JP2005344154A - Method for dismantling furnace bottom part of blast furnace - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for dismantling the furnace bottom part of a blast furnace with which the furnace bottom part containing dismantling material remaining in the furnace bottom part can economically be removed in a short time at the repairing time of the blast furnace. <P>SOLUTION: When the furnace bottom part block in the blast furnace is dismantled, the blast furnace body is horizontally cut off at the higher level from furnace hearth content 6 remaining at the furnace bottom part 5 of the blast furnace after blowing down, and the upper furnace body part at the upper part from the cut-off level, is hung by using a furnace body supporting means set in a furnace body derrick and also, the blast furnace body is horizontally cut off at the lower level from the furnace hearth content 6 and the joint between the furnace bottom part 5 of the blast furnace and the foundation part 8 of the blast furnace, is cut off and thereafter, the furnace bottom part block including the furnace hearth content 6 is pulled out to the side part. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a blast furnace bottom disassembly method, more specifically, a blast furnace furnace in which the bottom of the blast furnace body can be integrally dismantled and removed after cooling the furnace body in the furnace body disassembly at the time of blast furnace repair. It relates to a method for dismantling the bottom.

When the blast furnace is operated for a long period of time, the erosion of bricks installed inside proceeds significantly. If left untreated, the upper part of the blast furnace is cracked in the outer shell provided as a pressure vessel, and there is a concern that gas will erupt, while in the lower part of the blast furnace, carbon bricks at the bottom of the furnace are eroded and dissolved. May cause the iron skin to melt and flow out.
For this reason, the blast furnace is blown over once every ten or so years, and after the dismantling, the newly installed blast furnace is repaired.

  In refurbishing the blast furnace, first, after cooling the furnace body, an opening is provided in the side wall of the bottom of the blast furnace, the material to be dismantled remaining in the bottom of the blast furnace, that is, a solidified layer such as pig iron remaining in the bottom of the furnace and the blast furnace Remove the bottom bricks that make up the bottom.

By the way, in recent years, the inventors have taken a demolition method for taking out a solidified layer such as pig iron as a single body in order to efficiently remove the above-mentioned demolition object upon dismantling the blast furnace bottom. developed.
That is, the technology described in Patent Literature 1 and Patent Literature 2 has been developed as a technology that can remove the solids such as pig iron and the like solidified from the hearth contents, particularly, remaining in the furnace bottom.

  In these technologies of Patent Documents 1 and 2, the blast furnace furnace body is cut at a position above the position where the contents of the hearth at the bottom of the furnace remain, and the furnace body above the furnace bottom is suspended and supported by a furnace body column. In this state, after dismantling and removing the bottom iron core, the hearth contents are lifted and removed.

JP 2002-30312 A JP 2002-30311 A

However, in the conventional method for dismantling the bottom of the blast furnace as described above, although the dismantling period can be shortened as compared with the conventional techniques, the remaining hearth contents are still difficult to handle and further improvement is desired. It was.
The present invention has been developed in view of such circumstances, and after the blast furnace is cooled at the time of blast furnace refurbishment, the blast furnace bottom of the blast furnace bottom that can be removed economically in a short time after the demolition remaining in the furnace bottom is obtained. The purpose is to propose a dismantling method.

  From the above viewpoint, the present invention achieves the intended object by removing the bottom of the blast furnace together with the contents of the hearth rather than quickly removing the contents of the hearth.

That is, the gist configuration of the present invention is as follows.
(1) The blast furnace furnace after blowing down when the bottom block of the blast furnace is disassembled by dividing the blast furnace body after blow-off into a plurality of blocks in the height direction and dismantling and removing them in units of divided blocks. The blast furnace furnace body is cut horizontally at a level higher than the hearth contents remaining at the bottom, and the upper furnace body above the cutting level is suspended using the furnace body support means installed in the furnace body, and the blast furnace Cut the blast furnace furnace body horizontally at a level lower than the hearth contents remaining at the bottom of the furnace, cut off the connection between the bottom of the blast furnace and the blast furnace base, and then each hearth contents remaining at the bottom of the blast furnace A method for disassembling a blast furnace bottom, wherein the furnace bottom block is pulled out sideways.

(2) The cutting level at the bottom of the blast furnace furnace, which cuts the joint with the blast furnace foundation, is lower than the upper surface of the blast furnace foundation, and at least cuts the blast furnace foundation over a wide range around the core of the furnace bottom. Cut to the level in the depth direction, cut off the connection between the blast furnace bottom and the blast furnace foundation together with part of the blast furnace foundation, and then pull out the furnace bottom block together with a part of the cut blast furnace foundation to the side. The method for disassembling the bottom of a blast furnace furnace as described in (1) above.

(3) The cutting level of the blast furnace bottom that cuts the connection with the blast furnace base is set to a level lower than the cooling pipe group of the blast furnace bottom cooling device that constitutes the lowest layer of the blast furnace bottom, and to the side of the furnace bottom block The method for disassembling the blast furnace bottom according to (1) or (2) above, wherein the blast furnace bottom cooling device is also extracted when the blast furnace is extracted.

(4) Any one of the above (1) to (3), wherein the cutting level of the bottom portion of the blast furnace furnace that cuts the connection with the blast furnace base portion is made to coincide with the unloading ground level in the direction of pulling out the cut furnace body. The method of dismantling the bottom of the blast furnace furnace as described in 1.

(5) The method for disassembling a blast furnace bottom according to any one of the above (1) to (4), wherein the blast furnace bottom is cut while attaching a filler to the space after cutting.

According to the present invention, the blast furnace bottom block together with the hearth contents remaining in the furnace bottom can be removed from the blast furnace foundation upon dismantling the furnace body at the time of blast furnace repair. After dismantling and removing the blast furnace, it is quicker than the dismantling method in which the bottom of the blast furnace furnace is removed, and the blast furnace repair period can be greatly shortened.
Further, according to the present invention, the bottom layer portion of the blast furnace bottom can be taken out as it is, so that the blast furnace base portion of the take-out portion can be a new blast furnace body construction surface.
Furthermore, according to the present invention, since the removal of the blast furnace bottom after cutting can be removed from the blast furnace foundation by sliding on the cut surface, the contents of the hearth remaining in the furnace bottom are large. Can be removed without any obstacles.

In the present invention, the bottom of the blast furnace is removed together with the hearth contents remaining at the bottom of the furnace.
In this way, if the bottom of the hearth can be removed together with the contents of the hearth, the bottom of the hearth can be disassembled separately at a place different from the work of dismantling the blast furnace. In other words, the bottom of the furnace and the contents of the hearth can be processed at locations other than on the blast furnace foundation, and work can be performed separately from the blast furnace demolition work. Compared to conventional work with many restrictions, dismantling work becomes much easier, such as a large work space.
Conventionally, after the bottom of the furnace and the contents of the hearth have been removed, the furnace body of the blast furnace has been dismantled sequentially, but immediately after the bottom of the furnace has been removed, the upper blast furnace body can be immediately dismantled. Therefore, the repair period is greatly shortened.

Here, the hearth contents remaining in the bottom of the furnace are solidified solids of pig iron remaining in the bottom of the furnace, high-hardness solidified solidified by mixing pig iron and iron, and mixtures of pig iron, coke and iron ore. Most of them are disintegrants that easily disintegrate. Further, the blast furnace bottom refers to a furnace bottom brick, a furnace bottom brick, a furnace bottom mantel, a furnace bottom structure, and the like.
Of the contents of the hearth remaining at the bottom of the furnace, pig iron solids and high-hardness solids obtained by mixing and solidifying pig iron and slag reach several hundred to thousands of tons.
In the present invention, since these can be removed all at once, the advantages such as shortening the time for dismantling and greatly improving the dismantling workability are great.

Hereinafter, the method of dismantling the bottom of the blast furnace furnace according to the present invention will be specifically described with reference to the drawings.
As shown in FIG. 1, when dismantling the bottom of the blast furnace after blow-off, first the tip of the rod of the lift jack 2 installed on the furnace body 1 is fixed to the top mantel 3 to support the blast furnace 4. Keep it. Next, the iron skin which is the upper surface of the bottom 5 of the bottom of the blast furnace 4 is cut horizontally. The height level to be cut is at least higher than the hearth contents 6 remaining in the furnace bottom 5. This is to prevent the hearth contents 6 from colliding with the lower end of the upper furnace body 7 of the cut blast furnace 4 when the hearth contents 6 are extracted in the horizontal direction and removed from the blast furnace.

Next, when the bottom 5 of the blast furnace is removed from the blast furnace, the upper furnace body 7 located above the cutting position of the iron shell is moved to the other furnace body 7a and the top mantel by the lift jack 2 installed in the furnace body 1. Suspend with 3 The blast furnace 4 is designated as the top mantel 3, the upper furnace body 7, and the other furnace body 7a because the blast furnace 4 is lowered after the furnace bottom portion 5 is removed, and the upper furnace body 7 is sequentially cut and removed. This is because, as an example of lowering the remaining blast furnace 4, cutting and removing the furnace body 7a, and finally removing the top mantel 3, the case where the number of divisions is divided into four is shown. In addition, 8 is a blast furnace base, and 9 is a work floor constructed around the blast furnace body. This work floor 9 does not become an obstacle if the interfering area is dismantled in advance when removing the furnace body. .
Needless to say, changing the number of divisions as necessary, such as changing the number of divisions to three, does not become an obstacle to dismantling.

Next, the furnace body is cut horizontally at a lower position of the bottom of the furnace floor lower than the hearth contents 6 remaining in the furnace bottom 5, and the joint with the blast furnace base 8 is cut off. At the time of this cutting, a shape including a part of the blast furnace base 8, that is, a level lower than the upper surface of the blast furnace base 8 may be used.
This point will be described in more detail as follows.
As shown in FIGS. 2 and 3, the blast furnace body is mounted on the blast furnace foundation, and the blast furnace bottom 5 is integrated with the foundation 8. Therefore, prior to the removal of the bottom 5 of the blast furnace, the foundation 8 is widened in the longitudinal direction (depth direction) by a necessary depth (scheduled cutting level) over a wider range than the periphery of the iron core of the furnace bottom 5. Disconnect). That is, the base portion 8 is cut into a portion that the base portion 8 of the blast furnace remains and a portion that is simultaneously removed when the bottom portion 5 is removed.

  FIG. 2 is a plan view of the blast furnace body showing an example of cutting of the foundation 8, and as seen in this figure, the side surface positions 11 a and 11 b of the foundation 8 in the extraction direction 10 of the furnace bottom 5 of the blast furnace furnace are Cut in the depth direction up to the planned cutting level at the bottom of the furnace bottom 5 horizontally. This cutting process can be performed using a wire saw or the like. If there is a basic part that should be left in the repair, the area opposite to the extraction direction 10 of the furnace bottom 5 has a boundary line with the remaining part, for example, the position of 11c, up to the planned cutting level at the bottom of the furnace bottom. Cut in the depth direction.

  Further, instead of cutting in the depth direction as described above, as shown in FIG. 3, a range 12 indicated by hatching around the blast furnace bottom 5 in the foundation 8 is cut at the lower part of the bottom 5. You may make it dismantle beforehand to the planned level.

  In the example of FIG. 2, a wire saw wire is passed through the cutting grooves at cutting positions 11a, 11b, and 11c cut in the longitudinal direction over a wider area around the iron core of the furnace bottom 5, and the wire saw is scheduled to be cut. The connection between the blast furnace base portion 8 and the blast furnace bottom portion 5 is cut by rotating in a level horizontal plane and cutting the lower portion of the bottom of the furnace portion along with a part of the base portion 8.

  Alternatively, as shown in FIG. 3, after dismantling and removing the area 12 indicated by hatching of the work floor 9 around the core of the furnace bottom 5, a wire saw wire is positioned on the outer periphery of the furnace bottom 5, and this wire By rotating the saw in a horizontal plane at a planned cutting level and cutting the lower part of the bottom of the furnace together with a part of the base 8, the connection with the blast furnace base 8 can be cut off.

  The cutting performed using the wire saw as described above is performed by attaching a wire saw in which a blade portion called a diamond bead is attached to an endless wire at predetermined intervals so as to surround the outer periphery of the object to be cut. It is known as a technique for cutting an object by moving it in the axial direction by a drive unit such as a motor. In the present invention, this cutting method can be used.

However, the blast furnace bottom 5 is a large structure having a diameter of 15 to 20 m, and as described above, of the hearth contents 6 remaining in the bottom of the furnace, solidified pig iron, pig iron and iron ore. Even a high-hardness solidified material mixed and solidified is a heavy product that reaches several hundred tons to several hundred tons.
Therefore, when cutting, it is preferable to take the cutting form shown in FIGS.

FIG. 4 is a schematic diagram showing an example of cutting the blast furnace bottom 5 with a wire saw. In the figure, reference numeral 13 denotes a wire with diamond beads (so-called wire saw). In the present invention, the wire saw 13 is a blast furnace bottom iron skin or blast furnace at a lower level than the hearth contents 6 of the blast furnace bottom 5. It is attached so as to surround the position of the bottom of the furnace bottom including a part of the foundation 8 and the wire 13 is guided by the guide sheep 14 while the rotating disk 15 is rotated by the drive unit 16 so that the wire saw 13 is moved in the axial direction. By moving, the iron shell of the blast furnace bottom 5 and the furnace bottom refractory are cut. As the cutting is performed, the entire drive unit (14, 15, 16) is moved back on the track 17 in the direction of the arrow in the figure, thereby cutting the wire saw 13 while adjusting the tension.
In the drawing, a wire saw 13a indicated by a solid line shows a state in which cutting has partially progressed, and a hatched portion is an uncut region. Further, the outer periphery of the hatched portion is a cutting completion surface 18.

In the above-described cutting mode, when the guide in the horizontal plane of the wire saw that surrounds the lower part of the core of the blast furnace bottom 5 or the outer peripheral surface of the core is difficult with only the guide sheep 14, the following cutting mode is used. It is preferable to take.
That is, core boring is performed at a cutting position to be cut horizontally, a wire saw is passed through the core boring holes, and the core boring holes are sequentially cut, and finally, the bottom 5 and the base 8 of the blast furnace Is a method of separating.

FIG. 5 shows an example thereof, FIG. 5 (a) is a plan view, and FIG. 5 (b) is a cross-sectional view.
In FIG. 5, a plurality of core borings are performed at the planned cutting level of the blast furnace base 8. This figure shows an example in which five core boring holes 30 are provided, and 31 is a cutting line in the vertical direction (depth direction) by the wire saw described in FIG. In the horizontal cutting, the adjacent core boring holes 30 are sequentially cut through the wire saw 13 through the core boring holes 30. This horizontal cutting line is indicated by numeral 32 in FIG. Such cutting may be performed by sequentially repeating using a single cutting device or may be performed simultaneously using a plurality of cutting devices.
In this manner, the base 8 at the bottom of the furnace bottom 5 is cut horizontally and separated from the base 8 of the blast furnace. That is, in the example of FIG. 5, the cutting line is a cutting line 31 that has been cut in the depth direction until it meets the planned cutting level, and a horizontal cutting line 32 that cuts between the core boring hole 30 and the core boring hole 30. The base 8 is separated from the base 8 by cutting a part 8 a of the base 8 from the base 8.

In the present invention, as shown in FIG. 6, the core boring hole 30 and the cutting line 32 can be cut while being filled with powder. In addition, the cutting can be progressed by inserting a spacer.
FIG. 6 is a schematic view showing a state of cutting the lower portion of the furnace bottom part 5 from the side, but as the cutting by the wire saw 13 proceeds, the cutting space 19 (the horizontal cutting line 32 and the core boring hole 30). ) Occurs. The cutting space 19 is filled with spacers or powder 20 to proceed with the cutting, and this filled powder 20 maintains the state of the cut blast furnace bottom 5 and allows the above cutting to proceed smoothly. When the cutting is completed, the blast furnace bottom 5 is prevented from falling.
In such cutting, only one of the core boring hole 30 and the cutting line 32 in the cutting space 19 may be filled with the spacer or the powder 20, or both the cutting line 32 and the core boring hole 30 may be filled with the spacer or the powder. The body 20 may be filled. In short, it is only necessary that the cutting proceeds smoothly and that the blast furnace bottom 5 can be prevented or reduced when the cutting is completed. In addition, what is necessary is just to arrange | position suitably if a spacer is used, and what is necessary is just to fill sequentially if it is a powder.

After the completion of the cutting and separation between the furnace bottom 5 and the foundation 8, the upper surface of the furnace bottom 5 is cut and separated from the blast furnace body in advance, and can be slid in the extraction direction 10. When the spacer or the powder 20 exists on the lower surface of the cut furnace bottom 5, the spacer or the powder 20 assists in the slide in the extraction direction 10.
In addition, by using the powder 20 filling space (cutting space 19), it is also possible to insert and remove the sliding equipment of the furnace bottom portion 5. In addition, if a spacer is used, the space for the slide can be inserted and extracted using the space.

Further, in the present invention, the cutting level of the blast furnace bottom portion is set to a level lower than the cooling pipe group of the blast furnace bottom cooling device that constitutes the lowest layer of the blast furnace bottom, so that all elements constituting the blast furnace bottom portion are set. It can be removed at the same time.
An example is shown in FIG. 21 shows a cooling pipe group of the blast furnace bottom cooling device, and shows a state cut at a position below the cooling pipe group 21 of the blast furnace bottom cooling device, and the cutting is performed in the depth direction to the planned cutting level. A part 8 a of the foundation 8 is cut from the foundation 8 by the horizontal cutting line 32 that cuts between the completed cutting line 31, the core boring hole 30, and the core boring hole 30, and is separated from the foundation 8. In the figure, reference numeral 27 denotes an anchor bolt that has fixed the blast furnace body on the foundation 8, and this also shows a state in which cutting has been completed as a part 8 a of the blast furnace foundation 8. If cutting is completed in this state, all elements constituting the blast furnace bottom portion can be removed. The hearth contents 6 remain in the blast furnace bottom 5 of the blast furnace after cutting, and the whole furnace bottom 5 is removed from the blast furnace foundation 8.

Moreover, the furnace bottom part 5 can also be lifted and extracted.
That is, the bottom 5 to be removed contains the hearth contents 6 remaining in the bottom of the blast furnace and is heavy. In the newly installed furnace body, it is necessary to lift the furnace body in consideration of the occurrence of deformation and distortion, but in the case of dismantling and removal, consideration is given to prevention of deformation and prevention of distortion during lifting. There is no need to pay. Therefore, when it is necessary to lift, as shown in FIGS. 7 (a) and 7 (b), a reinforcing beam (for example, an H-shaped steel beam 22 and a reinforcing 23) is attached to the iron shell portion of the furnace bottom portion 5. It is possible to perform operations such as welding and raising and lowering the furnace bottom 5 with a hydraulic cylinder (not shown) with the reinforcing beam as a support surface. For example, the cut furnace bottom 5 is lifted through the reinforcing beams 22 and 23, and a furnace bottom slide equipment such as a chill tank (trade name: Chill Corporation) is placed in the space between the bottom surface of the furnace bottom 5 and the blast furnace base 8 generated by the lifting. Manufactured), a sliding slider, an air slider, or the like can be inserted and extracted.
When cutting the entire foundation 8a around the blast furnace, the periphery of the foundation 8a remaining on the furnace bottom 5 side may be reinforced and lifted from the reinforced portion.

FIG. 7B shows a state in which the bottom 5 of the blast furnace is lifted after the cutting is completed. The bottom 5 of the blast furnace is lifted by a hydraulic cylinder together with a part 8a of the cut base, and the gap h generated by the lifting is shown. In this example, the chill tank 33 is inserted and the furnace body can be extracted.
As an example, the chill tank 33 is composed of a top plate 34, rollers 35 constituting an endless track, and a floor plate 36. In the illustrated example, the chill tank 33 is arranged in three rows so that a load can be carried in the depth direction in the figure. Shows the case. The chill tank 33 is inserted into the gap h generated by the lifting, and then the furnace bottom 5 is lowered and mounted on the chill tank 33. Next, by extracting the furnace bottom 5 mounted on the chill tank 33, the furnace bottom 5 together with the hearth contents 6 can be moved to the side from the blast furnace base 8.

  At the time of blast furnace refurbishment at the time of blast furnace refurbishment, as described above, residual iron and residue that could not be completely discharged from the furnace remain in the hearth of several hundred to one hundred hundred tons. The advantage of the present invention is great. Further, even in the case of such a heavy load including the hearth contents, in the above example, it is possible to support and move by increasing the number of chill tanks 33 used.

Furthermore, the cutting depth of the cutting line 31 that cuts the connection with the blast furnace base 8 is made to coincide with the carry-out ground level in the direction in which the furnace body of the cut furnace bottom 5 is extracted, and the blast furnace bottom 5 remains inside the hearth. If it is made to remove from the blast furnace foundation while sliding the contents 6 sideways, the workability at the time of removal will further improve.
An example is shown in FIG.
Using the loading bridge 24 (height h ₂ ) of the furnace bottom 5 whose level is almost the same as the cutting level (height h ₁ ) of the blast furnace foundation 8, the blast furnace bottom 5 is moved from the blast furnace foundation 8 and mounted. The furnace bottom 5 is mounted on the frame 24. 25 is a sliding device (for example, a chill tank) for moving, that is, sliding, the furnace bottom 5. The furnace bottom 5 slides on the sliding device 25 in the direction of the arrow and is transferred to the mounting rack 24. An example is shown. Here, the cutting level is (height h ₁₎ substantially mounted crosslinked to the same level as 24 (height h _2), the height h ₂ of the mounting bridge 24, plus the height of the slide gear 25 It means to include height. When the height of the slide equipment 25 is low, the height h ₂ may be substantially the same as the height h ₁ . In short, it is only necessary that the furnace bottom 5 can be transferred from the foundation 8 to the mounting frame 24 side.
In addition, the drive device for the slide of this furnace bottom part 5 can utilize well-known apparatuses, such as a hydraulic moving apparatus used with a furnace body slide for the short-term renovation of a blast furnace. Further, the height level h ₁ of the cut surface of the blast furnace foundation 8 and the height level h ₂ of the mounting frame 24 may be substantially the same, and when a step is generated, as described with reference to FIG. The slide height can be adjusted by lifting it with a hydraulic cylinder or the like.

As shown in FIG. 8, by removing the furnace bottom 5 from the base 8 by sliding to the side, the removal can be performed with good workability. The mounting frame 24 is moved using the furnace body transport carriage 26.
As such a furnace body transport carriage 26, a carriage described in a publicly known document (Japanese Patent Laid-Open No. 2000-282116) can be used. The furnace body transporting carriage 26 includes a rectangular carriage main body having a flat upper surface, and a plurality of tire-type wheels filled with air are arranged at the lower portion of the carriage main body, and travels on the ground. There is a hydraulic lifting cylinder on the axle so that the main body of the carriage can be raised and lowered, and each wheel can be turned horizontally by adjusting the turning lever, so the adjustment of the traveling direction is also controlled. It is free. For this reason, a self-propelled type equipped with a driving device that enables forward and backward movement and a driven type that does not have a driving device are used in the longitudinal direction for the furnace body carriage. . Such a wheeled carriage is a truck called a unit dolly, etc., and not only can the length be adjusted by selecting the number of connected units, but it can also be used for a wide range by using in parallel. The transportable weight can be adjusted freely by increasing the number of units used.
Therefore, even the hearth bottom 5 where the hearth contents remain and become heavy can be transported.

FIG. 9 is a side view showing a state where the blast furnace bottom 5 is removed from the blast furnace base 8 and after the removal. FIG. 9 (a) shows a state where the furnace bottom 5 is moved from the blast furnace base 8 to the top of the mounting frame 24 having a height substantially equal to the height of the cutting line 32. Then, as shown in FIG. 9 (b), after the furnace bottom 5 is mounted on the mounting frame 24, the furnace bottom 5 is mounted together with the mounting frame 24 at a necessary place on the mounting frame 24, for example, for dismantling the furnace body. Transport to local. After transporting to a predetermined location, as shown in FIG. 9 (c), the furnace body transport carriage 26 is withdrawn from the mounting frame 24, and then dismantling is performed on the ground for dismantling the furnace body with good workability.
In this way, in the present invention, the dismantling of the blast furnace bottom 5 can be performed separately from the dismantling of other furnace bodies on the blast furnace foundation, so workability is high, and the dismantling work here is a repair period. Will not affect. The cut foundation portion 8a is preferably removed when the furnace bottom 5 is mounted on the loading bridge 24. In the example of FIG. 9, only a part 8a of the foundation directly below the furnace bottom 5 is removed. As shown.

It is a figure which shows the dismantling procedure of the blast furnace after blowing up. It is a top view which shows the range at the time of cut | disconnecting the foundation around the iron skin of a blast furnace bottom part. It is a top view which shows the range at the time of dismantling the foundation around the iron skin of a blast furnace bottom. It is a top view which shows the state which cut | disconnects a blast furnace bottom part with a wire saw in a horizontal direction. FIG. 2 is a plan view (a) and a cross-sectional view (b) showing a state in which the bottom portion of the blast furnace furnace is cut in the horizontal direction. It is sectional drawing which shows the state which cut | disconnects a blast furnace bottom part in a horizontal direction. It is sectional drawing which shows the state (a) which cut | disconnected the part containing the furnace bottom cooling device of a blast furnace furnace bottom part, and the state (b) which lifted the furnace bottom part of cutting completion. It is a side view which shows the state which removes a blast furnace bottom part from the foundation of a blast furnace. It is a side view which shows the state after the removal from the blast furnace foundation of a blast furnace bottom part, and removal.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Furnace rod 2 Lift jack 3 Top mantel 4 Blast furnace 5 Blast furnace bottom part 6 Hearth contents 7 Upper furnace body 7a Other furnace bodies 8 Blast furnace base 9 Work floor
10 Removal direction of the bottom of the furnace
11a, 11b, 11c Cutting position
12 Hatching range
13, 13a Wire saw
14 Guide sheep
15 rotating disk
16 Drive unit
17 orbit
18 Cutting completed surface
19 Cutting space
20 powder
21 Cooling piping group
22 Beam
23 Beam reinforcement
24 Mounted frame
25 Slide equipment
26 Furnace transport cart
27 Anchor bolt
30 Core boring hole
31 Cutting line
32 cutting line
33 Chill tank
34 Top plate
35 Laura
36 flooring

Claims (5)

  The furnace body of the blast furnace after being blown up is divided into a plurality of blocks in the height direction, and when the bottom block of the blast furnace is dismantled and removed in units of divided blocks, it remains at the bottom of the blast furnace furnace after being blown down. The blast furnace furnace body is horizontally cut at a level higher than the contents of the hearth to be suspended, and the upper furnace body above the cutting level is suspended using the furnace body support means installed in the furnace body and at the bottom of the blast furnace furnace Cut the blast furnace body horizontally at a level lower than the remaining hearth contents, cut off the connection between the blast furnace bottom and the blast furnace base, and then block the bottom of the blast furnace together with the contents remaining in the blast furnace bottom. A method of dismantling the bottom of the blast furnace furnace, characterized in that the blast furnace is extracted sideways.   The cutting level at the bottom of the blast furnace bottom where the connection with the blast furnace foundation is cut is set to a level lower than the upper surface of the blast furnace foundation, and at least deeper than the periphery of the iron core at the bottom of the blast furnace, It cuts in the vertical direction and cuts the connection between the blast furnace bottom and the blast furnace foundation together with a part of the blast furnace foundation, and then the furnace bottom block is pulled out to the side together with a part of the cut blast furnace foundation. The method for dismantling the bottom of the blast furnace furnace according to claim 1.   The cutting level of the blast furnace bottom that cuts off the connection with the blast furnace base is set to a level lower than the cooling pipe group of the blast furnace bottom cooling device that constitutes the lowest layer of the blast furnace bottom, and the side of the furnace bottom block is extracted. The method for disassembling a blast furnace bottom according to claim 1 or 2, wherein the blast furnace bottom cooling device is also extracted.   The blast furnace bottom portion according to any one of claims 1 to 3, wherein a cutting level of the bottom portion of the blast furnace furnace that cuts off the connection with the blast furnace base portion is made to coincide with a carry-out ground level in a direction of pulling out the cut furnace body. Dismantling method.   The method of disassembling a blast furnace bottom according to any one of claims 1 to 4, wherein the blast furnace bottom is cut while mounting a filler in the space after cutting.

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