KR101051766B1 - Concrete - Google Patents

Abstract

The present invention is an antimicrobial input concrete structure to extend the durability of the manhole by introducing an antimicrobial agent when manufacturing the manhole to prevent the manhole is corroded by bacteria generated during sewage treatment, such as sulfur reduction bacteria and sulfur oxide bacteria It relates to a manufacturing method.

The present invention is to install a reinforcing bar in the space between the inner mold and the outer mold for the manufacture of concrete structures, install a mesh for dividing the space in the reinforcement, when placing concrete, the inner space of the mesh antibacterial agent The mixed concrete, and the normal concrete without the antimicrobial agent is added to the outer space of the mesh and then cured so that the antimicrobial agent is distributed only to the inner wall that is susceptible to corrosion.

Concrete Structure, Manhole, Manhole Cover, Antibacterial, Height Adjuster, Spring, Bolt

Description

Concrete structure with antimicrobial agent and its manufacturing method {Concrete}

In order to prevent the corrosion of manholes caused by bacteria generated during sewage treatment, such as sulfur reduction bacteria and sulfur oxide bacteria, the present invention provides antimicrobial agents to produce concrete structures such as concrete manholes or pipes. It relates to an antimicrobial input concrete structure and a method of manufacturing the same.

In general, there is a problem that concrete structures such as concrete manholes or fume pipes are corroded by a large amount of hydrogen sulfide and sulfuric acid in concrete manholes or fume pipes as sewage treatment facilities.

Sulfur oxides such as thiobacilli and sediment in sewage pipes and sulfur reduction bacteria such as desulfovivibrio are used to dissolve sulfates and sulfur in the sewage and finally sulfuric acid is generated. And calcium sulfate is formed, and the calcium sulfate reacts with tricalcium aluminate (C3A) in the hardened body to produce Ettringite, which reduces the strength of concrete structures and pipelines and shortens the lifespan.

Conventionally, in order to solve such a problem, a method of incorporating organic pharmaceutical agents such as thiabendazole, nickel metal, and antimicrobial metal ion-supported inorganic powders having antibacterial activity to sulfur-reducing bacteria was incorporated into the concrete composition.

The addition of antimicrobial metal ion-supported inorganic powder to concrete is a useful technique that has a growth control effect on not only sulfur oxidizing bacteria but also sulfur reducing bacteria and carboxylic acid producing bacteria. However, in order to impart a predetermined strength to the concrete structure, it is necessary to adjust the mixing ratio of cement, aggregate, and water included in the concrete composition within a predetermined range. Because of this, there is a problem that it is impossible to sufficiently add the amount of the antimicrobial metal ion-supported inorganic powder necessary to give the growth inhibition effect of bacteria to the concrete structure to the concrete composition.

In addition, silver carbonate, silver compounds selected from the group consisting of silver oxide and silver phosphate, copper compounds selected from the group consisting of copper carbonate, copper oxide, copper phosphate and copper hydroxide, ethylenediamine-4-acetate, trinitro-3-acetate, Antimicrobial agent for concrete was prepared by mixing ion support compound selected from the group consisting of tripolyphosphate and hexametaphosphate at a mass ratio of 0.1 to 2.0: 0.5 to 2.5: 10 to 60. By adding 0.8 to 1.5 mass% A method of producing concrete products has been proposed.

These antimicrobial agents are expensive and act as a disadvantage of increasing the product cost. In particular, since the antimicrobial agent is added to the concrete to be manufactured and then used to mix, a large amount of antimicrobial agent is required, so that the cost of the product will increase.

The present invention was devised to solve the above-mentioned conventional problems, and its object is to produce an expensive antimicrobial agent in the manufacture of concrete structures such as manholes or sewer pipes, and the inner walls of manholes or sewer pipes which are expected to be corroded by sulfuric acid. By focusing on the same fragile part, it is possible to provide a low-cost antimicrobial-injected concrete structure by obtaining high efficiency even with a small amount of antimicrobial agent.

The present invention for achieving the problem as described above and to remove the drawbacks of the prior art is to install a reinforcing bar in the space between the inner mold and the outer mold for the manufacture of concrete structures, and to install a mesh to divide the space in the reinforcement When placing concrete, the concrete is mixed with antimicrobial agent in the inner space of the mesh, and the general concrete without the antimicrobial agent in the outer space of the mesh is cured by putting the antimicrobial agent distributed only to the inner wall vulnerable to corrosion can do.

The present invention has the advantage of achieving a concrete structure excellent in the corrosion protection effect by the antimicrobial agent at a low cost because the antimicrobial agent is concentrated in the part where the corrosion is weak when manufacturing the concrete structure.

In addition, even in the installation of the manhole cover on the upper part of the concrete structure, the height adjustment can be freely adjusted, there is an advantage that the manhole cover can be easily installed according to the height of the road surface.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a flowchart of manufacturing an antimicrobial concrete structure according to the present invention.

The mold shown in the drawing is a mold for manufacturing the concrete structure 20 of the present invention, in particular, a mold for manufacturing a concrete manhole. The mold is composed of an inner and an outer mold (10a) (10b), the space formed between the inner / outer mold (10a, 10b) has a shape of the concrete structure 20 as a space to be poured in the future. .

Although the illustrated mold shows a simple and general mold structure, this is only an embodiment, and the shape or structure of the concrete structure 20 may be changed as necessary.

As shown, in order to manufacture the concrete structure, first set the inner mold (10a) and the outer mold (10b), and then install the reinforcing bar (t) in the space between the inner mold (10a) and the outer mold (10b) A mesh m for dividing the space is provided inside or outside the reinforcing bar t. The mesh (m) is a mesh (m) having an eye of a size that delays the flow of concrete.

When a mold is prepared for the production of such a concrete structure, and when concrete is poured into the mold, the inner space divided by the mesh (m) has an antimicrobial agent (metal ions (Ag, Cu, Zn, etc. + inorganic carrier ( Zeolite)) is mixed with the concrete 18a, and the general concrete 18b without the antimicrobial agent is introduced into the outer space of the mesh m. The concrete 18a and the concrete 18b to which the antimicrobial agent is added are reinforced with rebar. Although each is separately put into separate spaces divided by (t) and mesh (m), the concrete of the boundary portion is distributed and mixed through the eyes of the mesh (m) to form a concrete structure 20. Curing concrete in the state is to obtain a concrete structure 20 in which the antimicrobial agent is distributed only to the inner wall vulnerable to corrosion.

The production rate of the concrete mixed with the antimicrobial agent and the ratio of the antimicrobial agent are well known and commonly used, and the detailed description thereof is omitted.

Figure 2 is an exploded perspective view showing a manhole cover installation structure in the present invention antimicrobial concrete structure, Figure 3a, 3b is a side cross-sectional view according to a first embodiment showing a structure for installing a manhole cover in the present invention antimicrobial concrete structure.

As shown in the drawings, when the concrete structure 20 is a concrete manhole, the concrete structure 20 has an upper surface 22 that is open for human access, and the support on which the lid and lid are seated. The manhole cover 30 is formed on the concrete manhole upper surface 22.

The upper surface 22 of the concrete manhole is provided with a connection bolt 42 for fixing the manhole cover 30 to be installed later.

The installation structure of the connection bolt 42 is formed with a fixing means for coupling the connection bolt 42 to the upper surface 22 of the manhole as shown in Figure 2, the fixing means of the connection bolt 42 is connected Allow position movement. In this case, the fixing means, in particular, the bolt fixing means, as shown in Figure 2 is formed by including a plurality of grooves 23 on the upper surface 22, the manhole cover 30 is seated coupled, each groove portion A support plate 24 including a bolt head insertion groove 25 and a position adjustment groove 26 connected thereto is installed at an upper portion of the 23, and a lower end of the connection bolt 42 is disposed in the position adjustment groove 26. It is formed by forming the bolt head 44 to be locked. At this time, the structure of the bolt hole 34 of the arc-shaped long hole form formed in the flange 32 of the manhole cover 30, and the positioning groove 26 of the support plate 24, concrete manhole and manhole cover 30 The manufacturing error generally occurs when manufacturing), to absorb the errors of each other when the height adjustment device is combined to ensure a smooth assembly. And the number of each of the connecting bolts 42 is suitable at least three and the arrangement is preferably to form an equilateral triangle structure. In addition, the support plate 24 is formed on the side or bottom by an anchor pin planted in the concrete structure 20 to be integrated with the concrete structure 20.

In addition, a fastening nut 48 for firmly fixing the connection bolt 42 and the manhole cover 30 to the upper surface 22 of the manhole through the connection bolt to install the manhole cover 30 using the fixing means is provided. Is further configured.

When fixing the manhole cover 30 to the upper surface 22 of the manhole through the structure, as shown in Figure 3a and 3b connecting bolts (25) to the bolt head insertion groove 25 of the support plate 24 installed on the upper surface of the manhole ( After inserting the bolt head 44 of 42) it is moved to the positioning groove (26). In this way, the bolt head 44 is locked to the position adjusting groove 26 so as not to fall upward. In this state, the manhole cover 30 is coupled to the connection bolt 42. That is, the upper ends of the connecting bolts 42 are inserted into the bolt holes 34 of the arc-shaped long hole structure formed on the flange 32 around the manhole cover 30, and then the tightening nuts 48 are fastened to the upper ends thereof. When tightened, it is firmly fixed. If the position of the connecting bolt 42 and the bolt hole 34 of the flange 32 does not match well, move the connecting bolt 42 to adjust the position before tightening the tightening nut 48 and then tighten it again.

In this state, if the top of the manhole cover 30 and the pavement are parallel with the height of the road surface, the installation of the manhole is completed. Should be placed. To this end, the cap (C) is put on the upper end of the connecting bolt 42 to protect the thread of the tightening nut 48 or the connecting bolt 42 by the packaging material.

On the other hand, in the case of having to cover to repair the road by the long time use of the road as shown in Figure 3b after removing the packing material (asphalt, concrete, etc.) of the manhole circumference removed the cap (C) covered on the top of the connection bolt 42 do. Then, the tightening nut 48 is removed and the manhole cover 30 is lifted up. And it is provided with a connection nut 43 and another connecting bolt 42 and a spring 46 is elastically installed around the connection bolt, the connection nut 43 is fastened to the upper end of the connection bolt 42 already installed do. Hereafter, after fastening another connection bolt 42 to the upper portion of the connection nut 43, a spring 46 is installed around the connection bolt 42. The manhole cover 30 or the new manhole cover 30 lifted in this state is seated on the upper part of the connecting bolt 42 or the spring 46. That is, the upper end of the connecting bolt 42 is inserted through the bolt hole 34 of the flange 32 around the manhole cover 30, and then tighten the tightening nut 48 to the upper end thereof. By the tension of the spring 46, the manhole cover 30 is stopped in a state in which the spring is slightly compressed only by the weight. At this time, the adjustment work for matching the upper end of the manhole cover 30 according to the height of the road surface, that is, to adjust the tightening degree of the tightening nut 48 is performed. If the height is too high, tighten the tightening nut 48 to adjust the height by lowering the manhole cover 30, and if the manhole cover 30 is too low, loosen the tightening nut 48 to compress the spring 46. Lift the manhole cover 30 by tension to adjust the height.

In this state, if the pavement is overlaid, the road surface and the upper end of the manhole cover 30 can be aligned side by side.

Figure 4a, 4b, 4c is a side cross-sectional view of a second embodiment showing a structure for installing a manhole cover in the present invention antimicrobial concrete structure.

As shown in the figure, the connection bolt 42 for fixing the manhole cover 30 is formed integrally on the upper surface of the manhole. This is when manufacturing the manhole, the bottom of the connection bolt 42 is planted in the curing process of the concrete is the manhole and the connection bolt 42 is integrated.

In addition, the connecting bolt 42 fixing means, when manufacturing a concrete manhole, a plurality of anchor nuts (24 ': see Fig. 5a) in advance on the upper surface of the manhole to which the manhole cover 30 is seated and coupled concrete By integrating in the curing process, the connection bolt 42 may be configured to be screwed with the anchor nut.

As described above, in the method of installing the manhole cover 30 in the manhole in which the connection bolt 42 is installed, the manhole cover 30 is inserted by inserting the upper end of the connection bolt 42 into the bolt hole 34 of the manhole cover 30. After seating on the upper surface of the manhole, the tightening nut 48 is fastened and fixed.

When overlaying for road repair, the height of the manhole cover 30 should be increased by the overlay height, which is the same as the first embodiment described above, and a duplicate description thereof will be omitted.

Figure 5a, 5b, 5c is a side cross-sectional view of a third embodiment showing a structure for installing a manhole cover in the present invention antimicrobial concrete structure.

As shown in the drawing, the anchor nut 24 'is provided on the upper surface of the manhole. That is, when manufacturing the manhole, the anchor nut 24 'is planted and installed on the upper surface on which the manhole cover 30 is seated.

As such, the method of installing the manhole cover 30 in the manhole in which the anchor nut 24 'is installed is performed by fastening the connecting bolts 42 to the anchor nut 24', and the upper end of the bolt hole of the manhole cover 30. Insert 34 into the manhole cover 30 is seated on the upper surface of the manhole, and then tighten and tighten the tightening nut 48 to install. Then, the cover bolt (c) on the top of the connection bolt 42 may be packed with a packaging material.

If the cover is covered for repairing the road surface, the perimeter of the manhole cover 30 is removed, and then the cover c is removed and the manhole cover 30 is lifted up. Then, the connecting bolts 42 fastened to the anchor nut 24 'are screwed back to draw the upper portion of the anchor nut 24'. Therefore, after installing the spring 46 around the height of the connection bolt (42), the height of the connection bolt 42 is inserted into the bolt hole 34 of the manhole cover flange (32) to the manhole cover 30 It rests on the top of the spring 46.

Subsequently, the tightening nut 48 is fastened to the upper end of the connecting bolt 42, and the height of the manhole cover 30 may be appropriately adjusted by adjusting the tightening degree.

If the length of the connection bolt 42 is insufficient, the length of the manhole by extending the length by connecting the connection nut 43 to the upper end of the connection bolt 42, and connecting another connection bolt 42 on the top What is necessary is just to adjust the installation height of the cover 30.

On the other hand, Figure 6 is a view showing the processing state of the anchor nut before installing the manhole cover of Figure 5a, the stopper (c ') is fitted to the upper end of the anchor nut (24'). This is to prevent foreign matter from penetrating into the anchor nut 24 ′ from the outside before installing the manhole cover 30.

1 is a flow chart manufacturing antimicrobial concrete structure according to an embodiment of the present invention.

Figure 2 is an exploded perspective view showing a manhole cover installation structure in the present invention antimicrobial concrete structure.

Figure 3a, 3b is a side cross-sectional view of a first embodiment showing a structure for installing a manhole cover in the present invention antimicrobial concrete structure.

Figure 4a, 4b, 4c is a side cross-sectional view of a second embodiment showing a structure for installing a manhole cover in the present invention antimicrobial concrete structure.

Figure 5a, 5b, 5c is a side cross-sectional view of a third embodiment showing a structure for installing a manhole cover in the present invention antimicrobial concrete structure.

Figure 6 is a processing state of the anchor nut before the manhole cover installation of Figure 5a.

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

10a-inner mold 10b-outer mold

18a- concrete mixed with antimicrobial 18b- concrete without antibiotic

20-Concrete Structure 22-(Concrete Manhole) Top

23-groove 24-support plate

24 '-Anchor nut 25-Bolt head insertion groove

26-Moving groove 30-Manhole cover

32-flange 34-bolt hole

40-Height adjuster 42-Connecting bolt

44-Bolt Head 46-Spring

48-Tightening nut t-Reinforcing bar

m-mesh

Claims (8)

Reinforcing bars (t) are installed in the space between the inner mold (10a) and the outer mold (10b) for the manufacture of concrete structures, mesh (m) for dividing the space in the reinforcing bars (t), and concrete When pouring, the antimicrobial agent is distributed in the inner space of the mesh (m), and the concrete is mixed with antimicrobial agent in the inner space of the mesh (m), and the antimicrobial agent is distributed only to the inner wall where it is vulnerable to corrosion by curing. Method of manufacturing concrete structures in which antimicrobial agents are added. Reinforcing bars (t) are installed in the space between the inner mold (10a) and the outer mold (10b) for the manufacture of concrete structures, mesh (m) for dividing the space in the reinforcing bars (t), and concrete When pouring, the antimicrobial agent is distributed in the inner space of the mesh (m), and the concrete is mixed with antimicrobial agent in the inner space of the mesh (m), and the antimicrobial agent is distributed only to the inner wall where it is vulnerable to corrosion by curing. Antibacterial input concrete structure as much as possible. The method of claim 2, The manhole cover 30 is installed on the upper surface 22 of the concrete manhole made of a lid and the base is seated, A plurality of connecting bolts 42 having one end penetrating through the bolt hole 34 of the manhole cover flange 32 and the other end connected to the upper surface 22 of the concrete manhole; Fixing means for fixing the lower end of each connecting bolt 42 to the upper surface 22 of the concrete manhole, It is fastened to the upper end of the connection bolt 42 penetrating through the bolt hole 34 of the manhole cover 30, characterized in that consisting of a tightening nut 48 for fixing the manhole cover 30 to the concrete manhole with its tightening force Concrete structures. The method of claim 3, The fixing means is formed by including a plurality of grooves 23 on the upper surface 22 of the manhole to which the manhole cover 30 is seated and coupled, and bolt head insertion grooves on the upper portions of the grooves 23. 25) and a support plate 24 including a position adjusting groove 26 connected to the bolt head insertion groove 25, and a lower end of the connecting bolt 42 inserted into the bolt head insertion groove 25. The concrete structure, characterized in that formed by including a bolt head 44 that is locked to the positioning groove (26). The method of claim 3, The fixing means, when manufacturing a concrete manhole, a plurality of anchor nuts 24 'are planted on the upper surface 22 of the manhole to which the manhole cover 30 is seated and coupled to the anchor nut 24'. Concrete structure, characterized in that the bolt 42 is screwed. The method of claim 3, The bolt hole 34 of the manhole cover 30 is a concrete structure, characterized in that the arc-shaped long hole. The method of claim 3, The fixing means, when manufacturing the concrete manhole, planting the lower end of the connection bolt 42, the concrete structure, characterized in that to be integrated into the concrete manhole. The method of claim 3, The spring 46 is elastically installed around the connecting bolt 42 positioned between the manhole cover 30 and the upper surface 22 of the concrete manhole, and passes through the bolt hole 34 of the manhole cover 30. Concrete structure, characterized in that the fastening nut (48) is fastened to the upper end of the connection bolt 42 to adjust the height according to the tightening degree.

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