KR100979036B1 - An apparatus for supporting coke oven structure - Google Patents

Abstract

The present invention relates to a furnace body support holding device having a cross tie rod for supporting a pontoon constructed in a coke oven in a horizontal and vertical direction.

The present invention includes a plurality of cross tie rods disposed in the width direction at the top of the coke oven and assembled in a split rod manner, each of which has a tension spring or the like fitted at both ends thereof; A hydraulic cylinder disposed between a plurality of fixed plates mounted on one end of the plurality of cross tie rods; A load cell disposed between the fixing plate and the nut on the cross tie rod on the side where the hydraulic cylinder is mounted to detect and output a bearing force applied to the coke oven by the cross tie rod; And a controller configured to adjust a bearing capacity of the coke oven through the hydraulic cylinder when the output value from the load cell is out of an initial set value.

According to the present invention, it is possible to disassemble and reassemble without cutting the cross tie rods, thereby making it easy to maintain and maintain the coke oven. By supporting the coke oven at a constant tension, the effect of greatly increasing the life of the furnace is obtained.

Coke Furnace, Construction Coke, Furnace Retainer, Cross Tie Rod, Load Cell

Description

Furnace support retainer {AN APPARATUS FOR SUPPORTING COKE OVEN STRUCTURE}

1 is a side cross-sectional view showing a typical coke oven;

2 is a detailed view showing the coupling structure of the cross tie rod of the coke oven according to the prior art;

3 is an explanatory view showing a process of mounting a cross tie rod in the body support holding apparatus according to the present invention;

4 is a perspective view showing the structure of the cross tie rod provided in the furnace support holding device according to the present invention;

5 is a front sectional view of a cross tie rod embedded in a furnace support holding device according to the present invention embedded in an upper portion of a coke oven;

6 is a side cross-sectional view of a cross tie rod embedded in a furnace support holding device according to the present invention embedded in an upper portion of a coke oven;

Figure 7 is an external perspective view showing in detail the coupling structure of the both ends of the cross tie rod provided in the body support holding device according to the present invention;

8 is a main configuration diagram of a body support holding device according to the present invention;

9 is an explanatory diagram in which a furnace support holding device according to the present invention is mounted on a coke oven. <Description of the symbols for the main parts of the drawings>                 

5 ..... Split rod 10 .... Threaded section

12 .... Screw cap 20a, 20b .... Mounting plate

25 .... Nut 30 .... Hydraulic Cylinder

33 .... Load Cell 40 .... Hydraulic System

50 ... controller 100 ... coke furnace

110 ... smoke and 120 ... carbonization chamber

130 ... Cross Tie Road 135 .... Buck stay

140 ... tension spring 142 ... deck plate

150 ... Charge rail base

The present invention relates to a body support holding device having a cross tie rod for supporting the pontoon in a coke oven in the horizontal and vertical directions, and more particularly, by disassembling and remounting without having to cut the cross tie rod. It is easy to maintain and maintain the coke oven, and it is easy to automatically adjust the length and tension change of the spring according to the temperature change of the coke furnace to support the coke oven with constant tension at all times. It is about.

Generally, the coke oven 100 has a structure having a plurality of combustion chambers and carbonization chambers of a rectangular structure in turn, as shown in cross section in FIG. 1, and walls are stacked and operated with the flue 110 in the initial cold state. The temperature is raised to temperature to produce coke, and in the state of operation, it is necessary to maintain a constant force that suppresses the expansion of the coke furnace until the coke oven is closed without lowering the operating temperature.

The combustion chamber having a height of 2,300 mm provided in the coke oven 100 is constructed as a lead 110 and maintained at 1,270 ° C. by supplying heat from both sides for dry carbonization of one carbonization chamber 120.

The coke oven 100 is equipped with cross tie rods 130 on the upper and lower sides in order to prevent the operation effect due to the interaction of mechanical and thermal deformation such as abnormal expansion, protrusion, tilting during the operation. Both ends of the cross tie rods 130 vertically connect a buck stay 135, which is an iron structure, to both sides of the cross tie rods 130, and tension springs 140 are fitted to both ends of the cross tie rods 130, respectively. As shown in the figure, the buckstay 135 is supported inward so that the force is transmitted to the deck plate 142 on the upper part of the furnace body, and in such a structure, the coke oven 100 is maintained in a rectangular shape.

A total of 264 cross tie rods 130 are disposed on the upper and lower portions of the coke oven 100, and the upper cross tie rods 130 are assembled by the edges of the charging rail base 150 to raise the operating temperature. Without dropping the temperature, a constant force is maintained which suppresses the expansion of the coke oven until the coke oven 100 is closed.

This force is uniformly transmitted to the noduly yeon 110 by the flash plate 152 connected to the deck plate 142 serves to prevent the nodu yeon 110 to expand to the outside by temperature or vertical load, etc. Do it. At this time, workers measure the length of the tension spring 140 provided at both ends of the cross tie rod 130 periodically during operation to prevent the oven edge 110 from expanding outwards, and then compares it with a reference value. And determine whether there is a malfunction. That is, when the length of the tension spring 140 is increased, it means that the elastic support force by the spring is weakened, and in particular, the cross tie rod 130 of which the length of the tension spring 140 is out of the reference value is greater than the upper limit of the combustion chamber. Due to deterioration due to temperature, the length thereof is extended or broken, which prevents applying a constant force from the tension spring 140, so that the buckstay 135 vertically installed at both ends of the cross tie rod 130 is in the longitudinal direction. And the force supporting the old body is reduced accordingly.

As such, when the cross tie rod 130 is extended or broken inside the upper side edge 110 of the coke oven 100, the buckstay 135 is twisted, and thus the rail 160 of the top of the coke oven 100 is twisted. The mobile device (not shown) moving on the side of the rail 160 cannot travel due to the torsion of the rail 160, and protrusion of the upper edge of the coke oven occurs.

In this case, the cross tie rods 130 need to be replaced. In this case, the buckstays 135 are connected and fixed with a wire rope (not shown). Tension Loose due to (110 ℃), malfunction of chain block pulling wire rope, etc. occurs.

On the other hand, the upper cross tie rod 130 of the coke oven 100 is installed in the width direction of the coke oven 100 and passes through the charging vehicle rail base 150. Therefore, after replacing the cross tie rod 130 at the time of replacing the charging vehicle rail base 150, the rail base 150 must be replaced. Therefore, large-scale construction is in progress when the rail base 150 is replaced.

That is, in the related art, when the cross tie rod 130 is formed of an integral round bar having a length of about 18 m, the cross tie rod 130 is cut when the charging rail base 150 of the upper side of the coke oven is to be replaced. Next, the rail base 150 must be replaced. Therefore, since the rail base 150 and the cross tie rod 130 are replaced at the same time, a large-scale construction is required.

In addition, when the 18m integrated round bar is inserted when the new cross tie rod 130 is mounted, it should be prevented from bending due to the interference of the peripheral equipment or the weight of the round bar, and in consideration of the length of the cross tie rod 130 If it is impossible to insert because foreign matter is blocked in the site, there is a problem that requires considerable effort and time, such as dismantling the entire upper part with coke. In addition, conventionally, even when the length of the cross tie rod 130 is increased in accordance with the temperature of the hearth portion during operation, and the length of the spring 140 provided at both ends of the cross tie rod 130 is increased and the tension is weakened. There is no way to maintain the tension of the constant), and there is no way to correct the length and tension of the spring 140 generated by the tie rod 130 is stretched to adjust the length and tension of the spring 140 by the worker's discretion Was to adjust.

Accordingly, a problem arises in that the coke oven 100 cannot be stably supported by the correct design standard.

The present invention is to solve the conventional problems as described above, the object is

When changing the rail base of the charging car, it is possible to disassemble and re-install without having to cut the cross tie rod, so it is easy to maintain and maintain the coke oven. It is not necessary to greatly improve the working method, and it is easy to automatically adjust the length and tension change of the spring according to the temperature change of the coke oven, so that the spring supports the coke oven with a constant tension, and the body support holding device is designed to greatly increase the life of the furnace. It is to provide.

In order to achieve the above object, the present invention, in the furnace body support holding device for supporting the yeonwa built in the coke oven in the horizontal and vertical directions,

A plurality of cross tie rods disposed in the width direction at the upper portion of the coke oven and assembled in a split rod manner, each end of which includes a tension spring and the like;

A hydraulic cylinder disposed between a plurality of fixed plates mounted on one end of the plurality of cross tie rods;

A load cell disposed between the fixing plate and the nut on the cross tie rod on the side where the hydraulic cylinder is mounted to detect and output a bearing force applied to the coke oven by the cross tie rod; And

And a controller for adjusting the support force of the coke oven through the hydraulic cylinder by controlling the hydraulic cylinder through a hydraulic system when the output value from the load cell deviates from the initial set value. By

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

The body support holding device 1 according to the present invention comprises the cross tie rods 130 installed in the width direction of the coke oven 100 with a plurality of split rods 5 to form a screw portion 10 at the split position. And, it is provided with a screw cap 12 that can be coupled to the screw portion 10 to connect adjacent cross tie rods 130 with each other.

In addition, the cross tie rod 130 provided in the present invention is connected to a predetermined position in the width direction from the upper side of the coke oven 100 in a plurality of tie rods 130 to form a pair of springs at both ends thereof 140 and the like are mounted. That is, each cross tie rod 130 has a structure of a split rod 5 in which an intermediate portion thereof is cut and divided as shown in FIG. 4, and for the split assembly, the screw part 10 and the screw cap ( 12) and two cross tie rods 130 having such a split structure are arranged side by side and fixed at both ends thereof in a pair.

As shown in FIG. 7, two side-by-side cross tie rods 130 are inserted through one fixing plate 20a, springs 140 are respectively inserted at both ends thereof, and another The two springs 140 are held by the fixing plate 20b so as to be sandwiched therebetween, and a nut 25 is coupled to both end threads 10 of the cross tie rod 130 to the cross tie rod 130. From the spring 140 and the fixing plate (20a, 20b) is configured not to fall out.                     

In addition, the present invention is located between the fixing cylinder (20a, 20b) of the cross tie rod 130, which is located on the extruder (not shown) side of the coke oven (100) is located between the hydraulic cylinder 30, respectively, It is disposed between the fixed plate 20 and the nut 25 on the cross tie rod 130 on the side where the hydraulic cylinder 30 is mounted, and detects and outputs the bearing force applied to the coke oven 100 by the cross tie rod 130. A load cell 33 is provided.

When the output value from the load cell 33 deviates from the initial set value, the bearing force of the coke oven 100 through the hydraulic cylinder 30 is controlled by controlling the hydraulic cylinder 30 through the hydraulic system 40. It has a controller 50 for adjusting.

That is, in the present invention, the hydraulic cylinders 30 are interposed between the fixing plates 20a and 20b of the cross tie rods 130 positioned on the extruder side of the coke oven, and among the plurality of cross tie rods 130, respectively. One is provided with a load cell 33 between the outer fixing plate 20b and the nut 25 to transmit an electrical signal to the controller 50, the controller 50 through the hydraulic system 40 It is linked to control the hydraulic cylinder 30.

In addition, the hydraulic cylinders 30 are arranged so that the body is fixed to the rear fixing plate 20b, the rod is carried out to the front fixing plate 20a, the hydraulic cylinders 30 to move back and forth The individual hydraulic lines 37 are connected to a conventional hydraulic system 40 having a hydraulic motor or the like, whereby the hydraulic cylinders 30 are individually operated to withdraw the rod or to be built into the body side. It is possible.

Referring to the operation and effects of the present invention configured as described above are as follows.                     

First, as shown in Figs. 5 and 6, the furnace body support holding device 1 according to the present invention, two are arranged side by side in parallel, the charge rail base 150 is located in the space formed therebetween Extends in parallel. Therefore, since the cross tie rods 130 are disposed on both sides of the charged vehicle rail base 150, the charged rail base 150 may be mounted on a defective portion of the cross tie rod 130 during operation at any working position. Repair is made irrespective of and can achieve proper operation of the coke oven (100).

In addition, the body support holding device 1 according to the present invention can be easily connected and disconnected by having the cross tie rods 130 having a split structure using the threaded portion 10 and the screw caps 12. In addition, a lot of manpower is not required, and the length of the split rod 5 is easy to install, but if it is too short, the number of connection work increases and the work time becomes long. Therefore, the lengths of the split rods 5 of one cross tie rod 130 are most effectively divided into equal lengths of 3 to 4 m as a result of simulation analysis.

9, a plurality of cross tie rods 130 are arranged side by side in the width direction of the coke oven 100 according to the present invention. 9 illustrates a step in which the upper side edge 110 of the cross tie rod 130 is not stacked, and is a structural diagram for easily explaining the arrangement of the cross tie rod 130.

The cross tie rods 130 are partially overheated and stretched above the average value, and the cross tie rods 130 are replaced since the result of localized heat is generated and the rupture occurs as time passes. Should be. In particular, since there is a lot of corrosion and breakage at both ends of the cross tie rod 130 close to the buckstay 135, when the split rod 5 is used as in the present invention, the end portion may be simply replaced during the next replacement. It's okay.

In addition, since the cross tie rod 130 according to the present invention divides the entire length of the round rod into several pieces, and each of the divided rods 5 is installed while connecting one by one, it is possible to minimize the interference of the surrounding equipment during work. have. In addition, it is possible to prevent the occurrence of bending by the weight of the cross tie rod 130, and can be easily replaced without clogging in a short time at any time during the operation, it is possible to reduce the effort and safe maintenance work.

In the installation method of the cross tie rod 130, as shown in FIG. 3, the working scaffold 139 is installed on the extruder side buckstay 135 without mobilization of a crane, and the worker divides the cross tie rod. Assembled into the insertion space (110a) while pushing the 130 in the furnace width direction one by one, and screw threads 12 to the end threaded portion 10 of each of the divided rods 5 are assembled into a single long rod shape Done.

Then, the two cross tie rods 130 are pushed through the insertion space 110a in this manner, and the ends of the respective cross tie rods 130 protrude to the opposite side of the extruder to the coke oven. A plurality of fixing plates 20a, 20b and springs 140 are fitted, and the springs 140 are tightened using nuts 25 so that the springs 140 do not come out.

Then, the two cross tie rods 130 are in a state where the spring 140 is fixedly held opposite to the extruder to the coke oven. Next, the springs 140 are inserted into the ends of the cross tie rods 130 on the extruder side.

This inserts the fixing plate 20a and the springs 140 into the two cross tie rods 130 from the extruder side buckstay 135 and the hydraulic cylinder 30 body to the fixing plate 20b to the outside of the spring 140. After mounting, the hydraulic cylinder 30 and the fixing plate 20b are inserted into two cross tie rods 130 to be fixed with nuts 25.

In addition, one of the two cross tie rods 130 is electrically connected to transmit an electrical signal to the controller 50 by mounting a load cell 33 between the outer fixing plate 20b and the nut 25, Each hydraulic cylinder 30 is connected to the hydraulic system 40 via hydraulic lines 37.

And, after mounting in this way, the operator tightens the nut 25 to set the length of the spring 140, the spring 140 in the compressed state is fixed plate 20a in close contact with the buckstay 135 side Both sides of the buckstay 135 are supported by the elastic restoring force of the spring 140 so that the supporting force firmly supports the coke oven in a normal form, and the load cell interposed between the fixing plate 20b and the nut 25. In the reference numeral 33, the holding force for the fixing plate 20a to support the buckstay 135 is output by the spring 140, which is provided as an electrical signal to the controller 50.

The structure of the present invention as described above is based on the bearing force detected by the load cell 33 in the state in which the length of the spring 140 on the extruder side is set to the initial setting length, compared to that in the range of + / _ 10%. If changed, the controller 50 is mounted by the corresponding load cell 33 through the hydraulic system 40 when it is out of + / _ 10% or more from the initial set bearing capacity based on the measured value of the load cell 33 without correcting the bearing capacity. The force applied to the buckstay 135 is adjusted by operating the hydraulic cylinder 30 of the fixed plate 20b.

That is, in the process of the spring 140 is initially set to a certain length by the nut 25 to apply a constant force to the buckstay 135 to always maintain the coke oven in a constant shape, the load cell 33 is the first setting Print the value. This output value is stored in the controller 50, and if the cross tie rod 130 overheats and extends from the initial length during the operation of the coke oven, the nuts 25 mounted at both ends of the cross tie rod 130 Are moved in the width direction of the coke oven, and the distance thereof becomes large.

Therefore, the springs 140 supported by the nuts 25 extend in length between the fixing plates 20a and 20b, and thus the elastic restoring force applied to the buckstay 135 side is greatly reduced due to the decrease in tension. . In this way, when the length of the spring 140 is increased and the tension is decreased, the measured value of the bearing force of the load cell 33 interposed between the fixing plate 20b and the nut 25 is lowered, and the lowered value is output to the controller 50. do.

In this case, the controller 50 does not operate the hydraulic cylinder 30 when the bearing forces change in the range of + / _ 10% compared to the initial set value based on the bearing force detected by the load cell 33, but the load cell does not operate. When the deviation from the initial set bearing capacity by + / _ 10% or more based on the measured value of (33) is the force applied to the buckstay 135 by the spring 140 is significantly reduced, in this case the hydraulic cylinder 30 ) Is operated so that the hydraulic cylinder 30 pushes the fixing plate 20a toward the buckstay 135 side.                     

Therefore, the buckstay 135 is pressurized by the hydraulic cylinder 30, and at the same time, the fixed plate 20b on which the hydraulic cylinder 30 is mounted is also pressed toward the nut 25, and the measured value by the load cell 33 is raised. When the value rises above the set value, the controller 50 stops the operation of the hydraulic cylinder 30.

On the other hand, during operation in the state in which the force pressurized to the buckstay 135 side by the hydraulic cylinder 30 as described above, the operating temperature of the coke oven in the winter, etc. is lowered in contrast to the above, so that the cross tie rod 130 If the temperature falls, this will shorten the length by that temperature drop, and thus the hydraulic cylinder 30 will push the buckstay 135.

In such a case, the output value is also detected beyond the set value in the load cell 33 between the fixed plate 20b and the nut 25 on which the hydraulic cylinder 30 is supported, and the value is out of 10% or more from the initial set supporting force. When output, the controller 50 stops the operation of pushing the buckstay 135 by releasing the operation of the hydraulic cylinder 30.

Therefore, since the buckstay 135 is not pushed and is pushed by the spring 140 only, the output value detected by the load cell 33 is lowered to the initial set value.

In this way, the body support holding device 1 according to the present invention always supports and holds the body support to the coke oven with a stable range of action force.

As described above, according to the present invention, when it is desired to replace the charging vehicle rail base 150, it is possible to disassemble and reassemble without having to cut the cross tie rod 130, thereby maintaining the maintenance of the coke oven 100. And the maintenance work is easy, even when the cross tie rod 130 is not required a separate large space is greatly improved the working method.

That is, the replacement work of the cross tie rods 130 is possible to loosen the screw cap 12 and replace only the corroded portion and the charge rail base 150, and as a result of the removal of the conventional cross tie rods 130 When evaluating time, remount time and required number of people, it can be seen that the replacement setting method of the related cross tie rod 130 of the present invention is superior to the conventional one. Although the conventional method has to be carried out in a regular maintenance work, according to the present invention, the partial replacement work of the cross tie rod 130 is prevented even during daily operation.

In addition, according to the present invention, by easily adjusting the length and tension of the spring 140 according to the temperature change of the coke oven by using the load cell 33 and the hydraulic cylinder 30, the spring 140 is coked with a constant tension. The improved effect is obtained so as to support (100) to significantly increase the furnace life.

Claims (3)

In the furnace body support holding device for supporting the yeonwa 110 built in the coke oven 100 in the horizontal and vertical directions, A plurality of cross tie rods 130 arranged in the width direction at the top of the coke oven 100 and assembled in a split rod 5 manner, each of which has a tension spring 140 fitted therein; A hydraulic cylinder 30 disposed between the plurality of fixing plates 20a and 20b mounted to one end of the plurality of cross tie rods 130; A load cell disposed between the fixing plate 20b and the nut 25 on the cross tie rod 130 on the side where the hydraulic cylinder 30 is mounted to detect and output a bearing force applied to the coke oven by the cross tie rod 130 ( 33); And Controller 50 for controlling the coke oven through the hydraulic cylinder 30 by controlling the hydraulic cylinder 30 through the hydraulic system 40 when the output value from the load cell 33 deviates from the initial set value. Roche support holding device characterized in that it comprises a. The cross tie rod (130) according to claim 1, wherein the cross tie rods (130) are composed of a plurality of split rods (5), and the thread portion (10) is formed at the split position, and the cross tie rods are coupled to the thread portions (10). Rotor support holding device, characterized in that it comprises a screw cap (12) that can connect the rods (130) to each other. The hydraulic cylinder of claim 1, wherein the controller 50 does not operate the hydraulic cylinder 30 when the bearing forces change in a range of + / _ 10% compared to the initial set value based on the bearing force detected by the load cell 33. However, based on the measured value of the load cell 33, when the deviation from the initial set support force by more than + / _ 10% or more by operating the hydraulic cylinders 30 to the hydraulic cylinder 30 toward the buckstay 135 side fixed plate 20a Roche support holding device, characterized in that for pushing.

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