KR100603966B1 - Bung Seal Structure of Heat Treatment Furnace - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a structure of a heat treatment furnace (8), and in particular, a silicone rubber or sponge to be inserted between a plurality of glass felt blocks 10 to be stacked and the glass felt blocks 10 to give elasticity and restoring force. A plurality of heat resistant resin blocks 12 and the plurality of glass felt blocks 10 and the heat resistant resin blocks 12 are uniformly applied to the surfaces of the inert atmosphere to prevent leakage of inert gas. Combination of the glass felt block 10 and the heat resistant resin block 12 in a state in which the first coating layer 14 and the plurality of glass felt blocks 10 and the heat resistant resin block 12 are pressed at a high pressure so as to be integrated. The first non-combustible body 16 made of glass fiber to simultaneously package the ceramic powder, and uniformly applied to the surface of the first non-combustible body 16 to prevent leakage of inert atmosphere gas and A second non-combustible body made of glass fiber so as to be in close contact with the second coating layer 18 made of lycone resin and a part directly contacting an end portion of the heat treatment furnace with respect to one side of the second coating layer 18 ( 20), it is able to withstand the high temperature of the room 8 and improves its elasticity and restoring force to prolong its lifespan, thereby preventing the leakage of inert atmosphere gas in advance and oxidizing or instantaneously caused by intrusion of external air. It can improve the production capacity of the heat treatment furnace by preventing the risk of explosion in advance and minimizing the work time due to frequent maintenance and replacement work.

Description

Bung Seal Structure of Heat Treatment Furnace

1 is a perspective view showing a toilet of a conventional heat treatment furnace;

2 is a longitudinal cross-sectional view taken along line A-A of FIG. 1;

3 is a plan view showing a wedroom of the heat treatment furnace according to the present invention;

4 is a longitudinal cross-sectional view taken along line B-B of FIG. 3;

5 is an experimental apparatus for testing the pressure of the present invention and conventional bunsil

6 is an experimental comparison graph of the present invention and the conventional weft room.

Explanation of symbols on the main parts of the drawings

8: mudroom

10 glass felt block 12 heat-resistant resin block

14 first coating layer 16 first non-flammable body

18: second coating layer 20: second non-flammable

The present invention relates to a weft chamber structure of a heat treatment furnace, and more particularly, a weft chamber installed at an entrance portion through which a person or a machine enters or exits in order to prevent oxidation in a steelmaking or steelmaking process or a heat treatment process of metal. Bung Seal, and more particularly, prevents the inert atmosphere gas charged inside the heat treatment furnace from leaking to the outside and prevents the introduction of outside air into the heat treatment furnace. It relates to a bunsil structure of a heat treatment furnace that can be prevented.

In general, in the heat treatment process, the cold rolling is to obtain a beautiful surface by the oxidation, but when the outside air is introduced into the heat treatment furnace or the inert atmosphere gas leaks to the outside, economical loss and the surrounding working environment In order to prevent the leakage of inert atmosphere gas and the inflow of outside air, there is a risk of safety accidents such as oxidation and instant explosion when the hydrogen inside and the outside air oxygen are combined by heat treatment. Single layer structure and material selection are important factors.

In addition, the mussel is installed at the entrance area where the worker or the mechanical equipment enters or exits in case of repair or plate breakage by heat treatment, so the mussels cannot be replaced every time it is opened and closed. In order to use several times, it is important to have sufficient elasticity and restoring force.

As shown in Figs. 1 and 2, the structure of the conventional heat treatment furnace 8 is filled with a heat-resistant fiber 1 mainly composed of glass wool, for example, and the heat-resistant fiber ( On the outside of 1), a non-flammable fiber cloth 3 mainly composed of glass cloth or ceramic cloth, for example, was wound and stitched and finished by the non-flammable fiber thread 5.

However, since the conventional structure of the heat treatment furnace configured as described above is a packing concept manufactured by winding 1-2 sheets of non-combustible fiber cloth 3 around the heat resistant fiber 1 without considering elasticity and restoring force. When the barrier room 8 is installed at the entrance of the heat treatment furnace (not shown), an inert atmosphere gas leaks easily and degrades the working environment. There was a risk of safety accidents such as oxidization or instantaneous explosion. Also, since the service life of the bunkroom 8 is very short, there is a problem that the production capacity of the heat treatment furnace is remarkably lowered due to the working time which should be maintained and replaced from time to time. there was.

Therefore, the present invention has been made to solve the above problems, the object of the present invention is to improve the elasticity and the restoring force to prolong the life while being able to withstand the high temperature of the room 8, to prevent the leakage of inert atmosphere gas in advance. At the same time, it prevents the risk of oxidation or instantaneous explosion due to invasion of outside air, and minimizes the working time due to frequent maintenance and replacement work, and improves the production capacity of the heat treatment furnace. To provide.

According to an exemplary embodiment of the present invention, a heat treatment furnace configured to seal the edge of an entrance and exit of a heat treatment furnace includes: a plurality of glass felt blocks stacked between the glass felt blocks and the glass felt blocks. Permanently inserted into the surface of the plurality of heat-resistant resin block made of silicone rubber or sponge and the surface of the glass felt block and the heat-resistant resin block to be inserted between the elastic and restoring force to prevent the leakage of inert atmosphere gas A first fire layer made of glass fiber to simultaneously package a combination of the glass felt block and the heat resistant resin block while pressing the first coating layer made of a nonce bond and the plurality of glass felt blocks and the heat resistant resin block under high pressure so as to be integrated. Softness several times uniformly on the surface of the soft body and the first non-combustible body And a second coating layer made of ceramic powder and silicone resin to block leakage of inert atmosphere gas, and glass fiber to be in close contact with one side of the second coating layer in direct contact with the entrance end of the heat treatment furnace. It is characterized by consisting of a second non-combustible made.

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

As shown in Fig. 3 and Fig. 4, for example, a plurality of glass felt blocks 10 (Glass Felt Block) laminated with about 2 to 10 sheets, and the glass, A plurality of heat-resistant resin blocks 12 mainly composed of silicone rubber or sponge, for example, inserted between the felt blocks 10 to give elasticity and restoring force, and the plurality of glass felt blocks. A first coating layer 14 containing, for example, a permanent bond (Permanence Bond) as a main component so as to be uniformly applied to the surfaces of the 10 and the heat-resistant resin block 12 several times to prevent leakage of an inert atmosphere gas; For example, the combination of the glass felt block 10 and the heat resistant resin block 12 may be simultaneously packaged while being pressed under high pressure so that the plurality of glass felt blocks 10 and the heat resistant resin block 12 are integrated. For glass fiber For example, ceramic powder and silicon may be uniformly applied to the surface of the first non-combustible body 16 and the surface of the first non-combustible body 16 to prevent leakage of an inert atmosphere gas. The second coating layer 18 mainly composed of resin (Silicone Resin) and one side of the second coating layer 18 to be in close contact with the portion directly in contact with the entrance end of the heat treatment furnace (not shown). For example, it is comprised from the 2nd non-combustible body 20 which has a glass fiber as a main component.

The bunch 8 of the present invention configured as described above is installed at the edge of the entrance (aka bun) of the heat treatment furnace (not shown), and the bunch 8 has a weight of about 2 tons at a temperature of about 300-500 ° C. It must be able to withstand the leakage of inert atmosphere gas and at the same time use heat and nonflammable materials to block the ingress of outside air and maximize the sealing effect.

And, for the periodic repair of the heat treatment furnace, the room 8 is cooled down to room temperature after about 30 days of use, separated from the heat treatment, and then reassembled and reused so that there is no leakage of inert atmosphere gas. The elasticity and the restoring force should be increased to minimize the amount of deformation, and the elasticity and the restoring force give the condition that the yarn chamber 8 can be repeatedly used several times, and more preferably about 12 times or more can be reused. It must be worth it economically.

In addition, although the furnace pressure inside the heat treatment furnace depends on the temperature, a furnace pressure of 30-450 mmH ₂ O should be maintained. In particular, since there should be no leakage of inert gas at low temperature, sufficient elasticity and restoring force should be ensured.

That is, the room 8 should have a durability of at least one year at a temperature around 500 ℃. This durability was tested under the conditions of the present invention and the prior art under the condition of pressing the room 8 at a pressure of 2.5 kg / cm linear pressure, and the results are shown in the comparative measurements as shown in [Table 1].

division 1 LPM 2 LPM 3 LPM 4 LPM 5 LPM Present invention 0.7 1.5 2.6 3.9 5.4 Conventional room 0.1 0.2 0.3 0.4 0.45

Here, the comparative experiment method for the present invention and the conventional bunksil 8, as shown in Fig. 5, 2.5kg / linear pressure through the bunpum 8 in the upper opening of the air digital container 30 having a double thickness 1 LPM through the air pipe 34 installed through the one side of the lid 32 to the inside of the air digital container 30 after placing the lid 32 having a weight of weight corresponding to more than ㎝, The air inflow was increased in steps of 2 LPM, 3 LPM, 4 LPM, and 5 LPM, and the internal pressure of the air digital vessel 30 was measured by an air pressure gauge 36.

Accordingly, the durability of the present invention and the conventional wet chamber 8 is 0.1 mmH ₂ O when the air supply amount is gradually increased from 1 LPM to 5 LPM as shown in the comparison graph shown in FIG. 6. to on the other hand, it represents the low internal pressure variation of about 0.45㎜H ₂ O, the invention because beongsil 8 indicate a high internal pressure variation of about 0.7㎜H ₂ O to 5.4㎜H ₂ O of the present invention is conventional In addition to being able to withstand high temperatures for a long time as well as to increase the sealing effect.

As described above, the heat resistant resin block of the heat treatment furnace according to the present invention is inserted between the plurality of laminated glass felt blocks to give elasticity and restoring force, and the surface of the plurality of glass felt blocks and the heat resistant resin A permanent bond is applied several times to block leakage of the inert atmosphere gas, and the plurality of glass felt blocks and the heat resistant resin blocks are simultaneously packed with glass fibers in a state of being pressed at high pressure, and the surface of the glass fibers has an inert atmosphere gas. The ceramic powder and the silicone resin are applied several times to block leakage of the ceramic powder and the silicone resin is coated on one side of the ceramic powder and the glass fiber is in close contact with the structure so that it can withstand high temperatures in the room and extend its life. Improves elasticity and resilience to prevent leakage of inert atmosphere gases At the same time, it prevents the risk of oxidation or instantaneous explosion due to intrusion of outside air, and minimizes the working time due to frequent maintenance and replacement, thereby improving the production capacity of the heat treatment furnace. .

Claims (1)

In the bunch chamber 8 which is installed to seal the entrance edge by heat treatment, The mudroom 8 includes a plurality of glass felt blocks 10 stacked therebetween, and a plurality of heat resistant resin blocks 12 made of silicone rubber or sponge to be inserted between the glass felt blocks 10 to give elasticity and restoring force. And a first coating layer made of a permanent bond between the plurality of glass felt blocks 10 and the heat-resistant resin block 12 and uniformly applied to the laminated surface to block leakage of an inert atmosphere gas. 14) and the glass felt block 10 and the heat resistant resin block 12 of the laminated glass felt block 10 and the heat resistant resin block 12 in a state of being pressed at a high pressure so that the glass felt blocks 10 and the heat resistant resin block 12 are integrated. The first non-combustible 16 surrounding the outer side to simultaneously package the binder and the surface of the first non-combustible 16 may be uniformly applied several times to prevent the leakage of inert atmosphere gas. It consists of a second coating layer 18 made of paper, and a second non-combustible body 20 made of glass fiber and in close contact with a portion of the second coating layer 18 which is in direct contact with an entrance end of the heat treatment furnace. Bumsil structure of the heat treatment furnace, characterized in that.

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