KR101062247B1 - Feeding device of the reaction metal slurry - Google Patents

Abstract

The present invention relates to supplying a reaction solid metal slurry having a uniform spherical structure prepared in a reaction solid metal slurry maker, and more particularly, a reaction solid having a uniform spherical structure prepared in a reaction solid metal slurry maker. In order to supply the reaction solid metal slurry having a uniform spherical structure when the product is supplied to the mold to be commercialized using the metal slurry in an optimal condition,

An apparatus for supplying a slurry storage container in which a reactive metal slurry is stored to a sleeve of a mold by a conveying means to commercialize a reaction solid metal slurry having a uniform spherical structure prepared through a reaction metal slurry maker. The container is formed of a respective container in which a cylindrical container having an open top is correspondingly divided, and each divided container is fastened and fixed to each mounting frame in the middle of the outer surface, and a mounting frame on the opposite side fastened and fixed to the container. The container is mounted on the main body frame mounted at the end of the transport means is formed by the cylinder provided on the main frame to rotate the mounting frame to the left and right to separate or contact the divided containers to each other, the divided container Each circulating groove is formed in the parts in contact with each other so that a passage through which air is circulated when contacted with each other is formed. It relates to a supply device for the reaction solid metal slurry, characterized in that formed.

 High Metallurgical Slurry, Supply, Transport, Freshwater, Release Liquid, Split, Vessel

Description

Semi-Solid Metal Slurry of supply

The present invention relates to supplying a reaction solid metal slurry having a uniform spherical structure prepared in a reaction solid metal slurry maker, and more particularly, a reaction solid having a uniform spherical structure prepared in a reaction solid metal slurry maker. The present invention relates to a device for supplying a reactive solid metal slurry that can be supplied under optimum conditions to a reactive solid metal slurry having a uniform spherical structure when it is supplied to a mold for production using a metal slurry.

In general, the conventional method for producing a reaction solid metal slurry is a situation in which a spherical stress is produced by breaking the dendritic structure with a sugar stress by mechanical or electromagnetic stirring during solidification of the molten metal, but such a dendritic crystal form is used. In the method of using shearing force to crush and form granular metal structure, that is, when a part of the molten metal is lowered below the liquidus line, the initial solidification layer is also formed as the vibrational force is applied. It is difficult to obtain a uniform and fine structure as a whole due to the temperature non-uniformity, and if there is no control of the injection temperature of the molten metal into the container, there was a problem of further increasing the nonuniformity of the tissue due to the temperature difference between the container wall and the center.

In order to solve such a problem, the present applicant has been registered with a patent application No. 534568, "Preparation method and apparatus for producing a reactive metal slurry," which has been previously filed and described with reference to FIG. 4.

As shown in the drawing, a manufacturing machine 100 for producing a solidified metal slurry having a uniform spherical structure is supplied with a molten metal supplied from the molten metal supply member 120 to the inside of the housing 110 and a discharge passage 132. The furnace 130 is formed by the refractory material to be discharged through the, and the temperature controller 140 is provided to adjust the internal temperature according to the atmosphere temperature of the melting furnace and the temperature of the molten metal in the interior of the melting furnace, and the outside of the melting furnace Cooled by an electronic stirrer 150 provided to form an electromagnetic field, a cooler 160 installed to rapidly cool a melt discharged to a lower portion of the melting furnace, and a support frame 172 formed below the cooler. A guide member 170 for guiding the reaction metal slurry downward, and a conventional robot arm to uniformly distribute the slurry disposed below the guide member; The slurry storage container 200 is provided to be pivoted by the same conveying means (300).

The reaction solid metal slurry maker 100 configured as described above maintains the molten metal, which is molten metal injected into the melting furnace 130 by the molten metal supply member 120, at a constant temperature by the temperature controller 140, and at the liquidus temperature. Not only can the overall uniform and fine structure be obtained by stirring the electromagnetic field, but also the reaction solid metal slurry stored in the slurry storage container 200 also has a condition that can be rotated to maintain a uniform temperature. It was possible to prepare simply so that the entire reaction solid metal slurry at has a uniform structured structure.

Thus, the reaction solid metal slurry prepared through the reaction solid metal slurry maker is a conventional robot arm as shown in FIG. 5 to prepare a solid reaction metal slurry having a uniform spherical structure stored in the slurry storage container to be molded into a required product. It is supplied to the sleeve 400 of the mold by a conveying means 300, such as.

In other words, the conveying means 300 withdraws the slurry storage container 200 from the reaction metal slurry maker 100 and supplies the slurry to the slurry storage container 200 while the storage of the metal slurry is completed and the slurry is supplied to the mold. Removed residues and foreign matters remaining in the storage container and at the same time the reaction and the metal slurry is transported to the blowing unit 500 by the conveying means 300 to prevent the metal slurry from sticking to the slurry storage container and to cool. The part was sprayed with high pressure air and a release agent sequentially to clean and cool the slurry reservoir.

Then, the slurry storage container is transferred to the reaction solid metal slurry maker so that the reaction slurry is stored by the conveying means and the metal slurry is stored.

However, as described above, the reaction solid metal slurry supplied to the mold by the carrier means various problems. First, as the slurry storage container is formed in a semi-circular shape, the surface of the reaction slurry metal is stored in the slurry storage container. As a result of the wide exposure to the atmosphere, an oxide film was generated, and as a result, when a part of the surface where the oxide film was formed was introduced in the mold, that is, the slurry storage container was turned 180 ° and supplied to the mold. Part of the surface where the film was formed flowed into the mold, causing the defective product to be produced.

Further, as described above, the semi-circular elongated slurry storage container is inverted by 180 ° and supplied to the sleeve of the mold, thereby causing a bad effect on the molding of the product as the shape of the reaction solid metal slurry stored in the slurry storage container collapses. .

In addition, due to the characteristics of the sludge storage container formed in a semi-circular shape, the temperature variation of both ends is severe, and temperature variation occurs at about 30 to 40 ° C., which also acted as a cause of producing a defective product during molding.

The present invention has been made to solve the above-mentioned conventional problems, the main object of which is to supply to the mold to be commercialized by using a reaction solid metal slurry having a uniform spherical structure prepared in a reaction solid metal slurry maker It provides a supply device for the reaction slurry metal slurry that enables the supply of the reaction slurry metal slurry having a uniform spherical structure to the optimum conditions, as well as the uniform spherical tissue can be stored evenly even during storage. There is.

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The present invention for solving the technical problem as described above, by means of a carrier transporting slurry storage vessel in which the reaction solid metal slurry is stored to commercialize the reaction solid metal slurry having a uniform spherical structure prepared through the reaction solid metal slurry maker In the apparatus for supplying to the sleeve of the mold, the slurry storage container is formed of a respective container is divided into a cylindrical container with an open top, each divided container is fastened and fixed to each mounting frame in the middle of the outer surface The mounting frame on the opposite side fastened and fixed to the container is mounted on a main body frame mounted at the end of the vehicle, and the divided frames are separated from each other while the mounting frame is rotated left and right by a cylinder provided on the main body frame. Or formed in contact with each other, but in contact with each other of the divided container Each circulation groove is formed to form a passage through which air is circulated.

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The present invention is to supply the reaction solid metal slurry having a uniform spherical structure to the optimum conditions when supplied to the mold to be commercialized by using the reaction solid metal slurry having a uniform spherical structure prepared in a reaction solid metal slurry maker. By supplying the cooled air to the passage formed in the portion where the containers, which are slurry storage containers, come into contact with each other, the uniform spherical structure can be formed even more uniformly when storing the reaction metal slurry. In addition to the effect of forming a high-quality product when forming a product using a reaction solid metal slurry having a spherical structure, there is also a condition to further improve the quality of the molded product.

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Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a main view schematically illustrating a process of supplying a reaction solid metal slurry by the present invention.

As shown in the drawing, the slurry storage container 200 in which the reactant metal slurry is stored is manufactured to commercialize the reactant metal slurry having a uniform spherical structure prepared through the conventional reaction metal slurry maker 100. In the method of supplying the sleeve 400 of the mold by the same conveying means 300,

The present invention is to supply the reaction solid metal slurry having a uniform spherical structure to the optimum conditions when supplied to the mold to be commercialized using the reaction solid metal slurry having a spherical structure,

The slurry storage container 200 in which the reaction solid metal slurry having the uniform spherical structure is stored is withdrawn from the reaction solid metal slurry maker 100 by a conveying means 300 such as a conventional robot arm or the like, and then the sleeve of the mold ( 400) and then dehydrated the slurry storage container 200 in the receiving tank 10 containing the release liquid maintained at a temperature of 50 ~ 90 ℃ removes the residue in the slurry storage container 200 while cooling and transporting After retrieving the slurry storage container 200 from the receiving tank 10 by means 300 again, the air supplied by a conventional air compressor or the like is supplied to remove the release liquid on the slurry storage container by air. It is shown that the reactant metal slurry is to be stored in the reactant metal slurry maker 100.

In the above, maintaining the temperature of the release liquid in the receiving tank at 50 ~ 90 ℃ to maintain a constant temperature of the slurry storage container to react smoothly without destroying the uniform spherical structure in the process of storing the metal slurry When the release liquid is 50 ° C. or less, the slurry storage container is cooled so much that when the reaction slurry is stored and the metal slurry is stored, the sintering occurs as if it sticks to the inner side of the slurry storage container. When the temperature is higher than or equal to 0 ° C, the slurry storage container is not cooled and is maintained at a constant temperature due to a problem that spherical structure of the metal slurry may not be maintained. At this time, the receiving tank is to maintain the temperature by maintaining the temperature by desalination of the heater and the like in the release liquid in a conventional manner or by heating the heater and the like outside of the receiving tank.

Therefore, the slurry reservoir containing the homogeneous spherical structure prepared in the reactor metal slurry maker was supplied to the mold by means of a conveying means, and then the slurry reservoir of the slurry reservoir in the receiving tank containing the release liquid was fresh. By removing the residues remaining on the inner side cleanly and cleanly so that the release liquid is not left by air, the reactive metal slurry can be stored and supplied, so that the reactive metal slurry contains pure impurities without impurities. It will have the condition that only the slurry can be continuously supplied.

2 is a perspective view schematically illustrating a main portion of the slurry storage container of the present invention, and FIG. 3 is a main view of the slurry storage container according to FIG. 2 supplied to a sleeve of a mold.

As shown in FIG. 1, the slurry storage container 200 in which the reactant metal slurry is stored may be manufactured to commercialize the reaction solid metal slurry having a uniform spherical structure prepared through the conventional reaction solid metal slurry maker 100. In the device for supplying to the sleeve 400 of the mold by a conventional conveying means 300,

The slurry storage container 200 is each container 20 is divided into a semi-circular shape of a cylindrical container with an open top so that the temperature difference is minimized without exposure to the oxide film is formed to the atmosphere during storage. Each of the divided containers 20 is positioned in position with a little fluidity when contacted after being spaced apart while preventing thermal deformation by heat transferred from each mounting frame 30 and the container in the middle of the outer surface thereof. In order to be fastened and fixed by a conventional floating joint method, the mounting frame on the opposite side fastened and fixed to the container is mounted on the main body frame 40 mounted at the end of the carrying means 300, and the main body frame ( 40 shows that the mounting frame 30 is rotated to the left and right by the cylinder (S) provided on the spaced apart from each other or formed in contact with each other. The.

In the above, the fastening and fastening of the container and the mounting frame by the conventional floating joint method when the fastening and fastening, when using a non-flowable fastening method, a gap occurs in the contact surface of the container divided by thermal deformation, so that the reaction metal slurry This is to prevent leakage.

In the above, one end of the mounting frame 30 mounted on the main body frame 40 is fastened and fixed to one surface of the general connecting member 42 which is pin-coupled to be freely rotated to the main body frame 40, the connecting member 42 is configured to be rotated by the operation of the cylinder S from the portion pinned with the main body frame 40 by the respective respective cylinders S and the like.

As described above, the reaction metal slurry produced in the reaction metal slurry maker 100 is stored in the container 20, which is in contact with the slurry storage container 200, and then the sleeve of the mold by the ground conveying means 300. Is supplied to the 400, wherein the container 20 is vertically transported when positioned in the sleeve 400 of the mold when the cylinder (S) provided in the main body frame 40 lying horizontally by the conveying means By rotating the mounting frame (30) by the operation of the) to be separated from each other the container is to be able to supply smoothly without breaking the shape of the reaction metal slurry.

Thus, after supplying the reaction metal slurry stored in the container 20 to the sleeve 400 of the mold, the receiving tank containing the release liquid in a state in which the container 20 is separated by a conveying means 300 ( 10) As fresh water is removed, the residue left on the inner surface of the container 20 is removed and cooling is performed at a predetermined temperature. The residue is removed from the receiving tank and the cooling means is carried on the conveying means 300. As a result, the container 20 is located at a position where air is ejected after being drawn out from the receiving tank 10 and is quickly removed so that the release liquid does not remain by the air injected by the conventional method.

As a result, after supplying the reaction slurry metal slurry stored in the container to the optimum conditions, it is possible to supply the reaction slurry metal slurry having a uniform spherical structure to optimum conditions through the remaining residue on the inner side and proper cooling. It will have the conditions that can be molded.

In addition, when supplying to the sleeve of the mold in the container, the reaction and the metal slurry located on the surface is located in the opposite direction is inserted into the mold in the opposite direction to minimize the incorporation into the product can form a better product There is also a condition.

On the other hand, the divided container 20 is formed by the outer container (22a) and the inner container (20b) of different materials, that is, the outer container is formed of a conventional metal material damage or deformation due to the impact from the outside, etc. The inner container is formed of a graphite material such as carbon, which has been burned at a higher temperature once again, by the carbon of ordinary carbon fiber. It is intended to be minimized.

At this time, a locking protrusion is formed on both sides of the inner surface of the outer container to prevent the inner container from being inserted and separated, and the outer container and the inner container are fixed by the mounting frame and the floating joint.

In addition, the circulating grooves 25a are formed in the parts in contact with each other of the divided container 20 so that each of the circulation grooves 25a is formed so as to form a passage 25 through which air is circulated. It is preferable to make the uniform spherical structure of the reaction solid metal slurry stored by supplying the cooled air to the passage formed by the circulation groove in even more uniform. In this case, the air supplied to the passage may be supplied to the air through a supply pipe mounted to the reaction metal slurry maker when the reaction metal slurry is stored in the reaction metal slurry maker, and the conveying means and the main frame and The supply pipe may be attached to the mounting frame to supply air.

Therefore, the present invention minimizes the exposure of the reactive metal slurry to the atmosphere and minimizes the temperature deviation, thereby minimizing the shape of the surface when flowing into the product without collapsing the shape when supplied to the mold sleeve. By supplying a good product can be molded.

Furthermore, the reactive metal slurry is stored in the container of the slurry storage container, and then supplied to the sleeve of the mold to remove the debris and the like from the receiving tank containing the releasing liquid, while maintaining the cooling temperature of the container appropriately. It will be equipped with an optimal condition for supplying.

1 is a main view schematically showing the process of the reaction and the metal slurry is supplied by the present invention.

Figure 2 is a perspective view schematically showing the main portion of the slurry storage container of the present invention.

Figure 3 is a main view of a state in which the slurry reservoir according to Figure 2 is supplied to the sleeve of the mold.

Figure 4 is a main view schematically showing a conventional reaction solid metal slurry maker.

5 is a main view schematically illustrating a process of supplying the reaction solid metal slurry according to FIG. 4.

Explanation of symbols for the main parts of the drawings

10: receiving tank 20: container

20a: outer container 20b: inner container

25: passage 25a: circulation groove

30: mounting frame 40: body frame

42: connecting member S: cylinder

100: high reaction metal slurry making machine

200: slurry storage container

300: transportation means

400: sleeve

Claims (4)

delete delete delete An apparatus for supplying a slurry reservoir containing a reactive metal slurry to a sleeve of a mold by a conveying means in order to commercialize a reaction solid metal slurry having a uniform spherical structure prepared through a reaction metal slurry maker, The slurry storage container 200 is formed of a respective container 20 is divided into a cylindrical container having an open top of the slurry, each of the divided container 20 and each mounting frame 30 in the middle of the outer surface and The mounting frame on the opposite side fixedly fastened to the container is mounted on the main body frame 40 mounted at the end of the vehicle, and the mounting frame 30 is mounted by the cylinder S provided on the main body frame. The container 20, which is rotated to the left and right, is spaced apart from each other or is formed to be in contact with each other, but a passage 25 through which air is circulated when contacted with each other is formed in the part that is in contact with each other. Supply device for the reaction slurry metal slurry, characterized in that each circulation groove (25a) is formed as possible.

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