KR20040048735A - Method for reinforcing a dam by layer compaction using high intensity public works texture - Google Patents

Abstract

PURPOSE: A tamping-reinforcing method of an embankment using high-strength geosynthetics is provided to protect an embankment from waves or rains by using high-strength geosynthetics having excellent cut-off effect of water. CONSTITUTION: The tamping-reinforcing method of an embankment using high-strength geosynthetics comprises the steps of: cutting off a portion of a water contact plane of the upper half of an embankment(100) for reinforcement to the appointed depth to be in the firm ground state by a horizontal plane, then tamping; spreading geosynthetics(110) on the backing base tamped by the horizontal plane evenly, tamping to the appointed height, then covering up with geosynthetics(110); spreading another geosynthetics(110') to be overlapped partially with the geosynthetics(110), then tamping to the upper end of the embankment(100); and reinforcing/banking the upper and rear parts of the embankment(100).

Description

Method for reinforcing a dam by layer compaction using high intensity public works texture}

The present invention relates to an embankment layer compaction reinforcement method (also called TRD (Texture Reinforced Dam) method) using high-strength geotextiles, and in particular, in place of the material for protecting the stone or other embankment method during the expansion work of embankment By using high-strength geotextile with excellent water quality, it protects the embankment surface at the time of blue or rainy season and protects the dike by friction between the earth and the geotextile, so that the design section can be reduced and the dike can be protected from moles and voles. The present invention relates to an embankment layer compaction reinforcement method using high strength geotextiles.

Conventionally, during the expansion work of embankment, expansion works have been carried out using specially manufactured materials which can protect the stone sticking or other embankment method. By the way, the conventional method of attaching the stone is mainly using the crushed rock, difficult to obtain a large amount of crushed rock is difficult to secure the material, and when transported from a long distance, the additional cost burden, such as transportation costs are large. there is a problem. In addition, in the case of using a specially manufactured material, the cost for the purchase of the material is large, the design cross section must be large, and there is a problem that it is difficult to effectively block the attack from the rat or mole.

The present invention has been made in view of the above matters, and protects the embankment surface during the blue or rainy season by using high-strength geotextiles with excellent water-repellency instead of the materials to protect the stone or other soil surface during the expansion of the embankment. The purpose of the present invention is to provide a dike layer compaction reinforcement method using high-strength geotextiles that can reduce the design cross-section and protect the dike from moles or voles by protecting the dike by friction between the earth and the geotextile.

1 is a view showing a state of a conventional embankment.

Figure 2 is a view showing a state in which a portion of the water contact surface side of the existing bank for the compaction reinforcement construction according to the embankment layer compaction reinforcement method using high-strength geotextiles according to the present invention.

3 is a view showing a state of making a stratified by fill in the bottom surface of the cut portion of the embankment wrapped with geotextiles.

4 is a view showing a state in which the reinforcement of the upper surface and the rear portion after performing the stratification reinforcement work in a multi-stage layer by repeating the layer compaction process of FIG.

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

100 ... Existing Dike 100c ... Cutout

110,110 '... Geotextile 120 ... Extension

130 ... Blue Protective Materials

In order to achieve the above object, the embankment layer compaction reinforcement method using the high-strength geosynthetic fiber according to the present invention is a method for reinforcing and expanding an existing bank by stratification,

(a) cutting a portion of the water-contacting surface side of the existing upper part of the upper bank of the reinforcement work into a horizontal plane to a predetermined depth until a solid ground state and performing sufficient compaction;

(b) spreading the geotextiles evenly on the bottom surface of the fillet well ground in the horizontal plane, and then performing a plurality of stratifications by a predetermined height and wrapping them with the geotextiles;

(c) Before starting to fill the next layer, spread another geotextile overlapping with the geotextiles surrounding the fill surface by a certain area, and then do the same work up to the upper end of the embankment by performing the same stratification as above. Repeating the process; And

(d) after the completion of the multi-stage compaction operation, characterized in that it comprises the step of reinforcing fill in the upper and rear parts of the embankment.

Here, preferably, the step of spraying a colored cement-based coating protective material on the exposed surface of the geosynthetic fiber of the reinforcement-constructed layered slope to increase the durability by protecting the exposed surface of the geotextile from ultraviolet rays and the like. Include.

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

1 to 4 show the embankment layer compaction reinforcement construction process by the embankment layer compaction reinforcement method using high-strength geotextiles according to the present invention, Figure 1 is a view showing the state of the existing banks, Figure 2 3 is a view showing a state of cutting a part of the water contact surface side of the existing bank for reinforcement construction, Figure 3 is a view showing a state of laying the ground fiber and the geosynthetic fiber to the bottom surface of the cut portion of the bank; 4 is a view showing a state in which the reinforcement of the upper surface and the rear portion after performing the stratification reinforcement work in a multi-stage layer by cutting the layer compaction process of FIG.

1 and 2, according to the embankment layer compaction reinforcement method using the high-strength geotextiles according to the present invention, first, a portion of the ground surface of the water contact surface (100c) of the upper half of the existing embankment 100 to be reinforced construction It cuts to a horizontal plane to a predetermined depth until it becomes and completes compaction. At this time, foreign substances such as tree roots and grass are thoroughly screened to remove the inhibitory factors of water tightness and compaction density. In addition, surveying is carried out, and at a predetermined interval (for example, 3 m intervals), a construction scaffolding frame is installed along the length of the bank along the bank length. This is for the embankment to have a straight slope (angle) in design.

When the compaction operation on the cut surface is completed in this way, as shown in FIG. 3, evenly spread the high-strength geotextile 110 having excellent degree of order on the fill bottom surface well ground in the horizontal plane, and then, for a predetermined height (for example, , 30 cm) by plural layers (three times), and then the geosynthetic layer 110 to cover the fill layer layered into three layers. Here, as the fill material may be used such as soil-cement (soil-cement), soil, cement-mortar, etc., depending on the environmental conditions of the application target will be used to select. In each layer wrapped with the geotextile 110, the horizontal maximum installation length of the geotextile 110 is laid to be about 5 m. In addition, at this time, the construction management is thoroughly carried out so that the inclined front surface of the fill layer is well compacted to maintain a straight line in the diagonal direction.

When the wrapping work of the geotextiles 110 after the first stratification is completed by the above, as shown in FIG. 4, another geotextile 110 'is wrapped around the fill surface before starting to fill the next layer. After spreading the first geosynthetic fiber 110 and a predetermined area (about 2m) overlapping, the same operation is repeated a plurality of times to the upper end of the embankment 100 in a manner to perform the same stratification as above. Then, reinforcement is carried out by using earth or specific fill material in the upper and rear parts of the embankment to build the extension part 120. In effect, the construction is completed. However, here preferably, in order to increase durability by protecting the exposed surface of the geotextiles 110, 110 'surrounding the layered fill surface, from ultraviolet rays, etc., the geotextiles 110 of the reinforcement-constructed layered compaction slopes (110 ') is sprayed with a colored cement-based coating protective material on the exposed surface. In some cases, a blue protective member 130 is further provided to protect the inclined surface portion of the lower side of the embankment by resisting blue from the inclined surface portion of the embankment at the bottom of the stratified portion using the geotextiles 110 and 110 ′. .

As described above, the embankment layer compaction reinforcement method using the high-strength geosynthetic fiber according to the present invention by using high-strength geosynthetic fiber with excellent degree of order instead of the material to protect the stone sticking or other soil surface during the expansion of the embankment In the rainy season or the rainy season, and protects the embankment by the friction between the earth and the geotextile has the advantage of reducing the cross-section design and protection of the dike from moles and rats.

Claims (5)

In the construction method for reinforcing and expanding existing banks by stratification, (a) cutting a portion of the water-contacting surface side of the existing upper part of the upper bank of the reinforcement work into a horizontal plane to a predetermined depth until a solid ground state and performing sufficient compaction; (b) spreading the geotextiles evenly on the bottom surface of the fillet well ground in the horizontal plane, and then performing a plurality of stratifications by a predetermined height and wrapping them with the geotextiles; (c) Before starting to fill the next layer, spread another geotextile overlapping with the geotextiles surrounding the fill surface by a certain area, and then do the same work up to the upper end of the embankment by performing the same stratification as above. Repeating the process; And (D) after the completion of the multi-stage compaction work, embankment layer compaction reinforcement method using a high-strength geotextile, comprising the step of reinforcing the fillet in the upper and rear parts of the embankment. The method of claim 1, After the step (d), the colored cement-based coating protective material is sprayed on the exposed surface of the geosynthetic fiber of the reinforced compacted layered inclined surface to protect the exposed surface of the geotextile from ultraviolet rays and the like to increase durability. Embankment layer compaction reinforcement method using high-strength geotextiles, characterized in that it further comprises a step. The method of claim 1, In the step (b) in the compaction, embankment layer compaction reinforcement method using high-strength geotextiles, characterized in that three times by 30cm height. The method of claim 1, Embankment layer compaction reinforcement method using high-strength geotextiles, characterized in that before installing the fill in the step (b) the installation scaffold frame is installed along the length of the embankment at the bottom surface of the embankment at intervals of 3m. The method of claim 1, Embankment layer compaction reinforcement method using high-strength geotextiles, characterized in that to further install a blue protective material to protect the inclined surface portion of the bottom of the embankment to the slope of the dike of the lower portion of the compaction portion using the geotextile.