KR101477427B1 - Heat protection device of door for pollution control housing - Google Patents

Abstract

The present invention relates to a heat radiating curtain of a door for a pollution preventing housing comprising: a curtain part (20) installed in one side or both sides of two doors (13, 15) to open an entrance (11) of a pollution preventing housing (10) in a horizontal sliding method to shield at least one between a gap formed between the pollution preventing housing (10) and the doors (13, 15), and a gap formed between the door (13) and the opposing door (15); and a holder part (27) to fixate the curtain part (20) to the doors (13, 15). The present invention has the advantage of preventing gap leakage of the pollution preventing housing as the curtain part, manufactured with a structure wherein a ceramic wool, a metal fiber, and a stainless steel mesh are overlapped; completely shields a gap between the doors and a gap between the door and the pollution preventing housing.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heat-

The present invention relates to a heat radiation curtain of a door for a contamination prevention housing, and more particularly, to a heat radiation curtain of a door for a contamination prevention housing which is installed on a door of a pollution prevention housing of an electric furnace, .

The electric arc furnace is manufactured by dissolving and refining scrap iron using arc as a heat source. The molten steel produced in the electric furnace is introduced to the outside of the furnace, and the molten steel supplied is transferred to a subsequent process such as rolling or forging to be produced as a product.

This electric arc furnace operation is carried out in the pollution prevention housing to prevent heat loss and internal gas emission of the molten steel.

Prior art relating to an electric furnace is Korean Patent Registration No. 1205054 (registered on November 20, 2012, entitled: Electric Furnace).

SUMMARY OF THE INVENTION It is an object of the present invention to provide a heat radiation curtain of a door for a pollution control housing, which is installed in a door of a pollution prevention housing to prevent gas discharge occurring during operation of an electric furnace and minimize heat loss of the electric furnace.

According to an aspect of the present invention for achieving the above object, the present invention provides an air conditioner comprising: a door provided on one side or both sides of two doors for opening an entrance of a contamination preventing housing in a left- A gap formed between the door and the door, and a gap formed between the door and the door when the two doors are closed; and a holder for fixing the curtain to the door.

The curtain portion includes a first curtain plate folded in a U shape, a second curtain plate folded in a U shape to surround the outside of the first curtain plate, and a second curtain plate folded in a U shape to surround the outside of the second curtain plate And a third curtain plate which is in contact with the curtain portion of the door of the counterpart which is in contact with the door.

The first curtain plate is made of a ceramic wool material.

The second curtain plate is made of a metal fiber material.

The metal fiber material includes one of Fe, Cr and Al.

The third curtain plate is made of a stainless steel mesh material.

The curtains are divided into predetermined lengths to facilitate installation and disassembly in the door, and a plurality of curtain portions are connected to the door in a row.

The heat-radiating curtain of the present invention is a structure in which a ceramic wool, a metal fiber, and a stainless steel mesh are superimposed to completely block the gap between the door and the contamination preventing housing and the gap between the door and the door, thereby preventing cracking of the contamination preventing housing.

Therefore, harmful gas and dust leakage in the pollution prevention housing can be prevented, thereby preventing environmental deterioration of the steel plant and minimizing heat loss in the electric furnace, thereby effectively operating the electric furnace.

In addition, since a plurality of heat-radiating curtains according to the present invention are installed on the doors to perform a gap-shielding function, installation and replacement of the heat-radiating curtains is easy, and costs and parts for replacement are reduced.

1 is a view showing a state in which two doors are shielding the entrance of the contamination preventing housing.
Fig. 2 is a view showing a state in which two doors are opened at the entrance of the contamination prevention housing, and a heat radiation curtain of the door for the contamination prevention housing of the present invention is installed in the two doors.
Figure 3 is a side view of portion A of Figure 2;
4 is a partially enlarged view of Fig.
5 is a partially enlarged view showing a state in which a heat-radiating curtain is fixed to a contamination preventing housing according to another embodiment of the present invention.

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

1 and 2, the heat insulating curtain of the door for the contamination preventing housing of the present invention comprises two doors 13 and 15 for opening the entry opening 11 of the contamination preventing housing 10 in the left and right sliding manner A curtain formed on one side or both sides and shielding at least one of a gap formed between the contamination preventing housing 10 and the doors 13 and 15 and a gap formed between the door 13 and the door 15 20, and a holder portion 27 for fixing the curtain portion 20 to the doors 13, 15.

The pollution prevention housing (10) is charged with a facility material for charging scrap and an alloy into the electric furnace and electric furnace inside. The pollution prevention housing 10 is installed to prevent the heat loss by insulating the molten steel in the electric furnace and to prevent the external harmful gas from flowing out.

The contamination prevention housing 10 may be provided with a charging / discharging device for charging the facility material to the inside of the pollution prevention housing 10 or for extracting the facility material charged inside the pollution prevention housing 10 to the outside .

The doors 13 and 15 are installed at the entrance 11 of the pollution prevention housing 10 and can open and close the entrance 11 in a left and right sliding manner by a motor not shown.

The door (13, 15) is provided with two openable and closable sliding doors (11) of the contamination preventing housing (10) so as to open and close the entrance (11) while moving left and right in a way that the two doors are separated or close to each other.

The doors 13 and 15 are made of iron to prevent the heat inside the contamination preventing housing 10 from escaping to the outside and the inside of the iron is made of refractory or the like, A heat-insulating curtain is installed to prevent heat loss of the electric furnace.

The contamination preventing housing 10 is provided with a door 13 and a door 13 which are in contact with each other in a closed state between the contamination preventing housing 10 and the doors 13 and 15 due to the left and right sliding doors 13 and 15, And the door 15 are formed.

These gaps leak gas and dust generated in the electric furnace to the outside to deteriorate the environment in the steel mill and lead to the heat loss of the electric furnace due to external air intrusion. The heat loss in the electric furnace may decrease the quality of the molten steel as well as increase the cost of manufacturing the molten steel.

The heat-radiating curtain includes a curtain portion (20) and a holder portion (27).

The curtain portion 20 includes a U-shaped first curtain plate 21, a U-shaped second curtain plate 23 to surround the first curtain plate 21, And a third curtain plate 25 folded in a U shape so as to surround the outside of the first curtain plate 23.

The curtain portion 20 is formed by superimposing a U-shaped first curtain plate 21, a second curtain plate 23 and a third curtain plate 25 in a superposed state, And is fixed to the doors (13, 15) using the holder portion (27).

The curtain portion 20 of the door 15 is in contact with the front surface of the contamination preventing housing 10 so that the lower end portion of the third curtain plate 25 is in contact with the front surface of the contamination preventing housing 10, Or the curtain portion 20 of the opposite door 13 so as to shield the gap between the doors 13 and 15 and the doors 13 and 15. [

When the first curtain plate 21, the second curtain plate 23, and the third curtain plate 25 are formed in a U shape, when the doors 13 and 15 are slid to the left and right due to the curved structure at the lower end, The wear of the curtain portion 20 can be prevented by minimizing the wear of the curtain portion 20 contacting the preventive housing 10.

The first curtain plate 21 is made of a ceramic wool material resistant to a high-temperature environment in order to block gas emission and improve heat resistance. The ceramic wool material is flexible and excellent in fire resistance and heat insulation.

The ceramic wool material is composed of alumina and silica as main components and has a fire-resistant fiber-like lightweight material. Since it is a fibrous material, it is superior in heat insulation, heat resistance and deformability to materials having a low temperature, does not contaminate the atmosphere at high temperature, .

The second curtain plate 23 is made of a metal fiber material so as to have flexibility and heat shielding function. The metal fiber material may be one of Fe, Cr, and Al.

The first curtain plate 21 is formed by folding a high density ceramic wool material into a mat shape and then folding into a U shape. The second curtain plate 23 is made of a metal fiber material of Fe, Cr, And then the first curtain plates 21 are overlapped with each other so as to be located inside the second curtain plate 23 in the folded state.

The structure in which the first curtain plate 21 and the second curtain plate 23 are overlapped with each other is a structure in which the gap between the doors 13 and 15 and the contamination preventing housing 10 and the gap between the door 13 and the door 15 Shielding the dust from the outside of the electric furnace, as well as providing a dustproof effect.

The third curtain plate 25 is made of a stainless steel mesh material for the purpose of adhering to the contamination preventing housing 10 or the relative curtain portion.

The stainless steel mesh material is a mesh material in which the first curtain plate 21 and the second curtain plate 23 enter the entrance 11 of the contamination preventing housing 10 or the relative curtain or contamination preventing housing 10 Thereby preventing the first curtain plate 21 and the second curtain plate 23 from being abraded.

In other words, the third curtain plate 25 is configured such that the first curtain plate 21 and the second curtain plate 23 are positioned between the doors 13 and 15 and the gap between the contamination preventing housing 10 and the door 13 15 to protect the first curtain plate 21 and the second curtain plate 23 from abrasion so that the function of completely shielding the gap between the first curtain plate 21 and the second curtain plate 23 can be smoothly performed.

The curtain portion 20 constituted by the first curtain plate 21, the second curtain plate 23 and the third curtain plate 25 is set to be easily installed and dismounted on the doors 13 and 15 And the plurality of doors are connected to the door in a line. The curtain portion 20 can be divided and connected in units of 1m.

As shown in FIG. 3, the curtain portion 20 is installed on one side or both sides of the two doors 13 and 15, and preferably, can be installed in any portion where a gap can occur.

Since the curtain portion 20 is relatively flexible due to the material characteristics of the ceramic wool material, the metal fiber material, and the stainless steel mesh material, the doors 13 and 15 can be prevented from interfering with the left and right sliding movements of the doors 13 and 15. [ The gap between the contamination preventing housing 10 and the door 15 and the gap between the door 13 and the contamination preventing housing 10 can be completely shielded.

4, the holder portion 27 includes a curtain portion 20, a fixing bolt 27a penetrating the side surface of the contamination preventing housing 10, a curtain portion 20, and a pollution preventing housing 10 And a fixing nut 27b fastened to the end of the fixing bolt 27a passing through the side surface.

5, the holder portion 27 may be a combination of a fastening bracket 27c, fastening bolts 27d and 27f, and fastening nuts 27e and 27g.

The curtain portion 20 should be installed on the door so that the lower end extends toward the contamination preventing housing 10 so that the curtain portion 20 can shield the gap between the doors 13 and 15 and the contamination preventing housing.

To this end, the door 15 is provided with an a-shaped locking bracket 27c extending from the front to the side of the door 15, and a fastening bolt 27c is provided on the fastening bracket 27c disposed on the front surface of the door 15, The fastening nut 17d and the fastening nut 17e are fastened to fix the fastening bracket 27c to the front surfaces of the doors 13 and 15. [

Next, the upper side of the curtain portion 20 is disposed at a portion extending to the side surface of the door 15, and the curtain portion 20 is fastened to the door 15 using the fastening bolt 27f and the fastening nut 27g. It can be installed on the side.

Hereinafter, the operation of the embodiment of the present invention having the above-described configuration will be described.

The heat-insulating curtain of the door for a pollution-proof housing according to the present invention comprises a high-density ceramic wool material formed into a mat shape and then folded into a U shape to manufacture a first curtain plate 21, And then the second curtain plate 23 is folded into a U-shape to make the second curtain plate 23, and then the second curtain plate 23 is arranged so as to surround the outer surface of the first curtain plate 21. [ The mat shape means to be made of a flat plate having a predetermined thickness.

Next, after the third curtain plate 25 is formed by making a stainless steel material mesh, the third curtain plate 25 is U-shaped so as to surround the outer surface of the second curtain plate 23 So that the curtain portion 20 is manufactured.

As shown in Fig. 4, the fabricated curtain portion 20 is formed so that the outer surface of the first curtain plate 21 is covered by the second curtain plate 23 and the outer surface of the second curtain plate 23 is covered by the third curtain Shaped structure in which the plate 25 is wrapped.

The curtain portion 20 is disposed on one side or both sides of the doors 13 and 15 for the contamination prevention housing 10 and then the upper side of the curtain portion 20 and the door 13 The curtain portion 20 is installed on the doors 13 and 15 by engaging the fixing bolts 17a so as to pass through the side surfaces of the fixing bolts 17a and 15a and fixing nuts 17b to the end portions of the fixing bolts 17a.

At this time, the curtain part 20 further includes fixing means separately from the holder part 27 on the opened upper side of the U-shaped structure so that the first curtain plate 21, the second curtain plate 23, (25) can be fixed in advance.

A plurality of such curtain portions 20 are arranged in a row in succession to a target section of the doors 13, Here, the object section corresponds to one side or both sides of the door 13, 15 where a gap may occur between the contamination preventing housing 10 and the door of the opposite side.

The lower end of the U-shaped portion extending from the side of the door 15 toward the contamination preventing housing 10 is brought into close contact with the curtain portion of the door 13 or the front surface of the contamination- do.

Since the curtain portion 20 has a curved shape and flexibility at the lower end portion of the third curtain plate 25, wear of the curtain portion 20 with the front surface of the contamination preventing housing 10 due to sliding of the doors 13, The curtain portions of the door 13 and the front surface of the contamination preventing housing 10 are brought into close contact with each other and the doors 13, 15 and the contamination preventing housing 10, the gap between the door 13 and the door 15 can be completely shielded.

While the invention has been shown and described with reference to certain preferred 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 appended claims. something to do.

10: pollution prevention housing 11: entrance
13, 15: door 20: curtain portion
21: first curtain plate 23: second curtain plate
25: third curtain plate 27: holder portion
27a: Fixing bolt 27b: Fixing nut
27c: fastening brackets 27d, 27f: fastening bolts
27e, 27g: fastening nut

Claims (7)

delete A gap formed between the contamination preventing housing and the door, which is provided on one side or both sides of two doors that open the entrance of the contamination preventing housing in a left-right sliding manner, and a gap formed between the door and the door in a state where the two doors are closed A curtain portion that shields at least one of the gap;
And a holder portion for fixing the curtain portion to the door,
The curtain portion
A first curtain plate folded in U shape,
A second curtain plate folded in a U shape to surround the outside of the first curtain plate,
And a third curtain plate folded in a U shape to surround the outside of the second curtain plate and having a closed end in contact with the contaminant prevention housing or in contact with the curtain portion of the door of the counterpart which is engaged with the door. Radiating curtains for door for contamination-proof housing. The method of claim 2,
Wherein the first curtain plate is made of a ceramic wool material. The method of claim 2,
Wherein the second curtain plate is made of a metal fiber material. The method of claim 4,
Wherein the metal fiber material comprises one of Fe, Cr, and Al. The method of claim 2,
Wherein the third curtain plate is made of a stainless steel mesh material. The method of claim 2,
Wherein the curtain portion is divided into a set length so as to facilitate installation and disassembly in the door, and a plurality of the curtain portions are connected in series to the door.

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