KR101010636B1 - Apparatus for exhausting explosive gas in the annealing furnace - Google Patents

Abstract

According to the present invention, when a small explosion occurs due to abnormal work inside the annealing furnace, the pressure is automatically opened and closed for the explosion door to prevent the occurrence of equipment accidents by automatically opening and closing the discharge door. A door device, comprising: a cylindrical port (60) formed through the annealing furnace (1) at an upper end of the discharge side of the annealing furnace (1); A disk-shaped pressure absorbing plate 26 embedded in the device case 25 formed at the outer side of the cylindrical port 60 and fixed to the lower end of the absorbing plate vertical shaft 28 penetrating to the annealing path 1; While the main pinion gear 40 gear-coupling with the rack gear 27 formed on the vertical plate 28 of the absorber plate is fixed at the center, the driven pinion gear 33 is fixed to one side and the horizontal bevel gear 29 to the other side. A fixed horizontal rotating bar 30; A circular opening / closing door 20 which is fixed to an upper end of the rotating shaft 21 to which the vertical bevel gear 22 which is gear-engaged with the horizontal bevel gear 29 is opened and closed; It consists of a sliding vertical shaft 34 which is fixed to the guide 41 is formed with a guide rack gear 41a for gear coupling with the driven pinion gear 33 protrudes to the upper surface of one side of the device case 25 It provides an automatic door device for induced pressure discharge of the explosion inside the annealing furnace characterized in that.

Annealing Furnace, Explosion Pressure, Induction Discharge, Pressure Absorption Plate, Circular Opening Door, Cylindrical Port

Description

Automatic Door Device for Induced Explosion Pressure in Annealing Furnace {APPARATUS FOR EXHAUSTING EXPLOSIVE GAS IN THE ANNEALING FURNACE}

Figure 1a is a perspective view showing a conventional door for discharging the explosion pressure inside the annealing furnace to the outside;

Figure 1b is a cross-sectional conceptual view showing a conventional door problem for discharging the explosion pressure inside the annealing furnace to the outside.

Figure 2 is a perspective view showing an automatic door device for induction pressure discharge in the annealing furnace according to the present invention;

Figure 3 is an enlarged perspective view showing the operation connection relationship of the explosion-induced discharge automatic door device inside the annealing furnace according to the present invention;

Figure 4 is a functional diagram of the automatic door device for induction pressure explosion in the annealing furnace according to the present invention.

♣ Explanation of symbols for main part of drawing ♣

1: Annealing furnace 60: Cylindrical port 25: Device case 28: Absorption plate vertical axis

26: disk type pressure absorbing plate 40: driven pinion gear 33: driven pinion gear

29: horizontal bevel gear 30: horizontal rotating bar 21: rotating shaft 20: circular opening and closing door

41a: guide rack gear 41: guide 34: sliding vertical axis 31: locking jaw                 

37: square guide 26a: wing

The present invention relates to an automatic door device for induction discharge of the explosion pressure inside the annealing furnace, and more specifically, by detecting the pressure of the small explosion when it is issued due to abnormal work inside the annealing furnace by automatically opening and closing the discharge door The present invention relates to an automatic door device for inducing explosive pressure induced in an annealing furnace to prevent equipment accidents leading to a large explosion.

In general, as shown in Figure 1a, the annealing furnace (1) is a high temperature to the material (2) through the direct heating or indirect heating by introducing the propane gas or COG gas into the pipe (3) installed on one side pipe The gas is lowered by acting on the temperature rise is discharged through the exhaust pipe (6).

In such a temperature raising operation, the micronized gas in the annealing furnace 1 is stagnated at a predetermined part, and then ignited (exploded) at an instant, so that the pressure in the annealing furnace 1 rises above the reference value. Increasing the internal pressure of the furnace 1 leads to an accident of the annealing furnace equipment, which causes a significant problem of expenditure of huge equipment maintenance costs, as well as the annealing operation.

Conventional apparatus for removing the explosion pressure as described above, as shown in Figure 1a to 1b, when the internal pressure of the annealing furnace (1) rises above the reference value due to the small explosion phenomenon, the upper part of the annealing furnace (1) The pressure release cover 5 which is closed at the outlet port 4 formed on the surface is opened to the upper part instantaneously, thereby preventing a large explosion accident in which the entire annealing furnace 1 explodes.

However, since the conventional pressure relief cover 5 is sealed by inserting a sand seal 7 between the outlet ports 4, the pressure relief cover 5 is annealing furnace 1. In case of being lifted up by the expansion of the internal pressure, the sand chamber 7 filled between the cover 5 and the port 4 falls on the upper surface of the heating material 2 proceeding inside the annealing furnace 1 7a) to cause the quality defect of the material (2),

In order to remove the fall 7a phenomenon of the sand chamber 7, since the worker directly enters and removes the inside of the annealing furnace 1, which is still at a high temperature, the work burden of the worker is increased, and further, the annealing furnace (1) When an explosion occurs again, a human accident occurs.

In order to solve the above problems, the present invention, when a small explosion occurs inside the annealing furnace to increase the pressure, the opening and closing the door through a multi-stage direction change step in the place where the pressure is high, that is, the rising pressure The present invention relates to an automatic door apparatus for induction discharge of explosion pressure inside an annealing furnace which automatically opens and closes according to pressure to discharge the explosion pressure inside the annealing furnace.

In order to achieve the above object, the present invention is a door device for discharging the explosion pressure generated in the annealing furnace, the door port and the cylindrical port formed through the annealing furnace through the upper end of the discharge side of the annealing furnace; A disk-shaped pressure absorbing plate embedded in a device case formed at an outer side of the cylindrical port and fixed to a lower end of a vertical axis of the absorbing plate penetrating to the annealing path; A main pinion gear that is gear-coupled with the rack gear formed on the vertical axis of the absorber plate is fixed to the center, a horizontal rotating bar having a driven pinion gear fixed to one side and a horizontal bevel gear fixed to the other side; A circular opening / closing door which is fixed to an upper end of a rotating shaft to which the vertical bevel gear coupled with the horizontal bevel gear is coupled to open and close the cylindrical port; Automatic door device for induction discharge pressure of the explosion pressure in the annealing furnace, characterized in that it consists of a sliding vertical axis is fixed to the guide rack gear which is coupled to the driven pinion gear is formed to protrude to one side upper surface of the device case To provide.

In addition, the present invention is to provide an automatic door device for induction discharge of the explosion pressure inside the annealing furnace, characterized in that the locking jaw is formed to stop when the opening and closing door is closed in the cylindrical port,

In addition, the present invention is a rectangular sliding member in which the vertical axis of the absorber plate is fixed to the upper portion, a rectangular guide installed in the device case by embedding it, and fixed to the upper surface of the vertical axis of the absorber plate fixed to the upper surface of the device case Provided is an automatic door device for induction discharge of the explosion pressure inside the annealing furnace characterized in that guided by the coil spring.

In addition, the present invention, the disk-shaped pressure-absorbing plate induces explosion pressure inside the annealing furnace, characterized in that the wing is additionally formed on the outer side in a downward curved shape so as to easily receive the explosion pressure generated in the annealing furnace. Provide automatic door device for discharge.

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

Figure 2 is a perspective view showing the automatic pressure device for explosion-induced discharge pressure inside the annealing furnace according to the present invention, Figure 3 is enlarged the operation connection relationship of the automatic pressure device for explosion-induced discharge pressure inside the annealing furnace according to the present invention It is a perspective view shown.

As shown in Figures 2 to 3, the automatic door device for explosion-induced pressure discharge in the annealing furnace according to the present invention, first, replacing the conventional square port, the annealing furnace at the upper end of the discharge side of the annealing furnace (1) 1) and the cylindrical port 60 is formed through.

An outer portion of the cylindrical port 60 is provided with a device case 25 having an internal space formed so as to embed the power transmission means of the automatic door device according to the present invention,

In the center of the device case 25, the absorption plate vertical axis 28 penetrates to the annealing path 1 is located.

The absorption plate vertical axis 28 is to extend through the inside of the annealing furnace (1), the center of the disk-shaped pressure absorbing plate 26 is fixed to the lower end thereof, which raises the pressure generated inside the annealing furnace (1) The driving force is to play a role.

In addition, since the wing portion 26a of the downward curved shape is formed at the outer side portion of the disc-shaped pressure absorbing plate 26, the explosion pressure generated inside the annealing furnace 1 is easily received and converted into an upward driving force.                     

A rack gear 27 is formed at the center of the absorber plate vertical axis 28 of the disc-shaped pressure absorbing plate 26 installed as described above, and is built in the device case 25.

The rack gear 27 is geared with the main pinion gear 40 fixed to the center of the horizontal rotation bar 30 is fixed to the bearing block 39 is located horizontally in the lower portion of the device case 25,

The horizontal rotation bar 30 is fixed to the driven pinion gear 33 on one side, the horizontal bevel gear 29 is fixed to the other side.

The vertical bevel gears 22 of the rotating shaft 21 are gear-coupled to the horizontal bevel gears 29 so as to be rotatable with bearing blocks 23a, 23b, and 23c on one side of the device case 25 in a vertical manner.

The rotating shaft 21 is fixed to the circular opening and closing door 20 for protruding to the upper surface of the device case 25 to open and close the cylindrical port 60.

In addition, the driven pinion gear 33 fixed to one side of the horizontal rotating bar 30 is built in the guide 41, the guide rack gear 41a is formed on the inner surface is to be coupled to the gear,

The guide 41 is guided by the traction guides 32a and 32b so that the sliding vertical shaft 34 is fixed to protrude to one side upper surface of the device case 25.

On the other hand, the present invention is to provide a built-in guide portion in the upper center portion of the device case 25 in the upper end of the absorber plate vertical axis 28 to smoothly maintain the vertical movement of the absorber plate vertical axis 28.

That is, the rectangular guide 37 is formed in the upper center portion of the device case 25, and then the rectangular sliding member 38 is inserted into the inner space thereof to penetrate the central portion of the square guide 37 to absorb the vertical axis 28. To the top of the

The coil spring 36 is fixed to the upper end of the absorber plate vertical axis 28 to fix the coil spring 36 to the upper and lower surfaces of the device case 25 to stably induce the vertical motion of the absorber plate vertical axis 28.

Hereinafter, the operation of the present invention will be described in detail.

Figure 4 is a functional diagram of the automatic door device for induction pressure explosion in the annealing furnace according to the present invention.

As illustrated in FIG. 4 and the diagram referred to while explaining the above configuration, when the stagnant fuel gas is instantaneously ignited in the annealing furnace 1 and an explosion occurs, this explosion pressure is directed to the annealing furnace 1 discharge side. It moves and goes up.

At this time, the upward pressure pushes up the disk-shaped pressure absorbing plate 26 constituting the present invention upward, and the disk-shaped pressure absorbing plate 26 is further formed by the wing portion 26a formed at the outer side portion. There is upward pressure.

When the disk-shaped pressure absorbing plate 26 rises under upward pressure, the absorbing plate vertical axis 28 fixed to the center thereof is raised.

At this time, the synergistic effect is stably guided by the square guide 37 and the square sliding member 38 formed on the upper portion of the absorber plate vertical axis 28, and further, the coil spring 36 fixed to the upper end of the absorber plate vertical axis 28. ) It rises smoothly under the contraction force of).

When the absorber plate vertical axis 28 is raised, the main pinion gear 40 geared with the rack gear 27 formed in the center thereof is rotated,

Accordingly, the horizontal rotation bar 30 in which the device case 25 is built is rotated so as to be rotatable with the bearing block 39.

When the horizontal rotating bar 30 is rotated, the driven pinion gear 33 and the horizontal bevel gear 29 is fixed to both ends of the horizontal rotation bar 30,

The vertical rotating shaft 21 is fixed to the horizontal bevel gear 29 and the vertical bevel gear 22 coupled to the gear, and at the same time the opening and closing door 20 fixed to the upper end of the rotating shaft 21 is cylindrical Opening the upper part of the port 60.

At the same time, the driven pinion gear 33 and the gear 41 coupled to the guide 41 is lowered and the sliding shaft 34 fixed thereto is lowered.

On the contrary, when the explosion pressure inside the annealing furnace 1 disappears, the disk-shaped pressure absorbing plate 26 constituting the present invention is lowered by its own weight, and at the same time, the horizontal rotating bar 30 is rotated so that the vertical rotating shaft 21 ) And the guide 41 to operate in the opposite direction to the explosion pressure to close the opening and closing door 20 fixed to the rotating shaft 21, and at the same time to raise the sliding shaft 34 of the opening and closing door 20 It will stop the closing operation more firmly.

In addition, the closing door 20 is stopped by the closing step 31 formed on one side of the cylindrical port 60 is stopped.

As described above, in the present invention, when the internal pressure is increased due to the small explosion inside the annealing furnace, the port is subjected to such a rising pressure to stably and automatically open and close the port through a multi-stage reversal step. At the same time, by preventing the use of sand seals falling on the surface of the heating material at the same time, it is possible to fundamentally prevent the quality defects of the material, and to reduce the work burden of the workers entering the narrow space of the annealing furnace.

Claims (4)

In the door device for discharging the explosion pressure generated inside the annealing furnace (1), A cylindrical port 60 formed through the annealing furnace 1 at an upper end of the discharge side of the annealing furnace 1; A disk-shaped pressure absorbing plate 26 embedded in the device case 25 formed at the outer side of the cylindrical port 60 and fixed to the lower end of the absorbing plate vertical shaft 28 penetrating to the annealing path 1; While the main pinion gear 40 gear-coupling with the rack gear 27 formed on the vertical plate 28 of the absorber plate is fixed at the center, the driven pinion gear 33 is fixed to one side and the horizontal bevel gear 29 to the other side. A fixed horizontal rotating bar 30; A circular opening / closing door 20 which is fixed to an upper end of the rotating shaft 21 to which the vertical bevel gear 22 which is gear-engaged with the horizontal bevel gear 29 is opened and closed; It consists of a sliding vertical shaft 34 which is fixed to the guide 41 is formed with a guide rack gear 41a for gear coupling with the driven pinion gear 33 protrudes to the upper surface of one side of the device case 25 An automatic door device for inductive discharge of explosion pressure inside an annealing furnace. The method according to claim 1, The cylindrical port (60) is an automatic door device for induction discharge of explosion pressure inside the annealing furnace, characterized in that the locking step (31) is formed to stop it when the opening and closing door (20) is closed. The method according to claim 1, The absorber plate vertical axis 28 has a rectangular sliding member 38 fixed to the upper portion thereof, a square guide 37 embedded therein and installed in the device case 25, and an upper end of the absorber plate vertical axis 28. Automatic door apparatus for induction discharge of explosion pressure inside the annealing furnace, characterized in that guided by a coil spring (36) fixed to the upper surface of the device case (25). The method according to claim 1, The disk-shaped pressure absorbing plate 26 is annealing furnace characterized in that it comprises a wing portion 26a formed in a downward curved portion on the outer side to easily receive the explosion pressure generated in the annealing furnace (1) Automatic door device for guided discharge of explosion pressure inside.

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