KR20040046414A - Apparatus with means for preventing turbulence of liquid in furnace - Google Patents

Abstract

PURPOSE: A device for preventing vortex of molten material in main iron trough of blast furnace is provided which is installed on the main iron trough to suppress vortex of molten material causing local erosion of castable refractory material of the main iron trough. CONSTITUTION: The device comprises a fixed shaft(22) inserted into penetration holes at both sides of fixed cover(10); a fixed frame(11) fixed by the fixed shaft at both sides; a plurality of vortex preventing dams(12) adhered to a lower part of the fixed frame to prevent vortex of molten material; and a cylinder(13) attached to one side of the fixed shaft to move the vortex preventing dams up and down, wherein the bottom part of the vortex preventing dams is tapered to a certain inclination angle to prevent the molten material from flowing back after the molten material is naturally flown in from the exit side, and wherein the cylinder is connected to the fixed shaft by pin to rotate the fixed shaft connected to the cylinder rod to an angle of 90 degrees and vertically move the vortex preventing dams to an angle of 90 degrees at the same time when rod of the cylinder is moved back and forth.

Description

Hot water melter vortex prevention device of blast furnace {APPARATUS WITH MEANS FOR PREVENTING TURBULENCE OF LIQUID IN FURNACE}

The present invention relates to a blast furnace molten melt vortex prevention device, more specifically, the melted fish from the furnace is discharged to the outside through the exit port is a container for a predetermined time before the melt is separated into the molten iron and slag The large bath is composed of the outer shell and the inside of the castable refractory to withstand the high temperature melt for a long time.The large bath is also used to prevent the vortices of the melt that induces local erosion of the castable refractory. The hot water of the installed blast furnace also relates to a melt vortex prevention device.

In general, as shown in FIG. 1, the melt discharged to the outside of the furnace through the outlet 1 is separated into the molten iron 6 and the slag 7 by the specific gravity while flowing down in the large hot waterway 2. The molten iron flows down through the flow path under the skimmer 4, and the slag 7 on the upper portion flows back to the skimmer 4 and flows back to the ash flow 3.

However, due to the above flow phenomenon, in the middle of the blast furnace, the melt discharged from the exit port flows to the skimmer to generate vortices, and intensive erosion of the refractory occurs at the vortex forming site. It is composed of refractories to withstand the melt of water, but when the wear of the refractory progresses to some degree, the large water is also dismantled and repaired with a new refractory. The small blast furnace with two outlets must be used in succession because the outlet can not be used during the operation. At this time, it is difficult to operate the blast furnace due to the insufficient discharge of molten material, which increases fuel costs and decreases the amount of charter production.

In order to solve the problems described above, the present invention is discharged to the outside of the furnace and flows down in the large tap water flow backflow prevention device for minimizing the amount of slag backflow hit by the skimmer and the device capable of withstanding high temperature melt It is an object of the present invention to provide a vortex prevention apparatus for molten melt of the blast furnace to prevent partial erosion of the main entrance wall by providing a vortex prevention apparatus that has a cooling function and is easy to replace when worn.

1 is a conceptual diagram showing the flow phenomenon of the melt in the hot water of the blast furnace;

Figure 2 is a conceptual diagram showing the induction phenomenon of the melt by the molten metal melt vortex prevention device of the blast furnace according to the present invention;

Figure 3 is a front view and a perspective view showing the overall configuration of the molten metal melt vortex prevention device of the blast furnace according to the present invention;

Figure 4 is an exploded perspective view of the components of the blast furnace molten melt melt vortex prevention apparatus according to the present invention.

♠ Explanation of symbols for the main parts of the drawing ♠

1: Exit 2: Large Bath

3: Sweeping degree 4: Skimmer

8: Intensive erosion section 11: Fixed frame

12: Backflow prevention dam 20: Cooling water guide plate

22: Fixed shaft

In order to achieve the above object, the present invention provides a fixed shaft inserted through the through holes on both sides of the fixed cover, a fixed frame fixed by the both fixed shafts, and is attached to the lower portion of the fixed frame to prevent the reverse flow of the melt It provides a blast furnace molten melt vortex prevention device of the blast furnace, characterized in that composed of a plurality of backflow prevention dam to prevent, and a cylinder attached to the one side fixed shaft to move the backflow prevention dam up and down.

In addition, the counter flow prevention dam provides a blast furnace melt vortex prevention device of the blast furnace, characterized in that the bottom portion is tapered at a constant inclination to prevent the flow of the melt flows naturally from the outlet side and reverse flow.

In addition, the cylinder is coupled to the fixed shaft and the pin when the rod of the cylinder is moved forward and backward to rotate the fixed shaft connected to 90 ° and at the same time the reverse flow prevention dam also moves up and down to 90 ° The hot spring also provides a melt vortex prevention device.

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

As shown in Figures 3 and 4, the apparatus for preventing the molten metal melt vortex of the blast furnace according to the present invention is provided so that the fixed shaft 22 is inserted into both sides of the fixed cover 10, the both fixed shaft 22 In between the fixing frame 11 is provided.

The lower part of the fixed frame 11 is equipped with a cooling function to withstand a long time in a high temperature atmosphere and prevents a plurality of backflows to prevent the dam from interfering when the flow of the melt is lowered or when the flow is not smooth or when it is taken out for repair or installation. The dam 12 is fixed by the fixing bolt 16 and the washer 7.

In addition, the backflow prevention dam 12 is provided so that its bottom portion is tapered at a predetermined slope to prevent the melt flowing into the outlet naturally and reversely flowing backward.

On the other hand, the one side fixed shaft 22 is provided with a cylinder 13 for rotating the backflow prevention dam 12 by 90 °, the end of the fixed shaft 22 on both sides of the cooling water to the fixed frame 11 A hose 15 for supplying is provided, and a bushing 21 for smoothly rotating the inside of the fixed shaft 22 is provided.

In addition, the inside of the fixed frame 11 is provided with a space for the cooling water to pass through to cool the high heat, a plurality of coolant guide plate 20 to guide the path of the cooling water is inserted into the space.

Hereinafter, the operation of the present invention will be described in detail.

1 to 4, the molten iron 6 discharged through the outlet 1 in the present invention configured as described above flows to the bottom of the skimmer 4 to be repaired in the ladle and the upper slag 7 is Flowing to the top smoothly pass through the backflow prevention dam 12 of the funnel type.

In addition, the slag 7 flowing back to the skimmer 4 is inside the wide funnel at the rear end of the dam so that the large hot water can no longer flow to the front to prevent vortex and flow to the reflow bath 3. .

On the other hand, the present invention is used in a high temperature location, so that the cooling water is supplied through the fixed shaft and drained, and during use, the backflow prevention dam 12 is inserted into the large hot waterway (2) slag (7) layer by the cylinder (13) When the installation is completed and the starting line is completed, the cylinder 12 is operated to be lifted (rotated 90 degrees) to stand in parallel.

In addition, the funnel-shaped backflow prevention dam 12 is constructed and used as a refractory refractory material, but is used in a high temperature melt, so when worn, the bolt 6 of the fixed frame 11 is dismantled and the backflow prevention dam 12 Can be used after removing it.

At this time, by changing the length of the backflow prevention dam 12 in accordance with the situation of the large turbidity (2) effectively blocks the melt flowing back in the upper layer to suppress the vortex phenomenon occurring in the upper layer of the large turbidity (2).

As described above, the present invention can minimize local erosion of large baths by minimizing vortex generation by a backflow prevention dam, can extend the life of large baths, reduce refractory usage, and improve the number of repairs of large baths. Reducing has the significant effect of reducing the instability of yellowing during the maintenance period.

Claims (3)

A fixed shaft 22 inserted through the through holes on both sides of the fixed cover 10, a fixed frame 11 fixed by the both fixed shafts 22, and a lower portion of the fixed frame 11. The blast furnace characterized in that it consists of a plurality of backflow prevention dam (12) for preventing the reverse flow of the melt, and a cylinder (13) attached to the one fixed shaft 22 to move the backflow prevention dam (12) up and down Hot water melt vortex prevention device. The method of claim 1, The reverse flow prevention dam 12 is the bottom portion of the blast furnace molten melt vortex prevention device, characterized in that the bottom portion is tapered in a constant slope in order to prevent the reverse flow of the melt flows naturally from the outlet side. The method of claim 1, The cylinder 13 is coupled to the fixed shaft 22 by a pin so that when the rod of the cylinder is moved forward and backward, the fixed shaft 22 connected thereto is rotated by 90 ° and at the same time the backflow prevention dam 12 is also An apparatus for preventing molten melt vortex of a large hot water of a blast furnace, which is moved up and down by 90 °.