JP2008163164A - Brickwork structure of coke oven regeneration chamber - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a brickwork structure of coke oven regeneration chambers, which structure is a brickwork structure 1 wherein each of the regeneration chambers is partitioned by a pillar wall 4 and a partition wall 6, the partition wall can be built even after the pillar wall bricks 5 are laid, and seal for gas pass prevention can be sufficiently performed. <P>SOLUTION: Provided is a brickwork structure of coke oven regeneration chambers, wherein each stage of partition wall bricks 7 built up in the vertical direction is composed of a plurality of partition wall element bricks 11; as regards the partition wall bricks in one or more stages including the uppermost stage, an opening 12 is formed in each partition wall at the stage when the partition wall element bricks 11 are arranged; and each of these partition walls is tightly closed by covering its opening 12 with a cover brick 13. The cover brick 13 is fitted into a groove 24 in a regeneration chamber ceiling brick at its top, and the contact face between the cover brick 13 and each of the left and right partition wall element bricks 11 has steps 25 to fit them into each other. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a brick structure of a coke oven heat storage chamber partitioned by a pillar wall and a partition wall.

  In the chamber furnace type coke oven, as described in Patent Document 1, the carbonization chamber 2 and the combustion chamber 3 are arranged in the upper stage, and the heat storage chamber 1 is arranged in the lower stage (FIG. 7A). The heat storage chamber 1 is partitioned by a pillar wall 4 in the longitudinal direction of the carbonization chamber, and is partitioned by a partition wall 6 in the direction perpendicular to the pillar wall 4 to form a large number of small heat storage chambers 1. They are arranged neatly in the perpendicular direction (FIGS. 7B and 7C). Gitter bricks are stacked in the heat storage chamber as a heat storage.

  The top portion of the heat storage chamber 1 has a constricted shape with pillar walls protruding from both sides, and the shape of the partition wall 6 also has a constricted shape along the shape of the heat accumulating chamber (FIG. 7B). )).

  The pillar wall 4 plays the role of a structural wall, and the thickness thereof is thick, whereas the partition wall 6 only plays a role of blocking gas inflow between adjacent heat storage chambers, and the thickness of the partition wall brick 7 Is thin. However, gas sealing means is provided so that gas does not leak into the adjacent heat storage chamber through the joint of the partition wall brick 7. Here, each brick constituting the partition wall 6 is referred to as a partition wall element brick 11.

  As shown in FIG. 7E, one of the contact surfaces of the adjacent partition wall element bricks 11 forms a concave surface 21 and the other forms a convex surface 22. And the contact of the partition wall element brick 11 contact | connects the one concave surface 21 and the other convex surface 22, and mortar is enclosed by the contact part, As a result, the distribution | circulation of the gas through a brick connection part is prevented.

  As shown in FIG. 7D, the contact portion between the pillar wall brick 5 and the partition wall brick 7 is formed with a groove 23 in the pillar wall brick 5, and the partition wall brick 7 is fitted into the groove 23. Gas distribution is prevented in the contact area between pillar wall brick and partition wall brick.

Japanese Patent Application Laid-Open No. 07-126625

  In the form in which the partition wall brick 7 is fitted in the groove 23 formed in the pillar wall brick 5, the entire width of the partition wall brick 7 is equal to the internal space of the heat storage chamber 1, as shown in FIG. The width is obtained by adding the length of the portion fitted in the groove 23 on both sides to the width. Therefore, the entire width of the partition wall brick 7 is wider than the width of the internal space of the heat storage chamber 1. For the purpose of easily constructing the partition wall brick in such a shape, each of the partition wall bricks assembled in the vertical direction is configured by a plurality of partition wall element bricks. For example, as shown in FIG. 2 (a), each stage of the partition wall brick 7 is composed of three partition wall element bricks 11 except for the stage arranged at the top of the heat storage chamber, and the center of the three sheets As the partition wall element brick b, one having a trapezoidal shape with a wide top is used. Of the three pieces, the partition wall element bricks (11x1, 11x3) on both sides have a trapezoidal shape with a narrow top so that the center top can be connected to a wide trapezoidal shape. In constructing each partition wall brick, the portion of the three pillar wall bricks to be fitted into the groove 23 of the pillar wall brick is first arranged, and then fitted into the groove 23 of the pillar wall brick (FIG. 2 (b)), and thereafter The central partition wall element brick 11x2 is inserted from above (FIG. 2 (c)). By building the partition wall brick in this way, the partition wall can be constructed even after the pillar wall is constructed.

  However, since the ceiling of the heat storage chamber has already been built with the pillar wall at the top of the heat storage chamber, it is impossible to insert the last partition wall element brick from the top of the partition wall uppermost brick. .

  Therefore, after all, it is impossible to construct the partition wall brick after constructing the pillar wall brick and the heat storage room ceiling brick.

  Therefore, in the construction of the heat storage chamber of the coke oven, as shown in FIG. 8, the building is started from the center or one end in the longitudinal direction of the carbonization chamber. A means for building the wall brick 7 and the glitter brick 8 arranged in the heat storage chamber at the same time in the direction of the arrow 36 from the lower stage is performed. When the construction of the heat storage chambers is completed one by one, the next row of heat storage chambers is constructed in the direction of the arrow 37 in the longitudinal direction of the carbonization chamber.

  When it is necessary to replace the brick brick in the heat storage chamber with the aging of the coke oven, remove all the partition walls from one side of the carbonization chamber longitudinal direction to the heat storage chamber to replace the guitar brick, Replace the bricks and then replace the partition bricks one after another. If it is set as the structure which arrange | positions the three partition wall element bricks 11 as shown in FIG. 2 as a structure of a partition wall brick, about a part except a thermal storage chamber ceiling part, a partition wall can be formed with favorable sealing property. . However, since the pillar wall brick and the heat storage chamber top brick exist, it is impossible to arrange the partition wall brick arranged at the heat storage chamber top as it is. Therefore, for the top of the heat storage chamber, bricks with concave and convex fitting for preventing gas leakage cannot be used, and bricks with a flat contact portion must be inserted, so a seal for preventing gas flow There was a problem that had to be incomplete.

  The present invention relates to a brick structure of a coke oven heat storage chamber, wherein each heat storage chamber is divided by a pillar wall and a partition wall, the partition wall can be built in a state in which the pillar wall brick is constructed, and gas circulation It is an object of the present invention to provide a brick structure of a coke oven heat storage chamber that can sufficiently perform a seal for prevention.

That is, the gist of the present invention is as follows.
(1) A brick structure of a coke oven heat storage chamber, wherein each heat storage chamber 1 is partitioned by a pillar wall 4 and a partition wall 6, and the top of the heat storage chamber 1 has an upwardly tapered shape, The shape of the partition wall brick 7 is also a constricted top shape along the shape of the heat storage chamber, the partition wall brick 7 is fitted in the groove 23 of the pillar wall brick 5, and each stage of the partition wall brick 7 assembled in the vertical direction is respectively For a partition wall brick composed of a plurality of partition wall element bricks 11 and including one or more stages including the uppermost stage, an opening 12 is formed in the partition wall when the partition wall element brick 11 is disposed. A brick structure of a coke oven heat storage chamber, characterized in that the partition wall is sealed by covering with a lid brick 13.
(2) The contact surfaces of the adjacent partition wall element bricks 11 are in contact with each other by forming one concave surface 21 and the other forming a convex surface 22, and the cover brick 13 is fitted in the groove 24 of the heat storage chamber ceiling brick at the upper part. In the lower part of the lid brick, one of the contact surfaces of the lid brick 13 and the partition wall element brick 11 is in contact with each other by forming a concave surface 21 and the other forming a convex surface 22, and the lid brick 13 and the left and right partition wall element bricks 11 are in contact with each other. The brick structure of the coke oven heat storage chamber according to (1) above, wherein the contact surfaces have a step 25 and are assembled.
(3) The partition wall brick having the opening 12 is the uppermost step and the lower step, the uppermost partition wall brick is composed of two partition wall element bricks 11, and the lower partition wall brick is two or more The brick structure of a coke oven heat storage chamber according to the above (1) or (2), wherein the brick structure is composed of four partition wall element bricks 11.
(4) Each step of the partition wall brick assembled in the vertical direction is composed of three partition wall element bricks 11 except for the step having the opening 12, and the central partition wall element brick 11b among the three is The brick structure of a coke oven heat storage chamber according to any one of the above (1) to (3), wherein the brick structure is a wide trapezoidal shape.
(5) The brick in the coke oven heat storage chamber according to any one of the above (1) to (4), wherein the lid brick 13 has a protrusion 14 or a recess 15 for handling during attachment / detachment. Construction.

  In the brick structure of the coke oven heat storage chamber of the present invention, for the partition wall brick including one or two or more stages including the uppermost stage, an opening is formed in the partition wall at the stage where the partition wall element brick is arranged, and the opening is covered with the lid. Since the partition wall is sealed by covering the brick, it is possible to build the partition wall brick in the state where the pillar wall brick is constructed, and to perform sufficient sealing to prevent gas flow it can.

  As shown in FIG. 7, in the brick structure of the coke oven heat storage chamber of the present invention, each heat storage chamber 1 is partitioned by a pillar wall 4 and a partition wall 6, and the top of the heat storage chamber 1 has an upper concavity shape. Moreover, the shape of the partition wall 6 is also a shape where the top part is converging along the shape of a thermal storage chamber. The partition wall brick 7 is fitted into the groove 23 of the pillar wall brick 5. This is to prevent gas flow at the contact point between the partition wall brick 7 and the pillar wall brick 5. Each stage of the partition wall brick assembled in the vertical direction is composed of a plurality of partition wall element bricks 11.

  A feature of the present invention is the structure of one or two or more partition wall bricks including the uppermost stage. At this stage, the opening 12 is formed in the partition wall when the partition wall element brick 11 is disposed. For example, in the example of FIG. 1, the second step from the top is composed of two partition wall element bricks 11 on the left side and two on the right side. First, the partition wall element bricks (11b1, 11b4) on both sides are grooved in the pillar wall bricks. 23 (FIG. 1 (b)), and then the inner partition wall element bricks (11b2, 11b3) are arranged (FIG. 1 (c)). An opening 12 is formed at the center. The uppermost stage is composed of one partition wall element brick (11a1, 11a2) on the left and right sides, and is fitted into the pillar wall brick groove 23 on the side surface and is fitted into the ceiling brick groove 24 on the upper side. The If the partition wall element brick 11a1 on the left side is first fitted in the groove 24 of the ceiling brick and then shifted to the left as it is, it can be fitted in the groove 23 of the pillar wall brick to complete the arrangement. The same applies to the right partition wall element brick 11a2. Then, an opening is formed at the center, and the opening 12 is continuous with the opening formed in the second stage from the top (FIG. 1 (d)). The lid brick 13 has a shape that exactly matches the opening 12. The partition wall is sealed by covering the opening 12 with a lid brick 13 (FIG. 1 (e)).

  Since it is as above, it is possible to build a partition wall brick in the state which built the pillar wall brick, and can fully perform the seal for gas distribution prevention.

  In the partition wall, it is important to sufficiently perform a gas seal between the adjacent partition wall element bricks. In this invention, as shown to FIG.2 (e) (f), when the contact surface of each adjacent partition wall element brick 11 forms the concave surface 21 and the other forms the convex surface 22, it is preferable to contact. Since the concave surface 21 and the convex surface 22 are fitted to each other, gas sealing can be sufficiently performed. By filling the contact surface between the concave surface 21 and the convex surface 22 with the mortar 16, the gas seal can be made more reliable. In addition, it is preferable to place the partition wall element brick into the grooves (23, 24) after disposing the fibrous fireproof insulating material 17 in the groove 23 of the pillar wall brick and the groove 24 of the ceiling brick.

  As shown in FIG. 3C, when the lid brick 13 is fitted in the groove 24 of the heat storage chamber ceiling brick at the lid brick upper portion 33, as shown in FIG. At the same time as the gas seal can be sufficient, the lid brick 13 is restrained by the ceiling brick 9, so that the lid brick 13 can be prevented from falling. As shown in FIG. 3C, it is preferable that one of the contact surfaces of the lid brick 13 and the partition wall element brick 11 in the lid brick lower portion 34 is in contact with the concave surface 21 and the other forming the convex surface 22. Since the concave surface 21 and the convex surface 22 are fitted to each other, gas sealing can be sufficiently performed. By filling the contact surface between the concave surface 21 and the convex surface 22 with the mortar 16, the gas seal can be made more reliable. The lid brick 13 is formed by fitting the partition wall element brick 11 in contact with the lid brick lower portion 34, the concave surface 21 and the convex surface 22, and is pressed against the partition wall element brick 11 in contact with the lid brick lower portion 34 by the weight of the lid brick 13. And since it joins with the mortar 16, the position shift of the cover brick 13 does not occur. About the contact surface of the partition wall element brick 11 which contacts the lid brick 13 in the lid brick side part 35, it cannot be set as the fitting of a concave surface and a convex surface. This is because if the combination of the concave surface and the convex surface is adopted, the lid brick 13 cannot be fitted into the opening 12. Therefore, in the present invention, as shown in FIG. 3 (b), a step 25a is provided in a portion of the partition wall element brick 11 that contacts the lid brick side portion 35, and a step of the lid brick 13 that contacts the partition wall element brick is also provided. 25b is provided, and the steps 25 are preferably combined with each other. It is preferable to arrange the mortar 16 at the contact portion between the partition wall element brick and the lid brick. Although the gas sealing performance is reduced compared to the concave and convex fitting portions, the gas sealing performance is superior to the shape in which the flat surfaces contact each other, and sufficient gas sealing performance can be realized as a partition wall of the heat storage chamber. .

  When placing the lid brick 13 in the opening 12, as shown in FIG. 3 (d), the lid brick 13 is first inserted into the groove 24 of the ceiling brick, and then the lid brick 13 is placed as shown in FIG. 3 (c). It is made to fit with the partition wall element brick 11 located in the lower part. Since either surface of the lid brick lower part 34 or the partition wall element brick in contact therewith is a convex surface 22, when the lid brick 13 is arranged, when the lid brick 13 is inserted into the groove 24, the lid brick 13 is It is necessary to lift to a position higher than the final position. Accordingly, the depth of the groove 24 is set to a depth that allows the lid brick 13 to be sufficiently lifted. Further, when the cover brick 13 is inserted after the fiber-like fireproof heat insulating material 17 is disposed in the groove 24 in advance, the fiber-shaped fireproof heat insulating material has elasticity, so that the position is sufficiently high when the cover brick 13 is inserted. At the same time, a sufficient gas sealing ability can be maintained even after the lid brick 13 is fixed at the final position.

  The partition wall brick having the opening 12 can be one or two or more stages including the uppermost stage, but is preferably the uppermost stage and the lower stage. When the uppermost partition wall brick is composed of two partition wall element bricks and the lower partition wall brick is composed of two to four partition wall element bricks, it can be preferably constructed.

  In the example shown in FIGS. 1 and 4, each of the partition wall bricks at the third and lower tiers from the top is composed of three partition wall element bricks, and the central partition wall element brick among the three slabs. Is a trapezoidal shape with a wide top. In order from the bottom, for example, if it is the third from the top, the left and right partition wall element bricks (11c1, 11c3) are fitted and arranged in the groove 23 of the pillar wall brick, and then the central trapezoidal partition wall Element brick 11c2 is inserted. Thus, the partition wall bricks from the top to the third stage can be arranged.

  In the second stage from the top, when two partition wall element bricks (11b1, 11b2) are formed as shown in FIG. 4 (a), the left and right partition wall element bricks are sequentially assembled. As shown in FIG. 1 (c), when it is composed of four partition wall element bricks (11b1 to 11b4), the left and right end partition wall element bricks are first fitted in the grooves of the pillar wall bricks, and then the inner side. Place the partition wall element brick. As shown in FIG. 4B, one sheet on one side and two sheets on the other side may be a total of three sheets. Openings are formed inside the left and right partition wall element bricks.

  Next, the uppermost partition wall brick is constructed (FIG. 1 (d)). One of the left and right partition wall element bricks is first fitted into the groove 24 of the ceiling brick, and then moved laterally to fit into the groove 23 of the pillar wall brick. The same applies to the partition wall element brick on the other side.

  In this state, the opening 12 is formed at the top and second positions of the partition wall brick (FIG. 1D), and the lid brick 13 is attached to the opening 12 (FIG. 1E). The shape of the contact portion between the partition wall element brick and the lid brick and the method for mounting the lid brick are as described above.

  As for the partition wall bricks other than the steps having openings, it is not impossible to form one partition wall element brick at each step as shown in FIG. Further, as shown in FIGS. 5B and 5C, two partition wall element bricks having different lengths are provided at each stage, and one partition wall element brick is first arranged for each stage, and then the other partition wall is arranged. Wall element bricks can be placed. About the contact part of two partition wall element bricks, it can also be made into a right angle (FIG.5 (b)), and can also be made slightly diagonal (FIG.5 (c)). The partition wall element bricks of each stage can be three, and the contact portions of the adjacent partition wall element bricks can be at right angles (FIG. 5 (d)).

  As for the partition wall bricks of the steps other than the step having the opening, preferably, as shown in FIG. 2, each step of the partition wall brick is composed of three partition wall element bricks, and the middle partition wall element brick among the three pieces. Has a trapezoidal shape with a wide top. As for the left and right partition wall element bricks, the portion in contact with the central partition wall element brick has an oblique shape so as to contact the central partition wall element brick. Since the partition wall element brick inserted into the groove 23 is composed of three partition wall element bricks, the partition wall element brick is inserted in a direction perpendicular to the groove 23, so that a fibrous refractory heat insulating material is disposed in the groove 23. A partition wall element brick can be arranged smoothly. In addition, since the central partition wall element brick has a trapezoidal shape with a wide top, even if the partition wall element bricks at the respective stages have the same shape, joints do not overlap and gas shutoff can be ensured. In addition, it is possible to ensure the strength as a brick structure.

  The lid brick of the present invention preferably has a projection 14 or a recess 15 for handling during attachment / detachment. If it has the protrusion 14 as shown to Fig.6 (a) (b), it can attach or detach easily by pinching the protrusion 14 at the time of attachment or detachment of the lid brick 13. FIG. As shown in FIGS. 6 (c) and 6 (d), if the recess 15 is provided, it can be easily attached / detached by lifting the recess 15 with a finger when attaching / detaching the cover brick 13.

It is a figure which shows the structure of the partition wall of this invention, (a) is at the time of the partition wall brick construction from the top to the 3rd step, (b) is the middle of the partition wall element brick construction of the 2nd step from the top, (c) (D) is a front sectional view showing a state after the construction of the second partition wall element brick from the top, (d) is after the construction of the uppermost partition wall element brick, and (e) is a front cross-sectional view after the lid brick is installed. e) is an AA arrow cross-sectional view, (f) is an FF arrow cross-sectional view, and (g) is a GG arrow cross-sectional view. It is a figure which shows the structure of a partition wall, (a) is whole front sectional drawing, (b) (c) is front sectional drawing in the 2nd step | paragraph construction, (d) is DD arrow sectional drawing, (e ) Is a cross-sectional view taken along line EE, and (f) is a cross-sectional view taken along line FF. It is a figure which shows the structure of the partition wall of this invention, (a) is a fragmentary front sectional view, (b) is BB arrow sectional drawing, (c) is CC arrow sectional drawing, (d) is a figure. It is sectional drawing in case a lid brick is mounted | worn. It is a partial front sectional view showing the structure of the partition wall of the present invention. It is a partial front sectional view showing the structure of a partition wall. It is a figure which shows the structure of a cover brick, (b) (d) is a BB arrow sectional drawing and DD arrow sectional drawing, respectively. It is a figure which shows the structure of a chamber furnace type coke oven, (a) is whole side sectional drawing, (b) is BB arrow sectional drawing, (c) (d) is CC arrow partial sectional drawing, (E) is EE arrow sectional drawing. It is a figure which shows the conventional thermal storage chamber construction procedure.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Heat storage chamber 2 Coking chamber 3 Combustion chamber 4 Pillar wall 5 Pillar wall brick 6 Partition wall 7 Partition wall brick 8 Gitter brick 9 Ceiling brick 11 Partition wall element brick 12 Opening 13 Cover brick 14 Protrusion 15 Recess 16 Mortar 17 Fibrous fireproof Heat insulating material 21 Concave surface 22 Convex surface 23 Groove (pillar wall brick)
24 Groove (ceiling brick)
25 Step 33 Upper lid brick 34 Lower lid brick 35 Lower lid brick side 36 Arrow 37 Arrow

Claims (5)

Brick structure of coke oven heat storage chamber, each heat storage chamber is divided by a pillar wall and a partition wall, the top of the heat storage chamber is an upper constricted shape, and the shape of the partition wall also follows the shape of the heat storage chamber The top part is a constricted top shape,
The partition wall brick is fitted into the groove of the pillar wall brick, and each stage of the partition wall brick assembled in the vertical direction is composed of a plurality of partition wall element bricks,
For bricks with one or more tiers including the uppermost stage, an opening is formed in the partition wall when the partition wall element brick is placed, and the partition wall is sealed by covering the opening with a cover brick The brick structure of the coke oven heat storage chamber, characterized by   The contact surface of each adjacent partition wall element brick is in contact with one side being concave and the other forming a convex surface, and the lid brick is fitted in the groove of the heat storage room ceiling brick at the upper part, and at the lower part of the lid brick The contact surfaces of the lid brick and the partition wall element brick are in contact with each other with one concave surface and the other forming a convex surface, and the contact surfaces of the lid brick and the left and right partition wall element bricks are assembled with steps. The brick structure of a coke oven heat storage chamber according to claim 1.   The partition wall brick having the opening is an uppermost stage and a lower stage, the uppermost partition wall brick is composed of two partition wall element bricks, and the lower partition wall brick has two to four partitions. The brick structure of a coke oven heat storage chamber according to claim 1 or 2, wherein the brick structure is made of wall element bricks.   Each step of the partition wall brick assembled in the vertical direction is composed of three partition wall element bricks, except for the step having an opening, and the central partition wall element brick of the three is a trapezoidal shape with a wide top The brick structure of the coke oven heat storage chamber according to any one of claims 1 to 3.   The brick structure of a coke oven heat storage chamber according to any one of claims 1 to 4, wherein the lid brick has a protrusion or a recess for handling during attachment and detachment.

Images