KR100912674B1 - Apparatus for building unshaped refractory - Google Patents

Abstract

In the present invention, in the manufacture of a refractory container for supplying molten metal using a refractory refractory or a refractory container capable of storing molten metal, construction of an amorphous refractory structure enables the moisture contained in the amorphous refractory to be quickly discharged to shorten the drying time. Relates to a device.

The present invention is an outer frame 110 made of a refractory structure, the porous support plate 120 is positioned in a state spaced apart at regular intervals along the inner surface of the outer frame to form an inner frame, and the inner surface of the porous support plate And a support frame 130 attached to the support member 130 and a support frame 130 provided with a traction ring 126 at an upper end thereof to be supported in close contact with the inner surface of the porous support plate through the connection member and to be recovered. The fixing piece 126 attached to the surface of the fingerboard, the moisture absorbent cloth 140 attached to surround the outer surface of the porous support plate through the fixing piece, and the inner side of the porous support plate fixed to the support frame A burner 150 having a plurality of gas ejection holes radially uniformly arranged inside the support frame to provide uniform heat;

The moisture absorbent cloth is attached to the porous support plate while penetrating the ends of the fixing pieces, and the end of the fixing piece penetrates the moisture absorbent cloth is in close contact with the surface of the moisture absorbent cloth so that the moisture absorbent cloth is not separated from the porous support plate. Is bent.

Absorption cloth, amorphous refractory, construction, drying, container, molten metal

Description

Apparatus for building unshaped refractory}

In the present invention, in the manufacture of a refractory container for supplying molten metal using a refractory refractory or a refractory container capable of storing molten metal, construction of an amorphous refractory structure enables the moisture contained in the amorphous refractory to be quickly discharged to shorten the drying time. Relates to a device.

In general, facilities related to hot molten metals, such as blast furnaces and ladles, are designed to withstand high heat by installing amorphous refractory materials in contact with the molten metal.

Such an amorphous refractory body is manufactured through a drying process after forming a mold in the field according to the purpose of use, adding water to the refractory, kneading it, pouring it into the mold, and then forming a predetermined shape through curing.

At this time, a large amount of moisture is present in the amorphous refractory used, including water for hydrate formation and construction for hydrate formation and cement for hydration reaction, including water of crystallization bound to the raw material itself.

Therefore, the amorphous refractory body can be exhibited the properties of the refractory only when all the moisture is degassed through the drying process.

If the drying is not performed sufficiently, cracks may occur when contacting the hot molten metal or the frame, or the dropout may occur due to an explosion. Various problems, such as shortening, are generated, and once such a defect occurs, it takes a lot of money and time to repair, which leads to a serious problem in which the facility operation rate is greatly reduced.

Accordingly, various techniques for drying the amorphous refractory body more efficiently have been developed. As an example, as illustrated in FIG. 1, the amorphous refractory placed between the outer frame 1 and the inner frame (not shown) is illustrated. When A) undergoes the curing process, there is a method of directly heating and drying the amorphous refractory material (A) by removing the inner frame and inserting the gas line (2).

Or as shown in Figure 2, by using a factory set consisting of an outer wall 10, an inner wall 20 made of a steel mesh, and a support skeleton 30 for supporting the steel mesh inner wall 20, the amorphous refractory After constructing (A), the moisture of the amorphous refractory through the steel mesh is induced to be discharged into the inner wall of the steel mesh 20, and at the same time, the gas line 40 is inserted into the inner wall of the steel mesh, and the injected irregular refractory ( There is a way to achieve rapid drying by direct heat drying of A).

In particular, such a method is to allow the steel mesh inner wall 20 and the support skeleton 30 to be melted and removed by hot molten metal flowing into the construction body without being removed after construction to further shorten the construction period. Is characteristic.

However, in the conventional drying method as described above, since the steel mesh does not quickly absorb moisture from the cast-shaped refractory, the actual drying time is not significantly shortened, and the inner wall of the steel mesh and the supporting skeleton are part of the finished body. Since it is impossible to recover the problem, the construction cost is excessively required.

The present invention has been made in consideration of the above-described conventional problems, and an object of the present invention is to provide an indefinite refractory factory factory having a short construction time and a low construction cost.

In order to achieve the above object, the present invention is an outer frame made of a refractory structure, a porous support plate positioned in a state spaced apart at regular intervals along the inner surface of the outer frame to form an inner frame, the inner of the porous support plate A connection frame attached to a side surface, a support frame provided with a traction ring at an upper end thereof to be supported in close contact with the inner surface of the porous support plate through the connection member, and to be recovered, and a fixing piece attached to the surface of the porous support plate. And a moisture absorbent fabric attached to surround the outer surface of the porous support plate through the fixing piece, and radially uniform inside the support frame fixed to the support frame to provide uniform heat to the inner surface of the porous support plate. A burner having a plurality of gas ejection holes disposed therein; The moisture absorbent cloth is attached to the porous support plate while penetrating the ends of the fixing pieces, and the end of the fixing piece penetrates the moisture absorbent cloth is in close contact with the surface of the moisture absorbent cloth so that the moisture absorbent cloth is not separated from the porous support plate. It is characterized by being bent.

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In addition, the support frame is preferably provided with a cover for further sealing the opening of the porous support plate.

The burner may be connected to a gas supply pipe that vertically penetrates the center of the frame member, and the gas supply pipe may include a valve for adjusting the gas inflow amount and a flow gauge for measuring the gas inflow amount.

According to the amorphous refractory construction apparatus according to the present invention configured as described above, the moisture absorbent fabric quickly absorbs and contains the moisture contained in the amorphous refractory, so that the heater inside is quickly and uniformly dried to maximize workability, A stable refractory body can be obtained.

In addition, according to the present invention, by lifting and reusing the porous support plate and the support frame forming the inner frame after the construction is completed, there is an effect that can greatly reduce the construction cost.

In addition, according to the present invention, by installing a cover on the upper support frame to maintain the temperature inside the porous support plate at a high temperature to promote the drying of the irregular refractory and at the same time to enable the operation on the support frame to improve the workability, the cover Partially open as needed, so that the working state of the inside can be checked with the naked eye, thereby greatly improving workability.

The features and advantages of the present invention will become more apparent from the following detailed description of preferred embodiments based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are defined in the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It must be interpreted to mean meanings and concepts.

DETAILED DESCRIPTION Hereinafter, one embodiment of the present invention will be described in detail with reference to the drawings. Like reference numerals refer to like elements, and only different parts will be mainly described so as not to overlap for clarity.

As shown in Figures 3 to 5, the present invention is the outer frame 110 made of a refractory structure, the inner frame is positioned at a predetermined interval spaced apart along the inner surface of the outer frame 110 forms an inner frame. A known board 120 is provided.

The outer frame 110 is a cylindrical shape with an upper portion open, and in the present invention, for example, a cylindrical shape is shown and described.

The porous support plate 120 is a plate-like member having a plurality of holes smaller than the size of the maximum particles constituting the amorphous refractory A, and may be made of various materials such as expanded metal, tin or wood or an inorganic compound. .

The porous support plate 120 is positioned in a state spaced apart at regular intervals along the inner surface of the outer frame 110, the support frame 130 is supported in close contact with the inside. The porous support plate 120 and the support frame 130 are made through a connecting member 125 attached to the inner surface of the porous support plate 120. The connection member 125 may be a wire or string member of the porous support plate 120. The operator enters the inside of the support frame 130 and securely fixes the porous support plate 120 to the support frame 130 by using the fixing piece 126.

And the top of the support frame 130 is provided with a traction ring 135, the support frame 130 is installed in a state suspended to a separate traction device (not shown) through the traction ring 135. Therefore, the porous support plate 120 can be maintained at a predetermined interval along the inner surface of the outer frame 110 by the support frame 130.

The support frame 130 is preferably manufactured by bending a plurality of pipes to minimize the weight.

The outer side of the porous support plate 120 is attached to the state in which the moisture absorbent cloth 140 is wrapped, whereby the support frame 130 and the porous support plate 120 and the moisture absorbent cloth 140 is completed to form a set It forms the inner frame of the amorphous refractory body.

On the other hand, a plurality of fixing pieces 126 for attaching the moisture absorbent cloth 140 is attached to the outer surface of the porous support plate 120. The fixing piece 126 has a pin shape and can be easily bent like a wire. This, the worker penetrates the moisture absorbent cloth 140 through the fixing piece 126 so that the moisture absorbent cloth 140 is wrapped on the outer surface of the porous support plate 120, and then the fixing piece protrudes to the outer surface of the moisture absorbent cloth 140. By bending the end of the (126) in close contact with the outer surface of the moisture absorbent fabric 140 to ensure that the moisture absorbent fabric 140 is firmly fixed so as not to be separated from the porous support plate 120, at the same time support frame 130 This is to ensure that the fixing pieces 126, which are lifted along the support frame 130, in the process of lifting) are lifted smoothly without interfering with the inner wall surface of the amorphous refractory body.

The moisture absorbent fabric 140 is a member in which a capillary tube is formed and can quickly absorb moisture contained in the amorphous refractory A through capillary action. In addition, the moisture absorbent fabric 140 should be free from deformation at a temperature of 150 ° C. to withstand the heat of the burner 150 during the drying process.

The moisture absorbent fabric 140 is incinerated by raising the heat of the burner 150 after the drying process. Therefore, when the support frame 130 is lifted, it remains incinerated on the inner wall surface of the amorphous refractory construction body.

The burner 150 is installed inside the support frame 130 and radially inside the support frame 130 while facing the support frame 130 to provide uniform heat to the inner surface of the porous support plate 120. It is provided with a plurality of gas ejection holes uniformly arranged.

The burner 150 is connected to the gas supply pipe 151 that vertically penetrates the center of the support frame 130 to receive gas that is a heat source from the outside. The gas supply pipe 151 is preferably provided with a valve 152 that can adjust the gas inflow amount to enable drying according to the characteristics of the refractory and a flow gauge 153 for measuring the gas inflow amount.

On the other hand, the cover 160 may be further provided on the upper end of the support frame 130 to seal the open upper portion of the porous support plate 120. A through hole penetrating the gas supply pipe 151 is formed in the center of the cover 160. The cover 160 configured as described above seals the inside of the porous support plate 120 so that heat inside the porous support plate 120 is not discharged to the upper portion of the porous support plate, thereby promoting drying of the amorphous refractory A and At the same time, the operator can operate on the support frame 130 to improve the workability.

In addition, the cover 160 is divided so as to be partially open. Therefore, the worker may check the working state by partially opening the cover 160 as necessary and visually confirming the working state therein.

According to the indefinite refractory construction apparatus configured as described above, first through the traction ring 135 attached to the support frame 130 in the state in which the porous support plate 120 and the moisture absorption cloth 140 is coupled to the inside and the outside, respectively. The support frame 130 is positioned inside the outer frame 110 so that a predetermined space is maintained between the outer frame 110 and the moisture absorbent fabric 140 by appropriately adjusting the traction device after being suspended in the traction device.

In this state, the amorphous refractory A is poured into the inner space. The poured amorphous refractory (A) is in contact with the moisture absorbent fabric (140), the moisture absorbent fabric (140) quickly sucks moisture contained in the amorphous refractory (A) through a capillary phenomenon, and the moisture absorbent fabric (140) sucks. Water entered is discharged into the porous support plate 120 through the porous support plate 120. At the same time, the burner 150 disposed in the support frame 130 is ignited, and the burner 150 uniformly raises the temperature inside the porous support plate 120 through a plurality of gas ejection holes.

At this time, the operator adjusts the gas inflow rate through the valve 152 and the flow gauge 153 installed in the gas supply pipe 151 while the inside of the porous support plate 120 to match the characteristics of the indefinite refractory (A) is poured. The temperature is controlled within a range of 150 ° C.

As a result, the moisture discharged to the inside of the porous support plate 120 is rapidly evaporated by the burner 150, so that drying of the amorphous refractory A proceeds quickly, and the whole section of the dry refractory refractory A is poured. As it proceeds uniformly at, the local crack or erosion of the construction body is prevented during the drying process, thereby obtaining a structurally stable refractory body.

When the drying of the amorphous refractory A is completed, the temperature of the burner is increased to incinerate the moisture absorbent cloth 140, and then the traction device is operated to lift the support frame 130. When the support frame 130 is lifted, the porous support plate 120 and the burner 150 fixed to the support frame 130 are simultaneously lifted. The lifted support frame 130, the porous support plate 120 and the burner 150 are reused in the next work.

1 is a cross-sectional view of a conventional amorphous refractory construction device.

2 is a cross-sectional view of another conventional amorphous refractory construction device.

Figure 3 is an exploded view of the amorphous refractory construction device according to the present invention.

Figure 4 is a cross-sectional view of the use state of the amorphous refractory construction device according to the present invention.

5 is an external perspective view of the amorphous refractory construction device according to the present invention.

<Explanation of symbols for the main parts of the drawings>

100 ... Amorphous refractory construction device 110 ... Outer frame

120 Perforated support plate 125 Connecting member

126 Fixing 130 Support Frame

135 ... towing hook 140 ... moisture absorbent cloth

150 ... burner 151 ... gas supply pipe

152 Valves 153 Flow gauges

160 ... Cover A ... Amorphous Refractory

Claims (4)

An outer frame made of a refractory structure, a porous support plate positioned at a predetermined interval along an inner surface of the outer frame to form an inner frame, a connection member attached to an inner surface of the porous support plate, and the connection A support frame provided with a traction ring at the top thereof to be supported in close contact with the inner surface of the porous support plate through a member, a fixing piece attached to the surface of the porous supporting plate, and a porous support plate through the fixing piece. And a plurality of gas ejection holes fixed to the support frame and radially uniformly disposed inside the support frame to provide uniform heat to the inner surface of the porous support plate. A burner; The moisture absorbent cloth is attached to the porous support plate while penetrating the ends of the fixing pieces, and the end of the fixing piece penetrates the moisture absorbent cloth is in close contact with the surface of the moisture absorbent cloth so that the moisture absorbent cloth is not separated from the porous support plate. Infinite refractory construction apparatus, characterized in that the bending. delete The method of claim 1, Infinite refractory construction device, characterized in that the support frame is further provided with a cover for sealing the opening of the porous support plate. The method of claim 1, The burner is connected to the gas supply pipe vertically penetrating the center of the frame member, The gas supply pipe is an irregular refractory construction device, characterized in that the valve is provided with a flow rate gauge for measuring the gas inlet flow rate and the gas inlet flow rate.

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