KR20050066393A - Monofilament fiber compounded retaining wall and manufacture thereof - Google Patents

Abstract

The present invention constructs reinforcement soil containing short fibers in the construction of slope slopes or subgrade structures along tracks, installs them as geogrids and extends them to the backing soil, thereby increasing the stability against lateral earth pressure and improving the convenience of construction. It is to improve economics.

Description

Monofilamentary fiber composited retaining wall and manufacture method for retaining wall

The present invention relates to a short-fiber reinforced composite fill structure for retaining walls and a construction method thereof for constructing a slope structure or a roadbed structure along a track edge, and more specifically, to a periphery of a retaining wall fill structure. The present invention relates to a short fiber reinforced composite fill structure for retaining walls and a method of constructing the same, in which reinforcement soils are mixed with fibers, and the short fiber reinforcement soils are installed in a geogrid to extend the embedded soil.

Existing retaining structures for retaining walls, as shown in Figure 1a, the planar reinforcement (4), such as geotextiles, geogrids, etc. while filling in a compaction method to form a relatively gentle slope treated with vegetation surface (2) By retaining and anchoring in the soil, the fragility of the structure filled with the soil 6, that is, the deformation caused by the earth pressure acting as a horizontal stress, can be partially suppressed, or as shown in FIG. 1B, the retaining wall functioning as a bearing wall on the outside ( 10) was constructed with blocks or concrete bodies, and the back was filled with fillets (16) such as gravel or soil, and the flat reinforcement (14) such as geogrid was also built.

However, in the case of the conventional fill structure, only flat reinforcement such as geogrid is used for the fill structure, so that the following structural limitations have to be taken in order to effectively cope with the earth pressure in the horizontal direction.

That is, as shown in Figure 1a, in the case of building the soil structure with only flat reinforcement such as soil and geogrid without building a separate load retaining wall on the outside inevitably in order to absorb and disperse the soil pressure in the horizontal direction The slope of the retaining wall is inevitably composed of a gentle slope, which occupies an excessive area, resulting in uneconomical problems in terms of paper utilization.

In addition, in order to avoid such a problem, as shown in Figure 1b, when building a separate bearing retaining wall on the outside to increase the thickness of the retaining wall or to strengthen the back wall so as to withstand the earth pressure of the backfill soil Additional expenses such as reinforcing bars or anchor bars were added to the construction costs.

In addition, the strict standard specification for the fill material is applied to increase the compaction effect, shear resistance, internal friction force, and adhesive force in the conventional fill structure as described above. The maximum particle diameter is 25.4cm or less, and the passing volume of 200 bodies should be less than 15%, and the friction angle as the minimum standard should be greater than 25 °, and the general standard of each country requires that the passing volume of 200 bodies should be less than 15%.

The strict standard for the fill material is to ensure the safety of the structure by reducing the influence of earth pressure in the fill structure. However, the fact that the passage of 200 should be within 15% means that the use of on-site discharge soil is limited. In this respect, this is not only an increase factor in construction costs, but also a problem of damage to convenience of construction.

The present invention in consideration of the problems of the conventional method as described above by reducing the influence of the earth pressure caused by the fill layer as possible, the outer wall forms a cross-section having a vertical or steep inclination angle while retaining structurally independent stabilization fiber The primary purpose is to provide a reinforcement composite fill structure and its construction method, and when it is applied to a fill structure for backfilling a retaining wall in which a separate outer structure is installed, it is an retaining wall having an economical cross section or structure and various appearances. Its secondary purpose is to allow it to be designed.

In addition, the secondary purpose is to improve the convenience and economics of construction by solving the structure to make more use of the earth and sand discharged from the site.

The present invention for achieving the above object is achieved by the following technical features.

The reinforcement soil in which short fibers are mixed to the outer part, that is, the short fiber reinforcement soil 22 is laminated and formed by a compacting method at a predetermined height and thickness, and the flat reinforcement material 24 such as geogrid is also applied to the laminated surface at an appropriate location. It is characterized in that it is configured by extending the installation in the rear soil body 26 of the rear is formed in a manner.

In addition, the present invention is characterized in that the front hem 25 of the flat reinforcement 24 laid as described above is configured to surround the individual short-fiber reinforced soil layer 23 from the front.

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

2 is an exemplary diagram in which the fill structure of the present invention is applied to a railway roadbed structure, and illustrates a case in which a separate retaining wall is not installed.

As shown, the short fiber reinforcement soil 22 is formed on the outer portion of the fill structure, the short fiber reinforcement soil 22 is in the range of 1.5 to 5 meters in width, the thickness is about 20 cm depending on the soil height or the soil material The individual short fiber reinforcement soil layers 23 are constructed by sequentially laminating according to the compaction method.

The short fibers used in the reinforcement soil are synthetic fiber yarns such as polypropylene resin having a length of 2 to 7 cm, and are preferably mixed with soil in a weight ratio of about 0.2%. The soil used here is a soil having an appropriate water content. The amount of passage of 200 can be used up to 40% or less.

These short fibers increase the cohesion and binding force inside the reinforced soil in the process of being mixed with the soil particles of various sizes to strengthen the morphology and stability of the structure. The screening criteria, which were below%, could be raised to 40%.

Immediately behind the short fiber reinforcement soil 22, a back soil layer 26 is formed by sequentially stacking the back soil layer 27 based on the same method as the short fiber reinforcement soil layer 23.

These short-fiber reinforced soils 22 and backing soils 26 are provided with flat reinforcements 24 such as geogrids and geotextiles on the laminated surfaces of appropriate places, and in particular, in the present embodiment, the front hem of the flat reinforcements 24 is provided. 25) is configured to be installed in the form wrapped around the front of the individual short-fiber reinforcement soil layer 23 is to strengthen the leaflet force with increasing the formability of the outer wall.

As a result, in the fill structure of the present invention, as described above, the short fiber reinforcement soil 22, the backing soil 26 and the planar reinforcement material 24 are closely connected to each other, thereby forming a complex structure, thereby resulting in synergy. Due to this, it functions as a fill structure that behaves more stably in the vertical and horizontal stresses caused by earth pressure.

In the drawing, reference numeral 28 denotes a railway roadbed.

Figure 3 is an exemplary view showing in sequence the construction of the fill structure according to the present invention.

As shown, the fill structure of the present invention is the first step (S10) for mounting the reinforcement block 29, which is a temporary installation after the foundation dig, crushed crushed stone, etc., adjacent to the rear of the installed reinforcement block 10 Repeat the second step (S20) and the second step (S20) to lay the backing soil layer 27 in the same manner by laying the general soil immediately adjacent to the crushed short fiber reinforcement soil layer 23 to a predetermined thickness and then chopped. After applying the third step (S30) of construction and a flat reinforcement material such as geogrid on the soil layer repeatedly formed at a design height consistent with the construction drawing, the rear part of the flat reinforcement material 24 is rear of the rear soil layer 27. Pull it out to make a temporary fix, the front hem 25 is pulled in front of the reinforcement block 29, and then again chopped short fiber reinforcement soil layer 23 as in the second step (S20) and then wrapped in the front part of the short fiber After covering on the reinforcement soil layer 23, the ship of the second step (S20) Forming the soil layer 27 to install the planar reinforcement material (S40), and the second step (S20) and the third step (S30) and the fourth step (S40) to be repeated a number of times to the design height The fifth step (S50) to complete the filling, and the sixth step (S60) to remove the reinforcement block 29 that is a temporary construction after the completion of filling.

As described above, in order to prevent erosion of the wall surface, the outer wall of the constructed fill structure is treated with the vegetation surface 32 as it is, as shown in FIG. 4A, or as the retaining wall of non-bearing brick or block, as shown in FIG. 4B. By finishing with the sieve 40, the appearance of various forms can be produced.

In addition, the present invention can be used for the backfill of the concrete retaining wall or stubstone retaining wall, which is a load bearing wall. In this case, the earth pressure applied to the retaining wall can be significantly reduced, so that the retaining wall can be designed more economically.

As described above, in the present invention, the short fiber is mixed and the short fiber reinforcement soil having excellent morphology and binding strength is constructed on the outer side of the fill structure, and at the same time, the back soil is formed as general soil, and they are formed as planar reinforcement materials such as geogrids. By laying a complex structure that is closely connected to each other, and thus, functions as a fill structure that more stably behaves in the vertical and horizontal stress caused by the earth pressure, it is accompanied by the following technical effects.

First, even if a separate retaining wall structure such as a concrete retaining wall is not constructed, the outer cross section, that is, the retaining wall surface can be constructed as a self-supporting fill structure having a large vertical or inclined angle, so that there is an advantage that the paper area can be utilized economically.

Secondly, the non-bearing retaining wall can be additionally constructed of various materials, so there is an advantage in that the appearance of the retaining wall structure can be diversified.

Third, when the present invention is applied to the backfill of the bearing wall, such as concrete retaining wall, it is possible to design a more economical cross-section to reduce the construction cost.

Fourth, the use of on-site soil can be more relaxed, the use of the on-site soil is expanded, resulting in the convenience and economical efficiency of construction.

Since the present invention having the above technical effects is applicable to not only railway-related facilities but also various civil construction retaining wall structures, such retaining wall structures also fall outside the scope of the present invention as long as the present invention and its technical configuration are the same. Of course it is impossible.

Figure 1a and Figure 1b is a side cross-sectional view showing embodiments of a conventional reinforced retaining structure for a retaining wall.

Figure 2 is a side cross-sectional view showing an embodiment of the short-fiber reinforced composite fill structure for the retaining wall according to the present invention.

Figure 3 is an exemplary view sequentially showing the construction method of the short-fiber reinforced composite fill structure for the retaining wall according to the present invention.

Figure 4 is a side cross-sectional view showing the appearance of the short-fiber reinforced composite fill structure for the retaining wall according to the present invention.

* Description of the symbols for the main parts of the drawings *

2,32: vegetation side 4,14,24: flat reinforcement

6,16 Fillet 10,40 Retaining Wall

22: short fiber reinforced soil 23: short fiber reinforced soil layer

25: Fore 26: Dorsal body

27: backing soil layer 28: iron roadbed

29: reinforcement block

Claims (3)

In constructing a fill structure for a retaining wall of a slope or a roadbed, Short fiber reinforcement soil 22 is formed on the outer periphery of the fill structure, and the rear soil 26 is formed adjacent to the lamination, Reinforced composite fill structure for a retaining wall, characterized in that the planar reinforcement (24) is installed on both laminated surfaces of appropriate locations. The method of claim 1, Reinforcing wall short fiber reinforcement composite, characterized in that the front hem 25 of the planar reinforcement material 24 is laid in a structure covering the entire surface of the individual short fiber reinforcement soil layer 23 forming the short fiber reinforcement soil 22. Fill structure. In constructing fill structures for slopes or roadbed retaining walls, A first step of mounting a reinforcement block 29 that is a foundation and a temporary construction; A second step of forming a soil layer by laying the short fiber reinforcement soil layer 23 and the rear soil layer 27 behind the reinforcement block 29; A third step of repeating the second step; A fourth step of laying a flat reinforcement material (24) on the soil layer; A fifth step of completing the filling by repeating the second to fourth steps; Method of building a short-fiber reinforced composite fill structure for a retaining wall, characterized in that it is constructed, including the sixth step of removing the reinforcement block 29 is a temporary construction after the completion of the fill.