KR20210130574A - Manufacturing method of large concrete manhole with an internal flow rate of 50tons or more - Google Patents

Abstract

The present invention relates to a concrete composite manhole and, more specifically, to a concrete composite manhole which provides a composite manhole in which high-strength concrete and polyethylene (PE) are combined to prevent leakage in the manhole, block water entering from the outside, reduce the weight of a conventional concrete manhole, and remedy the disadvantage of the weight and earth pressure of a conventional polyethylene (PE) manhole. The present invention provides the effect of preventing leakage in the manhole, blocking water entering from the outside, reducing the weight of the conventional concrete manhole, and remedying the disadvantage of the weight and earth pressure of the conventional polyethylene (PE) manhole by providing a composite manhole in which the high-strength concrete and the polyethylene (PE) are combined.

Description

Method of manufacturing a large concrete manhole with an internal flow rate of 50 tons or more

This embodiment relates to a method of manufacturing a large concrete manhole with an internal flow rate of 50 tons or more.

In general, a manhole is for collecting rainwater and sewage on the road and discharging it to a specific location. It is installed on the top of the, and consists of a manhole cover formed with a number of through holes.

The manhole floor and manhole wall installed underground must have excellent compressive strength to withstand loads such as earth pressure, and must not be corroded by moisture in the ground.

Conventionally, concrete was mainly used as a technology related to the material for forming such a manhole. However, in the case of manholes in special facilities such as gas stations, industrial waste collection facilities, nuclear power plants, optical lines, etc., compressive strength, durability, and compactness are required, and the need to install thinner manhole floors and manhole walls due to the narrow installation space there was

'Composite material-containing cement, cement products, molded concrete members and their manufacturing method' (Korean Patent Registration) Publication No. 10-0240737) was devised.

However, the above composite material-containing cement had a problem in that although the flexural strength was improved, it was not dense and there was a risk of leakage.

In addition, there was a problem that the thickness of the material could not be formed thinly because the compressive strength was not high, and there was a problem that the weight was heavy due to the high specific gravity.

On the other hand, in recent years, many manholes as resin materials such as reinforced plastics have been developed in consideration of these problems. However, since these manholes are very sensitive to heat and impact, there is a problem that damage due to deformation often occurs when subjected to long-term impact.

In addition, the manufacturing cost is high in Korea, which imports raw materials, which causes a cost increase.

As shown in FIG. 1, the conventional manhole structure is a structure in which a manhole hole 2 is formed on the upper portion of a rectangular parallelepiped and a connection passage 5 communicating with another manhole structure is formed on both sides of the structure. Conventionally, concrete is mainly used. However, recently, polymer concrete made of synthetic resin has been used to facilitate maintenance of manhole structures, improve durability, and facilitate installation.

However, although polymer concrete has an excellent effect of being easy to construct and extending its durability, there is a problem in that the raw material is expensive and manufactured at a high price.

In addition, since the conventional manhole structure is mainly installed on the roadway, a dynamic load is applied to the shoulder portion due to the vehicle weight, so there is a problem in that the shoulder portion is deformed or damaged and the durability life is shortened.

In summary, the concrete manhole block for sewage is heavy, so the difficulty in construction is that when constructing a concrete manhole for sewage over 3m, it avoids construction because it causes a sinking phenomenon with the load of its own weight, and equipment cannot enter even on a narrow road. There is a disadvantage that it cannot be constructed, and when connecting with a connector made of polyethylene (PE), the elastic modulus of each material is different, so it is very difficult.

On the other hand, polyethylene (PE) manholes for sewage are lightweight and convenient in construction, but in the long term, they are squashed due to load and external earth pressure.

Therefore, in the present invention, by providing a composite manhole in which high-strength concrete and polyethylene (PE) are combined to improve the above problems, it is possible to prevent water leakage inside the manhole and prevent water flowing in from the outside, and to lighten the existing concrete manhole. and proposed a concrete composite manhole that can compensate for the disadvantages of the existing polyethylene (PE) manhole load and earth pressure.

Therefore, the present invention has been devised to solve the above problems, and an object of the present invention is to provide a composite manhole in which high-strength concrete and polyethylene (PE) are combined, thereby preventing water leakage inside the manhole and water flowing in from the outside. It can be blocked, lighten the existing concrete manhole, and compensate for the disadvantages of the existing polyethylene (PE) manhole load and earth pressure.

In other words, when concrete and polyethylene (PE) material connecting passage pipes are combined, the elastic modulus is different, which solves the problem, and when connecting polyethylene (PE) material connecting passage pipes directly to concrete manholes, load and earth pressure It is intended to block the leaking part.

The method for manufacturing a large concrete manhole with an internal flow rate of 50 tons or more according to this embodiment is a cylindrical shape with an empty inside, in order to form a polyethylene (PE) pipe 300 to wrap the outside of the polyethylene (PE) pipe 300 with high-strength concrete 400 in the concrete composite manhole and forming a polyethylene (PE) pipe 300 having a connection passage tube 350 formed thereon on the outer surface of the inner molded inner tube 100 in the form of a hollow cylinder; and a connection passage tube 350 on the lower side. ) preparing a formwork exterior 200 in the form of a hollow cylinder having a larger diameter than the polyethylene tube 300 in which it is formed; and the formwork inner tube 100 is formed therein, and a connection passage tube 350 on the lower side ), positioning the polyethylene (PE) pipe on the inside of the molded exterior 200; and high-strength concrete 400 into the space formed between the polyethylene (PE) pipe 300 and the molded exterior 200. It is characterized in that it undergoes a curing step for a certain time; and when the curing step is performed for a predetermined time, the polyethylene (PE) tube 300 is buried in the high-strength concrete 400, and the high-strength concrete ( It is characterized in that the polyethylene (PE) pipe 300 is closely attached to 400) so that high strength can be maintained. As a result, it is characterized in that it is possible to block leakage due to load and earth pressure when connecting the polyethylene (PE) material connection passage pipe directly to the concrete manhole. It may be characterized in that it is possible to provide watertightness by preventing contraction and expansion by pouring with a furnace.

Concrete composite manhole according to the present invention, by providing a composite manhole in which high-strength concrete and polyethylene (PE) are combined, it is possible to prevent water leakage inside the manhole and prevent water flowing in from the outside, and it is possible to lighten the existing concrete manhole, It provides an effect that can compensate for the disadvantages of the existing polyethylene (PE) manhole load and earth pressure.

In other words, when concrete and polyethylene (PE) material connecting passage pipes are combined, the elastic modulus is different, which solves the problem, and when connecting polyethylene (PE) material connecting passage pipes directly to concrete manholes, load and earth pressure It will provide the effect of blocking the leaking part due to the above.

1 is a longitudinal cross-sectional view schematically showing a conventional manhole structure.
Figure 2 is a perspective view of a concrete composite manhole according to an embodiment of the present invention, Figure 3 is a side view, Figure 4 is a perspective view seen from the top, Figure 5 is an internal perspective view.
6 is an exemplary view showing a process for manufacturing a concrete composite manhole according to an embodiment of the present invention.
7 is an exemplary view showing a process for manufacturing a concrete composite manhole according to this embodiment of the present invention.

Hereinafter, it will be described in detail through an embodiment of the concrete composite manhole according to the present invention. In the concrete composite manhole according to a preferred embodiment of the present invention, a polyethylene (PE) pipe 300 in the form of a cylinder with an empty inside is formed on the inner surface of the formwork inner tube 100 having an empty cylindrical shape, or on the outer surface of the inner formwork tube. After forming, the inner formwork tube 100 having the polyethylene (PE) tube 300 formed thereon is positioned inside the formwork outer tube 200 having an empty cylindrical shape with a larger diameter than the inner formwork inner tube, and then the formwork inner tube 100 ) and the outer formwork 200 by putting high-strength concrete into and curing, it is characterized in that it is formed to surround the outside of the polyethylene (PE) pipe 300 with high-strength concrete 400 .

At this time, it is characterized in that the connection passage tube 350 is formed on the lower side of the polyethylene (PE) tube (300). Figure 2 is a perspective view of a concrete composite manhole according to an embodiment of the present invention, Figure 3 is a side view, Figure 4 is a perspective view seen from the top, Figure 5 is an internal perspective view.

As shown in FIGS. 2 to 5 , the present invention concrete composite manhole has a shape in which the high-strength concrete 400 surrounds the outside of the polyethylene (PE) pipe 300 .

At this time, the connection passage pipe 350 is formed on the lower side, and the connection passage tube has a structure coupled to the lower side of the polyethylene (PE) tube 300 .

As described above, when the high-strength concrete 400 has a shape surrounding the outside of the polyethylene (PE) pipe 300, the problems mentioned in the prior art can be solved, preventing water leakage inside the manhole and water flowing from the outside. It can block, lighten the existing concrete manhole, and provide the effect of compensating for the disadvantages of the existing polyethylene (PE) manhole load and earth pressure.

6 is an exemplary view showing a process for manufacturing a concrete composite manhole according to an embodiment of the present invention.

In the case of FIG. 6 , the formwork inner tube 100 in the form of an empty cylinder and the polyethylene (PE) tube 300 in the form of an empty cylinder are prepared.

At this time, the diameter of the polyethylene (PE) pipe 300 must be smaller than the diameter of the inner mold pipe 100 so that it can be inserted therein. Thereafter, the formwork outer tube 200 is prepared in the form of an empty cylinder with a larger diameter than the inner formwork tube. The outer formwork 200 must be sufficiently larger than the diameter of the inner formwork tube to be able to sufficiently secure a space between the formwork inner tube and the formwork outer tube.

Thereafter, when the inner mold tube 100 on which the polyethylene (PE) tube 300 is formed is positioned inside the mold outer tube 200, a space is formed between the form inner tube 100 and the formwork outer tube 200, The high-strength concrete 400 is put into the corresponding space and cured for a certain period of time.

When the manufacturing process as described above is performed, the polyethylene (PE) pipe 300 is buried in the high-strength concrete 400 .

This is a manufacturing process to improve elasticity, and since it provides elasticity, it provides the advantage that it is not easily damaged even by external impact.

7 is an exemplary view showing a process for manufacturing a concrete composite manhole according to this embodiment of the present invention. On the other hand, in the case of FIG. 7 , the inner mold inner tube 100 in the form of an empty cylinder and the polyethylene (PE) tube 300 in the form of an empty cylinder are prepared.

At this time, the diameter of the polyethylene (PE) tube 300 must be greater than the diameter of the inner molded tube 100 so that the inner molded tube 100 can be inserted into the polyethylene (PE) tube 300 .

Thereafter, a molded exterior 200 in the form of a cylinder having a larger diameter than that of the polyethylene (PE) pipe 300 is prepared. The outer formwork 200 should be sufficiently larger than the diameter of the polyethylene (PE) tube 300 to sufficiently secure a space between the polyethylene (PE) tube 300 and the outer formwork.

After that, when the polyethylene (PE) pipe 300 formed therein is positioned inside the molded exterior 200, the polyethylene (PE) pipe 300 and the molded exterior 200 are spaced between the mold inner tube 100. is formed, and high-strength concrete 400 is put into the corresponding space and cured for a certain period of time.

When the manufacturing process as described above is performed, the polyethylene (PE) pipe 300 is buried in the high-strength concrete 400 .

This is a manufacturing process for improving airtightness, and the polyethylene (PE) pipe 300 is closely attached to the concrete 400 to maintain high strength.

At this time, a connection passage pipe 350 is formed on the lower side of the polyethylene (PE) tube 300 , and as shown in FIG. 5 , water can flow out through the internal connection passage tube.

That is, the conventional process of forming a connection passage pipe in concrete is eliminated, and a connection passage tube is formed or inserted into a polyethylene (PE) pipe.

Through this, the part that may occur due to the difference in elastic modulus when concrete and the polyethylene (PE) material connecting passage pipe are combined is eliminated, and the load and It will be possible to block the leaking part due to earth pressure, etc.

In other words, since the elastic modulus of polyethylene (PE) is 380Mpa to 980Mpa, there are relatively many vertical and horizontal contractions and pyeongchang, so it is impossible to guarantee watertightness in the long term, but when configured as in the present invention, the By pouring concrete with a small modulus of elasticity (36Mpa) on the surface, it is possible to completely solve the problem of watertightness, which is currently a problem, by preventing contraction and expansion.

Through the above configuration, by providing a composite manhole in which high-strength concrete and polyethylene (PE) are combined, it is possible to prevent water leakage inside the manhole and prevent water flowing in from the outside, and it is possible to reduce the weight of the existing concrete manhole, and the existing polyethylene (PE) It provides an effect that can compensate for the disadvantages of manhole load and earth pressure.

Those skilled in the art to which the present invention of the above contents pertain will be able to understand that the present invention may be implemented in other specific forms without changing the technical spirit or essential features of the present invention. Therefore, the implementation described above

The examples are to be understood in all respects as illustrative and not restrictive.

100: Formwork inner tube
200: Formwork exterior
300: polyethylene (PE) pipe
350: connecting passage pipe
400: high strength concrete

Claims (1)

In the concrete composite manhole,
In order to form the outside of the polyethylene (PE) pipe 300 to be wrapped with the high-strength concrete 400, the inside is in the form of a hollow cylinder, and the polyethylene (PE) pipe 300 in which the connection passage pipe 350 is formed on the lower side. Forming on the outer surface of the inner molded inner tube 100 in the form of an empty cylinder; and
Preparing a formwork exterior 200 in the form of a hollow cylinder with a larger diameter than the polyethylene tube 300 having a connection passage tube 350 formed on the lower side; and
Positioning the polyethylene (PE) pipe in which the inner mold pipe 100 is formed and the connection passage pipe 350 is formed on the lower side of the mold exterior 200 inside; and
It is characterized in that it undergoes a step of curing the high-strength concrete 400 by inputting the high-strength concrete 400 into the space formed between the polyethylene (PE) pipe 300 and the mold exterior 200;
When the curing step is performed for a predetermined time, the polyethylene (PE) pipe 300 is buried in the high-strength concrete 400, and the polyethylene (PE) pipe 300 is closely attached to the high-strength concrete 400. It is characterized in that it can be attached to maintain high strength,
When the curing step is performed for a certain period of time, the high-strength concrete and the polyethylene (PE) material are combined, so that when the polyethylene (PE) material is directly connected to the concrete manhole, it leaks due to the load and earth pressure. It is characterized in that it can block
A large concrete manhole manufacturing method with an internal flow rate of 50 tons or more, characterized in that it can provide watertightness by preventing contraction and expansion by pouring the surface of polyethylene (PE) with concrete providing a modulus of elasticity of 36Mpa.

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