JP2020070341A - Dismantling and constructing method of coke oven - Google Patents

Abstract

To provide the dismantling and constructing method of the coke oven that can shorten a construction period from dismantle of an old coke oven to construct of a new coke oven, and can reduce a construction cost of the new coke oven by utilizing a basic structure of the old coke oven.SOLUTION: The dismantling and constructing method of the coke oven comprises: dismantling an existing old coke oven to remove; leaving a basic structure of an old coke oven at an existing location; and constructing a new coke oven on the basic structure.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a coke oven dismantling construction method for constructing a new coke oven after dismantling an aging coke oven.

  Generally, a coke oven is a carbonization chamber for carbonization of coal, a combustion chamber for burning fuel gas, a heat storage chamber for preheating the fuel gas and combustion air by using the residual heat of exhaust gas generated by the combustion of fuel gas, and the emission of exhaust gas. A lower horizontal flue, and a ceiling for arranging equipment for charging coal into the carbonization chamber (for example, coal car) and piping for supplying cooling water (hereinafter referred to as ceiling piping). In addition, the furnace body is held by an iron structure (so-called back stay) serving as an outer shell.

  The ceiling part, the carbonization chamber, the combustion chamber, the heat storage chamber, and the lower horizontal flue that constitute the coke oven are all formed by stacking refractory bricks, and are repaired according to the wear of the refractory bricks during operation (for example, Patent Document 1). The coke oven continues to operate by applying 1) appropriately. However, if the coke oven is operated for many years, the wear of the refractory bricks will spread over a wide range, and the backstay will be damaged or deformed. If such existing aging coke ovens (hereinafter referred to as old coke ovens) continue to operate, the production efficiency will decrease and the quality of the coke produced will also decrease, resulting in the operation of post-processes (such as blast furnaces). Adversely affect.

  Therefore, when the old coke oven has deteriorated significantly, a new coke oven (hereinafter referred to as a new coke oven) must be newly constructed. However, it is difficult to secure the site of the new coke oven in a place different from that of the old coke oven in the steel mill, so first stop the operation of the old coke oven and dismantle it, and then add the new coke oven to the site. Need to be built.

  The dismantling work of the old coke oven can be carried out relatively easily by conventional techniques. However, in general, in the construction work of a new coke oven, the foundation part is diverted, and the work to build a furnace body by stacking refractory bricks on the foundation structure is performed, so the work for building the furnace body (hereinafter, It takes a lot of time to construct the furnace body).

  In other words, in the conventional technology, the period from the shutdown of the old coke oven to the operation of the new coke oven takes a long time, which not only hinders the operation of the iron mill, but also significantly increases the construction cost for dismantling and construction. ..

  Therefore, technology is required to shorten the construction period for dismantling the old coke oven and constructing the new coke oven.

Japanese Patent Laid-Open No. 10-219252

  The present invention eliminates the problems of the prior art, it is possible to shorten the construction period from the construction of a high-precision furnace body and the dismantling of the old coke furnace to the construction of the new coke furnace by using a non-expandable refractory material, and We provide a method for dismantling and constructing a coke oven that can reduce the number of workers involved in the work (so-called man-hours) and also shorten the start-up period from the construction of the new coke oven to the start of operation by raising the furnace temperature. The purpose is to do.

  The present inventor has studied a technique for constructing a highly accurate furnace body and shortening the construction period for the construction work of a new coke oven. Then, first, in a study of a technique for highly accurate and shortening the construction period required for furnace body construction, attention was paid to a block integrally molded with a single refractory material (hereinafter referred to as an integrally molded block). That is, in the conventional furnace body construction, the refractory bricks were piled up one by one to form the furnace body, whereas an integrally formed block (size: length) having a predetermined shape (for example, combustion chamber, heat storage chamber, etc.) 900-1800mm, width 900-1000mm, height 200-1000mm) is manufactured in advance and a new coke oven is constructed using the integrally molded block, so that the work period of the furnace body work can be shortened.

  In the construction of the furnace body, if the integrally molded block made of non-expandable refractory material (for example, silica refractory material) is used for the structure of the heat storage chamber and the combustion chamber, the expansion amount of the integrally molded block will decrease. After the construction of the furnace is completed, a highly accurate furnace body can be maintained and the furnace body can be heated and operated in a short time. In other words, the effect of shortening the startup period of the new coke oven can be obtained.

The present invention has been made based on such findings.
That is, the present invention dismantles and carries out an old coal car of an old old coke oven, an old ceiling pipe, an old back stay, an old ceiling part, an old combustion chamber, an old heat storage chamber, and an old lower horizontal flue, In the dismantling construction method of the coke oven, in which the foundation structure of the old coke oven is left in the existing place and a new new coke oven is constructed on the foundation structure,
The old coal car installed in the old coke oven, the old ceiling piping, and the old backstay were dismantled and taken out by a self-propelled crane. Furthermore, the old ceiling part made of refractory bricks of the old coke oven, the old combustion chamber Is dismantled into an unstructured dismantled brick lump, and the dismantled brick lump is carried out using a self-propelled crane, and then a temporary building for construction is installed to cover the space above the foundation structure, and a temporary building for construction is constructed. After installing the construction overhead crane and construction scaffolding inside the building, dismantle the old heat storage chamber and the old lower horizontal flue to disassemble the heat storage room and the flue, and use a self-propelled crane. Exposing and leaving the substructure at the existing location by carrying out the flue demolition
Next, a self-propelled crane is used to install the integrally molded block for the flue on the foundation structure to form a new new lower horizontal flue, and then a self-propelled crane is used to integrally mold the heat storage chamber. On the new lower horizontal flue to build a new heat storage chamber, then assemble a new backstay, and then use a self-propelled crane to sequentially construct an integrated molded block for the combustion chamber and an integrated molded block for the ceiling. While transporting to a new combustion chamber, the integrated molding block for the combustion chamber and the integrated molding block for the ceiling are lifted from the construction scaffolding using the construction overhead crane and installed in the space formed by the new back stay. After constructing the ceiling part, and then installing a new coal car and new ceiling piping on the new ceiling part, dismantling the scaffolding for construction, the ceiling crane for construction, the temporary building for construction, and carrying out with a self-propelled crane new It is dismantling construction method of the coke oven to build a Kusu furnace.

  In the dismantling construction method of the present invention, it is essential to use an integrally molded block made of a non-expandable refractory material as the integrally molded block for the combustion chamber. In addition, it is essential to use an integrally formed block made of a non-expandable refractory material as an integrally formed block for the heat storage chamber arranged in the upper layer portion of the new heat storage chamber.

  According to the present invention, in the construction of a new coke oven from the dismantling of the old coke oven, it is possible to construct a high-precision furnace body and shorten the construction period, and at the same time reduce the number of man-hours, and from the construction of the new coke oven to the operation. It is also possible to shorten the raising period, which has a marked effect on the industry.

It is sectional drawing which shows typically the example of the construction work of the new coke oven by this invention. It is a perspective view which shows typically the example of the integrally molded block for heat storage chambers used by this invention. It is a top view which shows typically the example of the integrally molded block for combustion chambers used by this invention. It is a perspective view which shows typically the example of the integrally molded block for ceiling parts used by this invention.

  In explaining the method of dismantling the old coke oven by applying the dismantling construction method of the present invention and further constructing the new coke oven, first, the dismantling work of the existing old coke oven (not shown) that has deteriorated is explained. To do.

  The ceiling, combustion chamber, heat storage chamber, and lower horizontal flue that make up the old coke oven (hereinafter referred to as the old ceiling, old combustion chamber, old heat storage chamber, and old lower horizontal flue, respectively) are all made of many refractory bricks. Are built by stacking a coal car and a ceiling pipe (hereinafter referred to as an old coal car and an old ceiling pipe, respectively) on the ceiling. The furnace body is held by a back stay (hereinafter referred to as an old back stay).

  Then, in the dismantling work of the old coke oven, first, the old coal car, the old ceiling piping, and the old backstay are dismantled and carried out by a self-propelled crane. The means for dismantling the old coal car, the old ceiling piping, and the old backstay is not particularly limited, and a conventionally known means (for example, hydraulic crusher, fusing, etc.) is used.

  Next, the old ceiling and the old combustion chamber are dismantled. The means therefor is not particularly limited, and conventionally known means (eg hydraulic excavator, air breaker, etc.) is used. When the old ceiling part and the old combustion chamber are dismantled by these means, an amorphous block of the brick aggregate (hereinafter referred to as a demolished brick block) is generated. Therefore, the demolished brick block is lifted by using a self-propelled crane, and the demolished brick block is carried out to a predetermined storage location (or a stop location of a truck for transporting to the storage location).

  In this way, dismantling work was suspended, leaving the foundation structure, the former lower horizontal flue, and the former heat storage chamber, and the temporary building for construction was installed, and the foundation structure, the former lower horizontal flue, the former heat storage room and the upper part Cover the space. By installing a temporary building for construction, it is possible to prevent dust generated by subsequent work from scattering. Further, since it becomes possible to proceed with the construction without being affected by the weather such as rainy weather or strong wind, the work can be carried out efficiently.

  In addition, a construction overhead crane and construction scaffolding will be installed inside the temporary construction building. In this way, work efficiency is further improved. The temporary building for construction will have a doorway for self-propelled cranes and trucks.

  Then, the old heat storage room and the old lower horizontal flue are dismantled, and the generated amorphous heat storage room dismantlement and flue dismantlement are lifted by a self-propelled crane and carried out. As a result, the substructure is exposed on the work floor. The dismantling work of the old coke oven is completed, leaving the foundation structure in the existing place.

  Next, the construction work of the new coke oven will be described with reference to FIG. In the following, a coal car, a ceiling pipe, a back stay, a ceiling part, a combustion chamber, a heat storage chamber, and a lower horizontal flue which compose the new coke oven 1 are referred to as a new coal car, a new ceiling pipe, a new back stay, a new ceiling part, respectively. New combustion chamber, new heat storage chamber, new lower horizontal flue. In addition, illustration of the temporary building for construction is omitted in FIG.

  First, using the construction overhead crane 8 and the self-propelled crane 9, an integrally formed block preformed to form a flue (hereinafter referred to as flue integrally formed block) is installed on the old foundation structure. Then, the new lower horizontal flue 5 is formed. The integrally molded block for a flue is made by mixing a clay refractory material having the same composition as the refractory brick that had formed the old lower horizontal flue and a binder (eg phosphate, calcium oxide, etc.) and pouring it into a prescribed formwork. It was molded in.

  After that, an integrally molded block preformed to form the new heat storage chamber 4 (hereinafter referred to as a heat storage chamber integrated mold block) is installed on the new lower horizontal flue 5 by the construction overhead crane 8 and the self-propelled crane 9. By doing so, the new heat storage chamber 4 is formed. The lower part of the integrally molded block for the heat storage chamber is formed by pouring a refractory material having the same composition as that of the refractory brick forming the old heat storage chamber and the non-expandable refractory material into a predetermined mold. An example thereof is shown in FIG. The refractory materials used are clay-based refractory materials for the heat storage chamber integrally formed block located in the lower layer of the heat storage chamber, and siliceous refractory materials (that is, non-expandable refractory materials) for the heat storage chamber integrally formed block located in the upper layer. ).

  Next, the new back stay 6 and the construction scaffold 7 are assembled. The materials required for these assembling are transported using the construction overhead crane 8 and the self-propelled crane 9.

  Subsequently, an integrally molded block preformed to form the new combustion chamber 3 (hereinafter referred to as a combustion chamber integrally molded block) is conveyed to the construction scaffold 7 by the self-propelled crane 9, and the construction overhead crane 8 is further installed. By using the integrally molded block for the combustion chamber by lifting it from the construction scaffold 7 and installing it on the new heat storage chamber 4 (that is, the space formed by the new backstay 6), the new combustion chamber 3 is formed. The integrated molding block for the combustion chamber is molded by mixing silica refractory with the same composition as the refractory bricks that formed the old combustion chamber and a binder (for example, phosphate, calcium oxide, etc.) and pouring it into a prescribed mold. It was done. One example is shown in FIG.

  Next, an integrally molded block preformed to form the new ceiling part 2 (hereinafter referred to as an integrally molded block for ceiling part) is transported to the construction scaffold 7 by the self-propelled crane 9, and the construction overhead crane 8 is further installed. The integrally molded block for the ceiling part is lifted from the scaffolding 7 for construction and installed on the new combustion chamber 3 (that is, the space formed by the new back stay 6) to form the new ceiling part 2. The integrally molded block for the ceiling part is molded by mixing a refractory refractory material with the same composition as the refractory brick that formed the old ceiling part, and a binder (eg phosphate, calcium oxide, etc.) and pouring it into a prescribed formwork. It was done. As an example of the integrally molded block for the ceiling part, an example of the integrally molded block for forming the coal charging port is shown in FIG.

In addition, a new coal car and new ceiling piping will be installed in the new ceiling 2.
Finally, the construction scaffold 7, the construction overhead crane 8, and the construction temporary building are dismantled and carried out by the self-propelled crane.
Thus, the construction work of the new coke oven 1 is completed. As described above, the conventional construction work process is roughly divided into the furnace body work and the foundation work. However, since the present invention does not require the foundation work, the construction work is completed when the furnace body work is completed.
After the construction work of the new coke oven 1 is completed, the work (for example, the temperature rise of the furnace body) performed during the start-up period until the start of operation is performed in the same procedure as the old coke oven.

  The present invention was applied to the dismantling construction work of a coke oven having 50 combustion chambers. That is, the dismantling work of the old coke oven was performed to dismantle the furnace body, the foundation structure was left in the existing place, and the dismantling work was completed. Then, the integrally formed block was installed on the substructure to construct a new coke oven. This is an invention example.

  Among the series of dismantling construction work of the invention example, the dismantling work of the old coke oven is the same as the conventional method, so that the new coke oven (that is, the ceiling part, the combustion chamber, the heat storage chamber, the lower horizontal flue, the back stay). Table 1 shows the construction period, man-hours required for the furnace body construction for constructing the platform, and the overhead crane, and the period required for the temperature rise after the completion of the furnace body construction.

  For comparison, the results of stacking conventional refractory bricks and performing the furnace body construction were analyzed, and the construction period, man-hours required for the furnace body construction, and the temperature rise after the furnace body construction were completed were required. I investigated the period. The results are shown in Table 1 as a comparative example. The data of the comparative example does not include the construction period and man-hours required for the foundation work for constructing the foundation structure.

  As is clear from Table 1, in the inventive example, the construction period and the number of steps of the furnace body construction were significantly reduced as compared with the comparative example (that is, the furnace body construction by brick laying). The reason is that by using an integrally molded block, the number of times of handling using a self-propelled crane or an overhead crane can be reduced, and the conventional brick laying work is eliminated, and the load on joint finishing is also reduced. Because you can.

  Further, in the invention examples, by using the integrally molded block made of non-expandable refractory material in the required places, not only the construction of the high-precision furnace body but also the period required for the temperature rise was shortened. If the temperature of the furnace body is raised in a short period of time, it will contribute to shortening the start-up period from construction to operation of the new coke oven.

1 New Coke Oven 2 New Ceiling 3 New Combustion Chamber 4 New Heat Storage Chamber 5 New Lower Horizontal Flue 6 New Back Stay 7 Construction Scaffold 8 Construction Overhead Crane 9 Self-propelled Crane

Claims (3)

Old coal car of old dilapidated old coke oven, old ceiling piping, old back stay, old ceiling, old combustion chamber, old heat storage chamber, old lower horizontal flue were dismantled and taken out, In the method for dismantling and constructing a coke oven, which leaves a substructure at an existing place and constructs a new coke oven on the substructure,
An old coal car disposed in the old coke oven, an old ceiling pipe, an old backstay are disassembled and carried out by a self-propelled crane, and further, the old ceiling portion made of refractory bricks of the old coke oven, The old combustion chamber is dismantled into an amorphous demolition brick lump, the demolition brick lump is carried out by using the self-propelled crane, and subsequently, a temporary building for construction is installed to provide a space above the foundation structure. And disposing the construction overhead crane and the construction scaffolding inside the temporary construction building for construction, and then disassembling the former heat storage chamber and the old lower horizontal flue to disassemble the heat storage chamber and the flue dismantling. As a thing, by carrying out the heat storage chamber dismantled object, the flue dismantled object by using the self-propelled crane, the foundation structure is exposed and left at an existing place,
Then, using the self-propelled crane, an integrally formed block for the flue is installed on the foundation structure to form a new new lower horizontal flue, and subsequently, the self-propelled crane is used for the heat storage chamber. After constructing a new heat storage chamber by installing an integral molding block on the new lower horizontal flue, assembling a new back stay, and further using the self-propelled crane, integral molding block for combustion chamber, integral molding block for ceiling Are sequentially transferred to the construction scaffold, and the combustion chamber integrated molding block and the ceiling integrated molding block are lifted from the construction scaffold using the construction ceiling crane, and further formed by the new back stay. Installed in a space where a new combustion chamber and a new ceiling are constructed, and then a new coal car and a new ceiling pipe are installed in the new ceiling, and then the scaffold for construction, the overhead crane for construction, and the construction Dismantling the construction method of the coke oven, characterized by the construction of a new coke oven by by disassembling the use temporary building unloaded by the self-propelled crane.   The coke oven dismantling construction method according to claim 1, wherein an integrally formed block made of a non-expandable refractory material is used as the integrally formed block for the combustion chamber.   The method for constructing and disassembling a coke oven according to claim 1 or 2, wherein an integrally formed block made of a non-expandable refractory material is used as the integrally formed block for the heat storage chamber arranged in the upper layer portion of the new heat storage chamber.

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