KR19980082084A - Environmentally friendly fiber band for revetment and revetment method using same - Google Patents

Abstract

Environmentally friendly fiber band of the present invention is to use the zigzag fiber band of the Republic of Korea Patent No. 119332 or to improve the conventional fiber band, when the concrete or mortar is injected into the pillar portion (5) And a filter part 6 into which concrete or mortar is not injected. First, the woven fiber band is placed on the surface of the lake to be constructed and mortar is injected to form the column 5 from the outside. When the mortar is sufficiently cured, the filter unit 6 is cut and a mortar or soil is put into the cut filter unit. The rake face is divided into a rake face in contact with the flowing water and a rake face exposed to the outside from the top. The mortar layer 6 is formed by inserting a mortar into the cut-out filter part 6 in contact with water, and forming a stone layer 7 by adhering stones to the mortar layer. Soil surface exposed to the outside is put soil into the cut filter portion 6 to form a soil layer (8), and to plant the grass, flowers or trees in the soil layer to form a drinking water layer (9). In this way, a stone layer 7 is formed on the lake surface in the water, and the plankton or fish can survive preferably by forming a lake surface similar to the natural state. In addition, since the grass, flowers or trees can be planted on the surface of the lake to fit each environment, the natural ecosystem can be preserved as it is.

Description

Environmentally friendly fiber band for revetment and revetment method using same

The present invention relates to an environmentally friendly revetment fiber band. More specifically, the present invention is a fabric band (에: fabric used for a variety of river banks, banks of agricultural drainage, roads or railways, slopes of complexes, slopes of dams or reservoirs, embankments of coastal or reclaimed land, etc.) form) and environmentally friendly fiber bands. In addition, the present invention also relates to a revetment construction method that can be made by using the zigzag-shaped fiber band of the existing invention or the revetment construction surface constructed by using a conventional fiber band to achieve an environmentally friendly repose surface.

The revetment method using the fiber band is a method of constructing the revetment surface by injecting unconsolidated concrete or mortar with high pressure concrete pump between two layers of textile formwork made of high strength civil fiber.

In the revetment method using a fiber band, the formwork is a permeable cloth, and the surplus mixed water of the flowable concrete or the mortar is discharged by the injection pressure of the pump, so that the curing time is fast and the hardened body of the concrete or the mortar can be formed. have.

This method can be easily installed on land as well as in water, and since the formwork is made of foam, it is possible to form a concrete or mortar mat of uniform thickness by closely fitting to the terrain even in a complex gradient.

Construction using this method is possible to lay out fabrics made to meet the site topography in advance and inject concrete or mortar with high pressure pump to form concrete or mortar mats of a wide area within a short time. Compared with the precast block method, it is faster, more stable, more efficient and more economical, and it has a remarkable work effect, especially in underwater construction. In addition, the fiber band revetment method is widely used in revetment construction because it is constructed with a large area as compared to other construction methods.

However, in the prior art coastal fabric construction using a fiber band, the bonding structure of the fiber band is square, so that the mat of the ophthalmic surface after injecting concrete or mortar into the width of the fiber band is continuously formed rod and waist. Therefore, the bar part of the rake face can maintain sufficient strength because its thickness is thick, but the waist part of the rake face is thin and the waist part is continuous, so that it cannot maintain sufficient strength. In other words, when the ground of a certain topography of the lake surface sinks, the waist portion does not have sufficient strength, resulting in a crack of concrete or mortar mat. It also cracked and resulted in the settlement of mats in certain areas.

In the case of the revetment work using the conventional fiber band, because the rods and the waist of the revetment surface must be arranged in a line, they are aesthetically good.

In order to improve the problems described above, the present inventors have developed a fiber band for tiger ball construction having a zigzag joint to provide a raft surface that can provide a raft surface having a sufficient strength without forming a waist portion, that is, a weak portion of the raft surface. Patent No. 119332 has been filed.

Since the registered patent has sufficient strength, there is an advantage of preventing the erosion of the river bottom or the lake face and improving the water flow capacity of the river. However, the conventional fiber band is not well suited to the surrounding environment because the entire furrow face is constructed in the form of concrete or mortar-injected fiber band, that is, a huge mat. In other words, the patent is not an environmentally friendly construction method dedicated to preventing erosion of the slope. In the mat-like revetment surface, grasses, flowers, trees, etc. are difficult to vegetation, so they are not good in appearance and imply contrary to the preservation of the natural ecosystem. There is a flaw.

Therefore, the present inventors use the existing zigzag-type erosion prevention fiber band revetment ball on the shore of the river or the wave where the erosion of the river is severe, and the underwater revetment surface of the river with gentle water flow is easy to inhabit the fish (natural stone) It is a new hydrophilic revetment method that can be constructed with hydrophilic type revetment ball and surface revetment surface with natural ecological grass and vegetation growing on revetment surface.

The purpose of the present invention is primarily to prevent disasters caused by flooding by preventing erosion of sedimentary slopes and loss of sediment during rain and flood, but for this purpose, a revetment surface can be constructed that can be preserved without destroying the natural ecosystem at least. It is to provide a fiber band and a revetment construction method using the same.

Still another object of the present invention is to provide a fiber band and a revetment construction method using the same, which can be more conveniently constructed.

Still another object of the present invention is to provide a fiber band and a revetment construction method using the same, which can be applied to a revetment surface having a beautiful appearance similar to a natural ecosystem after construction.

The above and other objects of the present invention can be achieved by the present invention described below. Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

1 is a perspective view schematically showing a zigzag-shaped fiber band and a conventional fiber band of the conventional patent used in the revetment construction.

Figure 2 is a perspective view schematically showing an environmentally friendly fiber band for rafting construction according to the present invention.

3 is a schematic plan view of the environmentally friendly fiber band of FIG.

4 is a perspective view schematically illustrating a state in which mortar is injected into the environmentally friendly fiber band of FIG. 2.

5 is a cross-sectional view schematically showing a cross section of the middle and small river banks constructed using an environmentally friendly fiber band as an embodiment of the present invention.

6 is a cross-sectional view schematically showing a cross section of a lake, such as a medium and large rivers, harbors constructed using environmentally friendly fiber band as another embodiment of the present invention.

7 is a cross-sectional view schematically showing a cross section of a shelter constructed by using the environmentally friendly fiber band of the present invention in a stream of a cross-sectional surface.

8 is a perspective view schematically illustrating a state in which a natural ecosystem is formed on a lakeside surface in which a lakeside construction was performed according to the present invention.

Explanation of the main symbols in the drawings

1: upper fabric of fabric band 2: lower fabric of fabric band

4: filter part 5: column part

6: mortar layer 7: stone layer

8: soil layer 9: drinking water layer

10: Zigzag type fiber band 11: Base reinforcement fiber band

12: Dunchi (Landscape site) 13: Lower cross section

14: high cross section

Environmentally friendly fiber band of the present invention is to use the zigzag fiber band of the invention patent No. 119332 or to improve the conventional fiber band, when the concrete or mortar is injected, the pillar portion is formed by the pillar (5 ) And the filter unit 4 is not injected concrete or mortar.

First, the woven fiber band is placed on the surface of the lake to be constructed and mortar is injected to form the column 5 from the outside. When the mortar is sufficiently cured, the filter unit 4 is cut and a mortar or soil is introduced into the cut filter unit. The rake face is divided into a rake face in contact with the flowing water and a rake face exposed to the outside from the top. The mortar layer 6 is formed by inserting a mortar into the cut-out filter part 4 on the arc surface which contacts water, and a stone layer 7 is formed by adhering stones to the mortar layer. Soil surface exposed to the outside is put soil into the cut filter portion 4 to form a soil layer (8), and by planting grass, flowers or trees in the soil layer to form a drinking water layer (9). In this way, a stone layer 7 is formed on the lake surface in the water, and the plankton or fish can survive preferably by forming a lake surface similar to the natural state. In addition, since the grass, flowers or trees can be planted on the surface of the lake to fit each environment, the natural ecosystem can be preserved as it is.

1 is a perspective view schematically showing a conventional zigzag fiber band and a conventional fiber band used in the revetment construction. The coastal fiber band is made of high strength polyester fabric or polypropylene fabric. The fiber band consists of an upper fabric 1 and a lower fabric 2, and the two fabrics are joined to each other in a zigzag filter portion 4. The remaining part except the filter part 4 forms a space, and concrete or mortar is injected into the space. That is, the upper fabric 1 and the lower fabric 2 are joined in the zigzag filter portion 4 to form a bag formwork.

Figure 2 is a perspective view schematically showing an environmentally friendly fiber band according to the present invention. This environmentally friendly fiber consists of an upper fabric (1) and a lower fabric (2), which are joined to each other in the filter section (4). When the mortar is injected therein, the pillar part 5 in which the concrete pillar is formed and the filter part 4 in which the mortar is not formed are formed. 3 is a schematic plan view of the environmentally friendly fiber band of the present invention shown in FIG. The filter portion 4 is formed with a considerably wider width than the pillar portion 5. This is because the filter unit 4 is cut and a mortar, pebble, or mountain soil should be inserted into the bottom to form an environment-friendly lake surface. Usually, it is preferable that the width | variety of the filter part 4 maintains the numerical value about 2 to 5 times larger than the width | variety of the pillar part 5. However, these figures may vary according to the structure or size of the rake face to be constructed and may be appropriately designed according to the purpose, terrain, and conditions of the rake face. For example, if the width of the pillar portion 5 is in the range of 12 to 50 cm, the width of the filter portion 4 is appropriately selected in the range of 24 to 100 cm.

4 is a perspective view schematically illustrating a state in which mortar is injected into the environmentally friendly fiber band of FIG. 2. The pillar portion 5 is filled with a mortar to form a column having a cylindrical or oval cross section, and the filter portion 4 maintains a flat fabric. Since the pillars of cylindrical shape are connected in the transverse and longitudinal directions to form the structure of the rake face, sufficient strength can be maintained.

5 is a cross-sectional view schematically showing the cross-section of the rake face constructed using the environmentally friendly fiber band of the present invention. 1 is a representative cross-sectional view of an arc-eye surface constituting a cross section of the arc-eye surface.

The method of carrying out a relief construction using the environmentally friendly fiber band of this invention is as follows.

First, the earthwork surface to be constructed is evened, and then the zigzag fiber band or conventional fiber band fabric of the existing invention bonded by machine is laid. The end of the fibrous band, usually located at the bottom of the arc face, is completely sealed so that the mortar can be fixed inside the bag formwork. Fibrous zones shrink when mortar is injected into the inner space, and they are laid with a wrinkle of about 1.2 to 1.35 times the length of the earth surface. The upper end of the fiber stand is piled at appropriate intervals, and the fiber band fabric is fixed by a wire or a rope. Connect the hose to the fiberglass inlet and pump the hardened mortar with the concrete pump. Since the cement water flows from the hardened mortar onto the fiber-to-textile surface and stains are formed on the surface, the surface is washed with water before the cement water is cured. The revetment surface washed with water naturally cures the revetment surface.

In FIG. 5, the fiber band of the present invention is constructed on the lake face including a part of the river bottom. When the mortar is sufficiently cured, all the filter portions 4 are cut off. When cutting the filter portion 4, the square filter portion 4 may be removed using a knife, but may be cut in an X shape along a diagonal line. After cutting the filter part, mortar or soil is added to the lower part.

As shown in FIG. 5, the lake surface includes a river bottom surface and a portion in which water flows (herein referred to as a 'hydrophilic lake surface') and a portion which is not in contact with water on the surface of the water (herein referred to as an 'eco-friendly lake surface'. It is divided into The mortar layer 6 is formed by injecting a mortar after cutting the filter part 4 on the hydrophilic arc-like surface. And a stone larger than the gravel or gravel is attached on the mortar layer to form a stone layer 7. In other words, since the stone layer 7 is formed in the hydrophilic rake face, a good natural ecological rake face can be formed in the fish and shellfish habitat. In other words, plankton can grow well between stones in the rock layers, and fish can live in between.

On the eco-friendly lake surface where water on the water does not contact, the filter unit 4 is incised, and soil, which is good for plant growth, such as mountain soil is introduced to form the soil layer 8. On the soil layer 8, grass, flowers, trees and the like are planted to form a drinking water layer 9. By maintaining the drinking water layer 9, the natural environment can be maintained as it is. When grass is to be planted on the soil layer 8, a lawn carpet in which grass seeds are planted on a nonwoven fabric may be disposed. The environmentally friendly fiber band of the present invention has the advantage of generating an environmentally friendly lake-side while maintaining the advantages of the conventional zigzag-shaped fiber band or conventional fiber band.

6 is a schematic cross-sectional view of an arc-rear surface constructed using an environmentally friendly fiber band according to another embodiment of the present invention.

Unlike the rake face of FIG. 5, the zigzag fiber band 10 is additionally constructed under the rake face river bottom surface of FIG. 6. The area where the bottom of the river meets the surface of the lake is prone to heaving, sediment scour, and sinking. Therefore, it is necessary to reinforce this part to prevent hives and to prevent sedimentation and sinking phenomenon. 6 is an example of a cross section constructed for this purpose.

Streams flow at their normal level above the low water level (also called the 'low water level'). Normal water level above the low water level is the normal water level, and it is divided into the high water level from which the water can rise from the upper part of the lake, ie, in rainy season. Below the low water level, as shown in Fig. 6, a conventional zigzag-shaped fiber band 10 is used to form a rake face. Of course, the hydrophobic surface may be formed as the hydrophilic fiber band of the present invention. When using a conventional fiber band, it is not necessary to cut the filter part 4. In order to further strengthen the lower portion of the low water level, the base reinforcing fiber band 11 in the form of a tube may be further installed along the stream in the longitudinal direction. From low water level to normal water level, it is the part where water flows normally, so it forms hydrophilic rake face for plankton or fish. From the normal water level to the high water level, grass, flowers, trees, etc. are planted to form eco-friendly lakes.

FIG. 7 is a cross-sectional view schematically showing a cross section of a lake constructed using the environmentally friendly fiber band of the present invention under a cross section. The abdominal cross section is a form in which the cross-section of the cross section is overlapped, and the lower cross-section 13 in which water flows may be provided with an arc-like surface as shown in FIG. 5 or 6, and an upper surface at the top of the blunt (coriander) 12. On the bank 14, an eco-friendly revetment surface can be constructed. Environmentally friendly construction method of the present invention can be suitably applied to the topography of the lake.

8 is a perspective view schematically illustrating a state in which a natural ecosystem is formed on a lakeside surface in which a lakeside construction was performed according to the present invention. According to the present invention, a revetment that can preserve natural ecosystems as well as a revetment surface above the surface of water as well as a subsurface revetment surface under water.

The present invention is to construct an eco-friendly revetment ball harmonized with the natural ecosystem as much as possible, to maintain the strength of the revetment surface to prevent the erosion and scour of the embankment or slope, can be more convenient to construct the revetment surface, after construction Similar to the natural ecosystem has the effect of the invention that can provide a fiber band that can be applied to the beautiful surface of the revetment surface and a revetment construction method using the same.

Simple modifications or changes of the present invention can be easily carried out by those skilled in the art, and all such modifications or changes can be seen to be included in the scope of the present invention.

Claims (5)

In the fiber band composed of the upper fabric and the lower fabric woven from high-strength geosynthetic fibers and bonded to each other by the filter portion 4, concrete or mortar is injected to form the pillar portion 5 in the horizontal and vertical directions, and Repeatedly formed inside the section 5 to form a quadrilateral filter section 4, the width of the filter section 4 is roughly 2 to 5 times the width of the pillar section 5, the environment for use as rafts Friendly fiber band. In the method of constructing a revetment work with a fiber woven from high strength geotextiles, the environmentally friendly fiber band of claim 1 is laid on the bottom surface of the bottom to be constructed, and the mortar is fed to the column part 5 of the fiber band in the horizontal and vertical directions. The arc surface of which the pillar part 5 of which is formed is formed; Cutting the filter part 4 after the arc face is cured; Mortar or soil is introduced into the cut filter part 4; In the filter part 4 into which the mortar is introduced, gravel or pebble is planted on the mortar layer 6 to form a hydrophilic arc-like surface on which a stone layer 7 is formed; And In the filter unit 4, the soil is introduced to form an eco-friendly lake surface with a drinking water layer (9) by planting grass, flowers or trees on the soil layer (8); Environmentally friendly revetment construction method comprising the steps. The method of claim 2, further comprising the step of embedding the zigzag-shaped fiber band (10) in the lower portion of the hydrophilic revetment surface. The method of claim 3, further comprising the step of embedding the tube-shaped reinforcing fiber band (11) at the end of the zigzag-shaped fiber band (10) is embedded. The method of claim 2, wherein a lawn carpet is installed on the eco-friendly revetment surface, or a lawn grass, vegetation or flower is planted, or a seed spray is applied. Environmentally friendly shore reconstruction method characterized in that to form a landscape revetment by.