AU652916B2

AU652916B2 - Gas blowing plate brick/insert nozzle brick for sliding gate shut off

Info

Publication number: AU652916B2
Application number: AU37468/89A
Authority: AU
Inventors: Mototsugu Osada; Takashi Otsuka; Yoshifumi Shigeta; Tadao Taniguchi; Kenji Yamamoto
Original assignee: Shinagawa Refractories Co Ltd
Current assignee: Shinagawa Refractories Co Ltd
Priority date: 1989-06-01
Filing date: 1989-06-01
Publication date: 1994-09-15
Anticipated expiration: 2009-06-01
Also published as: KR960005885B1; DE68927834D1; EP0563376A4; WO1990014908A1; AU3746889A; EP0563376A1; BR8907894A; EP0563376B1; DE68927834T2

Description

pTOPI DATE 07/01/91 AOJP DATE 21/02/91 APPLN. I D 37468 89 PCT NUMBER PCT/JP89/00551 (51) p3ff 4 B22D 37/00, 41/08, 11/10 I I) ImP ,af (43) [NA WO 90/14908 199O* 12)1138 (13.12. 1990) (2 )RMO#3-P OT/J PB9/00 55 1 (22) RM.WNIB 1989*6,91EI(O. 06. 89) (SH-INAGAWA REFRACTORIES CO., LTD.) CJP/JP) 9:100 3l 1W Z8~1-Tokyo, (JP) (72) 3h): Pk tJ9-1-(OTSUKA, Takashi)(JP/JP) 9:703 RUPAW%WiE69-3 Okayama, (JP) LtPjR_(Z(YAM,1OTO, Keni i)(JP/JF) T:705 PUWVl~1YJ1fP%1935-1 Okayama, (JP) A*f~i(OSADA, iMo oiosugu) JP/JPI 9:705 fqW9AVi$V1 20 Okayama, (JP) V~-QtA(TANIGUCHI, Tadao)CJP/JPI T:705 RLUVIMMP1. 57-2 Okayama, UPi) A_~AZSIEA Yosh i umi )CJP/JP T:705 ~wRU*An1fi$tJ390 Okayama, (JP) (74) f~lfl)A 09!1± A~frC #'KYAGITA, Shige ru e t at Tokyo, UP) (81 492 AU, BE0fl~i4#q), BR,DE tIf5 FR k) 0 B (1MjIV), I T KF6, US.

652916 (54)Title: GAS BLOWING PLATE BRICK OR NOZZLE BRICK FOR MOLTEN METAL

A

(a (b) (57) Abstract This invention -relates to a gas blowing plate brick or nozzle brick for a molten rn-,-tal ejector, characterized in that the plate Ibrick or nozzle brick is divided into at least two segments in the horizontal direction with a plurality of small-diameter pipes arranged fixedly in a sealed state in the dividing surfaces. Each brick is capable of preventing the leakage of a gas blown into the above-mentioned kind of apparatus, and carrying out a stable casting operation, and renders it unnecessary to carry out troublesome, expensive additional stps, such as a brick cutting step, a brick boring step and a brick connecting step.

SPECIFICATION I INERT GAS INJECTING PLATE BRICK OR INSERT NOZZLE BRICK FOR USE IN A SLIDING GATE VALVE APPARATUS OF MOLTEN METAL TECHNICAL FIELD This invention relates to an inert gas injecting plate brick or insert nozzle brick for use in a sliding gate valve apparatus (or discharge regulator) of molten metal.

BACKGROUND TECHNIQUE In a continuous casting installation, the molten metal received at a ladle is poured into a mold through a tundish. At such a time, a certain amount of molten metal is kept stored within the tundish before starting the pouring of the molten metal into the mold at the beginning of casting, and after the flowing-up of impurities a nozzle is opened to start a pouring.

This procedure is called a closed start, and these days this technique has-begun to be introduced.

In the closed starting of a continuous casting tundish various systems have been proposed for injecting an inert gas to prevent the molten metal from solidification within the nozzle while storing the molten metal in the tundish by closing the nozzle hole of a sliding

I

T:r~ 2 porous refractory, and a system (shown in Fig. 8 Patent Kokai No. 177952/85) in5 uhich a gas injecting ring is arranged, said ring having a plurality of small radial orifices provided toward the slide plate side from a groove formed along the outer periphery within the opening of a bottom plate brick to the center of the opening.

Said known systems have the following drawbacks: a) The gas guiding pipe (made of copper or steel) is connected and sealed with the gas feeding holes (made of brick bored with fine orifices) by means of sealing material, mortar or soldering, and in the high temperature condition the gas sometimes leaks (shown with x marks in Fig. 8) from the joints so as not to be injected into the nozzle opening.

Further, practically the gas amount injected into the nozzle opening becomes irregular so that stable casting is often not operated whereby the products and quality are not uniform.

b) The making process requires additional working such as a cutting processing of brick, a boring processing of brick, and a jointing working of the gas guiding pipe and the gas injecting brick thereby to demand high cost.

DISCLOSURE OF THE INVENTION 3 The inventors of this invention have made extensive studies and researches to solve the various problems innate in the known systems, and as the result, they have been successful in developing a novel inert gas injecting plate brick or insert nozzle brick for use in a sliding gate valve apparatus of molten metal, which brick is of quite different idea from the known systems.

The present invention is technically constituted such that a plate brick or insert nozzle brick for use in an apparatus of discharging molten metal is split into at least two parts horizontally,, said split surfaces are provided with a number of small diameter pipes in the sealed state, and said pipes are secured to said split surface, and said small diameter pipes are communicated with a gas passing portion. By means of such technical constitution it is possible to achieve the undermentioned functionand effect.

a) The gas passing route where gas is likely to leak and where the temperature is likely to rise in the vicinity of the nozzle opening, is made in one body without joints so that the gas does not leak out, and therefore, the whole gas as fed is injected into the nozzle opening.

b) After the formation of the plate brick or nozzle brick) by pressing, the additional working such 4 'N C3~- 4 as cutting processing or boring processing is no longer required, so that cost decreases.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 shows one embodiment of the invention, in which the gas guiding pipes are incorporated in the normal direction of and obliquely downward to the nozzle opening of the plate brick, Fig. la is a partly notched plan view; Fig. Ib is a vertical sectional view taken along the A-A line of Fig. la;.

Fig. 2a and Fig. 2b are also a plan view and a vertical sectional view, similar to Fig. 1, which shows a different embodiment of the invention, in which the gas guiding pipes are incorporated in the normal direction of and obliquely downward to the nozzle opening of the plate brick; Fig. 3a and Fig. 3b show an embodiment of the gas guiding pipes (in the case of plurality) which are incorporated in the brick, and Fig. 3b is a sectional view taken along the A-A line of Fig. 3a; Fig. 4a and 4b show an embodiment in which the gas guiding pipes are incorporated in an insert nozzle brick, and Fig. 4a is a vertical sectional view while Fig. 4b is a lateral sectional view taken along the A-A line of Fig. 4a; Af i

L

V~ t~r 5 Fig. 5 is a partly sectional side view showing the respectiv( members in the embodiment of Fig. 1; Fig. 6a and Fig. 6b are views, similar to Fig. 4, of an example of three-split type, where the present invention is applied to the insert nozzle brick; Fig. 7 is a vertical sectional view of an embodiment of three-split type, where the invention is applied to the plate brick; and Fig. 8. is a vertical sectional view of a bottom plate brick for the injection of inert gas of known system.

BEST EMBODIMENT FOR CARRYING OUT OF THE INVENTION The invention will now be described more in detail, by way of embodiment, with reference to the accompanying drawings.

Fig. 1 shows an embodiment in which the present invention is applied to a bottom plate brick. As shown, said plate brick is split into bricks 3 and 4, a number of small dirameter pipes 2 each having a connecting port 1 to the gas source are involved and arranged in the jointing surfaces of said split bricks 3 and 4, and gas injecting openings 5 of said small diameter pipes 2 in group communicate with the melt passing hole.

Fig. 2 is similar in construction to Fig. 1, and it is an embodiment in which the gas injecting x€ I 1 A- -6 dirction of the small diameter pipe 2 is brought close to the normal direction of the outer periphery of the melt passing hole. Fig. 2 is similar to Fig.

1 in other constitution.

Fig. 3a is a plan view showing an assembling mode of the group of said small diameter pipes 2, and Fig. 3b shows a sectional view of the group of said small diameter pipes 2 in the bound state.

Fig. 4 is an embodiment in which the present invention is applied to an insert nozzle brick. In this embodiment, the insert nozzle brick is split into bricks 3 and 4, a group of the small diameter pipes 2 are involved and arranged, similarly to the above, in the split surfaces, and gas injecting openings 5 communicate with the melt passing hole.

Fig. 5 is a sectional view where respective parts in the embodiment of Fig. I are separately shown thereby to exemplify their arranging relationship.

Fig. 6 shows an embodiment in which the insert nozzle brick is split into three parts 3' and and the gas injecting openings 5 are disposed in two rows of upward and horizontal directions in the melt passing hole.

Fig. 7 shows an embodiment in which similarly, the insert nozzle brick is split into three parts

I

7 3' and 4) and the injecting openings 5 are disposed also in two rows up and down.

FUNCTIONS

A plate brick or an insert.nozzle brick which is used in a sliding gate valve apparatus of molten metal is split into two or more parts, several slender stainless or copper pipes are arranged in the split surfaces toward the nozzle opening, and thereafter the split plate bricks or insert nozzle bricks are adhered with mortar or the like.

1) One of the two. split bricks is press formed by providing grooves 10 for embedding the pipes. The brick material is the high alumina or alumina carbonaceous one which is generally used as plate brick or insert nozzle brick. Additionally, in the case of pipes the outside diameter of which is more thin than the mortar joint, it is unnecessary particularly to provide grooves for embedding the pipes.

2) The other of the two split bricks is not provided with the grooves for embedding the pipes, and it consists of a press formed article or a casting material. The material is the same as in 1) above.

3) For making a gas guiding pipe, a copper or stainless pipe of -a4- 0.2 3.00 mm inside diameter is bend worked in advance to meet the shape of the N

"X

L f v^ 8 groove of thebrick. In the case of a plurality of pipes, they are assembled in a single pipe by soldering or the like and a nipple for connection is secured to the tip of said assembled pipe.

4) In the case of a plurality of pipes, the inside diameter, length and securing position of each of the pipes are varied in consideration of the pressure loss caused by the difference of the lengths of the respective pipes, so that the gas may be injected uniformly into the nozzle hole.

In order that the pressure loss of the pipes is decreased, the inside diameter of the pipes is made larger except the gas injecting port portions of the pipe. Further, in case the pipes are two or more, they are combined and connected to a single larger pipe whereby the pressure loss is decreased (see Fig. 3) EFFECTS OF THE INVENTION Since the inert gas fed into the pipes passes through a jointless piping so as to be injected into the nozzle hole, the gas cannot be leaked and it is possible to feed the gas in a certain amount.

In known techniques, for example, a cylindrical brick bored with fine orifices was set to a plate brick and a metallic pipe was connected to the gas ccrl (2: -9 reservoir provided therebetween. However, gas leakage could not be prevented being affected by the heat generated from the molten metal when casting.

Since the plate brick itself does not form a part of the gas passing route it is unnecessary that the brick is machine worked to form a gas passage there. Because of this, the brick as press formed can be used as it is to allow the manufacturing process to be simplified. This leads to a cost lowering.

By varying the size, number, position and angle of the pipes it is possible to easily manufacture- bricks of the constructions suited for closed start and blocking prevention respectively.

e'