KR100775306B1 - An apparatus for cooling a reheating furnace - Google Patents

Abstract

In the production of cold-rolled products is provided a cooling apparatus for cooling the steel sheet continuous annealing furnace for forming a material suitable for the characteristics of each product by passing the strip through the annealing of the continuous annealing line where the high temperature is kept constant.

The cooling device 1, the base 20 is installed to be movable to enter the inside of the steel sheet continuous annealing furnace 10; and the movement guide installed to extend in the vertical direction in multiple stages in the inner center of the base 20 A vertical deployment portion 40 having a circular block 44 disposed at both sides of an inner center thereof, and opposite to each other at both sides of the center of the circular block 44; An annealing furnace air cooling unit (60) having an air nozzle pipe (62) deployed in a direction to supply cooling air to the inside of the annealing furnace; And a bellows pipe 82 for discharging the hot air, which is integrally vertically moved at the time of vertical expansion of the circular block 44 on both sides of the base 20 to the outside of the circular block 40, and in the longitudinal direction thereof. An annealing furnace internal air discharge portion 80 having a suction fan 84 that is installed to facilitate pipe suction discharge of the annealing furnace high temperature air.

Therefore, according to the present invention as described above, the cooling air is injected from the multi-stage position in the longitudinal direction of the annealing furnace and the cooling fan is operated to effectively cool the atmosphere temperature inside the annealing furnace, while continuously conveying the steel sheet. Individual cooling of the refraction rolls for the smooth performance is to provide an effect that can be treated early local high temperature phenomenon of the annealing furnace.

Steel Plate, Continuous Steel Sheet Process, Continuous Annealing Steel Sheet, Continuous Annealing Furnace, Annealing Furnace Cooling Equipment, Atmosphere Temperature, Annealing Furnace Overheating

Description

Steel Plate Continuous Annealing Furnace Cooling System with Ambient Temperature and Individual Cooling {AN APPARATUS FOR COOLING A REHEATING FURNACE}             

Figure 1 is a schematic diagram showing the annealing furnace of the steel sheet in the continuous process of the general steel sheet

Figure 2 is a plan view showing the overall configuration of the steel sheet continuous annealing furnace cooling apparatus capable of cooling the ambient temperature and individual parts according to the present invention

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a cross-sectional view taken along the line B-B of FIG.

5 is a cross-sectional view taken along the line C-C of FIG.

Figure 6 is a front configuration diagram showing an expanded state of the present invention device

Figure 7 is a front configuration diagram showing a reduced state of the present inventors device

Figure 8 is a front configuration diagram showing an annealing furnace operating state of the present invention device

9 is a plan view illustrating main parts of the portion D of FIG. 2;

FIG. 10 is a detailed view illustrating portion 'E' of FIG. 4.

Figure 11 shows the rack gear transfer unit of the present inventors device,

(a) front view of the main part

(b) shows the operating state                 

(c) the lumbar side view

Explanation of symbols on the main parts of the drawings

1 .... annealing furnace chiller 10 .... annealing furnace

20 ... Bass 22 ... Balance

24 .. Rail 26 .... Gearwheel

40 .... Vertical deployment 42 .... Movement guide

44 .... Circular block 46 .... Drive motor

48b .... Support 48c .... Support groove

60 .... air cooling section 62 .... air nozzle pipe

63 .... Unfolding bar 64,82 .... Bellows tube

66 .... Distribution pipe 76 .... Main supply pipe

80 .. Inlet air outlet 84 .... Suction fan

85,92 .... Pulley 88 .... Shaft

94 .... drive belt 98 .... exhaust pipe

The present invention relates to a continuous steel annealing furnace for forming a material suitable for the characteristics of each product by passing the strip through the annealing of the continuous annealing line in which the high temperature is kept constant during the production of cold-rolled products. By injecting the cooling air in the multi-stage position in the longitudinal direction and operating the cooling fan, it effectively cools the atmosphere temperature inside the annealing furnace and smoothly performs individual cooling of the refraction rolls for continuous transfer of the steel sheet. The present invention relates to a steel sheet continuous annealing furnace cooling apparatus capable of cooling one atmosphere temperature and individual parts.

As shown in FIG. 1, in general, the steel sheet 100 using various refractive rolls 110 of the upper and lower sides in the annealing furnace 100 of the continuous annealing line in which the high temperature of the cold rolled product is kept constant. The continuous annealing of the steel sheet while conveying continuously, this continuous annealing of the steel sheet is to produce a cold rolled steel sheet of high quality by forming a material suitable for the characteristics of each steel sheet.

By the way, in the steel sheet continuous annealing furnace 100 as described above, it is necessary to inspect the various supporting equipment inside the annealing furnace and to replace and check the refractive rolls 120, etc. In the state in which the 130 is opened, the operator directly enters the inside of the annealing furnace 100 and checks it. First, the annealing furnace 100 supplies an unlimited amount of air for cooling into the high temperature annealing furnace 100. Only after falling below a predetermined temperature will the worker can enter the interior of the annealing furnace (100).

Therefore, the conventional method of simply supplying the air into the annealing furnace 100 requires a considerable time to cool the annealing furnace 100, so that the internal inspection of the annealing furnace 100 and the refraction roll 120, etc. The replacement of equipment is delayed, resulting in a problem that the operation rate of the continuous steel annealing line is lowered.

The present invention has been made in order to improve the various problems as described above, the object of the present invention is to spray the cooling air in the multi-stage position in the longitudinal direction of the annealing furnace, while operating the cooling fan to operate the high temperature inside the annealing furnace By discharging air outside, the atmosphere temperature inside the annealing furnace can be quickly cooled, while the temperature of individual parts such as the refraction rolls for continuous transfer of the steel sheet can be easily cooled to check the inside of the annealing furnace and replace equipment such as the refraction rolls. The present invention provides a steel sheet continuous annealing furnace cooling apparatus capable of quickly performing the annealing and improving the continuous annealing line operation rate of the steel sheet and cooling the individual parts.

The present invention as a technical configuration for achieving the above object, the apparatus for cooling the steel sheet continuous annealing furnace, the base installed so as to move inwardly into the annealing furnace;

A vertical deployment unit having a circular block installed at both sides of the inner center of the movement guide installed to extend in the vertical direction in multiple stages at the inner center of the base;

An annealing furnace air cooling unit installed opposite to each other on both sides of the center of the circular block and equipped with an air nozzle tube extending in a horizontal direction when the circular block is vertically expanded to supply cooling air to the inside of the annealing furnace; And,

Bellows pipe for high temperature air discharge, which is installed to move vertically integrally when the circular block is vertically expanded on both sides of the base to the outside of the circular block, and a plurality of longitudinally installed to facilitate the suction suction of the high temperature air in the annealing furnace By annealing furnace with an intake fan inside the air discharge portion; by providing an ambient temperature consisting of a steel sheet continuous annealing furnace cooling device capable of cooling the individual parts.

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

Figure 2 is a plan view showing the overall configuration of the annealing furnace cooling apparatus capable of cooling the ambient temperature and individual parts according to the present invention, Figure 3 is a cross-sectional view taken along line AA of Figure 2, Figure 4 is a BB line of Figure 2 5 is a cross-sectional view taken along line CC of FIG. 2, FIG. 6 is a front configuration diagram showing an expanded state of the device of the present invention, FIG. 7 is a front configuration diagram showing a reduced state of the device of the present invention, and FIG. 9 is a front configuration diagram showing an annealing furnace operating state of the apparatus of the present invention, FIG. 9 is a plan view showing main parts of part D of FIG. 2, and FIG. 10 is a detailed view showing part 'E' of FIG. 11 is a view showing the rack gear transfer unit of the present invention device.

In FIG. 2, the present invention is shown in the overall configuration of the steel sheet continuous annealing furnace cooling apparatus 1 capable of cooling the atmosphere gas and the individual parts of the present invention. Such an apparatus 1 of the present invention is largely divided into a base 20 and a vertically developed portion ( 40) and the annealing furnace air cooling unit 60, and the annealing furnace inside the air discharge portion 80, divided into the respective components (20, 40, 60, 80) as follows. same.

2 and 4 show the base 20 of the apparatus 1 of the present invention, the base 20 of the present invention is provided to be movable to enter the interior of the annealing path 10. .

That is, as shown in FIG. 8, the base 20 has a trolley 22 into which the bottom plate 20a enters through the cover C for entering the apparatus 1 of the present invention installed in the annealing path 10. The gear wheel 26 installed so as to drive to the bottom in the lap gear part 24a of the rail 24 provided in () is installed so that it may move between the steel plates S which are bent and conveyed.

At this time, as shown in FIG. 4, the driven sprocket 26b of the rotating shaft 26a on which the gear wheel 26 is installed is fastened to the driving sprocket 27a of the motor 27 installed on the base bottom plate 20a. The drive chain 27b is fastened so that the base 20 moves between the steel plates S vertically conveyed as the refraction roll 12 as shown in FIG. Will be.

Next, as shown in FIGS. 3 and 7, the base 20 is formed as the rectangular base, and a circular seating portion 26 into which the circular block 40 is inserted is formed at the center thereof. Other seating spaces 26a for the free space of the driving belt 94 to be described are integrally formed on both sides thereof.

Next, FIGS. 2, 4, 9 and 11 show the vertical deployment part 40 of the apparatus 1 of the present invention, which is the inside of the base 20. The movement guide 42 installed to extend in the vertical direction in multiple stages in the center has a circular block 44 installed on both sides of the inner center.

That is, as shown in Figs. 7, 9 and 11, the circular block 44 of the vertical deployment portion 40, the first-inserted into the mounting portion 26 of the base 20 in the first-fold It consists of four circular blocks 44a-44d.

And, as shown in Figure 11, the movement guide 42 is opposed to each other on the opposite side of the center of the first-4 circular blocks 44, the second-4 circular blocks (44b) (44c) (44d) The guide grooves 43b, which are respectively mounted on the inner circumferential surfaces of the guide protrusions 43a, which are formed at the lower end of the rear surface, are inserted into the first to third moving guides 42a, 42b, 42c formed in the longitudinal direction.

Meanwhile, as illustrated in FIGS. 3 and 4, the front of the first to third movement guides 42 is inserted into the upper surface of the base 20 so as to drive the motor 46 through the mounting portion 26. The rack gear part 46b to which the pair of pinion gears 46a mesh with each other is integrally formed, and the first circular block 44a is fixed to the upper end of the first moving guide 42a so that the motor 46 The circular block in which they are fixed integrally with the guides is configured to vertically expand during driving.

Meanwhile, as shown in FIG. 9, the support pieces 48b to which the springs 48a are connected are installed in the first to third circular blocks 44a, 44b, and 44c, and the second and fourth circular blocks (4b). 44b, 44c and 44d are formed with a support groove 48c into which the support piece 48b is inserted in the longitudinal direction, so that the vertical movement of the circular blocks 44 by the movement guides 42 is stable. To be done.

Next, FIGS. 2, 4, 6 and 9 illustrate the annealing furnace air cooling unit 60 of the apparatus 1 of the present invention, wherein the air cooling unit 60 of the present invention is the circular block. The air nozzle pipe 62 is provided on both sides of the center of the 44 to face each other and expands in the horizontal direction when the circular block 40 is vertically expanded, and is configured to supply cooling air to the inside of the annealing furnace.

That is, as shown in Figures 4, 9 and 10, the air nozzle pipe 62 in the vertical direction to the distribution pipe 66 fixed as a bracket (B) to the lower side of the central portion of the circular blocks (44). The first to third bellows pipes 64a to 64c connected to each other are connected to the other bellows pipes 64a 'to 64d' through the distribution pipe 66.

The other bellows pipes 64 'are hinged 68 connected to the lower portions of the first through fourth circular blocks 44a, 44b, 44c and 44d, and the rear ends thereof are fixed to the bracket B. A spring 70 is elastically connected and a plurality of guide rolls 72 are installed at the bottom to facilitate movement during contraction and expansion in the vertical direction by the movement guides 42 of the circular blocks 44. 2-5 air nozzle pipes 62b-62e of the air nozzle pipes 62 are installed in the 2-5 development bars 63b-63e which are horizontally developed in the lower part at the time of vertical movement of the block 44, have.

That is, the 2-5 air nozzle pipes 62, as shown in Figure 9 when the circular blocks 44 are overlapping,

It is inserted into the circular blocks 44 and then fully developed from the vertical state to the horizontal state as the circular blocks 44 unfold.

Meanwhile, a first air nozzle pipe 62a connected to a supply pipe 74 vertically connected to the uppermost distribution pipe 66 'and horizontally fixed to the first circular block 44a is further provided. As shown in FIG. 7, the air nozzle pipe 62a is positioned in the lower portion of the refraction roll 12 and is formed in an arc shape to allow individual cooling of the refraction roll 12. When the driving motor 46 is moved on), the rising width of the moving guide 42 and the circular block 44 to rise should be appropriately adjusted.

3 and 4, the main supply pipe 76 is connected to the distribution pipe 66 of the lower third bellows pipe 64c through an upper portion of the base 20, which is described in detail. Although not shown, the main supply pipe 76 is preferably connected to a pipe-type supply pipe 76 fixed to one side on the base 20 as a flexible hose in consideration of the movement of the apparatus 1 of the present invention. something to do.

As a result, as shown in Figure 4 and 8, the air cooling pipe 62 of the present invention is deployed to both sides in the interior of the annealing furnace 10, and then supplied cooling air, that is, air at room temperature air injection pipe By spraying through the nozzles of 62, the atmosphere temperature inside the annealing furnace is rapidly lowered, so that the internal atmosphere cooling of the annealing furnace 10 is effectively performed.

Next, the internal air discharge portion 80 of the apparatus 1 of the present invention to inhale and discharge the internal air in addition to the above air cooling to more quickly process the internal cooling of the annealing furnace is shown in FIGS. 3, 6 and 9. Doing.                     

That is, as shown in Figures 3, 6 and 9, the air discharge portion 80 of the present invention, the outer side of the circular block 40 of the circular block 44 on both sides of the base 20 It is equipped with a bellows pipe 82 for discharging the high-temperature air integrally installed so as to move vertically at the time of vertical expansion, and a suction fan 84 which is installed in a plurality of longitudinal directions so as to facilitate the pipe suction discharge of the annealing furnace high-temperature air.

Meanwhile, as shown in FIGS. 3 and 7, the bellows pipe 82 is provided at both sides of the support 86 installed in the longitudinal direction of the base 20 above the first circular block 44a of the circular blocks. When the circular blocks 44 are deployed, they are integrally connected to each other.

In addition, the suction fan 84 is fixed to both sides of the rotating shaft 88 installed to rotate to the pulley 85 on the support block 87 mounted inside the connecting member 82a fixed to the bellows pipe 82. And first to third suction fans 84a to 84c, which are disposed on the first and third circular blocks 44a and 44c and the base 20, respectively. It is.

As a result, since the suction fan 84 of the present invention is connected to the upper portion of the first circular block 44a of the vertically deployed circular blocks and integrally vertically expands or contracts, the first to third ones installed in the bellows pipe 82 are provided. The suction fans 84a-84c are arranged outside the air injection pipe 62 which always deploys and ejects air at a predetermined interval inside the annealing furnace 10. When the cooling air is injected, the internal temperature of the annealing furnace is cooled. The air whose temperature is rising while being exhausted is discharged through the suction fan 84, which makes the internal temperature cooling of the annealing furnace 10 more smooth.

Meanwhile, as shown in FIGS. 3 and 7, the pulley 85 includes moving pulleys 92a and fixed pulleys 92b installed to move as springs 90 therein on both sides of the base 20. A drive belt 94 capable of variable adjustment according to shrinkage and expansion is fastened, and a driving motor 96 installed on the base 20 is axially connected to one of the rotating shafts 88a of the rotating shafts. In the case of driving 96, the suction fan 84 is integrally formed with the rotation shafts 88 and 88a so as to drive rotation.

3 and 7, a bellows pipe 82 in which the rotary fan 84 is installed is connected to a discharge pipe 98 horizontally fixed to the base 20, which is not shown in detail in the drawing. Although not, the discharge pipe 98 is configured to be connected to the main suction pipe for suction pumping operation so as to discharge the internal air of the annealing furnace to the outside.

Referring to the operation of the present invention made in the above configuration in detail as follows.

2 to 11, the interior inspection of the annealing furnace 10 for annealing the steel sheet (S) in the continuous annealing line in accordance with the characteristics of the cold rolled steel sheet product and proceed with the replacement of equipment such as the refractive roll 12 In this case, the steel sheet continuous annealing furnace cooling apparatus 1 of the present invention, which enables individual cooling, such as the internal atmosphere temperature and the refractive roll of the annealing furnace 10, is as follows.

As shown in FIG. 8, after opening the cover C provided in the side part of the annealing path 10 by opening the trolley | bogie 22, it shows on the trolley 22 as shown in FIG. 2 and FIG. The drive motor 27 is operated by the gear wheel 26 engaged with the lag gear part 24a of the installed rail 24 to adjust the position so that the base 20 approaches the desired position, that is, the deflection roll 12 to be cooled. do.

Next, as illustrated in FIGS. 4, 7 and 11, the pinion gear 46a meshed with the rack gear portion 46b formed on the front surface of the first to third movement guides 42 is mounted on the base 20. When the drive motor 46 is rotated in the counterclockwise direction, the rack gear portion 46b is integrally formed on the front surface and centered on the first to fourth circular blocks 44a, 44b, 44c, and 44d. The movement guides fixed to both sides, that is, the innermost first movement guide 42a are raised, and as a result, the first circular block 44a fixed to the upper portion of the first movement guide 42a is raised.

Subsequently, when the pinion gear is continuously driven, the second movement guide 42b and the third movement guide 42c on the outer side thereof continuously rise with each other, as shown in FIG. -2 moving guides (42a) (42b) (42c) are opposed to each other on the opposite side of the center of the first-4 circular blocks (44) inserted overlapping the central seating portion of the base (20) The inner peripheral surfaces of the 44b, 44c and 44d are respectively fixed.

At this time, as shown in Figure 11, the guide projections (43a) formed on the lower rear end of the movement guides 42 are inserted into the guide grooves (43b) of the other movement guides (42) overlapping the first movement guide ( When 42a) is completed, the rack gear part of the 2nd movement guide 42b meshes with the pinion gear 46a, and the rack gear part of the 3rd movement guide 42c raises by meshing with the pinion gear, and the said 1st -3-4th circular blocks 44b-44c to which the movable guides 42a, 42b and 42c are fixed, and the first circular block 44a fixed to the upper portion of the first movable guide 42a. Is integrally vertically deployed in the longitudinal direction of the annealing furnace 10.

At this time, as shown in Figure 9, the first to third circular blocks (44a, 44b, 44c) is provided with a support piece (48b) connected to the spring 48a, the second-4 circular block (44b) (44c) (44d) is formed in the longitudinal direction of the support groove 48c into which the support piece (48b) is inserted so that the circular blocks (44) by the movable guides (42) in the vertical direction It is a stable vertical development.

Next, as shown in FIG. 4, when the vertical deployment of the circular blocks 44 is completed, the first to fifth air nozzle tubes 62a to 62e are deployed to the centers of the circular blocks 44. Between the distribution pipes 66 installed on the brackets B fixed to the circular blocks 44, the first to third bellows pipes 64a and 64c which are contractable and expandable in the vertical direction are connected. The 2-4 air nozzle pipes 62b-62e are connected to the distribution pipe 66 through the other bellows pipe 64a'-64d ', and the 1st air nozzle pipe 62a is the said uppermost pipe | tube. It is connected to the supply pipe 76 vertically fixed to the side distribution pipe 66 'and is fixed to the upper portion of the first circular block 44a.

Therefore, as shown in Figs. 4 and 7, when the air cooled at high pressure, for example, air at room temperature, is supplied through the air supply pipe 76 connected to the third bellows pipe 64c on the lower side, the beller As air is supplied through the wood pipes 64 and the other bellows pipes 84 ', the air injected through the nozzles of the air nozzle pipes 62 rapidly cools the atmosphere temperature inside the annealing furnace.

4 and 9, the other bellows pipes 64 'are connected to the hinge 68 at the lower portions of the first through fourth circular blocks 44a, 44b, 44c and 44d. The rear end of the air nozzle tube 62 is located in the second bar 5b, 63b, 63e, which is fixed to the bracket B, and the spring 70 fixed to the bracket B and the guide rolls 72 are installed at the bottom thereof. Since the 2-5 air nozzle pipes 62b and 62e are installed, when the vertical deployment of the circular blocks 44 is completed by the movement of the movement guides, the 2-5 ear nozzle pipes 62b and-( 62e) expands the air supply in the annealing furnace as it develops in a straight line in the annealing furnace.

That is, the 2-5 air nozzle tubes 62 are inserted into the circular blocks 44 when the circular blocks 44 are overlapped, and ascending of the circular blocks 44 is shown in FIG. 9. As it is developed in a progressive manner, it is fully developed from a vertical state to a horizontal state.

On the other hand, as shown in Figure 7, the first air nozzle pipe 62a connected to the supply pipe 74 vertically connected to the uppermost distribution pipe 66 'is curved in an arc shape, for example, an annealing furnace ( The individual cooling of the refraction roll 12 is more smoothly positioned near the lower part of the refraction roll 12 in FIG. 10.

Next, as shown in FIGS. 2 and 3, when the vertical deployment of the circular blocks 44 is made, the base 20 is disposed on the upper portion of the first circular block 44a of the circular blocks 44. Drive belt 94 fastened to pulley 85 on support block 87 mounted inside connection body 82a fixed to bellows tube 82 fixed to both sides of support 86 installed in the longitudinal direction of Is rotated by the operation of the drive motor 96 installed on the base 20, the suction fan 84 installed on the rotary shaft 88 is integrally driven to rotate, and eventually injected through the air nozzle pipe (62) The cooling air cools the inside of the annealing furnace and when the temperature rises, it is sucked by the suction fan 84 and discharged outside through the discharge pipe 98.                     

In this case, the driving belt 94 is a moving pulley 92a installed to move as a spring 90 inside the seating portion 26a formed at both sides of the base 20 as shown in FIGS. 3 and 7. And through the fixing pulley (92b), if the bellows pipe (82) is lowered during the contraction of the circular block 44 to reduce the operating length of the drive belt 94, the spring (90) is driven while being compressed The excess of the belt 94 is absorbed.

Accordingly, the first to third suction fans 84a and 84c installed in the bellows pipe 82 are provided at the outside of the air injection pipe 62 which always deploys and blows air at a predetermined interval inside the annealing path 10. When the cooling air is injected, the air whose temperature is raised while cooling the internal temperature of the annealing furnace is discharged through the suction fan 84, the bellows pipe 82, and the discharge pipe 98. Cooling is faster.

Accordingly, the present invention moves through the apparatus 1, is placed inside the annealing furnace 10, and then deployed in the longitudinal direction to inject cooling air through the air injection pipe 62, and at the same time the suction fan 84 By cooling the annealing furnace 10 with the continuous circulation of the air by discharging the air having a rise in temperature as), in particular, a specific part such as the refractive roll 12 can be individually cooled, thereby annealing by overheating. It is to prevent damage to the furnace equipment and to increase the operation rate of the continuous steel annealing line.

As described above, according to the inventors of the present invention, the continuous annealing furnace cooling apparatus capable of cooling the ambient temperature and the individual parts can quickly cool the continuous annealing furnace of the cold rolled steel sheet, thereby quickly performing the internal inspection of the annealing furnace and replacing equipment such as a refractive roll. It is to provide an excellent effect to improve the continuous annealing line operation rate of the steel sheet.

While the invention has been shown and described with respect to specific embodiments thereof, it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit or scope of the invention as set forth in the claims below. I would like to know that those who have knowledge of this can easily know.

Claims (7)

In the apparatus (1) for cooling a steel sheet continuous annealing furnace, A base 20 installed to be movable to enter the inside of the annealing path 10; and, A vertical deployment portion 40 having a circular block 44 installed at both sides of the inner center of the movement guide 42 installed to extend in the vertical direction in multiple stages at the inner center of the base 20; Annealing furnaces installed opposite to each other on both sides of the center of the circular block 44 and provided with an air nozzle pipe 62 extending in a horizontal direction when the circular block 40 is vertically expanded to supply cooling air to the inside of the annealing furnace. Air cooling unit 60; And, High temperature air discharge bellows pipe 82 is installed so as to move vertically integrally when the circular block 44 is vertically expanded on both sides of the base 20 to the outer side of the circular block 40, and a plurality of longitudinal installations And annealing furnace internal air discharge portion 80 having a suction fan 84 for smoothly inhaling and discharging pipes of the annealing furnace high temperature air. 2. The gear according to claim 1, wherein the base (20) is driven so as to be driven to the bottom of the ladder gear portion (24a) of the rail (24) provided on the cart (22) entering through the side of the annealing path (10). Wheel 26 is installed to move between the steel plate (S) to be engaged and bent, The base 20 is formed of the rectangular base, the center of the circular seat 40 is inserted into the circular seating portion 26, characterized in that the atmosphere temperature and cooling of the continuous steel sheet continuous annealing furnace capable of cooling individual parts The circular block 44 of the vertical deployment part 40 is a first-fourth circular block 44a-44d inserted into four layers in the seating part 26 of the base 20. Consisting of, The movement guides 42 are mounted on the inner circumferential surfaces of the second to fourth circular blocks 44b, 44c and 44d to face opposite sides of the center of the first to fourth circular blocks 44, respectively, and are formed at the bottom of the rear surface. The guide groove 43b into which the guide protrusion 43a is inserted is composed of first to third moving guides 42a, 42b and 42c formed in the longitudinal direction at the center thereof. Steel Sheet Continuous Annealing Furnace Chiller 4. The pair of pinion gears 46a of claim 3, wherein the first and third movement guides 42 are inserted into the front surface of the base 20 so as to drive the motor 46 through a seating portion 26. The rack gear portion 46b to which) is engaged is integrally formed, and the first circular block 44a is fixed to the upper end of the first movement guide 42a so that the circular block is vertically developed on the base when the motor is driven. Become, The first to third circular blocks 44a, 44b and 44c are provided with a support piece 48b to which a spring 48a is connected, and the second to fourth circular blocks 44b, 44c and 44d are provided. Steel sheet continuous annealing furnace cooling apparatus capable of cooling the ambient temperature and individual parts, characterized in that the support groove 48c into which the support piece 48b is inserted is formed in the longitudinal direction thereof. The air nozzle tube 62 of the annealing furnace air cooling unit 60, The first to third bellows pipes 64a to 64c connected to the distribution pipe 66 fixed to the bracket B at the center of the circular blocks 44 are at the ends of the bellows pipes 64a 'to 64d'. It is connected to the first 1-3 circular blocks 44, the hinge 68 is connected, the spring 70 is elastically connected and the guide roll 72 is installed at the bottom to the vertical movement of the circular block 44 2-5 air nozzle pipes 62b-62e which are installed at 2-5 development bars 63b-63e horizontally expanded from the bottom; And a first air nozzle pipe 62a connected to a supply pipe 74 vertically connected to the uppermost distribution pipe 66 'and horizontally fixed to the first circular block 44a. The first bellows pipe (64a) is connected to the cooling air main supply pipe 76 through the base 20, characterized in that the ambient temperature and individual steel sheet continuous annealing furnace cooling apparatus capable of cooling The support bellows pipe (86) of claim 1, wherein the bellows pipe (82) for discharging the inner air discharge portion (80) is installed in the longitudinal direction of the base (20) on an upper portion of the first circular block (44a) among the circular blocks. When the circular blocks 44 are deployed on both sides of the integrally connected to deploy, The suction fan 84 is fixed to both sides of the rotating shaft 88 installed to rotate to the pulley 85 on the support block 87 mounted inside the connecting member 82a fixed to the bellows pipe 82, Continuous steel sheet annealing furnace cooling apparatus comprising the first and third circular blocks 44a and 44c and the first to third suction fans 84a and 84c disposed on the base 20 side. The method according to claim 6, wherein the pulley (85) is variable by shrinkage and expansion through the movable pulley (92a) and the fixed pulley (92b) installed to move as a spring 90 therein on both sides of the base (20) An adjustable drive belt 94 is fastened, and one of the rotating shafts 88a of the rotating shafts is connected to the driving motor 96 installed on the base 20 so as to be integral with the rotating shafts 88 and 88a when the motor is driven. The furnace suction fan 84 is configured to drive rotation, The bellows pipe 82 is provided with the rotary fan 84 is connected to the discharge pipe 98 horizontally fixed to the base 20, characterized in that the ambient temperature and individual steel sheet continuous annealing furnace cooling device capable of cooling

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