JPH0565520A - Arc furnace for steelmaking and steel tapping method therefor - Google Patents

Abstract

PURPOSE:To provide structure for tapping molten steel under condition of remaining slag in a furnace and steel tapping method. CONSTITUTION:In an arc furnace for steel making, a steel tapping hole 30 is positioned so as to dip with the molten steel at the time of tilting the furnace body at 15-40 deg. angle and horizontally become the same level as the deepest part of molten steel at the time of tilting at 35-40 deg. angle. A refractory-made steel. tapping tube 28 is inclined at 25-30 deg. angle to sill level (S.L.) of the furnace. In the steel tapping, the tapping to half of the whole steel tapping quantity is executed at <=20 deg. inclining angle and the tapping of the remained half is executed in the range of 35-40 deg. inclining angle, and when the molten steel remained in the furnace becomes 10-20%, the furnace body is quickly returned back to the horizontal-position.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a steelmaking arc furnace provided with a tea spout type tapping gutter, and a tapping method thereof.

[0002]

2. Description of the Related Art The tapping method of the steelmaking arc furnace is (a)
As shown in FIG. 6, a gutter tapping method in which a ladle receives steel through a tapping gutter 4 attached to a furnace side surface 2, (b) bottom tapping for tapping molten steel from a furnace bottom 6 as shown in FIG. Method, (c) There is a tea spout method in which the installation angle of the tap gutter 8 is large as shown in FIG.

[0003]

In order to prevent the slag from being left inside the furnace and flowing out into the ladle in the tea spout system of (c) above, (1) the position, diameter and angle of the tap hole are properly set. (2) In addition,
The tilting operation of the furnace body when tapping hot water must be properly performed. The present invention aims to provide an appropriate range for these points.

[0004]

An arc furnace for steelmaking and a method for tapping steel according to the present invention for achieving the above object,
It is as follows. In a steelmaking arc furnace equipped with a tea spout type tapping gutter, the tap hole is located at a position where the tap body is immersed in the molten metal in the furnace when the furnace body is tilted by 15-40 degrees. When the furnace body is tilted at 35-40 degrees, it is located in the deepest part of the steel bath, and the tap hole diameter is set in the range of 150-250 mm.
The outlet passage from the inside of the furnace to the gutter is made of refractory tube, and the refractory tube is 2
An arc furnace for steelmaking, characterized by being tilted within a range of 5 to 30 degrees. It is equipped with a tea spout type tap steel gutter, and the tap hole is located at a position where the tap body is immersed in the molten metal in the furnace when the tap body is tilted by 15-40 degrees, and the tap body is It is positioned at the deepest part of the steel bath when tilted at 40 degrees, and the tap hole has a diameter of 150-25.
Setting the range of 0 mm, the flow path of the outlet from the furnace to the gutter is made of refractory tube, the refractory tube was inclined in the range of 25-30 degrees with respect to the sill level of the furnace, In the tapping method in an electric arc furnace for steelmaking, the tilt angle of the furnace body is set to 20 degrees or less before tapping until about half of the total tapping amount, and when tapping the remaining half, the furnace body is tilted rapidly from 20 degrees. , Tapping water in the range of 35-40 degrees,
A method for tapping steel in an arc furnace for steelmaking, characterized in that when the molten metal remaining in the furnace reaches 10-20%, the furnace body is quickly returned to a horizontal position.

[0005]

When the steelmaking arc furnace having the above-mentioned construction is used to carry out steelmaking by the above-mentioned steelmaking method, only molten steel can be taken out into the ladle while leaving the slag in the furnace, and the furnace body It does not damage the cooling panel, etc.

[0006]

1 to 2 show an arc furnace for steelmaking according to an embodiment of the present invention, and FIGS. 3 to 5 show a steel output method using the arc furnace for steelmaking.

1 and 2, an arc furnace 10 includes a furnace bottom 12, a furnace side wall, and a furnace side wall lower portion 1 having a structure similar to that of the furnace bottom.
4, a furnace side wall upper part 16 composed of a water-cooled panel on the furnace side wall, and a tapping gutter 18 attached to the furnace side wall lower part 14.

The furnace bottom 12 of the arc furnace 10 is an iron plate furnace shell 2
0, a furnace bottom 22 constructed of refractory bricks inside the furnace shell 20, and a hearth 24 constructed by stamping refractory material on the furnace bottom 22.

The side wall of the arc furnace 10 is a lower part 1 of the side wall of the furnace below 200-400 mm below the molten metal surface (steel bath sill level).
4 has the same structure as the bottom of the furnace, and the upper part 16 of the side wall of the furnace above the bottom has a structure in which the water cooling panel 26 is supported by the furnace shell 20.

The tapping gutter 18 is provided so as to communicate with the inside of the furnace at the lower portion 14 of the side wall of the furnace. The tapped steel gutter 18 is communicated with the inside of the furnace by a tapped steel tube 28 made of a refractory which is provided so as to penetrate the lower portion 14 of the furnace side wall.

The position of the tap hole 30 (the opening end of the tap hole tube 28 to the inside of the furnace) is set to 15-4
It is positioned so as to be immersed in the molten metal in the furnace when tilted at 0 degrees, and positioned at the deepest part of the steel bath when the furnace body is tilted at 35-40 degrees.

The reason why the numerical value of 15-40 degrees is taken is that the tapping is started at a furnace body inclination of about 15 degrees and about 4 at the final stage of tapping.
This is because the furnace body is tilted at 0 degrees, so that the tap hole 30 is in the molten steel from the beginning to the end of tapping, and the tap hole 30 is not exposed to the slag on the upper surface. For example,
If the tap hole 30 is provided at a position where the molten steel surface comes before the furnace body is tilted 15 degrees, the slag on the surface will flow out into the ladle in the early stage of tapping, so that such a situation is avoided.

The reason for the numerical value of 35-40 degrees is that the furnace body is tilted to an angle within this angle range at the final stage of tapping, so that the tap hole is still at the deepest part of the steel bath. This is to prevent the slag from flowing into the ladle.

The tap hole has a diameter of 150-250 mm.
Has been selected. The reason is that if the diameter is smaller than 150 mm, it takes too long for the molten metal to flow out,
On the other hand, if it is larger than 250 mm, the molten metal may flow too fast and the slag may be caught.

The tap hole tube 28 from the inside of the furnace to the tapping gutter 18 is made of a refractory tube, the angle of which is 25 with respect to the sill level of the furnace and thus with respect to the horizontal plane.
It is selected in the range of -30 degrees. The reason is that the slag does not flow out when tapping hot water. That is, the tap hole tube 28 is set to 25 with respect to the sill level of the furnace.
If the furnace body is tilted at an angle of -30 degrees even when the furnace body is tilted at an angle of 15-20 degrees at the beginning of tapping, the tap hole 30 is still located in the steel bath below the slag, and the outflow of slag at the beginning of tapping can be prevented.

Next, the steel tapping method of the present invention which is carried out by using the above apparatus (thus also the function of the above apparatus of the present invention) will be described with reference to FIGS. To tap steel, tilt the furnace body at 15 degrees or more. FIG. 3 shows a state in which the furnace body is tilted by 10 degrees, and the molten metal does not flow out when the tilt angle is 10 degrees.

In order to tap steel, first, as shown in FIG. 4, the furnace body is tilted at 15 to 20 degrees, and tapping is performed at 20 degrees or less to about half of the total tapping amount. If the tilt angle is 20 degrees or less, the slag does not flow out, so it is sufficient to tilt slowly. If the water cooling panel 26 is tilted by 20 degrees or more in the initial stage of tapping, tilting by 20 degrees or more is not allowed.

Next, when tapping the steel plate, as shown in FIG. 5, the furnace body is rapidly tilted from 20 ° to 35-40.
Hot water is discharged within the range of degrees. During this time, the tilting may be gradually increased from 20 degrees continuously, but if the tilting is delayed, the slag will flow out.
It is desirable to set it to 40 degrees. Further, even if the steel is tapped at an angle of 35-40 degrees, the slag does not flow out until the steel bath is fully discharged and only the slag remains in the furnace because the steel tap is at the deepest part.

When the molten metal remaining in the furnace reaches 10-20%, the furnace body is quickly returned to the horizontal position, and the flow is stopped while leaving 10-20% of the molten metal in the furnace. by this,
The entire amount of slag remains in the furnace, and the slag does not flow out into the ladle together with the molten steel.

In the above description, the steelmaking arc furnace has been described as an example, but the present invention is not limited to the steelmaking arc furnace and can be applied to the entire metal melting furnace transportation, and the steelmaking arc furnace of the present invention. Metal melting furnace shall be included in the concept of.

[0021]

According to the present invention, the following effects are obtained. (B) It is possible to leave the slag in the furnace and prevent it from flowing out to the ladle. (B) For that purpose, it was possible to provide an appropriate range of the structure in the vicinity of the tapping gutter of the steelmaking arc furnace and an appropriate specification of the tapping method. (C) Prevent the outflow of slag, improve the efficiency of secondary refining in the post process, and further improve the quality of steel products. (D) It is possible to change the existing gutter steel type arc furnace to a tee spout type furnace without major equipment modification.

[Brief description of drawings]

FIG. 1 is a sectional view of a portion in the vicinity of a tap hole of a steelmaking arc furnace according to an embodiment of the present invention.

FIG. 2 is a front view seen from the inside of the furnace in the vicinity of the tap hole in FIG.

FIG. 3 is a cross-sectional view of a furnace body and a molten metal having a furnace body tilting angle of 10 degrees in a steel output method for a steelmaking arc furnace according to an embodiment of the present invention.

FIG. 4 is a sectional view of a furnace body and a molten metal having a furnace body tilting angle of 20 degrees.

FIG. 5 is a sectional view of a furnace body and a molten metal having a furnace body tilting angle of 40 degrees.

FIG. 6 is a cross-sectional view of a conventional steelmaking arc arc furnace for steelmaking.

FIG. 7 is a cross-sectional view of a conventional bottom tapping-type steelmaking arc furnace.

FIG. 8 is a cross-sectional view of a conventional tea spout type arc furnace for steelmaking.

[Explanation of symbols]

 10 arc furnace 12 furnace bottom 14 furnace side wall lower part 16 furnace side wall upper part 18 steel tap gutter 20 furnace shell 26 water cooling panel 28 tap steel port tube 30 tap tap

Claims (2)

[Claims] 1. In a steelmaking arc furnace equipped with a tea spout type tapping gutter, the tap hole is immersed in the molten metal inside the furnace when the tapping is performed by tilting the furnace body at 15-40 degrees. The position of the tap is set to the deepest part of the steel bath when the furnace body is tilted 35-40 degrees, and the tap hole diameter is set in the range of 150-250 mm to reach the gutter from the furnace. The flow path of the tap hole is composed of a refractory tube, and the refractory tube is 2
An arc furnace for steelmaking, wherein the arc furnace is inclined in a range of 5 to 30 degrees. 2. A tea spout type tapping gutter is provided, and a tap hole is located at a position where the tap body is immersed in the molten metal in the furnace when the furnace body is tilted by 15 to 40 degrees. When the furnace body was tilted 35-40 degrees, it was positioned at the deepest part of the steel bath, and the tap hole diameter was set in the range of 150-250 mm, and the flow path of the tap hole from the furnace to the gutter was set. Made of refractory tubing, the refractory tubing being 2
In the tapping method in a steelmaking arc furnace tilted in the range of 5 to 30 degrees, tapping is performed with the tilt angle of the furnace body set to 20 degrees or less until about half of the total tapping amount, and when tapping the remaining half, The furnace body is quickly tilted from 20 degrees, tapping is performed in the range of 35-40 degrees, and when the remaining molten metal in the furnace reaches 10-20%, the furnace body is quickly returned to the horizontal position. A method of tapping a steel arc furnace.