KR100961338B1 - Apparatus for Sealing Poke Hole of Extracting Machine in Reheating Furnace - Google Patents

Abstract

An extractor entry sealing device for a furnace is provided.

The extractor entry part sealing device of the heating furnace may include sealing means arranged to be buffered at the extractor entrance part of the heating furnace to seal a gap between the extraction doors, and the sealing means connected to the outside of the heating furnace under the sealing means. It includes a lifting means for implementing the lifting, wherein the extractor entry portion is composed of an extractor fork groove into which the extractor fork enters when extracting the material, the sealing means is disposed to be buffered when the extractor fork into the heating fork groove It is provided as a sealing block having a door contact surface in contact with the extraction door, the sealing block is characterized in that formed by the refractory block is inserted into the vertical space of the front end of the heating fork groove and the fork groove, respectively.

According to the present invention, when the material is extracted from the furnace, the flame flows out from the inside of the furnace through the extractor fork entry space or, conversely, by suppressing the inflow of the outside air into the furnace, the heat generation or the heating of the extracted material is suppressed. It is possible to obtain an improved effect of improving heat operability and material quality by preventing heat loss.

Furnace, extractor entry, extractor fork groove, extractor entry sealing

Description

Apparatus for Sealing Poke Hole of Extracting Machine in Reheating Furnace}

1 is a configuration diagram illustrating a state in which outside air is introduced through a fork groove into which an extractor fork for entering a material is extracted in a conventional heating furnace;

Figure 2 is a block diagram showing an installation state of the extractor entry portion sealing apparatus of the heating furnace according to the present invention.

Figure 3 is an exploded perspective view showing the extractor entry part sealing apparatus of the present invention the heating furnace

Figure 4 is a perspective view showing a heating furnace extractor fork groove installation state of the present invention extractor entry part sealing device of the heating furnace.

Figure 5 is a perspective view showing the operating state of the extractor entry portion sealing apparatus of the present inventors heating furnace

Explanation of symbols on the main parts of the drawings

1 .... Sealing device for material extraction space in heating furnace

10 .... Sealing means 12 .... Extraction door contact surface

14 .... extractor fork guide groove 30 .... lift means

50 .... buffer 52 .... top plate

54 .. Bottom plate 56 .... Damping spring

58 .... spring cover 60 .... support rod

100 .... Furnace 140 .... Extractor

142 .... extractor fork 150 .... fork groove

The present invention relates to an extractor inlet sealing device of a furnace, and more particularly, through the fork inlet gap of the extractor when extracting material from the furnace, flames flow out of the furnace or vice versa. By suppressing the inflow, it is related with the extractor entry part sealing apparatus of the furnace which prevented the generation | occurrence | production of the material extracted and the heat loss of a furnace, and can improve furnace operation property and material quality.

In general, the hot rolling process proceeds in the order of a material, for example, slab heating → rough rolling → finishing rolling → cooling → correction, to produce a hot rolled steel sheet.

Slab, which is a material used in such hot rolling, usually belongs to a heavy material having a thickness of 120 to 300 mm, a width of 1200 to 2000 mm, and a length of about 1480 to 3000 mm. do.

As such, the heating temperature of the slab is set so as not only to reduce the load in rolling but also to obtain the mechanical properties required in the cooling process, and the normal heating temperature is about 1200 to 1330 ° C.

In addition, the furnace for heating the slab to the rolling temperature is divided into a preheating zone, a heating zone, a cracking zone, and the like, and each zone continuously supplies a predetermined amount of fuel to maintain a required temperature.

The slab charged in the furnace is moved to the extraction point by the operation of the pusher, and by the time it reaches the extraction point, the extraction door of the furnace is opened to form a space for slab extraction, and then through the extraction device to the feed roll. Extracted.

For example, as shown in FIG. 1, the heating furnace 100 for heating a rolled material such as the slab 110 therein is continuously charged with a slab 110 into a pusher (not shown). The slab 110 moves along the skid beam 120 to open the extraction door 130 of the furnace, and the fork 142 of the extractor 140 enters the extractor fork of the furnace, that is, the exit side fork groove 150. The extraction of the heated extraction atmospheric slab 110 which enters into the inside of) and is heated is carried out and conveyed to the next process as a conveyance roll which is not shown in figure.

However, in this process, as shown in FIG. 1, the extractor 140 is waiting outside the heating furnace 100 while the extraction door 130 is closed. Is half or fully open, the fork 142 of the extractor 140 is advanced.

Next, when the extraction of the extractor fork is completed, the extraction door 130 is completely opened, after which the extractor 140 lifts the slab 110, which is the material to be extracted, in the state of seating the material to be extracted on the fork 142. The reverse is to complete the extraction of the material from the heating furnace (100).

However, as shown in FIG. 1, a gap is generated between the lower ends of the extraction door 130 in the extractor fork groove 150-FIG. 3 even when the extraction door 130 is closed. The problem is that heat or flame is released or that outside air (A) penetrates into the interior of the furnace.

In particular, in the outside air A penetrating into the heating furnace, the heat dissipation part 112 corresponding to the fork groove 150 side in which the temperature of the air contact portion of the slab 110 waiting to be extracted becomes low is generated.

Therefore, the heat dissipation phenomenon of the slab leads to the rolling failure of bending the material during rolling.

On the other hand, such a fork groove 150 accumulates the scale (S) generated on the surface by the slab oxidation, the accumulated scale blocks the outside air flowing into the fork groove and the door gap, but the accumulated scale ( S) is processed to the external bogie 154 through the scale processing passage 152 connected to the fork groove 150.

At this time, since the introduced outside air serves to release heat to the outside of the heating furnace through the scale processing passage 152, it is more necessary that the inflow of the outside air into the heating furnace is blocked.

Accordingly, the applicant of the present invention proposes an extractor inlet sealing device of the heating furnace of the present invention configured to effectively block external air from entering into the heating furnace through a gap between the extractor fork groove and the door of the heating furnace. It became.

The present invention has been made in order to improve the conventional problems as described above as an object of the present invention, the interior of the furnace through the gap generated between the fork groove and the door into which the extractor entry, that is, the extractor fork enters when extracting the material from the furnace By suppressing the outflow of flames or the inflow of outside air into the furnace, it is possible to prevent the occurrence of breakage of the extracted material or the heat loss of the furnace, thereby improving the operability and material quality of the furnace. An extractor entry sealing device is provided.

As a technical aspect for solving the conventional problems as described above, the present invention, in the apparatus for sealing the extractor inlet space for extracting the material, disposed between the extraction door is buffered in the extractor inlet of the heating furnace It comprises a sealing means for sealing the gap, and the lifting means connected to the outside of the heating furnace to the lower portion of the sealing means to implement the lifting of the sealing means,
The extractor entry portion comprises an extractor fork groove into which an extractor fork enters the material extraction, and the sealing means has a door contact surface which is disposed to be buffered when the extractor fork enters the heating fork groove and contacts the lowered extraction door. It is provided as a sealing block, the sealing block provides an extractor entry portion sealing apparatus of the heating furnace, characterized in that formed by the bent refractory block is inserted into the vertical space and the fork groove of the front end of the heating fork groove, respectively.

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Preferably, the sealing means and the lifting means may further include a buffer means provided to cushion the sealing means when entering the fork groove of the extractor fork.

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The fork guide groove may be further provided at the fork entry side of the sealing block.

Here, the buffer means connected between the sealing means and the lifting means, the upper plate connected to the lower portion of the block of the sealing means by a connecting rod and the lower plate connected to the lifting means, and the buffer provided between the upper and lower plates It is configured to include a spring.

Preferably, the upper and lower plates of the buffer means is further provided with a spring cover body and a support rod for supporting the separation of the buffer spring, the lower plate may be provided as a cooling plate through which the coolant is circulated.

 More preferably, the buffer means may be provided to the vertical drive cylinder that is linked to the top.

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

In the following description, the related elements of the conventional heating furnace and the extractor are denoted by the same reference numerals and the detailed description thereof will be briefly described.

First, Figures 2 and 3 show the overall configuration of the extractor entry part sealing apparatus 1 of the heating furnace according to the present invention.

For example, as shown in Figs. 2 and 3, the extractor entry part sealing device 1 of the heating furnace of the present invention, the sealing means for sealing the gap between the extraction door is arranged to be buffered in the extractor entrance part of the heating furnace. 10 and the lower and lower means of the sealing means 10 is installed on the outside of the heating furnace is characterized in that it comprises a lifting means 30 to implement the lifting of the sealing means (10).

At this time, the extractor entry portion of the heating furnace 100 is substantially an extractor fork groove 150 into which the fork 142 of the extractor 140 enters when the heated material is extracted.

Thus, as shown in Figure 3, the sealing means 10 in the apparatus of the present invention is shown between the fork groove 150 and the extraction door 130 is inserted into the extractor entry, that is, the extractor fork 142 1 Do not allow gaps to occur.

In addition, the elevating means 30 enables the elevating operation of the sealing means 10 so that the gap is not generated when the extractor fork 142 enters or does not enter the fork groove 150. There is this.

Therefore, as shown in FIG. 2, in the apparatus of the present invention, the position of the sealing means 10 of the elevating means 30 is increased depending on whether the sealing means 10 enters the extractor fork 142. Since it is adjusted freely, the clearance of the gap between the extractor entry of the furnace and the extraction door 130 can be better maintained.

At this time, as shown in Figures 3 to 5, the sealing means 10 is disposed to be buffered when entering the extractor fork into the heating fork groove 150, at least the door contact surface in contact with the lowered extraction door 130 It may be provided as a sealing block having a (12).

For example, in the apparatus of the present invention, the sealing means 10 of the sealing block is bent to be inserted into the front end vertical space 150a and the fork groove 150, respectively, as shown in FIG. It can be provided as a refractory block.

Therefore, as shown in FIG. 4, when the extractor fork 142 does not enter the extractor fork groove 150 of the apparatus 1 of the present invention, the lifting means 30 is operated to 'reverse' the sealing means 10. The refractory block bent into is raised so that the upper surface thereof seals the extractor fork groove 150 of the heating furnace, and conversely, when the extractor fork 142 enters the fork groove 150 of the heating furnace 100, the sealing is performed. The means 10 is lowered as the lifting means 30 to enable extraction of the material, ie the slab 110, through the fork groove entry of the extractor fork 142.

At this time, in the apparatus of the present invention, a fork guide groove 14 for smoothly entering the fork groove of the extractor fork 142 is provided at the front upper portion of the sealing block 10, that is, the door contact surface.

2 and 5, when the extractor fork 142 enters the heating fork groove 150, the sealing block 10, which is the sealing means 10, descends by the elevating means 30, and thus, the extractor fork 142 of the extractor fork 142. Enable entry into the fork groove.

Therefore, in the apparatus of the present invention, the lifting means of the sealing means 10 is adjusted by the lifting means 30 according to whether the sealing means 10 and the extractor fork are actually entering the sealing fork groove 150, thereby adjusting the fork of the extractor. Depending on whether or not the entry can be precisely operated.

At this time, as shown in Figures 3 to 5, the buffer means 50 of the device of the present invention, the upper plate 52 and the elevating means connected to the lower end of the block of the sealing means 10 by a connecting rod 16 It is configured to include a lower plate 54 connected to the 30 and a buffer spring 56 provided between the upper and lower plates.

Thus, as shown in Figure 5, the extractor fork 142 enters the extractor fork groove 150 on the sealing block which is the sealing means 10 in the apparatus 1 of the present invention and is placed on the sealing block. The elastic force of the buffer spring 56 of 50 is linked on the lifting means 30, but cushions the impact by the fork weight.

For example, as shown in FIG. 3, the upper plate 52 of the shock absorbing means 50 is bent in a 'c' shape, and a cylindrical spring cover body 58 is provided below the upper plate 52. The upper end of the shock absorbing spring 56 is inserted and supported, and the supporting rod 60 of the lower plate 54, that is, the lower plate 54 to which the rod of the vertical driving cylinder, which is the lifting means 30, is connected to the inside of the spring. Inserted to prevent release during compression of the spring.

On the other hand, as shown in Figure 3, in the device of the present invention, the lower plate 54 is provided as a cooling plate circulating the cooling water is the lifting means 30, that is, the heat of the vertical drive cylinder by the heat transmitted from the heating furnace Block the damage.

For example, coolant pipes 54c are connected to the lower plate 54 and a coolant passage 54b is formed therein to cool the lower plate while the coolant flows.

At this time, the lower plate 54 may be provided with a support rod (54a) in which the support rod 60 is vertically installed but the buffer spring 56 is supported.

On the other hand, as shown in Figures 2 and 3, the lifting means 30 in the apparatus of the present invention, as described above, is provided as a vertical drive cylinder to which the shock absorbing means is linked.

Therefore, the extractor entry part sealing apparatus of the heating furnace which is the present invention described so far is installed in the fork groove 150 of the extractor entrance part into which the fork 142 of the extractor 140 enters, and is able to be lifted and cushioned fork fork groove of the fork. Even when the fork or the fork does not enter, the door 130 and the door contact surface 12 maintain the contact state to effectively prevent external air from flowing into the at least a gap between the fork groove and the door or the internal heat.

As described above, according to the present invention, the extractor entry part sealing device of the heating furnace has an excellent effect of suppressing the inflow of flame from the inside of the furnace through the extractor fork entry space during material extraction from the furnace or conversely preventing the inflow of outside air into the furnace. To provide.

Therefore, the heat loss of the furnace is prevented by the occurrence of uneven generation of the material extracted by the suppression of the external air inflow or the suppression of the external emission of the internal heat, thereby providing the ultimate excellent effect of improving the furnace operation or material quality.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be modified and modified in various ways without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

Claims (7)

An apparatus for sealing an extractor entry space for material extraction, Sealing means for buffering the extractor entry portion of the heating furnace sealing the gap between the extraction door and the lifting means connected to the outside of the heating furnace to the lower portion of the sealing means to implement the lifting means of the sealing means; Composed, The extractor entry portion comprises an extractor fork groove into which an extractor fork enters the material extraction, and the sealing means has a door contact surface which is disposed to be buffered when the extractor fork enters the heating fork groove and contacts the lowered extraction door. It is provided as a sealing block, the sealing block extractor entry portion sealing apparatus of the heating furnace, characterized in that formed by the bent refractory block is inserted into the vertical space and the fork groove of the front end of the heating fork groove, respectively. 2. The extractor inlet sealing apparatus according to claim 1, further comprising a cushioning means provided to cushion the sealing means when the fork groove of the extractor fork enters the sealing means and the lifting means. delete The extractor entry part sealing apparatus of claim 1, wherein a fork guide groove is further provided at a fork entry side of the sealing block. The method of claim 2, wherein the buffer means associated with the sealing means and the lifting means, the upper plate connected to the lower portion of the block of the sealing means by a connecting rod and the lower plate connected to the lifting means; And, A buffer spring provided between the upper and lower plates; Extractor entry part sealing apparatus of the heating furnace, characterized in that configured to include. According to claim 5, The upper and lower plates of the buffer means is further provided with a spring cover body and a support rod for supporting the separation of the buffer spring, And the lower plate is provided with a cooling plate through which cooling water is circulated. 6. The extractor inlet sealing apparatus according to claim 5, wherein the elevating means is provided as a vertical drive cylinder to which the buffer means is connected.

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