KR100502237B1 - Door apparatus for horizontal hot annealing furnace - Google Patents

Abstract

The present invention relates to a door device used in a horizontal high temperature annealing furnace, the installation cost is low, as well as convenient to operate by a simple structure, the horizontal to improve the sealing effect to double the work efficiency of the annealing furnace A door apparatus for a high temperature annealing furnace.

The present invention has a hollow tunnel-type annealing furnace main body, in which a plurality of coils are inserted and heat-treated under a hydrogen atmosphere to form a sealing surface inclined at four corners at both openings of the main body. A door is provided in close contact with the sealing surface and opens and closes, and a door driver for rotating the door on the opening is provided, while the inside of the opening is pushed into the inside of the main body by the door to form a sealing relationship with the inner wall edges of the main body. Provided is a door apparatus for a horizontal high temperature annealing furnace in which a fireproof wall member is formed.

Description

Door apparatus for horizontal high temperature annealing furnace {DOOR APPARATUS FOR HORIZONTAL HOT ANNEALING FURNACE}

The present invention relates to a door device used in a horizontal high temperature annealing furnace, and more particularly, the installation cost is low due to a simple structure, convenient to operate, and improves the insulation and sealing effect to double the work efficiency of the annealing furnace. It relates to a door apparatus for a horizontal high temperature annealing furnace that can be made.

In general, the annealing furnace 100 for heat-treating the coil vertically charges the coil 120 to the interior of the wall 110 made of an arc-shaped fireproof structure, as shown in FIG. It is filled with hydrogen gas of heat treatment. Here, the vertical annealing furnace 100 means that the width direction of the coil 120 is vertically positioned in the annealing furnace 100, and unlike the above, the width direction of the coil 120 is horizontally maintained. The method is called a horizontal annealing furnace.

Such annealing furnace 100 loads the coil 120 on the trolley 125 at a high temperature of up to 1,200 ° C using hydrogen as an atmosphere gas, and performs annealing treatment for at least 24 to 136 hours. As shown in FIG. 1, the coil 120 is loaded on the trolley 125 into the inside of the tunnel-type wall 110 with the entrance charging chamber main body 101a, and the annealing furnace main body 101b is loaded. It is equipped with the exit extraction chamber (101c) is to be withdrawn from the annealing furnace (100) heat-treated coil 120.

Therefore, two types of door devices 140a and 140b are provided at the entrance and exit sides of the annealing furnace 100 to keep the interior thereof sealed.

As shown in FIG. 1, the door devices 140a and 140b are provided with double door devices, respectively, at the entrance and exit sides of the annealing path 100. It has a door (140a) of the entrance side is provided on the outside of the inlet of the annealing 100, the outer door 145 is moved up and down by the vertical cylinders (142), a predetermined distance from the outer door (145) Equipped with an inner door 147 to maintain, the inner door 147 is moved up and down by a rotary cylinder 152 provided on one side of the annealing furnace 100, to smooth the shangdong of the inner door 147 In order to maintain the balance of the weight 148 is connected to one side of the inner door (147).

In addition, a sealing clamp 160 is disposed between the outer door 145 and the inner door 147 to maintain a seal between the annealing path 100 and the inner door 147, and the sealing clamp 160 is an annealing path ( 100 is configured to be able to enter the lower space of the space between the outer door 145 and the inner door 147 by the horizontal cylinder 162 on one side.

The entrance door device 140a as described above first opens the outer door 145 by using the vertical cylinders 142 when the coil 120 is to be loaded therein. Then, the trolley 125 loaded with the coil 120 on the upper side passes through the outer door 145 and is positioned in the space between the inner door 147. In this state, the vertical cylinder 142 is operated to lower and close the outer door 145, and nitrogen is introduced between the inner door 147 and the outer door 145 to remove air existing between the inner door 147 and the outer door 145. After filling, air is removed, the inner door 147 is opened by using the rotary cylinder 152, and the trolley 125 carrying the coil 120 enters the inside of the annealing furnace 100. Then, after entering the coil 120 and the trolley 125 as shown in FIG. 2 to lower the inner door 147 to close the annealing path 100 and to close the inner door 147 to the annealing path 100. When the sealing clamp 160 as described above enters between the outer door 145 and the inner door 147, the plurality of inclined surfaces 165 formed on the sealing clamp 160 have corresponding inclined surfaces 167 formed at the bottom of the inner door 147. By contacting the inner door 147 is in close contact with the annealing furnace 100, the annealing furnace 100 is sealed from the outside.

After the heat treatment is completed, the coil 120 inside the annealing furnace 100 is drawn out to the outside using the exit door device 140b. In this case, the inner door device 140b may be formed. By opening the outer doors 170a and 170b sequentially, the coil 120 is discharged to the outside of the annealing furnace 100 without inflow of external air.

Therefore, the conventional door devices 140a and 140b as described above should operate the double doors of the door device separately at every operation of the coil 120, and the sealing clamp 160 which should seal the inner door 147 in close contact. It is necessary to discharge the air by filling nitrogen into the space between the double doors, which leads to an increase in the working unit, such as a large cost required to fill the nitrogen gas. In addition, such a vertical lifting door device (140a, 140b) is complicated in structure and excessively expensive installation cost, or complicated operation operation. In addition, when a power failure or an abnormality occurs in the hydraulic system during the operation of the annealing furnace 100, hydrogen gas in the annealing furnace 100 is leaked to the outside, thereby causing a large explosion accident.

The present invention is to solve the conventional problems as described above, the purpose is to have a simple structure, low installation cost, convenient operation and operation, improve the heat insulation effect and sealing effect of the gas inside the annealing furnace It is to provide a door device for a horizontal high temperature annealing furnace to ensure safe work and to double the work efficiency of the annealing furnace.

In order to achieve the above object, the present invention has a hollow tunnel-type annealing furnace body, the inside of the high-temperature annealing furnace is a heat treatment in a hydrogen atmosphere by charging a plurality of coils, the openings at both sides of the body in the four corners A door is formed to form an inclined sealing surface, the door is in close contact with the sealing surface, and is opened and closed. A door driver for rotating the door on the opening is provided, while the inside of the opening is pushed into the main body by the door. When the fireproof wall member having a sealing relationship with the fireproof walls of the main body is located, and the door has a weight of weight formed at the bottom of the outer surface, and the door contacts the sealing surface in an inclined state, Horizontal height, characterized in that it is configured to give a stronger contact pressure between the sealing surface The door of the apparatus for annealing to the maryeonham.

delete

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

The horizontal high temperature annealing furnace door apparatus 1 according to the present invention has a hollow tunnel type annealing furnace body 210 as shown in FIG. 4, and a plurality of coils 120 are loaded therein to form a hydrogen atmosphere. It is mounted on the high temperature annealing furnace 200 for heat treatment under. The high temperature annealing furnace 200 is a batch treatment annealing furnace 200 for collectively heat treating a plurality of coils 120, which is inside the main body 210 made of a refractory wall as shown in FIG. 8. Piping 220 is provided for supplying nitrogen gas and hydrogen gas that is an atmosphere gas, and a heating coil 225 is disposed therein, and a gas circulation and discharge system 230 for circulating or discharging the internal gas to the outside Is provided.

The door device 1 of the present invention forms a sealing surface 5 inclined at four corners at both openings of the main body 210 of the annealing furnace 200, and both openings of the main body 210 have coils on one side thereof. The inlet 120 is used as an inlet for entering the inside, and the other side is used as an outlet for discharging the coil 120 to the outside.

And, since the door device 1 of the present invention is mounted in the same configuration in both sides of the opening, it will be described below for any one side, but it should be understood that this is applied to both the inlet and outlet side.

The sealing surface 5 is an inclination angle θ of about 45 ° with respect to the horizontal plane of the inlet and outlet sides, the sealing member 7 made of asbestos cloth or the like is attached to the sealing surface It is possible to achieve a solid sealing action with the door 10 in close contact with the surface (5).

In addition, the sealing surface 5 is not limited to the inclination angle (θ) of the four corners of the inlet and the outlet as described above with respect to the horizontal line as described above, and similarly inclined so that the door 10 is inclined. As will be described later, it is configured to be able to give a stronger contact pressure between the sealing surface 5 by the weight of the weight (14).

On the other hand, the inlet is provided with a door 10 in close contact with the sealing surface 5 to open and close, and has a door driver 30 for rotating the door 10 on the opening.

5 and 6, the upper edge of the steel shell forms a hinge shaft 22 to be rotatably connected to the upper edge of the main body 210 through the bearings 26. The inner surface forms a wall structure as the refractory 28, and the weight 14 of the weight is formed in the lower end of an outer surface.

In addition, the door driver 30 is supported by the cylinder body on both sides of the body 210, the rods are connected to both edges of the door 10 to rotate the door 10 up and down about the hinge axis. With a plurality of hydraulic (or pneumatic) lifting cylinders 32, as shown in Figure 6, the cylinder body is fixed to the outer shell of the body 210 of the annealing furnace 200, the central axis of rotation is the door 10 It is provided with a rotary cylinder 35 is connected to the upper hinge shaft of the pivot pivoting the door (10).

The rotary cylinder 35 is also electrically driven by hydraulic pressure (or pneumatic), which, together with the pair of lifting and lowering cylinders 32, rotates the door 10 to a desired state, thereby opening the inlet of the main body 210. It can be opened and closed.

In addition, the fireproof wall member 40 which is pushed into the inside of the main body 210 by the door 10 to form a sealing relationship with the inner wall edges of the main body 210 is located inside the opening. The wall member 40 is made of a fireproof material as a whole, which is a heat insulating action to prevent heat from flowing out from the annealing furnace body 210 to the outside through the door 10, one side is in close contact with the fireproof wall of the body 210. To serve as a seal.

To this end, the fireproof wall member 40 is movable along the rail 45 formed inside the main body 210 of the annealing path 200 by forming a bogie 42 on the lower side, and one step 47 on one side. Formed to have a shape that matches the fire wall (210a) provided inside the inlet of the main body 210, it is configured to mount the sealing member 50 so that sealing is made along the edge of the fire wall (210a) .

In addition, the other side surface of the fireproof wall member 40 coincides with the inner surface refractory body 28 of the door 10 when the door 10 is closed by being in close contact with the inclined sealing surface 5. It is configured to occupy most of the space between the refractory body 28 of the door 10 closed and the fireproof wall body 210a of the annealing furnace main body 210 provided with the inclined surface 52 which contacts. That is, the fireproof wall member 40 has a shape and size corresponding to a space between the door 10 and the fireproof wall body 210a of the annealing furnace body 210, and when the door 10 is closed, the annealing is performed. It is configured to further enhance the sealing effect between the heat inside the furnace 200 to prevent leakage of heat to the door 10 side, and the sealing effect between the fire wall 210a of the main body 210.

In addition, a charging trolley (also called a mulka) 60 for advancing and retreating the fireproof wall member 40 into the interior of the annealing furnace body 210 is provided, and the charging trolley 60 includes a fireproof wall member ( 40 is provided with a driving motor 62 which can move forward and backward on the rear side of the rear side, and is movable forward and backward on the rail 45, and moves forward and backwards. To the inside of the annealing furnace main body 210, using a plurality of hooks (65) formed on the front side and the engaging rods 67 formed on the front surface of the fireproof wall member 40 to combine them, and to reverse The fireproof wall member 40 is configured to be drawn out from the annealing furnace body 210.

In the horizontal high temperature annealing furnace door apparatus 1 of the present invention configured as described above, when the annealing treatment of the coil 120 is to be performed, the plurality of coils 120 are sequentially turned inside the door 10 in an open state. Charge. In this case, the atmosphere is introduced into the annealing furnace body 210, and the number of the coils 120 to be charged is a plurality of numbers of about 5 to 20. When the charging of the coil 120 is completed using the trolley 125 as described above, the fire wall member 40 is pushed and moved next to the last coil 120.

This is because the charging cart 60 pushes the fireproof wall member 40 into the interior of the main body 210, and makes one side contact the end of the fireproof wall 210a of the main body 210, and then the charging trolley 60. Is reversed.

Then, the door 10 is closed using the door driver 30, and the inner surface of the door 10 is in close contact with the sealing surface 5 of the main body 210 to seal the sealing member 7 of the sealing surface 5. By pressing the seal, a reliable sealing is achieved between the sealing surface 5 of the annealing furnace body 210 and the door 10, and the inside and the outside of the annealing furnace are completely blocked. On the other hand, when the door 10 is closed as described above, since the door 10 is in contact with the inclined sealing surface 5, the weight 14 formed on the outside of the door 10 further lowers the door 10. The fireproof wall by the fireproof wall member 40 which is further pressed against the inside of the annealing furnace body 210 by the inner surface of the door 10 to increase the compressive strength with the sealing surface 5. The sealing member 7 between the member 40 and the fireproof wall body 210a of the main body 210 is further compressed to increase the sealing effect.

When the charging of the coil 120 and the closing of the door 10 are completed as described above, nitrogen is supplied into the annealing furnace 200 to completely remove the internal air, and then hydrogen gas is subsequently Supplied. Accordingly, after the filling with the hydrogen gas is completed, the inner coils 120 are heat-treated by heating the inside to a predetermined temperature using heating means.

When the heat treatment is completed as described above, supplying the nitrogen gas again to completely remove the hydrogen atmosphere gas, supply air in the state in which the hydrogen gas is removed to fill the interior of the annealing furnace 200 with air, and then By opening the door device to draw the coils 120. In this process, the door 10 is easily opened by operating the door driver 30 as opposed to the time of opening, and the fireproof wall member 40 enters the charging cart 60 toward the main body 210, and the charging cart 60. Hooks (65) provided on the hook and fixed to the folding bar 67 of the fire-resistant wall member 40, and pulled out to pull the fire-resistant wall member 40 to the outside of the main body 210, the heat-treated coil ( 120) is discharged to the outside.

According to the present invention as described above, by having a simple structure that is opened and closed by the door driver 30, the installation cost is low, it is convenient to operate and operate, the door 10 and the annealing furnace body 210 By providing a fireproof wall member 40 having a shape and a size corresponding to the space between the fireproof walls 210a, the annealing furnace 200 improves the sealing effect and the heat insulation effect of the gas inside the annealing furnace so that a safe work is performed. It is to obtain the effect that can double the work efficiency of (200).

1 is a block diagram showing a door device for annealing furnace according to the prior art;

Figure 2 is a block diagram showing the inner clapper portion of the door device for annealing furnace according to the prior art;

3 is a cross-sectional view taken along the line A-A of FIG. 1, showing a vertical annealing furnace according to the prior art;

4 is a perspective view of the door device according to the present invention mounted on a horizontal high temperature annealing furnace;

Figure 5 is a side cross-sectional view of the door apparatus of the present invention shown in Figure 4;

6 is a plan view showing a mounting configuration of a rotary cylinder provided in the door apparatus according to the present invention;

7 is a block diagram showing a charging cart and a fireproof wall member provided in the door apparatus according to the present invention;

Figure 8 is a side view showing a horizontal high temperature annealing furnace to which the present invention is applied.

Explanation of symbols on main parts of drawing

5 ..... sealing surface 7 ..... sealing member

10 .... Door 14 .... Weight

28 .... refractory 30 .... door driver

32 .... raising and lowering cylinder 35 .... rotary cylinder

40 ... fireproof member 42.

47 .... Jump 50 .... Sealing member

60 .... Payload 62 .... Drive Motor

65 .... hook 120 ... coil

125 ... Balance 200 ... Annealing Furnace

220 ... plumbing

Claims (4)

In the high temperature annealing furnace having a hollow tunnel-type annealing furnace body 210, a plurality of coils 120 are inserted therein and heat treated under a hydrogen atmosphere, A sealing surface 5 inclined at four corners is formed at both openings of the main body 210, and the door 10 is provided in close contact with the sealing surface 5 to open and close, and the door 10 is rotated on the opening. And a door driver 30 to be pushed to the inside of the opening and pushed into the inside of the main body 210 by the door 10 to form a sealing relationship with the fire walls 210a of the main body 210. The member 40 is positioned, and When the weight 10 of the weight is formed at the lower end of the outer surface and the door 10 is in surface contact with the sealing surface 5 in an inclined state, the door 10 is sealed by the weight of the weight 14 ( 5) The door apparatus for a horizontal high temperature annealing furnace, characterized in that configured to impart a stronger contact pressure between.  The fireproof wall member 40 is movable along the rail 45 formed in the main body 210 of the annealing path 200 by forming a bogie 42 at a lower side thereof. 10) and the shape and size corresponding to the space between the fire-resistant wall body 210a of the annealing furnace body 210, and formed a step 47 on one side of the fire-resistant wall body 210a provided inside the inlet of the body 210 On the one side, the sealing member 50 is mounted on the one side to seal the edge along the edge of the fireproof wall 210a, so that the heat inside the annealing furnace 200 flows out to the door 10 side. Door device for a horizontal high temperature annealing furnace, characterized in that configured to further strengthen the sealing effect between the heat insulating effect and the fireproof wall body 210a of the main body 210. delete  The method of claim 1, further comprising a charging bogie 60 for advancing and retracting the fire-resistant wall member 40 into the interior of the annealing furnace body 210, the charging bogie 60 of the fireproof wall member 40 It is equipped with a driving motor 62 that can move on the rail 45 by moving forward and backward on the rear side, and can move forward and backward on the rail 45, and moves forward to anneal the fireproof wall member 40. Pushed into the interior of the main body 210, the plurality of hooks 65 formed on the front side and the engaging bar 67 formed on the front surface of the fireproof wall member 40 are coupled to each other, and retracted to prevent the fireproof wall member 40 ) Door apparatus for a horizontal high temperature annealing furnace, characterized in that configured to be withdrawn from the annealing furnace body (210).