JPH0129624B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a sliding nozzle device for a container for molten metal.

Conventionally, a sliding nozzle device for a container for molten metal, such as a tundish or a ladle, has been constructed as shown in FIG.

In FIG. 1, 1 is an upper fixed nozzle provided on the bottom wall 2 of the molten metal container, and 3 is an upper fixed nozzle 1 fixed to the lower part of the upper fixed nozzle 1.
5 is a sliding plate slidably attached to the lower part of the fixing plate 3 and has an opening 6 that matches the opening 4 of the fixing plate 3; 7 is a sliding plate 5; This is a lower sliding nozzle fixed to the lower part of the opening 6 of.

A gas blowing ring 8 made of porous refractory is fixed to the inner circumference of the opening 4 of the fixing plate 3, and an inert gas such as argon (Ar) gas is supplied from the gas blowing ring 8 to the upper part. By blowing into the fixed nozzle 1, when the upper fixed nozzle 1 is closed by the sliding plate 5, the upper fixed nozzle 1 is prevented from being blocked by solidification of the molten steel in the upper fixed nozzle 1. Ta.

However, since the gas injection ring 8 is made of porous refractory material, it has low erosion resistance.
This caused a decrease in the life of the fixed plate 3. Also,
Porous refractories tend to vary in the amount of ventilation, so the flow rate of the inert gas blown into the refractory becomes unstable, and there is a risk that the upper fixed nozzle 1 may be clogged.

This invention was made to solve the above problems, and includes: an upper fixed nozzle provided on the bottom wall of a molten metal container; and an upper fixed nozzle fixed to a lower part of the upper fixed nozzle. a fixing plate having an opening that matches the fixed plate; and a fixing plate slidably attached to the lower part of the fixing plate.
A sliding nozzle device comprising: a sliding plate having an opening that matches the opening of the fixed plate; and a lower sliding nozzle fixed to the lower part of the opening of the sliding plate, A part of the lower end is cut out, and within this cutout, a groove is formed along the circumference at the upper or lower corner, and multiple grooves are formed radially on the upper or lower surface. A gas blowing ring made of a highly refractory material is fitted into the fixed plate. The gas blowing ring is characterized in that gas is blown into the upper fixed nozzle through a plurality of grooves formed on the upper surface or the lower surface of the gas blowing ring.

The present invention will be described by way of examples with reference to the drawings.

FIG. 2 is a sectional view showing one embodiment of the sliding nozzle device of the present invention.

In Figure 2, the same numbers as in Figure 1 are
The same thing is shown and the explanation is omitted. The difference from the conventional sliding nozzle device shown in Fig. 1 is that the fixed plate 3'
It is in the structure of That is, in the fixed plate 3' of the sliding nozzle device of the present invention, the lower end of the opening 4' is partially cut out, and a gas injection ring made of a refractory material with excellent erosion resistance is inserted into the cutout. 8' fitted together.

A groove 9 with a substantially circular cross section is formed along the circumferential direction in the upper corner of the gas blowing ring 8', and a plurality of grooves 10 with a semicircular cross section are formed radially on the upper surface. The book is formed.

The inert gas introduced into the groove 9 from the outside of the fixed plate 3' is blown into the upper fixed nozzle 1 from the groove 9 through the groove 10, solidifying the molten steel in the upper fixed nozzle 1. To prevent.

The diameter of the groove 10 is preferably 0.1 to 1.0 mmφ.

The above-mentioned inert gas is mainly blown into the upper fixed nozzle 1 through the groove 10, but in addition to this, the inert gas is also blown into the upper fixed nozzle 1 formed at the joint 11 between the upper surface of the gas blowing ring 8' and the fixed plate 3'. The air is blown into the upper fixed nozzle 1 even through the slightest gap.

According to this invention, a gas injection ring with excellent erosion resistance is used in place of the conventional gas injection ring made of porous refractories, so the service life of the fixing plate is greatly extended. Inert gas is supplied through the groove formed on the top surface of the blow ring and the small gap formed at the joint between the top surface of the gas blow ring and the fixing plate, so the inert gas is stably fixed to the top. Various useful effects can be achieved, such as being able to blow into a nozzle.

[Brief explanation of drawings]

FIG. 1 is a sectional view of a conventional sliding nozzle device for a container for molten metal, and FIG. 2 is a sectional view of a sliding nozzle device of the present invention. In the drawings, 1... upper fixed nozzle, 2... bottom wall of the molten metal container, 3, 3'... fixed plate, 4, 4'... opening,
5... Sliding plate, 6... Opening, 7... Lower sliding nozzle, 8, 8'... Gas blowing ring, 9... Groove,
10...Groove, 11...Joint part.

Claims (1)

[Scope of Claims] 1. An upper fixed nozzle provided on the bottom wall of the molten metal container; a fixed plate fixed to the lower part of the upper fixed nozzle and having an opening that matches the upper fixed nozzle; and the fixed plate. Slidingly attached to the bottom of the board,
A sliding nozzle device comprising: a sliding plate having an opening that matches the opening of the fixed plate; and a lower sliding nozzle fixed to the lower part of the opening of the sliding plate; A part of the lower end is cut out, and within this notch, a groove is formed along the circumference in the upper or lower corner, and multiple grooves are formed radially on the upper or lower surface. A gas blowing ring made of a highly refractory material is fitted into the fixed plate. A sliding nozzle device for a molten metal container, characterized in that gas is blown into the upper fixed nozzle from a plurality of grooves formed on the upper surface or lower surface of the gas blowing ring.