KR100972193B1 - Device for changing roll in bright annealing furnace - Google Patents

Abstract

SUMMARY OF THE INVENTION An object of the present invention is to provide a carbon roll replacement apparatus for strip shape correction of a bright annealing furnace that can easily replace carbon rolls in a bright annealing furnace during line operation, thereby preventing a decrease in productivity due to line stoppage. .

Accordingly, the present invention is disposed in the strip width direction on the lower wall of the cooling table, the rotating cylinder is rotatably installed across the inside and outside of the furnace wall, carbon roll seated in the insertion groove formed in the longitudinal direction on one side of the rotating cylinder, the rotating cylinder A strip of bright annealing furnace which is installed at and connected to the carbon roll and includes driving means for charging / drawing the carbon roll with respect to the insertion groove, and rotating means for rotating the rotary cylinder to pull the carbon roll out of the furnace. Provide a shape correction carbon roll replacement device.

Rotary cylinder, insertion groove, carbon roll, channel member, drive motor, drive cylinder

Description

Device for changing roll in bright annealing furnace

1 is a schematic perspective view showing a general bright annealing furnace,

Figure 2 is a perspective view showing a strip shape correction 룔 carbon roll replacement device of the bright annealing furnace according to the present invention,

Figure 3 is a perspective view of a part of the carbon roll replacement apparatus according to the present invention,

Figure 4 is a schematic side view of the operating state of the carbon roll replacement apparatus according to the present invention.

Explanation of symbols on the main parts of the drawings

10: rotating cylinder 11: insertion groove

20, 21: carbon roll 31: drive motor

32: drive gear 33: driven gear

40: driving cylinder 41: rack bar

42: pinion gear 50: channel member

51 curtain member 52 supply hose

The present invention relates to a bright annealing furnace for bright annealing stainless cold rolled coil, and more particularly, to facilitate the surface cleaning and replacement of the carbon roll to correct the shape of the strip entering the cooling zone. It relates to a roll replacement device.

In general, bright annealing is a cold rolled strip that prevents decarburization on the surface of the steel and is annealed in a stream of reducing or non-oxidizing gas so as not to lose metallic luster. There is a characteristic to keep it as it is for the first time.

In general, bright annealing uses hydrogen, an atmospheric gas, to prevent oxidation and glossiness, which are generated during heat treatment. In order to prevent the outflow of hydrogen, the bright annealing furnace uses a vacuum furnace in which the inlet and the outlet of the strip are sealed. Will be used.

The annealing furnace in which the bright annealing is performed includes a heating furnace 100, a cooling stand 110, and a return duct 120 that are vertically erected as shown in FIG. 1, and a strip introduced into the lower part of the main body is installed at the upper part of the main body. The cooling duct 110 passes through the inside of the return duct 120 installed vertically.

In addition, the entrance side sealing box 130 and the exit side sealing box are installed at the entrance side of the strip and the return duct 120 at the bottom of the furnace 100 so as to maintain the airtight inside the furnace.

Here, the strip proceeds to the cooling zone through the carbon roll installed on the upper part of the furnace in the vertical annealing furnace, and the carbon roll serves to correct the strip when the strip is deformed by more than a temperature deviation between the heating zone and the cooling zone under continuous operation. Will be performed.

In this process, when the strip is poorly shaped to be pulled to one side, the carbon roll generates a press-in groove due to continuous friction with the edge portion of the strip to be pulled to one side.

However, conventionally, in order to repair the carbon roll when it is damaged or to replace the carbon roll itself, it is necessary to replace the roll, clean the surface of the roll, or repair the line after repairing it in order to repair the carbon roll itself. The problem of productivity fall occurs.

In addition, the withdrawal work of the carbon rolls installed in the furnace is complicated, which takes a lot of time and effort, which acts as a cost increase factor.

Accordingly, the present invention has been made to solve the above problems, the light roll annealing furnace that can prevent the degradation of the productivity due to the line stop by making it easy to replace the carbon roll in the light annealing furnace during line operation It is an object of the present invention to provide a carbon roll replacement device for straightening strips.

In order to achieve the above object, the present invention provides a cylinder that extends inside and outside on the upper wall of a furnace for heating a bright annealing furnace, and a carbon roll is installed in the cylinder to rotate the cylinder. The point is to be located inside or outside.

To this end, the present invention is a rotary roll disposed in the strip width direction on the lower furnace wall of the cooling table and rotatably installed across the inside and outside of the furnace wall, the carbon roll seated in the insertion groove formed in the longitudinal direction on one side of the rotating cylinder, the ash It is installed in the tradition and connected to the carbon roll drive means for charging / withdrawing the carbon roll with respect to the insertion groove, and rotating means for rotating the rotary cylinder to take the carbon roll out of the furnace.

Here, it is preferable that insertion slots are formed at intervals of 180 degrees in the rotating cylinder, and carbon rolls are mounted to the respective insertion grooves by means of driving means to alternate working positions with each other.

In addition, the present invention may further include an airtight holding means for maintaining the airtightness of the gap between the rotary cylinder and the furnace wall.

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

FIG. 1 is a schematic perspective view showing a general bright annealing furnace. According to the above drawings, the bright annealing furnace includes a heating furnace 100, a cooling stand 110, and a return duct 120 that are erected vertically. The strip introduced into the lower portion of the strip is lowered out through the inside of the return duct 120 installed vertically through the cooling table 110 installed at the upper portion of the main body. In addition, the entrance side sealing box 130 and the exit side sealing box are respectively installed at the entrance side of the strip and the return duct 120 at the bottom of the furnace 100 to maintain the airtight inside the furnace.

In addition, Figure 2 is a perspective view showing a strip shape correction 룔 carbon roll replacement device of the bright annealing furnace according to the present invention, Figure 3 is a perspective view of a part of the configuration of the carbon roll replacement device according to the present invention.

According to the above drawings, the apparatus is disposed in the width direction of the strip 150 on the lower furnace wall of the cooling stand 110, the rotating cylinder 10 is installed rotatably across the inside and outside of the furnace wall, spaced 180 degrees apart Carbon rolls 20 and 21 seated in the insertion grooves 11 formed in the longitudinal direction on the outer circumference of the rotary cylinder 10, are installed in the rotary cylinder 10 and connected to the carbon rolls 20 and 21, and the carbon Driving means for charging / drawing the rolls 20 and 21 with respect to the insertion groove 11, rotation means for drawing the carbon rolls 20 and 21 out of the furnace by rotating the rotary cylinder 10, Airtight holding means for maintaining the airtightness of the gap between the rotary cylinder 10 and the furnace wall.

Here, the replacement device according to the present embodiment is installed on the left and right sides with respect to the strip 150 to closely adhere the carbon rolls to the front and rear surfaces of the strip 150, except that they are opposed to each other with a predetermined height difference. Since the structure and operation are the same, the following description will only be described for the replacement device located on the right side of the strip 150 in the drawings.

The rotating cylinder 10 is made of a silica heat insulating silica material, the rotating shaft is installed on the cooling wall 110, the furnace wall is located half on the inside and half on the outside of the furnace wall.

In addition, two insertion grooves 11 formed in the longitudinal direction in the rotary tube 10 are formed at intervals of 180 degrees, each insertion groove 11 is a depth that can be sufficiently inserted into the carbon roll (20, 21) In other words, the carbon rolls 20 and 21 are formed to a depth deeper than the radius of the distance from the center of the rotary cylinder 10 to the outer circumferential surface thereof so that the carbon rolls 20 may rotate when the rotary cylinder 10 is rotated. , 21) shall not interfere with the furnace wall.

The rotary cylinder 10 is operated through the rotation means, the rotation means is a drive motor 31 is installed on the cooling wall 110, the furnace wall via the bracket 30, and the drive motor 31 The drive gear 32 is installed on the rotary shaft, and the driven gear 33 is installed on the rotation shaft of the rotary cylinder 10 and meshed with the drive gear 32.

Therefore, when the driving motor 31 is rotated, the rotary cylinder 10 is rotated by the driven gear 33 to the drive gear 32 to position the carbon rolls 20 and 21 installed in the rotary cylinder 10. Will change.

In addition, looking at the drive means includes a drive cylinder 40 is installed in the insertion groove forming direction at the side end of the rotary cylinder 10 and the rotary shafts of the carbon rolls 20 and 21 are axially coupled to the piston rod end. .

Accordingly, the carbon rolls 20 and 21 are drawn out from the insertion grooves 11 in close contact with the strip 150 as the driving cylinder 40 extends.

The drive cylinder 40 is inserted into the side of the rotary cylinder 10 has a structure that does not cause interference with the furnace wall.

In addition, the driving means is extended to the front end of the piston rod of the drive cylinder 40, in order to prevent the flow of the forward and backward forward and backward movement of the carbon roll (20, 21) horizontally installed toward the drive cylinder 40, The rack further comprises a rack bar 41 is formed, and the pinion gear 42 is coupled to the upper and lower racks of the rack bar 41 is axially coupled to the side of the rotary cylinder (10).

According to this embodiment, two pinion gears 42 are installed in each of the upper and lower racks so as to support the rack bars 41.

On the other hand, when looking at the airtight holding means for maintaining the airtight between the rotary cylinder 10 and the furnace wall, the furnace wall is cut to the side to a height corresponding to the diameter of the rotary cylinder 10 for the installation of the rotary cylinder (10) The airtight holding means is installed at the upper end and the lower end of the furnace wall which are cut out and contact with the rotary tube 10.

The hermetic holding means is provided with a channel member 50 installed in the longitudinal direction of the rotary cylinder 10 on the furnace wall to form a space between the rotary cylinder 10 and the furnace wall, and the channel member 50. And attached to the side surface of the rotating cylinder 10 to be closely attached to the curtain member 51 and the channel member 50 to maintain the airtightness between the channel member 50 and the rotating cylinder 10. It includes a supply hose 42 for injecting nitrogen gas for hermetic maintenance into the space portion of the.

According to this embodiment, the channel member 50 has a curtain member 51 further installed therein, and the interior is separated into two spaces, which are in close contact with the rotary cylinder 10 independently. This is to increase the confidentiality performance by performing.

The curtain member 51 is preferably made of a rubber material in consideration of adhesion to the rotating cylinder 10 and interference when the rotating cylinder 10 rotates.

Reference numeral 53 which is not described is a valve installed in the supply hose 42.

Hereinafter, the operation of the present invention will be described with reference to FIG.                     

The strip 150 passes through the inlet sealed box at the bottom of the bright annealing furnace and exits the return duct through the heating furnace and the cooling stand 110, and in this process, the carbon roll 21 positioned below the cooling stand 110. In close contact with both sides of the strip 150 to correct the shape of the strip 150.

In the state in which the line is normally operated as described above, the rotary cylinder 10 is stopped, and the inner carbon roll 21 of the two carbon rolls 20 and 21 installed in the rotary cylinder 10 is connected to the driving cylinder 40. According to the stretching operation, it is withdrawn from the insertion groove 11 and is in close contact with the surface of the strip 150.

If the replacement of the carbon roll 21 due to the damage or wear of the carbon roll 21 or the polishing of the carbon roll 21 is required during the line operation, the carbon roll 21 being used is simply rotated 180 degrees. It can be located outside the furnace wall to perform the necessary work and at the same time the new carbon roll 20 is entered into the cooling table 110 to continue the line work.

That is, when a signal such as a switch is applied, the driving cylinder 40 is first reduced in operation, and the insertion groove 11 having the carbon roll 21 connected to the tip of the piston rod of the driving cylinder 40 in the rotary cylinder 10 is formed. Will be inserted into the

In addition, the driving motor 31 installed outside the cooling stand 110 is operated, and the rotary cylinder 10 installed through the driven gear 33 in the driving gear 32 installed on the rotating shaft of the driving motor 31 is connected to the furnace wall. Rotate around the rotation axis of.

The rotary cylinder 10 has a rotational angle of more than 90 degrees while the carbon roll 21 positioned inside the cooling stand 110 is drawn out of the cooling stand 110 and the carbon roll that was outside the cooling stand 110. 20 is newly entered into the cooling table 110, in which the curtain member 51 of the channel member 50 installed on the furnace wall is continuously in contact with the rotating cylinder 10, the channel member 50 Into the space formed by the rotating cylinder 10 and nitrogen gas is continuously supplied through the supply hose 42 to maintain the airtight between the furnace wall and the rotating cylinder (10).

In this state, when the rotating cylinder 10 is rotated 180 degrees, the driving motor 31 stops the rotating cylinder 10 and the carbon roll 20 newly entered into the cooling table 110 is driven. In accordance with the extension operation of the cylinder 40 is drawn out from the insertion groove 11 and in close contact with the strip 150 to continue the shape correction operation of the strip 150.

On the other hand, the carbon roll 21 which was working in the cooling stand 110 is drawn out to the outside of the cooling stand 110 in accordance with the rotation of the rotating cylinder 10, and is drawn out from the insertion groove 11 in accordance with the extension operation of the working cylinder, In this state, necessary operations such as polishing, repair, and replacement can be easily performed.

According to the carbon roll replacement device for straightening the strip shape of the bright annealing furnace according to the present invention as described above, it is possible to replace and repair the carbon roll while the line is continuously running, thereby preventing a decrease in productivity due to line stoppage. do.

In addition, the time and effort required to repair and replace the carbon rolls can be reduced and productivity can be increased.

Claims (4)

A rotary tube disposed in the strip width direction on the lower wall of the cooling table and rotatably installed on the inside and outside of the furnace wall; Carbon roll seated in the insertion groove formed in the longitudinal direction on one side of the rotating cylinder, A driving means installed in the rotary cylinder and connected to the carbon roll to charge / draw the carbon roll with respect to the insertion groove; An apparatus for replacing a carbon roll for straightening a strip shape of a bright annealing furnace including a rotating means for rotating the rotating cylinder to draw the carbon roll out of the furnace. According to claim 1, wherein the rotation means is a drive motor installed on the cooling wall furnace wall via a bracket, a drive gear installed on the rotary shaft of the drive motor, the rotary shaft of the rotary cylinder is geared to the drive gear. The apparatus for replacing a carbon roll for straightening the strip shape of the bright annealing furnace, characterized in that it comprises a driven gear. 2. The bright annealing furnace according to claim 1, wherein the driving means includes a driving cylinder installed at a side end of the rotary tube in a direction of forming an insertion groove, and a rotation cylinder of the carbon roll being axially coupled to a piston rod end. Carbon roll replacement device for strip shape calibration. 4. The channel member according to any one of claims 1 to 3, further comprising: a channel member disposed on the furnace wall in the longitudinal direction of the rotary cylinder to form a space portion between the rotary cylinder and the furnace wall; A curtain member which is in close contact with and maintains the airtightness of the space portion, and is connected to the channel member and includes a supply hose for injecting nitrogen gas into the space portion between the channel member and the rotary cylinder to maintain the airtightness between the rotary cylinder and the cooling stand The apparatus for replacing a carbon roll for straightening the strip shape of the bright annealing furnace, further comprising an airtight holding means.

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