19 into a certain length. When cutting, one end side in the longitudinal direction is cut into a chevron shape to form a chevron portion 26, and a hook hole 27 is formed in the center of the chevron portion 26. 2. The rotary casting device 1 according to claim 1.
2 is a continuous casting cutting plant device in which a plurality of units having different dimensions are arranged so that they can be freely replaced.