JP3497745B2 - Slide valve plate and manufacturing method thereof - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a slide valve plate (hereinafter sometimes simply referred to as "plate"),
In particular, it relates to a reusable slide valve plate and a manufacturing method thereof.

[0002]

2. Description of the Related Art Conventionally, a new plate used for controlling the outflow amount of molten metal in a molten metal container generally has a fixed plate and a sliding plate as main components, which are metal fittings at the lower part of the molten metal container. It is stuck in. A nozzle is fixed to the lower part of the sliding board.

The sliding plate is brought into sliding contact with the fixed plate and moved by hydraulic pressure or the like, whereby the outflow holes provided in the fixed plate and the sliding plate are aligned with each other so that molten steel flows out, and The outflow of molten steel is controlled or stopped by offsetting the outflow holes of the fixed plate and the sliding plate.

Although such a plate is severely damaged by molten steel during use, recently, from the viewpoint of economy, it has been strongly demanded to reuse the plate, and some means for it have already been proposed. FIG. 4 shows a reusable plate. For example, the sliding plate S of the plate after use
Alternatively, a portion of the outflow hole, which is a particularly severely damaged portion of the fixed plate K, is hollowed out by boring to form a through hole 42, and a cylindrical straight ring 43 is fitted and inserted in this portion, and further, a sliding surface of the plate. Is polished to fit within the same smoothness tolerance as the new product, and the cushion plate to be mounted on the non-sliding surface of the plate is the same as the one used at the beginning and is to be reused.

However, according to this means, the through hole 42
There was a risk that the straight ring 43 attached to the would drop out during actual operation. Therefore, in order to improve this, when the sliding plate S is regenerated, the entire molten metal outflow portion of the plate body is hollowed out, and a tubular body having an annular jaw portion is inserted therein and fixed with mortar or the like. There is a plate.

[0006]

However, in any of the above-mentioned conventional plates, the outer shape of the cylindrical body is small in any case, that is, the diameter of the through hole is small. Damage,
Problems such as cracking around the cylindrical body and the through hole and chipping at the edge part have occurred. In addition, since a cylindrical body having an annular jaw is inserted and fixed with mortar etc., there is an advantage that it is possible to prevent the cylindrical body from falling off as in the conventional case, but a damaged annular jaw is If you want to reuse by removing the existing cylinder and inserting a cylinder with a new annular jaw and fixing it with mortar etc., remove the cylinder with the damaged annular jaw. There was a problem that it was difficult. In particular, when trying to remove the joint between the annular jaw and the plate surface, the edge is chipped or the plate surface to which the annular jaw is joined is damaged, and the polishing thickness of the plate surface increases by that amount. However, there is a problem in that it is difficult to polish the sliding surface of the plate so that the sliding surface is within the tolerance of the same smoothness as that of the new product. Further, the increase in the polishing thickness causes a problem that the thickness of the plate itself is reduced and the strength of the plate itself is reduced.

The present invention has been made in view of the above problems, and an object thereof is to cause damage to the joint mortar portion due to sliding of the upper and lower plates,
An object of the present invention is to provide a slide valve plate that does not have a crack in the cylindrical body or around the through-hole or a chip in the edge portion. Further, it is an object of the present invention to provide a slide valve plate in which a damaged sleeve can be easily removed, the plate surface of the plate body is less damaged after the sleeve is removed, and the plate surface can be easily polished when the plate body is reused. It is a thing.

[0008]

The inventors of the present invention investigated the relationship between the sliding of the upper and lower plates and the damage in the joint mortar, and found that the sleeve thickness was made larger than the sliding distance of the upper and lower plates. Then, the above problems can be solved, and the strength of the plate body decreases when the sleeve thickness is increased over the entire sleeve. Therefore, only one end of the sleeve needs to be thickened, that is, a protrusion can be formed at one end of the sleeve. Also, by interposing a release member between the protrusion formed at one end of the sleeve and the stepped portion provided in the through hole (enlarged through hole) of the plate body, the sleeve can be easily punched out. The present invention has been completed and the present invention has been completed. The term "enlarged through hole" as used herein refers to, among the "through holes", a through hole having a size equal to or larger than the size of the dowel portion formed on the used plate, or a size similar to that. Means a through hole. The term "release member" used here means
It is a substance that disappears when heated, and also has oil resistance, water resistance, and
It has the property that water does not penetrate.

That is, the slide valve plate according to the present invention is a melt valve including a slide valve plate body having a through hole in a portion corresponding to the molten metal outflow portion, and a sleeve fitted in the through hole of the plate body. in the slide valve plate for controlling the flow rate of metal, one end of the ground <br/> over blanking is annular projections forming, in the through hole of the flop <br/> rate body of the sleeve The stepped portion is formed by the enlarged portion provided corresponding to the annular protrusion .
The annular protrusion formed at one end of the sleeve is
2-3 times the radius of the outflow hole formed in the sleeve
Has a radius and is formed in the through hole of the plate body
A release member between the step and the annular protrusion of the sleeve.
A slide valve plate characterized by being interposed . It is a "(matters specifying the invention) (claim 1) the gist
It

Further, the method of manufacturing a slide valve plate according to the present invention includes: "a slide valve plate body having an enlarged through hole in which a step portion is formed in a portion corresponding to a molten metal outflow portion, and an enlargement of the plate body. A sleeve with an annular protrusion formed at one end that is attached to the through hole
[However, the annular protrusion is formed on the sleeve.
It has a radius of 2-3 times the radius of the outflow holes, consisting of city, a manufacturing method of a slide valve plate for controlling the flow rate of molten metal, A. With the damaged sliding surface of the used slide valve plate facing down, in the outflow hole portion of the used plate, the size of the dowel portion formed in the used plate around the outflow hole is equal to or larger than the size of the dowel part. B. Obtaining a used slide valve plate body by forming the enlarged through hole of B. Formed corresponding to the annular projection of the sleeve by further enlarging and partially enlarging the enlarged through hole portion on the side opposite to the damaged sliding surface of the used plate body around the enlarged through hole. Forming a stepped portion by the enlarged portion described above, C. A step of attaching a sleeve having an annular projection formed at one end to the enlarged through hole of the used plate body, and joining and integrating with a mortar, C '. At the time of the “joining / integrating step” of C, the use
Step formed in the enlarged through hole of the already plate body
Between the ring and the annular projection of the sleeve
A step of setting a member, D. And a step of polishing a surface of the used plate opposite to the damaged sliding surface on which the sleeve is mounted to form a new sliding surface. (Claim 2 ) is the gist (items specifying the invention) .

Further, the method of manufacturing a slide valve plate according to the present invention includes: "a new slide valve plate body having a through hole having a step portion formed in a portion corresponding to the molten metal outflow portion, and the plate body is attached to the through hole, an annular projection is formed on one end sleeve [however
And the annular protrusion is the outflow formed on the sleeve.
It has a radius of 2-3 times the radius of the hole, a manufacturing method of a slide valve plate for controlling the flow rate of molten metal comprising a city, and the stepped portion of the through hole of the new plate body, annular end The ring-shaped release member is set between the sleeve and the ring-shaped protrusion of the sleeve, and the sleeve is attached to the through hole of the new plate body, and joined and integrated with mortar. A method of manufacturing a slide valve plate, comprising: (Claim 3 ) is the gist (items specifying the invention) .

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION In the present invention, a slide valve plate is provided with a slide valve plate main body having a through hole in which a step portion is formed in a portion corresponding to a molten metal outflow portion, and the slide valve plate is mounted in the through hole of the plate main body. And a sleeve having an annular protrusion, particularly an annular protrusion having a radius of 2 to 3 times the radius of the flow hole, formed at one end.

The present invention will be described in detail below with reference to the drawings. FIG. 1 (a) is a plan view showing an embodiment of a slide valve plate according to the present invention.
1B is a cross-sectional view taken along the line X and X of the plate of FIG.
2 (a) to 2 (f) are cross-sectional views showing an embodiment of a method of manufacturing a slide valve plate according to the present invention in the order of steps. 3 (a) and 3 (b) are cross-sectional views showing the sizes of the radii on the sliding surface side of the slide valve plate according to the present invention and the sleeve mounted on the conventional slide valve plate in comparison.

The slide valve plate according to the present invention comprises:
As shown in FIG. 1, a plate body 11 and a circular or polygonal through hole 12 formed in the plate body 11.
And a sleeve 13 having an annular projection 15 mounted on the. The plate body 11 has a stepped portion 16 formed by an enlarged portion provided corresponding to the annular protrusion 15 of the sleeve 13. The sleeve 13 is formed with an outflow hole 14 for outflowing the molten metal. Plate body 11 and the sleeve
13 and are coupled and integrated with mortar, also releasing member 17 is interposed between the annular projection 15 of the step portion 16 and the sleeve 13 which is formed in the through hole 12 of the plate body 11 Tei Ru.

Around the plate body 11, the plate body 11
A steel strip 18 may be provided to prevent deformation due to cracks in the steel. When the plate body 11 that has been used more than once is used, a cushion having the same thickness as that scraped to form the sliding surface is formed on the surface opposite to the new sliding surface of the plate body 11. It is also possible to provide a board 19 for.

The plate body 11 used in the present invention may be unused or used once or more. When the plate body 11 used once or more is used, the dowel portion may be formed in the molten metal outflow portion or the both surfaces may be flat, but the outflow hole or the through hole provided in the plate body 11 may be used. A through hole or an enlarged through hole that is slightly larger than the outflow hole is formed at the location, and on the opposite side of the sliding surface (damaged sliding surface M) damaged by using it once or more,
The step portion 16 is formed by forming an enlarged portion corresponding to the annular protrusion 15 of the sleeve 13. In the present specification, the "new slide valve plate body" includes not only the unused plate body but also the plate body which has been treated and reusable as described above.

When using the plate body 11 that has been used more than once, the surface opposite to the surface used as the sliding surface is smoothly polished to form a new sliding surface. It is necessary to polish the surface on the side that becomes the new sliding surface so that it is within the same smoothness tolerance as that of the new product.

As the material of the plate body 11, known fire resistant and heat resistant ceramics are used. Examples thereof include alumina, alumina / carbon, alumina / silica, zirconia, zirconia / carbon, alumina / silica / carbon, magnesia, magnesia / carbon, magnesia / chromium.
Further, the plate body may be subjected to tar impregnation treatment, if necessary.

The sleeve 13 having the annular projection 15 used in the present invention is a sleeve having an annular projection 15 formed at one end and an outflow hole 14 for outflowing molten steel at the center. As shown in FIG. 3 (a), the outer diameter R of the annular projection 15 is sufficiently larger than the inner diameter r of the outflow hole 14, and preferably R / r is 2-3. In this way, FIG. 3 (b)
As shown in Fig. 1, the sliding of the upper and lower plates is made by making the ratio sufficiently larger than the ratio R '/ r of the outer diameter R'of the outflow hole 14 and the inner diameter r of the outflow hole 14 of the conventional sleeve. This makes it possible to prevent damage to the joint mortar portion, cracking around the sleeve and the through hole, and chipping of the edge portion.

The cross-sectional shape of the sleeve portion is the plate body 11
The through hole 12 is formed in a circular or polygonal shape corresponding to the cross-sectional shape of the through hole 12. The cross-sectional shape of the annular projection 15 may be the same as or different from the cross-sectional shape of the sleeve portion, but the through hole is formed so that the annular projection 15 enters the step portion 16 of the through hole 12 formed in the plate body 11. 12 steps 16
It is formed in a circular shape or a polygonal shape having the same shape as the cross-sectional shape of. Further, the sleeve 13 having the annular protrusion 15 may be provided with a gas supply hole for supplying gas.

The sleeve 13 having the annular projection 15 may be made of the same material as the material of the plate body 11 or may be made of a different material. , Heat resistant ceramics are used. For example, alumina, alumina / carbon, magnesia, zirconia, alumina / silica, alumina / silica / carbon, zirconia / carbon,
Examples include magnesia / carbon and magnesia / chromium.

The release member 15 used in the present invention is an annular protrusion.
A plate-like body having a shape similar to the cross-sectional shape of the annular projection 15 of the sleeve 13 having the 15 and having a size substantially the same as the size of the step portion 16 formed in the through hole 12 of the plate body 11 and having the through hole 12
A hole having a slightly larger hole is formed, or a hole having a size substantially the same as the step portion 16 formed in the through hole 12 of the plate body 11 and smaller than the through hole 12 is formed. A large number of notches are provided in the outer peripheral direction from the hole, and bending is possible only by the depth of the notches. Examples of the material forming the release member 15 include various synthetic resins such as sulfuric acid paper, polyethylene, nylon, polyvinyl chloride, polyester, epoxy resin and phenol resin, and synthetic rubber. The release member is not limited to being set using a sheet-shaped member, but may be set by applying or spraying a solution of wax, the synthetic resin, or the like.

Next, a method of manufacturing the slide valve plate according to the present invention will be described with reference to FIG. A method of manufacturing a slide valve plate according to the present invention includes: With the damaged sliding surface M of the used slide valve plate facing down, the outflow hole 24 including the dowel part is enlarged and cut to form the enlarged through hole 22 having a diameter larger than the outer diameter of the protruding portion. Step of obtaining slide valve plate body 21 of B. In the portion of the enlarged through hole 22 on the side opposite to the damaged sliding surface M of the used plate body 21, with the enlarged through hole 22 as the center, the diameter is slightly larger than the outer diameter of the annular projection 15 of the sleeve 23. The hole is partially drilled to form a ring-shaped step 26.
And a step of setting the release member to the step portion 26, C. A new sleeve 23 having an annular projection 25 is attached to the enlarged through hole 22 of the plate body 21 and joined by mortar.
Integrating step, D. The step of polishing a surface opposite to the sliding surface (damaged surface M) of the used plate on which the new sleeve 23 is mounted to form a new sliding surface.

Further, another method of manufacturing the slide valve plate according to the present invention is described in A. A new slide valve plate body having a through hole in which a stepped portion is formed in a portion corresponding to the molten metal outflow portion (as a new slide valve plate body, a new plate body with parallel both sides is used also be) obtained by forming a through-hole and the step portion to the body, setting the release member to the step portion, the through hole of the plate body, fitted with a new sleeve having an annular projection, joined with mortar・ The process consists of integration.

[0025]

Next, examples of the present invention will be given together with comparative examples.
The present invention will be specifically described, but the present invention is not limited to the following examples.

(Example 1) Al ₂ O ₃ 85%, C 10%, balance
A new plate body 11 made of ceramics having a composition of SiO ₂ and having a through hole in which a step portion 16 is formed in a portion corresponding to the molten metal outflow portion as shown in FIG. 1 is used. The sulfuric acid paper 17 having a hole slightly larger than the through hole 12 is set in the step portion 16 of the Al ₂ O ₃ 75%, C 10
%, ZrO ₂ 10%, and the balance SiO ₂ , a new sleeve 13 having an annular projection made of ceramics was attached to the through hole 12 and joined and integrated with mortar to obtain a slide valve plate. R / r = 2.2

(Embodiment 2) As shown in FIGS. 2 (a) to 2 (d),
A plate body 21 made of ceramics having a composition of Al ₂ O ₃ 85%, C 10%, and the balance SiO ₂ and having a dowel portion is provided with a damaged sliding surface M
Is turned to the bottom, the outflow hole 24 including the dowel portion is enlarged and cut to form the enlarged through hole 22 having a diameter equal to or larger than the outer diameter of the protruding portion, and the surface opposite to the damaged sliding surface M is enlarged. A ring-shaped step portion 26 is formed by partially enlarging a hole slightly larger than the outer diameter of the annular projection 15 of the sleeve 23 around the through hole 22, and the sulfuric acid paper 17 is set on the step portion 26. Then ZrO ₂
A new sleeve 23 made of ceramics having a composition of 72%, C 18%, SiC 6%, and the balance SiO ₂ and having an annular protrusion was attached, and joined and integrated with mortar to obtain a slide valve plate. R / r = 2.8

(Comparative Example 1) As shown in FIG.
%, C 10%, balance SiO₂Made of ceramics with the composition of
On the plate body 331 whose surfaces are parallel,₂O₃ 75%, C 10%,
ZrO₂ 10%, balance SiO₂ % Of ceramics, ring
Attach a new sleeve 331 with a jaw 335,
A slide valve plate is obtained by joining and integrating with
It was R '/ r = 1.7

Comparative Example 2 Al ₂ O as shown in FIG.
₃ 85%, C 10%, balance SiO ₂ % made of ceramics, ZrO ₂ 72%, C
Made of ceramics with a composition of 18%, SiC 6%, balance SiO ₂ ,
A new sleeve 331 having an annular jaw 335 was attached, and joined and integrated with mortar to obtain a slide valve plate. R '/ r = 1.7

The slide valve plates obtained in Examples 1 and 2 and Comparative Examples 1 and 2 were subjected to a mounting test for ordinary steel and special steel, and the number of times of use was investigated. The results are shown in Table 1.

[0031]

[Table 1]

From the above test results, the slide valve plates obtained in Examples 1 and 2 were compared with the slide valve plates obtained in Comparative Examples 1 and 2 in the degree of damage in the joint mortar portion, the cylindrical body and the cylinder. It is clear that it is excellent in the degree of cracking around the through hole and the degree of chipping at the edge, and it facilitates the removal of the sleeve from the plate body, and the plate after removal of the sleeve It is clear that damage to the portion where the stepped portion of the main body and the annular projection were joined was reduced.

[0033]

As described in detail above, the present invention provides a slide valve plate main body having a through hole in which a step portion is formed in a portion corresponding to the molten metal outflow portion, and a slide valve plate of the plate main body. By including a sleeve, which is attached to the through hole and has a radius of 2 to 3 times the radius of the flow hole, and which is formed at one end, the sleeve is provided between the step portion and the annular protrusion. By interposing the release member, the degree of damage in the joint mortar portion, the degree of cracking around the cylindrical body and the through hole, and the degree of chipping in the edge portion are small, and the sleeve from the plate body The removal is facilitated, and after the sleeve is removed, excellent effects such as less damage to the portion where the stepped portion of the plate body and the annular projection are joined are exhibited.

[Brief description of drawings]

FIG. 1 is a sectional view showing an embodiment of a slide valve plate according to the present invention.

2 (a) to 2 (d) are cross-sectional views showing an embodiment of a method for manufacturing a slide valve plate according to the present invention in the order of steps.

3 (a) and 3 (b) are cross-sectional views showing a comparison of the radius of the sliding surface side of the slide valve plate according to the present invention and the sleeve mounted on the conventional slide valve plate. Is.

FIG. 4 is a cross-sectional view showing a sliding state of conventional upper and lower slide valve plates.

[Explanation of symbols]

11,21,31,41 Plate body 12,22,32,42 Through hole or enlarged through hole 13,23,33,43 Sleeve 14,24,34,44 Outflow holes 15, 25, 35 annular protrusion 16, 26, 36 Steps 17 Release member 18 band steel 19 Cushion board K fixed plate S sliding board M Damaged sliding surface T grinding tool P Polishing tool

─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Tsunenobu Saeki 2-2-1 Otemachi, Chiyoda-ku, Tokyo Shinagawa Shiro Brick Co., Ltd. (56) Reference JP-A-9-225628 (JP, A) JP Flat 5-200531 (JP, A) Actual flat 3-101356 (JP, U) (58) Fields investigated (Int.Cl. ⁷ , DB name) B22D 41/28 B22D 11/10 340 B22D 41/30

Claims (3)

(57) [Claims] 1. A slide valve plate for controlling the flow rate of molten metal, comprising a slide valve plate body having a through hole in a portion corresponding to a molten metal outflow portion, and a sleeve mounted in the through hole of the plate body. , to one end of the sleeve, an annular projection is formed, the through hole of the plate body is stepped portion is formed by an enlarged portion of the annular projection provided corresponding to the said sleeve, said The annular projection formed on one end of the sleeve is
Radius 2-3 times the radius of the outflow hole formed in the reeve
The a, the plate body of the through hole before and stepped portion formed in the
A slide valve plate , wherein a release member is interposed between the sleeve and the annular projection . 2. A slide valve plate body having an enlarged through hole in which a stepped portion is formed in a portion corresponding to the molten metal outflow portion, and an annular protrusion at one end which is mounted in the enlarged through hole of the plate body. Formed sleeve [But
And the annular protrusion is the outflow formed on the sleeve.
It has a radius of 2-3 times the radius of the pores, composed of city, a manufacturing method of a slide valve plate for controlling the flow rate of molten metal, A. With the damaged sliding surface of the used slide valve plate facing down, in the outflow hole portion of the used plate, the size of the dowel portion formed in the used plate around the outflow hole is equal to or larger than the size of the dowel part. B. Obtaining a used slide valve plate body by forming the enlarged through hole of B. Formed corresponding to the annular projection of the sleeve by further enlarging and partially enlarging the enlarged through hole portion on the side opposite to the damaged sliding surface of the used plate body around the enlarged through hole. Forming a stepped portion by the enlarged portion described above, C. A step of attaching a sleeve having an annular projection formed at one end to the enlarged through hole of the used plate body, and joining and integrating with a mortar, C '. At the time of the “joining / integrating step” of C, the use
Step formed in the enlarged through hole of the already plate body
Between the ring and the annular projection of the sleeve
A step of setting a member, D. And a step of polishing a surface of the used plate opposite to the damaged sliding surface on which the sleeve is mounted to form a new sliding surface. 3. A new slide valve plate body having a through hole in which a step portion is formed in a portion corresponding to the molten metal outflow portion, and an annular protrusion at one end which is mounted in the through hole of the plate body. Formed sleeve [But
And the annular protrusion is the outflow formed on the sleeve.
It has a radius of 2-3 times the radius of the hole, a manufacturing method of a slide valve plate for controlling the flow rate of molten metal comprising a city, and the stepped portion of the through hole of the new plate body, annular end The ring-shaped release member is set between the sleeve and the ring-shaped protrusion of the sleeve, and the sleeve is attached to the through hole of the new plate body, and joined and integrated with mortar. A method of manufacturing a slide valve plate, comprising: