KR20060029901A - Method of construction for reinforcement of electric power pipe and water pipe - Google Patents

Abstract

The present invention relates to a method of reinforcing the bottom of the power sphere and the hollow sphere by the square jet on the soft ground, in embedding the power sphere and the hollow sphere on the soft ground such as landfill, the power sphere and the hollow sphere is embedded By forming a grid with a square jet on the bottom, the square bottom jet reinforces the bottom of the power and cavity holes on the soft ground to improve workability, shorten the air, and reduce the construction cost. The purpose is to provide a method.

The present invention for achieving this object, the step of performing an excavation work by a depth of about 1 ~ 2m more than the depth of the power sphere 30 or cavity (top, sewer pipe, etc.) is embedded; Forming a grid 50 by a square jet by approximately 1 to 2 m from the bottom of the groove 20 formed by the excavation work; It is characterized in that it comprises a step of embedding the power sphere 30 or cavity (top, sewage pipe, etc.) to be buried on the grid 50, and buried.

Square Jet, Power Hole, Joint Hole, Foundation Reinforcement

Description

Method of construction for reinforcement of electric power pipe and water pipe on the soft ground by square jet             

Figure 1a is a view showing an improved shape of the conventional casting method.

Figure 1b is a view showing a new improved shape by the square jet method applied to the present invention.

2 is a view schematically showing a square jet method applied to the present invention.

3 is a plan view schematically showing a relationship in which a groove is formed for embedding an electric power outlet or a cavity (upper, sewer pipe, etc.) on a roadside.

Figure 4 is a longitudinal cross-sectional view showing a relationship in which a grid formed by a square jet at the bottom of the groove in which the power or cavity (top, sewer pipe, etc.) is embedded in accordance with the present invention.

5 is a plan sectional view showing the shape of the grid formed by the square jet in FIG.

<Description of Symbols for Main Parts of Drawings>

10: square jet 20: home

30: power sphere (or cavity) 50: grid

The present invention relates to a method of reinforcing the bottom of the power sphere and the hollow sphere by the square jet on the soft ground, and more particularly in embedding the power sphere or hollow sphere on the soft ground such as landfill, The grid is formed by the square jet on the floor where the cavity is buried, so that the work area, the air and the construction cost can be reduced, and the bottom of the power sphere and the cavity hole on the soft jet ground can be improved. It is about the construction method to reinforce by.

In general, various power lines, water and sewage pipes (joint wards) are buried in roadside areas such as shopping malls and residential areas where various buildings are built, and in particular, the power lines are buried in a certain sized power pit.

Therefore, the excavation work is carried out at a predetermined depth on the roadside, and after embedding the electric power or cavity (top, sewer pipe, etc.) in the groove formed by the excavation as described above, the land is refilled.

In order to embed the power tool or cavity (upper, sewer pipe, etc.), the excavation work is carried out deeper than the height of the power tool or cavity (upper, sewer pipe, etc.) at the position to be buried, and the power tool or cavity ( Replace rubble or the like on the floor by a certain height so that the water and sewage pipes, etc. can be stably settled, or form a bottom part by a certain height by the existing grouting method, and then place an electric power or a cavity (water and sewage pipes, etc.) thereon. Settle and land.

However, when the rubble is replaced at the bottom as described above, the excavation depth is increased to increase the amount of earthwork, and as the depth of the facility increases according to the excavation depth, the construction becomes complicated, resulting in safety problems and the work site. In this case, there was a problem of providing a cause of traffic congestion.

In addition, as the construction period increases, there is a problem that the construction cost increases.

On the other hand, when the bottom portion is formed by the existing grouting method, there is a problem in that unnecessary improvements are generated due to excessive overlapping portions, thereby increasing the construction period and increasing the construction cost.

Accordingly, the present invention has been made in view of the above problems, in embedding the power sphere and the common sphere on the soft ground, such as a landfill, the grid by the square jet at the bottom of the power sphere and the hollow sphere is embedded The purpose of this method is to provide a method of reinforcing the bottom of electric power and cavity holes by a rectangular jet on the soft ground to improve workability, shorten air, and reduce construction cost. .

The present invention for achieving the above object, the excavation work to a certain depth in order to embed the power sphere or cavity (top, sewer pipe, etc.) on the soft ground, rubble on the bottom of the groove formed by the excavation work In the construction method of substituting or forming a bottom part by a grouting method, and embedding an electric power tool or a cavity ball (upper, sewer pipe, etc.) on the bottom part, and refilling the said electric power tool or cavity (top, sewer pipe, etc.) Carrying out excavation by about 1 ~ 2m deeper than the depth of buried; Forming a grid by a rectangular jet by approximately 1 to 2 m from the bottom of the groove formed by the excavation work; After embedding the power sphere or cavity (top, sewage pipe, etc.) to be buried on the grid, characterized in that it comprises the step of embedding.

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

First, the basic reinforcement method using a square jet (SQJ: Square Jet) applied to the present invention, the composition of the high-pressure jet is changed from the original circular (see Fig. 1a) to the square (see Fig. 1b) It is a new method that reduces the waste of materials and greatly improves the spraying efficiency.

That is, the method using the square jet 10, as shown in Figure 2, does not use the rotational force of the high-pressure injection rod installed in the ground (improved method by the point), the special tip device installed in the tip portion of the fish tail fin It is rocked from side to side as shown in the figure. At this time, two spray nozzles installed at the tip are sprayed with high pressure to cut the ground into a square shape, and the ground improvement method is performed by the line which executes the mixing of solid materials. Therefore, it is a method that can form a cylindrical, fan-shaped, quadrilateral improvement.

In addition, the equipment is compact and light in construction, and can be installed relatively easily even on uninterrupted site or soft ground. Shape and size can be freely made to fit, and it is characterized by the reliable ground improvement work by measurement management.

Such a square jet method is disclosed in Korean Patent Laid-Open Publication No. 2000-76951, and recently, in place of the existing CCP method, JSG method, or CJG method, etc., the optical law covers all areas such as cities, roads, rivers, ports, and coasts. The construction is particularly useful on soft ground, such as landfill.

In other words, the landfill site is not strong enough because it contains a lot of moisture in the ground, and if the excavation work is carried out in order to embed the power or joint (top, sewer pipes, etc.) in the landfill, there is a risk of collapse easily, Basic reinforcement is performed for the side reinforcement by the above-mentioned square jet method.

In addition, the bottom portion for seating the power tool or cavity (top, sewer pipe, etc.) is to replace the rubble as in the conventional or to form the bottom by a conventional grouting method.

However, the present invention is to form the bottom by a basic reinforcement method using a square jet in order to solve a lot of problems caused by replacing the rubble at the bottom or forming the bottom by a conventional grouting method as described above.

That is, as shown in Figures 3 to 5, the power outlet 30 or the bottom of the cavity (top, sewer pipe, etc.) is seated at the position where the power sphere 30 or cavity (top, sewer pipe, etc.) is embedded. The power hole is formed by digging a depth of about 1 to 2 m to form a groove 20, and forming a grid 50 using a square jet over the bottom of the groove 20 to a depth of 1 to 2 m. 30 or a bottom portion on which the cavity (top, sewer pipe, etc.) is seated.

As such, when the grid 50 formed by using the rectangular jet forms the bottom part, the improvement range is minimized and is very economical, and the thickness of the improved body can be arbitrarily adjusted, as well as the close construction and the construction using the small equipment. By working in a narrow space, construction time is shortened and construction cost is low.

As described above, according to the method of basic reinforcement of the power sphere and the bottom of the cavity sphere by the square jet on the soft ground of the present invention, the improvement range is minimized and very economical, and of course, the thickness of the improved body can be arbitrarily adjusted, The construction using small equipment enables the work in close construction and narrow spaces, resulting in a very useful effect of shortening the construction period and reducing construction costs.

Claims (1)

Excavation work to a certain depth in order to embed the power or cavity (upper, sewer pipe, etc.) on the soft ground, replace the rubble in the bottom of the groove formed by the excavation work or after forming the bottom by the grouting method In the construction method of embedding an electric power or cavity (top, sewage pipe, etc.) on the bottom, and then re-embedded, Performing an excavation operation by about 1 to 2 m more than the depth at which the power tool 30 or the cavity (upper, sewer pipe, etc.) are embedded; Forming a grid 50 by a square jet by approximately 1 to 2 m from the bottom of the groove 20 formed by the excavation work; Embedding the power sphere 30 or the cavity (top, sewer pipe, etc.) to be buried on the grid 50, and then burying the bottom of the power sphere and the cavity sphere on the soft ground. Foundation reinforcement method.

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