KR101287884B1 - Heatproof cover for protecting tap hole opener of blast furnace - Google Patents

Abstract

The heat exchanger of the furnace opening is easy to replace, improve the work efficiency and reduce the cost.
Furnace heat exchanger of the furnace of the present invention, the upper shatterproof portion 10; A lower scatter preventing portion 20 coupled to a lower end of the upper scatter preventing portion 10 and having a coupling hole 20a formed at a lower portion thereof; And a through hole 30a formed at a lower end thereof to allow the opening bar to pass therethrough, and a detachable scatter prevention unit 30 slidingly coupled to the coupling hole 20a.

Description

Furnace Opener Heat Sink {HEATPROOF COVER FOR PROTECTING TAP HOLE OPENER OF BLAST FURNACE}

The present invention relates to a heat exchanger for the furnace opening, and more particularly, to a heat sink that can protect the openings from the melt that is scattered during the opening of the furnace.

As shown in Fig. 1 and Fig. 2, generally, in the blast furnace, an opening A is installed in the exit port C formed in the blast furnace furnace wall F in order to discharge the melt inside the furnace. The bit 3 is provided in the opening bar B so that the tap opening C can be penetrated to A), and the drilling port C is penetrated and drilled.

In addition, during the excavation of the tap opening C, water and air and high pressure nitrogen are mixed at a predetermined ratio, and blown to discharge the excavated material to the outside, so that the excavation work proceeds with cooling.

When the bit 3 installed in the opening bar B penetrates the tap opening C in the excavation process for the tapping through the tap opening C, high temperature refractory is broken and scattered. Local erosion is generated around the bar (B), in order to protect the opening (A) from the high-temperature scattering (D) that is scattered, a heat sink (1) is installed at the tip of the opening (A), (A) is protected.

As shown in Figs. 3 and 4, the heat sink 1 for protecting the openings (see Figs. 1 and 2) is composed of a shell of the outer shell, the inside is composed of a castable refractory, and a considerable weight It has a structure, which is replaceably assembled at the tip of the opening, to protect the opening from the flying products scattered at the exit.

On the other hand, when the excavation of the exit port is completed, the melt in the blast furnace comes out of the gap formed between the bit 3 and the outgoing hole, and the melt is guided during the centering operation of the bit 3 installed in the opening bar until the opening is reversed. The heat sink 1 which protects the hook 5 directly strikes and contacts.

At this time, when the hot fly-product or the melt is intensively impacted on the heat sink 1 cooled by water, air or nitrogen gas at high pressure, the heat sink 1 made of refractory material is cracked, dropped and melted due to rapid expansion. As a result, there is a problem that the tip hook is easily melted to the hot melt during the opening work due to the expansion of the space of the bit 3 formed in the heat sink 1.

In order to solve this problem, the heat sink structure that can extend the life of the expensive end hook, and replace only the specific parts that have been forgotten appeared, Korean Patent Registration No.0302344 discloses a "heat radiation cover of the furnace opening" have.

The present invention relates to a separate heat dissipation cover for protecting the openings through the furnace and the exit port, and to replace only the central part where partial erosion occurs, and to reduce the local erosion by the fly ashes. Cover '.

However, such a heat dissipation cover is bolted to the local heat dissipation cover assembly plate, there is a problem that the work efficiency is lowered.

It should be understood that the foregoing description of the background art is merely for the purpose of promoting an understanding of the background of the present invention and is not to be construed as adhering to the prior art already known to those skilled in the art.

Korean Utility Model Registration No.0302344

In order to solve the above problems, the present invention has the object of providing a furnace opening plate heat exchanger having a simple assembly process as well as replaceable parts in which melt melts collide intensively during opening of the tap.

Furnace opening plate heat sink according to the present invention for achieving this object, the upper scattering prevention unit; A lower shatterproof unit coupled to a lower end of the upper shatterproof unit and having a coupling hole at a lower portion thereof; And a through hole formed at a lower end thereof so that the opening bar can pass therethrough, and a detachable scatter prevention part slidingly coupled to the coupling hole.

The detachable scatter prevention unit has an outer circumference having a larger diameter than the coupling hole, an inner circumference having a diameter smaller than the outer circumference, protruding from one surface of the outer circumference and slidingly coupled to the coupling hole, and a diameter at one side of the inner circumference. It includes a slot formed protruding in the direction, characterized in that the slot groove is provided in the lower shatterproof portion formed with the coupling hole so that the slot can be inserted.

One side of the inner circumferential part is fixed bar is rotatably coupled around the rotation axis, the lower shatterproof portion is characterized in that the locking bar is provided so that the fixing bar can be caught.

The lower shatterproof portion is characterized in that the stopper for protruding the fixed bar rotation protruding.

The present invention does not need to replace the entire heat sink for the heat sink due to the above-described technical configuration, and since only the damaged part can be replaced, the cost can be reduced, and only a part of the replacement work can be performed, thereby reducing the workload. There is this.

In addition, by reducing the weight of the heat sink to be replaced, there is an advantage that can prevent a safety accident, as well as shorten the replacement time.

1 is a view showing a state in which the opening machine is installed in the general furnace exit,
2 is a view showing a state of opening a tap hole using a conventional opening machine;
3 is a view showing the configuration of a conventional heat sink,
4 is a conventional heat sink installation configuration diagram,
5 is a configuration diagram of a heat sink for the blast furnace opening of the present invention,
Figure 6 is a rear view of the removable scatter prevention unit is an essential part of the present invention,
Figure 7 (a), (b) is a view showing the coupling state of the present invention from the front and rear, respectively.

Hereinafter, with reference to the accompanying drawings will be described a heat sink for the furnace opener according to a preferred embodiment of the present invention.

5 is a configuration diagram of the furnace heat sink of the blast furnace of the present invention, Figure 6 is a rear view of the detachable scattering prevention part that is the main part of the present invention, Figure 7 (a), (b) is a front view of the combined state of the present invention, respectively , Which is shown from the back.

As illustrated in FIGS. 5 and 6, the furnace opening air heat sink of the present invention includes an upper scattering prevention part 10, a lower scattering prevention part 20, and a detachable scattering prevention part 30. Compared with the conventional heat sink, the present invention has a three-stage structure that is easy to assemble and dismantle. Therefore, the replacement of the heat sink is easy, and only a part of the melted part can be replaced, thereby reducing the cost of replacing the heat sink.

The upper and lower ends of the upper shatterproof part 10 are coupled to the fixed support (S1, S2), respectively. The upper shatterproof portion 10 and the fixed support (S1, S2) can be combined by a variety of ways, it may be fixed by welding.

 The shatterproof portion is of a certain size and consists of a polyhedron shape made of a certain metal component. At both ends of the fixing support (S1, S2), it is preferable that a fixing hole (H) is provided to be bolted assembling with the fixing support (S3) to which the lower shatterproof portion 20 is fixed.

A coupling hole 20a is provided at the lower side of the lower scatter preventing portion 20. In addition, the fixing support (S3) is coupled to the upper end of the lower shatterproof prevention portion 20, the fixing is coupled to the upper shatterproof prevention portion 10 on the fixed support (S3) coupled to the lower shatterproof prevention portion (20). Support (S2) is put on, assembling the bolts to the fixing holes (H) provided on both side ends of each of the fixing support (S2, S3), and combines the upper fixing support and the lower fixing support.

Detachable scattering prevention unit 30 is provided with a through hole (30a) through the opening bar at the lower end thereof. The through hole 30a may be formed in various shapes, and may be manufactured as a '∩' type as a representative example. The detachable scattering prevention unit 30 is slidably coupled to the coupling hole 20a of the lower scattering preventing unit 20. When the melt is scattered and collided intensively, a melting loss is generated, the detachable scattering preventing unit 30 is formed. Only exchange is possible.

It is preferable that the detachable scatter prevention part 30 includes the outer peripheral part 32, the inner peripheral part 34, and the slot 34a.

The outer peripheral part 32 and the inner peripheral part 34 are each formed in disk shape. The diameter of the outer circumference portion 32 is larger than the diameter of the coupling hole 20a, and the diameter of the inner circumference portion 34 is smaller than the diameter of the outer circumference portion 32 and is the same as the diameter of the coupling hole 20a.

In particular, the inner circumferential portion 34 is formed to protrude from one surface of the outer circumferential portion 32. On one side of the outer circumferential surface of the inner circumferential portion 34, a slot 34a is formed to protrude in the radial direction of the inner circumferential portion 34.

In addition, a slot groove 20b is provided in the lower shatterproof portion 20 in which the coupling hole 20a is formed to correspond to the slot 34a.

According to this configuration, the inner peripheral portion 34 is inserted into the coupling groove, the outer peripheral portion 32 protrudes from the lower shatterproof portion 20. In addition, the slot 34a is slid into and inserted into the slot groove 20b so that the detachable scatter preventing portion 30 may be coupled to and supported by the lower scatter preventing portion 20.

On the other hand, the fixing bar is rotatably coupled around the rotation axis on one surface of the inner circumferential portion 34, and a locking hole 22 is provided in the lower shatterproof portion 20 so as to be able to engage when the fixing bar is rotated. The fixing bar functions to fix and support the detachable scatter prevention unit 30 to the lower scatter prevention unit 20 together with the slot 34a described above.

As the slot 34a is inserted into the slot groove 20b, the detachable scatter prevention portion 30 is supported by the lower scatter prevention portion 20, and this support force can be dispersed by catching the fixing bar by the catch 22. have. That is, since the reaction force applied to the slot 34a is distributed to the fixed bar, the effect of reducing the fatigue load of the slot 34a can be obtained.

Further, even if the fatigue load is repeatedly broken in the slot 34a, the detachable scatter prevention portion 30 having a heavy weight does not escape from the lower scatter prevention portion 20, and the lower scatter prevention portion 20 is still held by the fixing bar. It can be fixed to.

It is preferable that the stopper 24 protruding from the lower shatterproof part 20 to restrict the rotation of the fixing bar.

The stopper 24 serves to limit the rotation of the fixing bar when the locking bar is released from the locking hole 22.

7 (a) and 7 (b) are diagrams showing a coupling state of the furnace opening plate heat sink of the present invention.

The upper shatterproof part 10 and the lower shatterproof part 20 are disposed in the vertical direction, and the lower and upper ends thereof are coupled to each other through the fixing supports S2 and S3, and the removable shatterproof part 30 has a lower end. The slot 34a and the fixed bar are coupled to the slot groove 20b and the locking hole 22 so as to be disassembled, so that the slot 34a and the fixed bar are detachably attached to the detachable scatter prevention unit 30 by high temperature scattering. If a loss occurs, the exchange can be easily performed.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

10: upper shatterproof part 20: lower shatterproof part
20a: coupling hole 20b: slot groove
22: hanger 24: stopper
30: detachable scatter prevention part 32: outer peripheral part
34: inner circumference 34a: slot
40: fixed bar

Claims (4)

Upper shatterproof portion 10;
A lower scatter preventing portion 20 coupled to a lower end of the upper scatter preventing portion 10 and having a coupling hole 20a formed at a lower portion thereof; And
A through hole (30a) is formed at the lower end so that the opening bar can pass through, the removable scattering prevention portion 30 which is slidingly coupled to the coupling hole (20a); comprising a heat exchanger of the furnace opening.
The method according to claim 1,
The detachable scatter prevention unit 30 has an outer circumferential portion 32 having a diameter larger than that of the coupling hole 20a and a diameter smaller than the outer circumferential portion 32 but protrudes from one surface of the outer circumferential portion 32 so that the coupling hole is formed. An inner circumferential portion 34 slidingly coupled to the 20a, and a slot 34a protruding in the radial direction from one side of the inner circumferential portion 34,
The lower shatterproof part 20 in which the coupling hole 20a is formed is provided with a slot groove 20b so that the slot 34a can be inserted therein.
The method according to claim 2,
A fixing bar 40 is rotatably coupled to one surface of the inner circumferential portion 34 so as to be rotated about the rotation axis C, and the lower shatterproof part 20 is provided with a catching hole 22 to catch the fixing bar 40. Furnace open air heat sink, characterized in that provided.
The method according to claim 3,
The lower shatterproof portion 20 is characterized in that the stopper 24 is formed to protrude to limit the rotation of the fixed bar (40), furnace heat exchanger heat sink.

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