KR101075919B1 - Apparatus for extinguishing with inlet in vertical furnace - Google Patents

Abstract

Inlet box of the vertical annealing furnace, the first blocking part and the second blocking part to cut off the hydrogen gas supplied in the vertical annealing furnace to initially suppress fire caused by strip surface friction or electric spark when entering the strip. An inlet box fire suppression apparatus of a vertical annealing furnace including a hydrogen gas shutoff device and a fire extinguishing device for injecting extinguishing gas is introduced. The inlet box fire suppression apparatus of the vertical annealing furnace of the present invention includes an inlet box 100 which provides a strip S processed by the inlet controller 110 installed therein into an annealing furnace into which hydrogen gas is injected; In the event of a fire, the outlet 112 of the inlet controller 110 is sealed to block the hydrogen gas supplied from the annealing furnace, and the second blocking unit blocks the hydrogen gas by injecting an inert gas. Hydrogen gas blocking device 200 comprising a portion 220; And a fire extinguishing device 300 installed at the inlet portion 114 of the inlet controller 110 to inject extinguishing gas when a fire occurs, wherein the fire extinguishing device 300 includes a fire detection sensor 310 and one surface. Fire protection hose 322 is connected is installed, characterized in that it comprises a fire cover 320 for injecting fire extinguishing gas to the point of fire.

Vertical, annealing furnace, inlet box, blocking, fire extinguishing

Description

Inlet box fire suppression apparatus of vertical annealing furnace {APPARATUS FOR EXTINGUISHING WITH INLET IN VERTICAL FURNACE}

The present invention relates to an inlet box fire suppression apparatus of a vertical annealing furnace, and more particularly, to cut off the hydrogen gas flowing into the inlet box when a fire occurs, and to extinguish the fire initially by injecting extinguishing gas to the fire occurrence point. To an inlet box fire suppression apparatus for a vertical annealing furnace.

As shown in FIG. 1, the cold rolled strip S is drawn into the vertical annealing furnace by the inlet controller 1a provided in the inlet box 1. The strip S is moved into the heater to pass through the cooling table 5. This annealing process makes the surface of the strip (S) more beautiful and corresponds to a process for preventing oxidation of the strip (S). In particular, the continuous atmosphere gas in the annealing process for preventing the strip (S) oxidation Hydrogen gas is supplied at a constant pressure.

On the other hand, in the process of entering the strip S into the inlet box 1, there has always been the possibility of a fire due to the surface friction or electrical spark of the strip S itself. In the event of a fire, the initial suppression of the fire is the most important factor in order to prevent it from proceeding to a large fire.In case the fire is found outside the inlet box 1 and sprayed with extinguishing powder, etc. The inlet box 1 has already had a problem that the initial suppression of the fire is not made because the damage caused by the fire is quite advanced.

The present invention is to install a hydrogen gas blocking device for blocking the hydrogen gas in the outlet of the inlet controller, and to install a fire extinguishing device spraying the digestion gas in the inlet controller inlet box to solve the conventional problems It is an object of the present invention to provide an inlet box fire suppression apparatus of a vertical annealing furnace capable of initially extinguishing a fire generated by a fire.

The inlet box fire suppression apparatus of the vertical annealing furnace according to the present invention for achieving this object comprises an inlet seal box for providing a strip rolled by the inlet controller to the annealing furnace in which hydrogen gas is injected; Hydrogen gas including a first blocking portion for blocking the hydrogen gas leaking from the annealing furnace by closing the inlet controller outlet in the inlet chamber box and a second blocking portion for injecting inert gas to block hydrogen gas when a fire occurs. Blocking device; And a fire extinguishing device installed in the inlet of the inlet controller to extinguish the fire by injecting extinguishing gas in the event of a fire, wherein the fire extinguishing device is connected to a fire sensor and a fire hose connected to one side to extinguish the fire. It characterized in that it comprises a fire cover for injecting gas.

The first blocking portion includes a moving plate moved by a first cylinder coupled to one end and a first roller coupled to the other end of the moving plate and selectively contacting the strip.

The second blocking portion is located between the first blocking portion and the inlet controller, and when the first blocking portion closes the inlet seal box, the first valve is opened to inject nitrogen gas.

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A fire cover is provided with a pair to be coupled to each other in the vertical direction to move around the strip, each fire cover is coupled to the second cylinder, the second cylinder to detect whether the fire cover is coupled to the second Characterized in that the position sensor is coupled.

The present invention, due to the above technical configuration, in the case of a fire occurs in the inlet box of the vertical annealing furnace, the hydrogen gas can be initially blocked, and the extinguishing gas can be injected at the point where the fire occurs, it is possible to extinguish the fire initially have.

Hereinafter, with reference to the accompanying drawings looks at the inlet box fire suppression apparatus of the vertical annealing furnace according to an embodiment of the present invention.

As shown in FIG. 2, the inlet box fire suppression apparatus of the vertical annealing furnace according to the present invention passes the strip S through an inlet controller 110 installed in the inlet box 100 (not shown). ). The lead portion 112 of the inlet controller 110 includes a first blocking portion 210 and a second blocking portion 220 for blocking hydrogen gas continuously injected at a constant pressure in the annealing furnace when a fire occurs. The hydrogen gas blocking device 200 is installed. In addition, a fire extinguishing device 300 is installed at the outlet 112 of the inlet controller 110 to inject extinguishing gas to extinguish a fire generated at the outlet 112 of the inlet controller 110.

When the inflow of hydrogen gas is physically blocked by the first blocking unit 210, the second blocking unit 220 is operated by the controller 500. The second blocking portion 220 is located between the first blocking portion 210 and the inlet controller 110. Nitrogen gas, which is a inert gas, is injected into the inlet box 100 by the injection hose 224.

The injection hose 224 is provided with a first valve 222, under the control of the control unit 500, the first valve 222 shields the injection hose 224 to determine whether or not nitrogen gas injection. By enclosing the inside of the inlet box 100 more firmly so that hydrogen gas is not introduced into the fire generating unit by the operation of the first blocking unit 210 as well as the second blocking unit 220, the expansion of the fire and the fire are prevented. Can reduce the likelihood of explosion.

On the other hand, the fire extinguishing device 300 is installed on the inlet portion 114 side of the inlet controller 110. The fire extinguishing device 300 is configured to extinguish the fire generated when the strip S is drawn into the inlet controller 110 by spraying the extinguishing gas.

A fire cover 320 is installed at the inlet portion 114 of the inlet controller 110. One side of the fire cover 320 is combined with a fire hose 322 for injecting the carbon dioxide which is the digestion gas and spraying where the fire occurs. When the fire sensor 310 detects the occurrence of a fire and transmits it to the control unit 500, carbon dioxide is introduced from the fire hose 322 to spray carbon dioxide on the fire generating unit through the fire cover 320. Fire detection sensor 310 may be installed several pieces for more accurate fire detection.

Fire cover 320 is preferably installed in a pair corresponding to each other in the vertical direction of the strip (S) with respect to the strip (S) is preferably moved and coupled in the vertical direction, respectively, in the event of a fire. When carbon dioxide is injected in a closed state, it is possible to further improve the extinguishing efficiency.

The fire cover 320 is preferably equipped with a second cylinder 324 to move the fire cover 320 to the strip (S). In addition, one end of the second cylinder 324 is fixed to the second frame F2. In addition, a second position detection sensor 400 for detecting the position of the fire cover 320 is coupled to the second cylinder 324.

When the fire detection sensor 310 detects the fire and transmits it to the control unit 500, the second cylinder 324 moves the fire cover 320, and each fire cover 320 moves in the direction of the strip S. When combined with each other, the second position detecting sensor 400 detects the sealed state of the fire cover 320 and delivers the state to the control unit 500 again, and the control unit 500 commands the spraying of carbon dioxide. To extinguish the fire by spraying carbon dioxide, a digestive gas. The second roller 326 is coupled to the surface of the fire protection cover 320 is moved to contact the strip (S) to prevent damage of the strip (S).

 With reference to Figure 3 looks at in more detail the first blocking portion of the fire suppression apparatus of the vertical annealing furnace inlet box of the present invention.

As described above, the first blocking unit 210 blocks the movement of the hydrogen gas in the annealing when a fire occurs. The first blocking part 210 includes a moving plate 212 moved by the first cylinder 214. The cylinder rod 214b of the first cylinder 214 is coupled to one end of the movable plate 212, and the movable plate 212 formed long in the width direction of the strip S is coupled to one surface of the cylinder rod 214b. do.

Therefore, when the cylinder rod 214b is moved in the direction perpendicular to the moving direction of the strip S, the moving plate 212 is also moved to seal the space between the strip S and the inside of the inlet box 100. In addition, the first roller 216 is coupled to the other end of the movable plate 212 to prevent the strip S from being damaged by the direct contact between the movable plate 212 and the strip S.

Since the upper space and the lower space are formed in the inner space of the inlet box 100 around the strip S, in order to prevent the hydrogen gas from moving to the respective spaces in the event of a fire, the first blocking portions 210 are respectively. Are formed separately in space.

In addition, the height of the movable plate 212, which is limited due to the movement of the cylinder rod 214b into the cylinder 214a, can be supplemented by the fixed plate 219 installed corresponding to the movable plate 212. That is, when the fixing plate 219 is fixed on the first frame F1 and the cylinder rod 214b is installed to move in the direction perpendicular to the moving direction of the strip S through the first frame F1, Even though the cylinder rod 214b is moved as far as possible and a space is formed between the moving plate 212 and the inlet box 100, the space may be blocked by the fixing plate 219.

In addition, the first position detecting sensor 218 is mounted on the cylinder 214a of the first cylinder 214 to detect the position of the moving plate 212 according to the position of the cylinder rod 214b. The first position detection sensor 218 transmits the information about the position of the moving plate 212 to the control unit 500, the control unit 500 received this information is the second blocking unit 220 and fire extinguishing will be described later The operation of the device 300 is determined.

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.

1 is a schematic view showing a strip processing process in a typical vertical annealing furnace;

2 is a block diagram of a vertical annealing furnace inlet box fire suppression apparatus of the present invention;

3 is a view showing the configuration of the first blocking portion of the vertical annealing furnace inlet box fire suppression apparatus of the present invention.

[Description of Reference Numerals]

100: inlet box 200: hydrogen gas blocking device

210: first blocking portion 220: second blocking portion

300: fire extinguishing device 310: fire detection sensor

320: fire cover 400: second position detection sensor

500: control unit S: strip

Claims (5)

An inlet box 100 which provides the strip S processed by the inlet controller 110 installed therein to an annealing furnace through which hydrogen gas is injected; When the fire occurs, the withdrawal part 112 of the inlet controller 110 is sealed to block the hydrogen gas leaking from the annealing furnace 210, and the second injecting inert gas to block the hydrogen gas Hydrogen gas blocking device 200 including a blocking unit 220; And It is installed in the inlet portion 114 of the inlet controller 110 and includes a fire extinguishing device 300 for injecting extinguishing gas in the event of a fire, the fire extinguishing device 300 is a fire detection sensor 310, and fire on one side Inlet box fire suppression apparatus of a vertical annealing furnace characterized in that it comprises a fire cover (320) for injecting fire extinguishing gas to the fire generating point is connected to the hose (322). The method according to claim 1, The first blocking portion 210 is coupled to the other end of the moving plate 212 and the moving plate 212 is moved by the first cylinder 214 coupled to one end of the strip (S) and Inlet box fire suppression apparatus of a vertical annealing furnace, characterized in that it comprises a first roller (216) selectively contacted. The method of claim 1, wherein the second blocking portion 220 is located between the first blocking portion 210 and the inlet controller 110, the first blocking portion 210 seals the inlet box 100. Inlet box fire suppression apparatus of a vertical annealing furnace, characterized in that for injecting nitrogen gas by opening the first valve (222). delete According to claim 1, The fire cover 320 is provided with a pair to be moved and coupled to each other in the vertical direction around the strip (S), each fire cover 320 is provided with a second cylinder 324 Is coupled, the second cylinder 324 inlet box fire suppression apparatus of the vertical annealing furnace, characterized in that the second position detecting sensor 400 for detecting whether the fire cover 320 is coupled.

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