KR101903658B1 - sedimentation tank construction method - Google Patents

Abstract

The present invention relates to a settling tank construction method for reducing construction periods. According to the objective of the present invention, since a series of construction methods for building a settling tank are simplified into seven processes such as a primary structure combination process, a secondary structure combination process, a civil upper pillar installation process, an upper-and-lower cage assembly process, a baseless concrete floor pouring process, a scraper unfolding process, and a scraper connection process, the use of construction labor force and additional equipment is able to be minimized, and thus, the present invention is capable of considerably reducing costs for building settling tank facilities, and especially, improving construction efficiency by making construction in the site fast and convenient. Accordingly, to achieve the purpose, the present invention is designed to conduct the primary structure combination process, the secondary structure combination process, the civil upper pillar installation process, the upper-and-lower cage assembly process, the baseless concrete floor pouring process, the scraper unfolding process, and the scraper connection process.

Description

Sedimentation tank construction method for air shortening

The present invention relates to a sedimentation tank, and more particularly, to a sedimentation tank for purifying various kinds of sludge and waste contained in wastewater, in which a construction process of the sedimentation tank, for example, a series of construction methods, And to a method of constructing a settling tank for shortening the time required for minimizing the use of unnecessary additional equipment, thereby ensuring safety, convenience, speed, and economy of construction.

Generally, a settling tank is a wastewater pretreatment facility installed in an influent wastewater path. Such a settling tank is a facility for treating wastewater contained in the wastewater and various kinds of sludge (for example, Sand and other precipitated foreign matter), and collecting the deposited waste and sludge by a scraping action by a scraper.

For example, it can be seen that the structure of the general sedimentation tank constructed in this way is as shown in FIG. 1. For example, the waste water inlet pipe 10 connected to the center of the bottom wall, A water tank body 20 having a container structure for filling and storing sewage is provided;

A vertical mounting frame 50 having a driving motor 30 and a rotation inducing device 40 is formed in the form of a structure standing upright at the center of the water tub main body 20;

A discharge induction arm 60 having a scraper is formed at the lower end of the vertical installation frame 50 as an example of a representative sedimentation tank.

On the other hand, in the settling tank having such a constitution, wastewater (sewage or sewage, etc.) containing waste and various kinds of sludge flows into the water tank main body through the wastewater inflow pipe, and thus the wastewater and sludge Is deposited on the bottom of the water tank body, the deposited waste and the sludge are collected by the action of inducing rotation of the discharge inducing arm and discharged to the outside.

However, the sedimentation tank equipped with the functional structure as described above has a closed end in a very complicated and difficult construction method when the sedimentation tank is installed.

For example, a conventional construction method for constructing a settling tank includes 1. a walkway carry-in installation process, 2. a gearbox carry-in installation process, 3. a cage upper carry-in process, 4. a scaffold installation process, 5. a cage upper installation process, Water piping installation process, 7. scaffold disassembly process, 8. center well installation process, 9. cage bottom loading process, 10. cage subassembly process, 11. cage top and bottom bolting connection process, 12. floor unloading process, 13. scraper 14. Scraper feed-in process, 15. Cage and scraper assembly process, which was to process the settling tank through about 15 process steps;

Therefore, the conventional sedimentation tank construction method is complicated and complicated due to various complicated process steps, complicated installation procedures in which the components brought in the form of individual parts are combined in a closed tank space, and installation of temporary scaffolds such as scaffolding And the additional process of repeating the dismantling work from time to time necessitates an excessive amount of construction workforce and auxiliary equipment, and consequently, there is a problem of a reduction in the construction efficiency in which the construction progress is delayed considerably.

In addition, the conventional sedimentation tank construction method requires a plurality of operators to carry out work in a state of being put in a closed water tank in order to assemble and install a series of components brought in for the construction of a sedimentation tank. In particular, The work environment and conditions are very weak due to the additional installation of scaffolding, which is a temporary constructional work for the construction worker, and there is a considerable safety problem in which such work environment and condition act as a factor of increasing the accident rate.

Korean Patent No. 1828335 Korea Patent No. 0798080

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the conventional problems of the conventional sedimentation tank construction method,

SUMMARY OF THE INVENTION An object of the present invention is to provide a process for constructing a settling tank, which comprises a simplified 5-step process such as a primary structure combination process, a secondary structure combination process, an upper and lower cage assembly process, a scraper spreading process, To minimize the use of construction workforce and additional equipments, thereby greatly reducing the cost of constructing the settling tank facility. Particularly, by simplifying the process, the construction work in the site can be made more convenient and quick And to provide a method of constructing a settling tank for shortening the air so that the construction efficiency can be greatly improved.

It is also an object of the present invention to improve the working environment by eliminating the installation work of temporary scaffolds installed and used as indispensable forms, for example, scaffolds corresponding to additional structures, in the sedimentation tank construction, The present invention provides a method for constructing a settling tank for shortening an air flow so that an accident occurrence rate is also lowered by an improved working environment, thereby greatly improving the safety of construction.

In order to accomplish the above object, according to the present invention, there is provided a method for constructing a settling tank for shortening the air,

A primary structure assembling process for inserting a lower cage having an upright fixed structure and a scraper into a lower column of a water tank structure;

A secondary structure assembling process in which an assembly structure formed by combining a walkway, an upper cage, a faucet water pipe, and a center well is mounted on the upper surface of a water tank structure provided with a lower cage;

An upper and lower cage assembly process for fixedly connecting the upper surface of the lower cage and the lower surface of the upper cage;

 A scraper spreading step of separating the scraper coupled to the lower cage in an upright structure and placing the scraper on the bottom surface of the water tank structure;

And a scraper connecting step of fixing the scraper separated and placed on the bottom surface of the water tank structure to the lower outer surface of the lower cage.

As described above, the method of constructing the settling tank for shortening the air according to the present invention comprises the steps of: a primary structure assembling step, a secondary structure assembling step, an upper and lower cage assembling step, a scraper spreading step, This is because it minimizes the use of construction input manpower and additional equipments to reduce the cost of constructing the settling tank facility and it is also possible to make the construction work in the site convenient, So that the efficiency of construction can be improved.

In addition, the method of constructing the settling tank for shortening the air according to the present invention improves the work environment by eliminating the temporary installation, which is installed and used indispensably in the existing settling tank, , Such an improved working environment reduces the incidence of accidents and thereby improves the construction safety and provides a very useful anticipatory effect.

1 is a schematic configuration diagram of a conventional sedimentation tank
FIG. 2 is a flow chart of a method of constructing a settling tank for shortening the air according to the present invention,
Fig. 3 is a schematic view showing the mechanical state diagram of the primary structure assembling process
Fig. 4 is a graph showing the mechanical state diagram of the secondary structure assembling process
Fig. 5 is a diagram showing mechanical states of the upper and lower cage assembling processes
6 is a graph showing the mechanical state diagram of the scraper spreading process in the present invention
Fig. 7 is a schematic view showing the mechanical state of the scraper connecting process
Fig. 8 is a view showing an additional detailed installation state of the scraper spreading process in the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a method for constructing a settling tank for shortening the air according to the present invention will be described in detail with reference to the accompanying drawings.

With reference to the accompanying drawings, a schematic process configuration of a method of constructing a settling tank for shortening the air according to the present invention will be described;

This consists of a primary structure assembling process S1, a secondary structure assembling process S2, an upper and lower cage assembling process S3, a scraper spreading process S4, and a scraper connecting process S5.

The primary structure assembling process S1 includes assembling the lower cage 2 and the scraper 21 to the water tank structure 1 for inflow and filling wastewater containing waste (sewage or sewage) 3, in the primary structure assembling process S1, the lower column 11 having a predetermined length at the center of the inner bottom surface, which takes a predetermined rectangular space configuration, And a pair of assembly mounting grooves (12) having a rectangular concave-convex structure are formed on one side and the other side of the other side of the upper surface frame, the lower column (11) The scraper 21 divided into a plurality of portions around the outer surface of the lower cage 2 into which the lower cage 2 is inserted is fixed in an upright folded structure as shown in Fig. Installed in a combined state It is preferable to be made of course.

In this case, in the above-described primary structure assembling process (S1), the scraper 21, which is joined to the periphery of the lower cage 2 by a plurality of divided upright folding structures, The upper fixing bar B1 and the lower fixing bar B2 having a link structure are fixedly connected to the outer side of the lower cage 2. [

The secondary structure assembling process S2 is a process of connecting the assembly structure 3 to the upper surface of the lower cage 2 installed through the primary structure assembling process S1 as described above, As shown in Fig. 4, the secondary structure assembling step S2 includes firstly a plate-like structure having a predetermined length, a fixed engaging piece 311 having concave-convex shapes on both left and right sides thereof, As shown in Fig. 4 or Fig. 7, on the lower surface of the portion where the column insertion hole 312 is formed under the condition that the column insertion hole 312 is provided on the basis of the walkway 31 having a circular penetration structure, And the center well 33 to which the supernatant water pipe 331 is connected are integrally formed by a single assembly structure 3 and the left and right sides of the walkway 31 The fixing engagement piece 311 of the water tank structure 1 is inserted into the assembly mounting groove 12 of the above- And a step of installing the optical disc.

At this time, in the secondary structure assembling step S2, the assembly structure 3 includes an upper cage 32, a vesicle water pipe 331, a center well 33, And a gearbox gearbox (not shown) are combined to form an integrated assembly, and then the assembled assembly, such as the assembly structure 3, is entirely transported and installed.

The upper and lower cage assembling process S3 is performed by assembling the upper surface of the lower cage 2 installed through the primary structure assembling process S1 and the assembly structure installed through the secondary structure assembling process S2 described above The process of assembling the upper and lower cages 32 to the lower surface of the upper cage 32 formed by the assembly structure 3 will be described in more detail. Preferably, the lower cage 2 and the upper cage 32 are connected to each other using a fastening means such as bolts and nuts.

The scraper spreading step S4 includes a plurality of scrapers 21 coupled in an upright folding structure around the outer surface of the lower cage 2 in the above-described primary structure assembling step S1 As shown in FIG. 8, the scraper spreading process (S6) is a process of separating the individual pieces of the towing chain 51 from the bottom of the water tank structure 1, The end of the pull chain 51 is connected to the upper surface of the scraper 21 that is fixed upright to the outer side of the lower cage 2, Under the same condition, the upper fixing bar B1 for fixing the scraper 21 is removed in one step, and by the releasing operation of the pulling chain 51 and thus the hinge rotation of the lower fixing bar B2, (21) is spread on the bottom surface of the water tank structure (1) Tea, be written with the process of the disclosure of the scraper 21 and connect the lower cages (2) and lower fixing bar removed in the form of (B2) in two steps, which also is preferred.

Finally, the scraper connecting step S5 connects the inner end of the scraper 21, which is seated on the bottom surface of the water tub structure 1 through the scraper spreading step S6, to the lower end outer side of the lower cage 2 Such as bolts and nuts, so as to take an installation form as shown in Fig. 8. This sequence of sequential process steps allows the process according to the invention A sedimentation tank construction method for air shortening is implemented.

1: water tank structure 2: lower cage
3: Assembly structure 4: Upper column
5: Chain block 51: Traction chain
11: lower column 12: assembly mounting groove
21: Scraper 31: Walkway
32: upper cage 33: center well
311: Fixed coupling piece 312: Column insertion hole
331: Package water pipe B1: Upper fixing bar
B2: Lower fixing bar

Claims (3)

A water tank structure (1) in which a lower column (11) is installed upright at the center of the inner side bottom and a pair of assembly mounting grooves (12) , And a plurality of scrapers (21) are further fixedly coupled to the outer peripheral surface of the lower cage (2) by inserting the lower cage (2) in an upright folding structure S1);
And a walkway (31) having a column insertion hole (312) formed in a central surface thereof and having a fixed engagement piece (311) formed on the left and right sides of the upper cage 32 and the center well 33 to which the suppository water pipe 331 is connected are combined and formed into a single assembly structure 3 so that the assembled assembly structure 3 is fixed to both left and right sides of the walkway 31 A secondary structure assembling step S2 in which the engaging piece 311 is seated in the assembly mounting groove 12 of the water tank structure 1;
The upper surface of the lower cage 2 installed through the primary structure assembling process S1 is fastened to the lower surface of the upper cage 32 of the assembly structure 3 installed through the secondary structure assembling process S2 with bolts and nuts An upper and lower cage assembling step (S3) of fixedly connecting by means;
In the primary structure assembling process S1, the scraper 21 coupled to the lower cage 2 by an upright folding structure is separated and spread so that the non-perforated concrete is seated on the bottom surface of the water tank structure 1 in which the non- A scraper spreading step (S4);
A scraper connecting step S5 for fixing the inner end of the scraper placed on the bottom surface of the water tub structure 1 to the lower end outer side of the lower cage 2 by bolt and nut fastening means through the scraper spreading step S4 The method of claim 1, further comprising:
The method of claim 1, further comprising:
In the primary structure assembling process S1, a plurality of scrapers 21 are coupled to the outer side of the lower cage 2 in an upright folding structure. The upper and lower fixing bars B1, B2). ≪ / RTI >< RTI ID = 0.0 > 11. < / RTI >
The method of claim 1, further comprising:
The scraper spreading step S4 is carried out by providing a chain block 5 on which a traction chain 51 is wound and arranging the end of the traction chain 51 on the upper surface of the scraper 21 fixed upright by the lower cage 2 The upper fixing bar B1 for fixing the scraper 21 is removed in one step to remove the scraper 21 by the releasing action of the pulling chain 51 and the hinge rotating action of the lower fixing bar B2 And a lower fixing bar (B2) connecting the opened scraper (21) to the lower cage (2) is unfolded in two stages on the bottom surface of the water tank structure (1) .

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