KR100957916B1 - An apparatus for automatically controlling the temperature and the shape of buckstay of oven battery - Google Patents

Abstract

The present invention relates to a device for preventing the Buckstay, which acts as a pillar of a coke oven, from being deformed from the high heat generated during the drying of the coke oven.

The present invention relates to a device for preventing a Buckstay, which serves as a pillar of a coke oven, from being deformed from the high heat generated during the drying of the coke oven, between the coke oven and the box stay, and tie rods. The space between the temperature control and deformation prevention device of the coke oven is provided with a plurality of temperature control pipes and a cover of the porous plate to surround them to block heat flowing from the coke oven to the box stay To provide.

The present invention achieves the effect of extending the life of the coke oven and improving the quality of the coke product by blocking heat flowing from the coke oven to the box stay.

Coke Oven, Buckstay, Pipe for Temperature Control, Spring, Thermostat and Strain Relief

Description

`` AN APPARATUS FOR AUTOMATICALLY CONTROLLING THE TEMPERATURE AND THE SHAPE OF BUCKSTAY OF OVEN BATTERY}

1 is a longitudinal sectional view showing a general coke oven and a box stay structure;

2 is a cross-sectional view showing in detail the box stay structure according to the prior art;

3 is a cross-sectional plan view showing details of a carbonization chamber and a combustion chamber and a foil stay structure in a coke oven according to the prior art;

4 is a cross-sectional view of a coke oven to which the box stay thermostat and deformation preventing device of the coke oven according to the present invention are applied;

5 is an enlarged partial cutaway view showing in detail the box-stay thermostat and strain relief of the coke oven according to the present invention;

6 is a cross-sectional plan view showing in detail a carbonization chamber and a combustion chamber and a foil stay structure in a coke oven to which the coke oven's foil stay automatic temperature control and deformation preventing device according to the present invention is applied.

       <Description of the symbols for the main parts of the drawings>

5 ..... cover 5a .... hole

10 .... Temperature pipes 15 .... Band covers                 

17 .... Pin 100 ... Coke Oven

110 .... carbonization chamber 120 .... combustion chamber

130 ... Park stay 135a, 135b, 137 ... Spring

140 .... Tie rod 145 .... H-shaped structural beam

160 .... Tightening Nut

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for preventing deformation of a Buckstay, which acts as a pillar of a coke oven, from deformation from the high heat generated during the dry distillation of the coke oven. The space between the tie rods is provided with a plurality of temperature control pipes and a cover of a perforated plate to surround them, thereby extending the life of the coke oven by blocking heat flowing from the coke oven to the foil stay. The present invention relates to a box stay thermostat and deformation preventing device of a coke oven for improving the quality of a coke product.

In general, the coke oven 100 is supported by holding the refractory forming the coke oven while maintaining the tension of 268 box stays 130, 134 tie rods 140, 804 springs, The combustion chambers 120 are formed between the plurality of carbonization chambers 110 and between them by the refractory material. The coke oven 100 charges bituminous coal in the interior of each carbonization chamber 110, and carbonizes them, and the high temperature carbonization chamber 110 from the combustion chamber 120 disposed between the carbonization chambers 110. Is provided to the side.

As shown in FIGS. 1 to 3, the coke oven 100 is equipped with a foil stay 130 on both sides thereof, and the # 1 and 2 springs on the upper and lower portions of the respective foil stays 130. (Spring) (135a) (135b) are attached to the end of the tie rod 140, each giving a large tension (sension), a plurality of springs of a smaller size at the bottom of the top # 1 spring (Spring) (Spring) 137 are mounted in order.

Accordingly, these springs 135a, 135b and 137 apply a respective tension to the coke oven 100 through the tie rods 140 disposed laterally through the coke oven 100 to carbonize the chamber. The separation of the silica lead, which is the refractory formed in the 110 and the combustion chamber 120, is prevented, and smooth shrinkage expansion is achieved even when shrinkage expansion due to the change of season.

That is, such a coke oven 100 is equipped with a plurality of tie rods 140 made of round rods to cross both sides thereof, each end of these tie rods 140 as shown in the planar section in FIG. Likewise, the H-shaped structural beams 145 are installed vertically, and the tie rods 140 pass through the structural beams 145 and the combustion chambers 120 and are integrally coupled to each other. A plurality of springs 135a, 135b, 137 and fastening nuts 160 are interposed at both ends thereof, so that the H-shaped structural beam 145 is provided with the elastic force of the springs 135a, 135b, 137, and The coke oven 100 is structurally stable through the tie rods 140.

As such, those formed on both sides of the coke oven 100 are Buckstay.

On the other hand, the coke oven 100 is a high heat is generated from the inside during the operation is emitted to the outside, in this process the high heat is directly transmitted to the foil stay 130, the support mounted on the foil stay 130 ( Bending and bending of the H-shaped structural beam 145 of the box stay 130 itself bend (bending) occurs.

As such, when the support structures of the foil stay 130 are bent and the warpage phenomenon occurs, the coke support equipment does not have a constant tension, and thus, the shape deformation of the carbonization chamber 110 and the combustion chamber 120 occurs. In this process, the silica brick forming the inner wall may also be the cause of the phenomenon.

In addition, the tie rod 140 is cut by the load of the biased springs 135a, 135b, and 137 provided at both ends of the plurality of tie rods 140 supporting the carbonization chamber 110 and the combustion chamber 120. A phenomenon occurs that may have a fatal adverse effect on the furnace body of the coke oven (100).

In addition, if a total of 8576 springs 135a, 135b and 137 mounted on the box stay 130 are generated as a factor of inhibiting the contraction and expansion of a normal furnace due to the loss of tension ability due to high heat, In connection with the coke oven 100 has a problem that the phenomenon that various kinds of forbidden to be mounted on the edge of the coke oven is released

 The present invention is to solve the above conventional problems, the purpose is to circulate the cold air in the atmosphere between the outer wall of the coke oven and the foil stay when the temperature of the coke oven rises to discharge the high heat to the outside of the carbonization chamber and box By minimizing the temperature change of the table, it is possible to prevent deformation of the coke oven structure and box stay, preventing equipment damage, and to improve the coke oven's box stay automatic temperature control and deformation prevention device to extend the life of each machine part and structure. In providing.

In order to achieve the above object, the present invention provides a device for preventing the deformation of the Buckstay that acts as a pillar of the coke oven from the high heat generated during the drying of the coke oven,

The space between the coke oven and the box stay and between the tie rods is provided with a plurality of temperature control pipes and a cover of a porous plate to surround them to block heat flowing from the coke oven to the box stay. By providing a box stay automatic temperature control and deformation prevention of the coke oven, characterized in that.

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

As shown in FIG. 4 and FIG. 5, the box stay automatic temperature control and deformation prevention apparatus 1 of the coke oven according to the present invention may be a material of a porous plate or an iron plate having a plurality of holes 5a formed therein. Inside the cover 5 of the rectangular cross section made of a plurality of temperature control device pipes 10 are built in succession in the vertical direction.

That is, the cover 5 for protecting it is installed on the outside of the pipes 10 for the temperature regulating device, and the cover 5 opens a plurality of holes 5a at predetermined intervals to perform a cooling function. . In addition, the temperature control pipe 10 has a hole 5a therein to form an air flow path, and this air flow path can be used semi-permanently since no mechanical force or electrical device is required.

The vent cover 15 is installed on the upper end of the temperature control pipe 10 while maintaining a predetermined gap, which is assembled through the four pins 17 at the upper end of the pipe 10 so as to be inside the pipe 10. The air flowing to the upper side through the air flow path of the structure is configured to smoothly flow, the structure to prevent the introduction of foreign matter from the upper side to the air flow path side in the pipe (10).

The pipe 10 for the thermostat and the cover 5 surrounding it are respectively shown in the space between the outer wall of the coke oven 100 and the H-shaped structural beam 145 and between the tie rods 140. Arranged as shown in, and arranged in each of the vertical direction to block the heat flowing from the coke oven 100 to the foil stay 130.

In addition, they extend downward from the top of the H-shaped structural beam 145 of the foil stay 130, the bottom of which is less than the bottom of the H-shaped structural beam 145 of the foil stay 130, Figure 4 It is formed as shown. In this way the pipe for the temperature control device 10 and the cover 5 surrounding it to maintain a constant height from the floor of the workplace so that the inflow of air to the bottom.

The present invention configured as described above is to block the transfer of high temperature temperature between the outer wall of the coke oven 100 and the H-shaped structural beam 145 of the foil stay 130. Since the outside of the temperature control pipe 10 is formed of a plurality of holes (Hole) of a predetermined interval in the rectangular cover (5) of a strong structure made of a porous steel plate, etc., the temperature of the pipe 10 for temperature control Allows for atmospheric inflow in the transverse direction to act as a primary cooling of the heat transferred from the coke oven 100 to the H-shaped structural beam 145 of the foil stay 130.

In addition, since the temperature control pipe 10 forms a hollow air flow path therein, when heat is transferred from the coke oven 100 and the temperature of the temperature control pipe 10 is increased, the temperature control pipe 10 Air convection is generated in the air flow path of the inside), the heated air in the air flow path is discharged to the upper side of the temperature control pipe 10 by the specific gravity difference, the cold air in the air of the temperature control pipe 10 It is introduced to the bottom and discharged to the top side.

Therefore, the high heat that is transferred between the coke oven 100 and the foil stay 130 is secondarily cooled to block the transfer to the foil stay 130 and various supporting equipment in advance, and the coke oven 100 and The temperature change of the foil stay 130 is minimized to prevent thermal deformation of the foil stay 130 and the components connected thereto.

On the other hand, the temperature control pipe 10 and the cover 5 is made of steel that is structurally rigid, in particular, the temperature control pipe 10 has a large cross-sectional coefficient because its cross section is circular, so that the tie rod ( Even when tension is applied to the foil stay 130 by the 140 and the springs 135a, 135b, and 137, structural problems do not occur.

In addition, since the vent cover 15 is installed at the upper portion of the temperature control pipe 10 to maintain a predetermined interval, the introduction of foreign matter from the upper portion to the air flow path in the pipe 10 is prevented.

As such, the present invention does not use any mechanical or electrical devices using additional power, and thus, is easy to install and manage, and also minimizes the equipment trouble requirements so that the box stay 130 automatically changes according to temperature and temperature changes 365 days. It is possible to improve the durability of the equipment by minimizing the amount of temperature change.

As described above, according to the present invention, since a plurality of temperature control pipes 10 and covers 5 are respectively installed between the coke oven 100 and the foil stay 130, when the temperature of the coke oven 100 increases The cold air in the air is circulated between the coke oven 100 and the foil stay 130 to discharge the high heat to the outside.

Accordingly, the high temperature generated in the coke oven 100 is effectively cooled to minimize the temperature change of the carbonization chamber 110 and the foil stay 130 of the coke oven 100 to prevent deformation of the foil stay 130 and the supporting structures. As a result, the life of the coke oven 100 is extended to have a great effect on improving the quality of the coke and extending the life of the equipment.

Claims (3)

In the apparatus for preventing the Buckstay (130), which acts as a pillar of the coke oven 100 from being deformed from the high heat generated during the drying of the coke oven (100), In the space between the coke oven 100 and the foil stay 130, and between the tie rods 140, a plurality of temperature control pipes 10, and a cover 5 of the porous plate to surround them The apparatus for controlling the temperature and deformation of the box stay coke oven, characterized in that configured to block the heat flowing from the coke oven (100) to the foil stay (130). According to claim 1, wherein the vent cover 15 is installed through the four fins 17 while maintaining a predetermined gap on the upper end of the temperature control pipe 10 through the air flow path inside the pipe 10 to the upper side A device for controlling the temperature and deformation of the coke oven, characterized in that the flowing air is smoothly flown, and the structure is configured to prevent the introduction of foreign matters from the upper side to the air flow path in the pipe (10). According to claim 1, wherein the temperature control pipe 10 and the cover 5 surrounding it extends downward from the top of the H-shaped structural beam 145 of the box stay 130, the bottom Since the bottom of the H-shaped structural beam 145 of the silver stay 130 is formed so that the pipe 10 for the temperature control device and the cover (5) surrounding it is made of the inflow of air from the bottom Box stay automatic temperature control and strain relief of the coke oven, characterized in that to maintain a certain height from the floor of the workplace to make.

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