KR101696116B1 - Removing apparatus for monolithic refractory and Removing method for monolithic refractory using the same - Google Patents

Abstract

The present invention relates to a device to remove a refractory in a blast furnace and a method to remove a refractory in a blast furnace by using the same. According to an advisable embodiment of the present invention, the device includes: a main shaft inserted into a cooling hole of a furnace shell to be rotated; an operating shaft inserted into the main shaft to be moved, and including a hooking step exposed outside the main shaft; a removal unit installed in the main shaft to face the hooking step to remove a refractory; and an insertion control unit installed outside the main shaft to control the depth of the insertion of the main shaft into the cooling hole. The removal unit includes: a removal member connected to be rotated on the main shaft, and placed on the outside of the main shaft and the inside of the hooking step; and a sintered tip installed in the removal member to remove the refractory. As such, when the operating shaft is inserted into the main shaft, the hooking step pushes and unfolds the removal member to make the sintered tip face the refractory. The hooking step is placed more ahead than the removal member and the main shaft in the cooling hole in order to pressurize the removal member in a direction to the mouth of the cooling hole.

Description

TECHNICAL FIELD The present invention relates to a refractory removal apparatus for refractory materials,

The present invention relates to an apparatus for removing internal refractories of blast furnaces and a method for removing internal refractories of blast furnaces using the same.

First, as shown in FIG. 1, a conventional blast furnace 10 is formed by charging a charge consisting of coke as fuel and iron ore as raw material from the top and blowing hot air through a tuyere (not shown) to melt the charge It is a facility to produce charcoal.

Since not only fine coal but also hot air and gas are continuously supplied through the tuyere (not shown) of the blast furnace 10, the blast furnace 11 of the blast furnace 10 is exposed to the continuous high temperature environment and is liable to be damaged by heat.

The cooling of the blast furnace 11 may be performed by a stave 14 including a cooling line 13 through which cooling water flows. The stave 14 is disposed inside the blast furnace 11 and the cooling of the fan 11 can be performed by the plurality of staves 14. [

Specifically, the cooling of the iron foil 11 can be performed by the unit stub 20 as shown in Fig. That is, a cooling line 13 passing through one stave 14 having a predetermined size and a refractory 12 having a predetermined size disposed outside the stave 14 form a unit stave 20 can do. The unit stub 20 may be coupled to the foil 11 by a bolt 15.

However, when the unit stub 20 needs to be replaced due to heat loss or abrasion, a method of partially cutting the scallop 11 and replacing the stove 14 after removing the refractory 12 is common.

However, in such a method, since the blast-resistant sheet 11 must be cut, cracks often occur in the blast-resistant sheet 11 or cracks often occur. Therefore, such a replacement operation of the stave causes a secondary damage to the blast furnace 11.

The purpose of the present invention is to replace the stave in the blast furnace without damaging the blast furnace.

Another object of the present invention is to reduce the cost and time of the blast furnace replacement work.

In addition, the object of the present invention is to extend the service life of the blast furnace and to contribute to the improvement of productivity.

The present invention relates to an apparatus for removing internal refractories of blast furnaces and a method for removing internal refractories of blast furnaces using the same.

A refractory internal refractory removing apparatus according to a preferred embodiment of the present invention includes a main shaft inserted into a hole for cooling a blast furnace and provided for rotation, a main shaft inserted into the main shaft for movement, A driving shaft including a locking protrusion that is exposed to the outside of the main shaft; a removal means installed on the main shaft to face the locking protrusion to remove the refractory; And insertion adjusting means provided at an outer periphery of the main shaft for adjusting a depth at which the main shaft is inserted into the cooling hole, wherein the removing means is connected to be rotatably connected to the main shaft, A removing member disposed between the inside of the jaw and the outside of the main shaft; And a cemented carbide tip provided on the removal member to remove the refractory. When the drive shaft is inserted into the main shaft, the cage protrudes the removal member so that the cemented carbide tip faces the refractory And the latching jaw may be provided at the tip of the main shaft and the removal member inside the cooling hole so as to press the removal member toward the entrance of the cooling hole.

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More preferably, a plurality of the removing members are provided in the circumferential direction of the main shaft, and one side contacting the engaging jaw may be rounded.

More preferably, the insertion adjusting means comprises: a screw member provided on the outer periphery of the main shaft and including a thread; And a handle member provided on the outer side of the blind hole and having a screw groove engaged with a thread of the screw member, wherein the main shaft is inserted into the cooling hole by rotation of the handle member, Lt; / RTI >

And stopper means provided between the inner side of the main shaft and the outer side of the drive shaft for limiting the moving distance of the drive shaft within the main shaft, An inner groove formed concavely on the inner side of the shaft; And a stopper member protruding from the outside of the drive shaft and inserted in the inner groove and moving along the inner groove.

The fixing means may include a hollow portion, and may be inserted into a hole for cooling the blast furnace, and the fixing means may be inserted into the hole for cooling the blast furnace, And a head unit connected to the body and exposed to the outside of the blast furnace iron, wherein the fixing member can contact the handle member from the outside of the blast furnace.

According to another aspect of the present invention, there is provided a refractory internal refractory removal method using the refractory internal refractory removal apparatus.

A method for removing refractory internal refractory according to the present invention includes the steps of: inserting the main shaft into a hole for cooling a molten iron; moving the driving shaft within the blast furnace to expand the removing means; A third step of rotating the main shaft to remove refractory material; And a fourth step of rotating the handle member to partially draw the main shaft from the cooling hole.

Preferably, the fourth step may rotate the handle member to bring the removing means into contact with the refractory.

According to the present invention, the life of the blast furnace is prolonged and the productivity is improved.

In addition, there is an effect that it is possible to contribute to the cost reduction by reducing the cost consumed for the maintenance of the blast furnace.

Further, the time required for the blast furnace maintenance work can be shortened.

Fig. 1 schematically shows a conventional blast furnace.
Figure 2 schematically shows a blast furnace cooling stave.
Figure 3 schematically shows a blast-furnace cooling stave.
4 is a partial cross-sectional view of a refractory internal refractory removing apparatus according to the present invention.
5 is a partial cross-sectional view of an apparatus for removing refractory internal refractories according to the present invention.
6 is a partial cross-sectional view of an apparatus for removing refractory internal refractories according to the present invention.
7 is I-I 'in Fig.
8 is an operational state view of a refractory internal refractory removing apparatus according to the present invention.
9 is an operational state view of the refractory internal refractory removing apparatus according to the present invention.

In order to facilitate an understanding of the description of the embodiments of the present invention, elements denoted by the same reference numerals in the accompanying drawings are the same element, and among the constituent elements that perform the same function in each embodiment, Respectively.

Further, in order to clarify the gist of the present invention, a description of elements and techniques well known in the prior art will be omitted, and the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood, however, that the spirit and scope of the present invention are not limited to the embodiments shown, but may be suggested by those skilled in the art in other forms, additions, or alternatives, .

On the other hand, the furnace described below means an ordinary means for heating and accommodating a heating object such as an electric furnace or a heating furnace used in an industrial field. However, in the following, the furnace will be referred to as a blast furnace for the sake of brevity and clarity.

The stove 14 shown in Fig. 2 is a cooling system for protecting the scraps 11 from a high-temperature environment. Inside the stove 14, a cooling line 13 passing through the blast furnace 11 is provided, do.

The front surface of the stave 14 is provided with a recessed portion (not shown), and the recessed portion is provided with a refractory 12.

However, the charge charged inside the blast furnace repeats direct contact with the entire surface of the stave 14 including the refractory 12 inside the blast furnace, thereby damaging the stave 14 inevitably.

When the stave 14 is damaged, the blast furnace cooling system is seriously damaged, and the cooling function is remarkably deteriorated, thereby causing thermal damage to the blast furnace itself.

In this case, the entire damaged blast furnace must be replaced, or partial replacement must be performed. Therefore, the replacement of the blast furnace is costly and the productivity is deteriorated due to the inevitable hibernation during the replacement operation.

3, the present invention is characterized in that the cooling holes (13 in FIG. 2) are formed in the refractory 12 and the blast-pipe 11 using the cooling holes 16, The refractory 12 is removed.

As a result, it is possible to easily perform replacement work of the stave (14 in Fig. 2) existing inside the refractory 12, to reduce the cost consumed in the replacement work, and to improve the productivity by shortening the time do.

As shown in FIG. 4, the refractory internal refractory removing apparatus according to a preferred embodiment of the present invention includes a main shaft 110 inserted into a cooling hole (16 in FIG. 3) of a blast furnace 11, The driving shaft 120 includes a driving shaft 120 and a driving shaft 120. The driving shaft 120 includes an engaging protrusion 121 that is inserted into the inside of the main shaft 110 and is exposed to the outside of the main shaft 110 at an end thereof. A removal means for removing the refractory 12 provided on the main shaft 110 and a removal means provided on the outer circumference of the main shaft 110 so that the main shaft 110 is inserted into the cooling hole 16 And insertion adjustment means 140 for adjusting the depth.

When the driving shaft 120 is inserted into the main shaft 110, when the engaging jaw 121 pushes the removing means, the removing means is unfolded, and the unfolding means unfolds to the refractory 12 To remove the refractory (12).

Preferably, the main shaft 110 and the drive shaft 120 are fitted into the cooling hole (16 in Fig. 3) of the iron foil 11 by inserting the main shaft 110 into the fixing member 170, It is possible to more firmly support the cooling hole and to prevent damage to the cooling hole.

The fixing member 170 may include a body portion having a hollow portion and inserted into the cooling hole of the blasted fiber 11 and a head portion connected to the body and exposed to the outside of the blast furnace body, And may be provided so as to be caught by the foil 11. The head portion may be provided to be in contact with the inside of the handle member 142 from the outside of the blast-

A driving shaft 120 is provided in the main shaft 110 fitted to the fixing member 170 in this manner and the driving shaft 120 is provided to be movable in the longitudinal direction of the main shaft 110.

The driving shaft 120 is provided with a stopping protrusion 121 and a removing member 131 may be provided in a space between the inside of the stopping protrusion 121 and the end of the main shaft 110 .

The removal member 131 is configured to remove the refractory 12. The removal member 131 has a structure in which the main shaft 110 is inserted into the cooling hole 16 in FIG. So that it can be inserted into the inside of the foil 11 without interfering with the cooling hole (16 in Fig. 3).

The drive shaft 120 is pulled by the user in the direction of the blast furnace 11 after the main shaft 110 is inserted into the cooling hole 16 in FIG. And can move in the longitudinal direction of the main shaft.

At this time, stopper means 150 may be provided on the inner side of the main shaft 110 and the outer side of the drive shaft 120 in order to limit the distance that the drive shaft 120 moves within the main shaft 110 have.

When the user completes the movement of the driving shaft 120 in the main shaft 110, the user can fasten the fastening bolt 160 from the outside of the main shaft 110, and the end of the fastening bolt 160 The driving shaft 120 can be fixed within the main shaft 110 by contacting the outer periphery of the driving shaft 120. [

To this end, it is a matter of course that an insertion hole into which the tightening bolt 160 can be inserted is provided outside the main shaft 110. Inside the insertion hole, a screw groove (Not shown), the fastening bolt 160 can be more easily fastened.

When the driving shaft 120 is pulled in the main shaft 110, the engaging protrusion 121 provided at the end of the driving shaft 120 moves toward the blast furnace 11 and the engaging protrusion 121 is removed The member 131 is pushed, and the removing member 131 faces the refractory 12 while being unfolded.

The removal member 131 may have a plurality of carbide tips 132 on one side and the carbide tips 132 may directly contact the refractory 12 to remove the refractory 12.

The removal member 131 may be provided at a plurality of end portions of the main shaft 110 in the circumferential direction of the main shaft 110. Here, the number of the removing members 131 and the cemented carbide tips 132 is not limited to the present invention, but may be appropriately changed by those skilled in the art.

The removing member 131, which is pushed by the latching jaws 121, can be pivotally coupled at the end of the main shaft 110 to enable such movement, and details thereof will be described later.

The removal member 131 may be easily pushed and unfolded so that the removal member 131 contacting the inner surface of the engagement protrusion 121 can be more easily pushed and unfolded when the engagement protrusion 121 is pulled in the direction of the metal foil 11, And one side contacting the contact portion 121 may be provided as a round portion 133.

The stopper means 150 for limiting the moving distance of the driving shaft 120 moving in the main shaft 110 includes an inner groove 151 provided inside the main shaft, And a stopper member 152 protruding from the outer side of the inner groove 151 and inserted into the inner groove 151.

Therefore, the driving shaft 120 can move within the main shaft 110 by the length of the inner groove 151, and the length of the inner groove 151 can be adjusted according to the thickness of the refractory 12, And the like.

6, when the stopper member 152 provided on the drive shaft 120 reaches the end of the inner groove 151, the movement of the drive shaft 120 is restricted. At this time, the length of the inner groove 151 is set such that the removing member 131 provided at the end of the main shaft 110 is completely opened so that the carbide tip 132 faces the refractory 12, It is desirable that the length of the driving shaft 120 is designed to be such that the movement of the driving shaft 120 can be restricted when the driving shaft 120 reaches a position that forms a right angle with the shaft 110.

On the other hand, Fig. 7 shows I-I 'of Fig.

Referring to FIG. 6, a driving shaft (120 in FIG. 6) may be inserted into the hollow portion 111 formed in the longitudinal direction of the main shaft 110. A plurality of removing members 131 having a cemented carbide tip 132 may be disposed in the circumferential direction of the main shaft 110 at the end of the main shaft 110.

The removal member 131 may be coupled to the main shaft 110 by a coupling bolt 30 so that the removal bolt 30 Can be made loose fitting. However, this is a preferred embodiment of the present invention, and the method of coupling and rotating the removing member 131 is not limited to the present invention.

4 to 6, the insertion adjusting means 140 adjusts the depth of insertion of the main shaft 110 into the blast-pipe 11.

The insert adjusting means 140 is provided on the outer circumference of the main shaft 110 and includes a screw member 141 provided in the longitudinal direction of the main shaft 110 and a screw member 141 provided in the screw member 141, And a handle member 142 having a thread groove corresponding to the inner circumferential surface.

A handle 143 may be provided on the outer periphery of the handle member 142 so that the operator can rotate the handle member 142 by holding the handle 143 and rotate the handle member 142 The main shaft 110 is further inserted into the inside of the scallop 11 or drawn out to the outside of the scallop 11 by a screw thread provided on the inner circumferential surface of the screw member 141 and a thread provided on the outer circumferential surface of the screw member 141 . This can be adjusted by adjusting the direction of rotation of the handle member 142.

Hereinafter, a refractory internal refractory removing method using the apparatus for removing refractory internal refractories according to a preferred embodiment of the present invention will be described with reference to FIGS. 8 and 9.

The removal of the refractory material according to the present invention is performed by first pulling the drive shaft 120 until the removal member 131 is fully opened to form a right angle with the main shaft 110 until the carbide tip 132 faces the refractory 12, The fastening bolt 160 is inserted outside the main shaft 110 to limit the movement of the drive shaft 120 in the main shaft 110 and then the rotary drill 200 is mounted on the end of the main shaft 110. [ .

That is, the first step of inserting the main shaft 110 into the cooling holes of the blast furnace 11, the first step of moving the drive shaft 120 inside the blast furnace slab, and the drive shaft 120 to the blast furnace 11 A second step of bringing the cemented carbide tip 132 into contact with the refractory 12 by spreading the removing member 131 by pulling the cemented carbide tip 132 in the direction of the axis of the main shaft 110; A third step of rotating the shaft 110 to rotate the removing member 131 and the carbide tip 132 in the circumferential direction of the main shaft 110 to remove the refractory 12, And a fourth step of partially drawing the main shaft 110 in the direction of the blast furnace 11 by partially rotating the main shaft 110 by rotating the main shaft 142.

Preferably, the fourth step is to rotate the handle member 142 to bring the removing member 131 and the carbide tip 132 into contact with the refractory 12.

The reason why the main shaft 110 is partially drawn out in the direction of the blast furnace 11 by rotating the handle member 142 is that all the refractory 12 is removed from the carbide tip 132 and the refractory tip 132 is no longer refractory The carbide tip 132 can be brought into contact with the new refractory 12 again by partially pulling the main shaft 110 toward the blast furnace 11.

The removing member 131 is fully opened to form a right angle with the main shaft 110 to pull the driving shaft 120 until the carbide tip 132 faces the refractory 12, And the movement of the drive shaft 120 is restricted within the main shaft 110 by inserting the tightening bolts 160 from the outside.

The movement of the removal member 131 and the cemented carbide tip 132 may be controlled by using the screw provided in the screw member 141 and the pitch of the screw groove provided in the handle member 142 , And to determine the position.

For example, when the handle member 142 is rotated once, the position of the removing member 131 and the carbide tip 132 can be grasped by a method in which the main shaft 110 is rotated by 180 degrees in the circumferential direction .

Accordingly, it is possible to easily grasp how much the current refractory 12 is removed relative to the thickness of the initial refractory 12 without inserting a separate device into the inside of the refractory 11.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It will be apparent to those of ordinary skill in the art.

10: Blast Furnace 11: Wicked
12: refractory 13: cooling line
14: Stave 15: Bolt
30: coupling bolt 16: cooling hole
110: main shaft 120: drive shaft
121: latching jaw 131: removal member
132: carbide tip 133: round section
140: insertion adjusting means 141: screw member
142: handle member 143: handle
150: stopper means 151: inner groove
152: stopper member 160: tightening bolt
170: fixing member 200: rotary drill

Claims (8)

A main shaft inserted into the cooling hole of the blast furnace and provided for rotation;
A drive shaft inserted into the main shaft to move and including an engagement protrusion at an end thereof exposed to the outside of the main shaft;
Removing means installed on the main shaft so as to face the engaging jaw to remove refractory material; And
And insertion adjusting means provided on an outer periphery of the main shaft to adjust a depth of insertion of the main shaft into the cooling hole,
Wherein the removing means comprises:
A removing member connected to the main shaft to be rotationally moved and disposed between an inner side of the engaging jaw and an outer side of the main shaft; And
And a cemented carbide tip provided on the removal member to remove the refractory. When the drive shaft is inserted into the main shaft, the cage protrudes the removal member so that the cemented carbide tip faces the refractory ≪ / RTI &
Wherein the engaging jaw is provided at the tip of the main shaft and the removing member inside the cooling hole so as to press the removing member in the direction of the inlet of the cooling hole.
delete The method according to claim 1,
The removal member
Wherein a plurality of the main shafts are provided in a circumferential direction of the main shaft, and one side contacting the engaging jaw is rounded.
The method of claim 3,
Wherein the insertion adjusting means comprises:
A screw member provided on an outer periphery of the main shaft and including a screw thread; And
And a handle member provided on the outside of the blind hole, the screw member having a thread groove engaged with a thread of the screw member,
Wherein the main shaft is inserted into the cooling hole or drawn out from the cooling hole by rotation of the handle member.
5. The method of claim 4,
And stopper means provided between an inner side of the main shaft and an outer side of the drive shaft for limiting a moving distance of the drive shaft within the main shaft,
The stopper means,
An inner groove recessed inside the main shaft; And
And a stopper member protruding from the outside of the drive shaft and inserted into the inner groove and moving along the inner groove.
5. The method of claim 4,
And fixing means inserted and fixed in the cooling hole of the steel blast furnace to insert the main shaft therein,
Wherein,
A fixing member having a hollow portion and having a body portion inserted into a hole for cooling the blast furnace body and a head portion connected to the body and exposed to the outside of the blast furnace body,
Wherein:
And the head portion contacts the handle member from the outside of the blast furnace.
A method for removing refractories provided between an iron core and a stove by an inner refractory removing device according to claim 5 or 6,
A first step of inserting the main shaft into a hole for cooling a molten iron;
A second step of moving the drive shaft inside the blast furnace to unfold the removing means and bring the removing means into contact with the refractory;
A third step of rotating the main shaft to remove refractory material; And
A fourth step of rotating the handle member to partially draw the main shaft from the cooling hole;
Wherein the refractory inner refractory material comprises a refractory material.
8. The method of claim 7,
In the fourth step,
Wherein the handle member is rotated to bring the removing means into contact with the refractory.

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