KR880001796Y1 - Nozzle of casting laddle - Google Patents

Abstract

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Description

Sliding nozzle

1 is a longitudinal cross-sectional view of an embodiment of the present invention.

2 is a perspective view showing an opening and closing door.

3 is a top view of the base embodiment.

4 is a side view thereof.

5 is a plan view of an embodiment of foreign exchange and support brackets.

6 is its A-A cross section.

7 is a plan view of an embodiment with a stationary edge.

8 is a sectional view taken along line B-B.

* Explanation of symbols for main parts of the drawings

2: base 22: hole into which the upper nozzle is charged

23: protrusion 3: foreign currency

4: Supporting brackets 41 and 41a: Holes for fitting the bump with the fixing plate edge

42: end portion 5: fixed plate edge

51, 51a: nozzle hole 52, 52a: sudden

6: opening and closing door (扉) 61: frame

63: turning wheel 66: sliding plate

67,67a: nozzle hole

The present invention relates to a sliding nozzle device mounted on the bottom of a molten steel ladle, such as a ladle and a tundish, to adjust the injection amount of the molten steel. Iii) to stabilizers.

Sliding nozzle devices are generally mounted on a base fixed to the bottom of a molten steel ladle, and a stationary plate edge with a nozzle hole, and a supporting bracket for mounting the stationary plate edge on the base to be in close contact with the upper nozzle of the bottom of the molten steel ladle, Sliding plate edges with nozzle holes in close contact with the above-mentioned fixed plate edges, supporters supporting them, collector nozzles connected to the nozzle holes of the sliding plate edges, and driving mechanisms for sliding the sliding edges against the fixed plate edges. There is a reciprocating sliding method for forming and sliding the sliding edge to the left and right to adjust the opening degree of the nozzle hole, and a rotary nozzle method for adjusting the opening degree of the nozzle hole as the sliding edge rotates.

Such a sliding nozzle device generally has one circular nozzle hole with a fixed platen, and a sudden concentric shape is provided on the upper surface thereof, and both sides are cut off to form a platelet shape. have.

The stationary plate is inserted into the base bracket so that it cannot be rotated relative to the base plate, and the nozzle hole is joined to the lower part of the upper nozzle protruding from the molten steel ladle.

On the other hand, the lower surface of the stationary plate is in close contact with the sliding plate by the spring and adjusts the opening of the nozzle hole by sliding the sliding plate to the left or right.

In recent years, it has been proposed to extend the use time of expensive fixed plate edges by providing two nozzle holes symmetrically with the fixed plate edges and rotating the fixed plate edges to replace the nozzle holes on both sides. .

However, in the conventional sliding nozzle apparatus, the supporting bracket has only an end portion fitted with the fixed plate edge on the inner circumference thereof, the bottom of which is open, and the objection is provided with a hole for inserting the upper nozzle which is also the base. Therefore, when the stationary plate edge is attached, a gap is formed between the base bottom and the stationary plate edge at the location of the close contact with the upper nozzle.

As the slide plate is closely attached to the stationary plate as described above, the nozzle hole part is backed up by the upper nozzle, but the other part has a way to be avoided called a gap as described above. It may not be in close contact, and the surface pressure becomes unstable, and in some cases, the stationary plate may deform.

For this reason, molten steel penetrates into the sliding surface between the stationary plate and the sliding plate, and damages both edges, thereby shortening the service life.

In particular, when two nozzle holes are provided in the stationary plate, the rigidity of the stationary plate is lowered. This damage is not only significant, but also causes a lot of trouble. there was.

The present invention has been accomplished to solve the problems described above. By providing a projection for the back ape which contacts the upper surface of the fixed plate edge at the symmetrical position of the upper nozzle charging hole of the substrate, the contact surface pressure between the fixed plate edge and the sliding plate edge is improved. It aims to stabilize the entire surface and to prevent the molten steel from entering the sliding surface to extend the sleep with both edges.

The sliding nozzle device according to the present invention has a hole for receiving the lower part of the upper nozzle to achieve the above object, and a base mounted on the bottom of the molten steel ladle via direct or other members and a fixed plate mounted on the base. In the sliding nozzle apparatus, which has a sliding plate edge that is in close contact with the edge and its fixed plate edge, and a mechanism for sliding the sliding edge edge with respect to the fixed edge edge, and adjusts the opening degree of the nozzle hole by sliding the aforementioned sliding plate edge. It is characterized in that the upper nozzle is provided with a projection for back abut in contact with the upper surface of the hole receiving the lower portion and the stationary plate edge that is posted at a substantially symmetrical position.

Next, the present invention will be described with reference to the drawings.

1 is a longitudinal cross-sectional view of the embodiment of the present invention, Figure 2 is a perspective view thereof.

In FIG. 1 and FIG. 2, reference numeral 1 denotes a bottom bar shell 11 of the molten steel ladle, the base of which is fixed by welding or the like.

(2) the base, (3) the foreign currency, (4) the support bracket accommodated to rotate within the foreign exchange 31 via a plurality of steel balls (31), (5) the nozzle hole (51) A fixed plate edge having a) 51a, and 12 is an upper nozzle which protrudes from the molten steel ladle and engages with the nozzle hole 51.

(6) in the rotor (63), the rotor (63), which has a frame (61) and a gear (64) as opening and closing, and is arranged to rotate on the movable member (62) via a plurality of steel balls (65). A sliding plate 66 having two nozzle holes 67 and 67a disposed therein, a plurality of springs 68 for pressing the rotor 63, collector nozzles 69 and 69a, and the like.

Next, the base (2), foreign exchange (3), support bracket (4), and fixed fence (5) will be described in detail with reference to FIGS.

The base 2 has a device portion 21 of a circular support 3 as shown in FIGS. 3 and 4, in which the upper nozzle 12 is inserted. 22 is provided with a back abutment 23 for the back ape of the stationary plate edge 5 provided at a symmetrical position with the hole 22, and this protrusion 23 is formed of the nozzle holes 51 and 51a of the stationary plate edge 5. It fits in the ruptures 52 and 52a concentrically provided on the outer periphery, and is formed at the height which abuts on the upper surface of the stationary plate 5 when the stationary plate 5 is placed at a predetermined position.

(24) and (24a) are brackets for mounting the arms (32) and (32a) of the foreign exchange (3), and (25) and (25a) are the arms (70) provided in the frame (61) of the opening and closing door (6). The bracket, 26, which is mounted so that 70a can rotate, is a notch hole for fitting and fixing with an embedding bolt provided in the base 11.

The supporting bracket 4 is a plate for mounting the holes 41, 41a and the stationary plate 5 into which the bumps 52, 52a provided on the outside of the nozzle holes 51, 51a of the stationary plate 5 are inserted. And the stationary plate edges 5 were formed in platelets with both sides cut off, and the nozzle holes 51, 51a on the upper surface of the two nozzle holes 51, 51a provided at symmetrical positions. And the condensation (52) (52a) which concentrically provided.

Since the present invention is constructed as described above, when the stationary plate edge 5 and the door 6 are closed and locked with the lock mechanism 26 and 26a, the sliding surface of the sliding plate 66 is pressed by a spring 68 and the stationary plate edge is It comes in close contact with the sliding surface of (5).

At this time, one nozzle hole (e.g. 51) of the fixing plate 5 and the other nozzle hole (e.g. 51) is the upper nozzle 12 and the other nozzle hole (e.g. 51a) is the base ( Each of the protrusions 23 provided in 2) abuts on the back so that the sliding surface is uniformly in contact with the entire surface, and there is no fear of gaps or deformation.

In addition, when replacing the nozzle holes 51 and 51a, the opening and closing door 6 is opened, and then, the foreign currency 3 including the support bracket 4 and the fixing plate edge 5 is rotated to open and the support bracket 4 May be rotated 180 °.

In the above embodiment, the present invention is implemented in a rotary nozzle that rotates the sliding plate edge to adjust the opening degree of the nozzle hole. However, the sliding plate edge slides directly to the left and right to adjust the opening degree of the nozzle hole. This invention can be implemented.

Moreover, although the fixed plate edge which has two nozzle holes is shown, one nozzle hole may be sufficient.

Furthermore, the shape, structure, etc. of each part are not limited to the above-mentioned embodiment, of course, It can be said that it can change suitably in the range which does not deviate from the summary of this invention.

As described above, according to the present invention, the sliding surface between the fixed plate edge and the sliding plate edge of the sliding nozzle device can be brought into close contact with stable surface pressure over the entire surface.

As a result, molten steel can prevent penetration and deformation with the stationary edge, thereby significantly extending the life of the expensive stationary edge and the sliding edge.

Claims (1)

A base (2) mounted on the bottom (1) of the molten steel ladle having a hole for receiving a lower part of the upper nozzle and directly or through another member, and a stationary plate (5) mounted on the base (2), and A sliding plate edge 66 in close contact with the fixed plate edge 5 and a mechanism for sliding the sliding edge 66 with respect to the fixed plate edge 5 are provided so as to slide the sliding edge 66 with the nozzle hole ( In the sliding nozzle apparatus for adjusting the opening degree of the 51 and 51a, the protrusion 23 which abuts against the upper surface of the fixing plate edge 5 at a position substantially symmetrical with the hole receiving the lower part of the upper nozzle 12 of the base 2. Sliding nozzle device characterized in that provided.