KR101201751B1 - Method for manufacturing and construction using geotextile made of double raschel - Google Patents

Abstract

The present invention relates to a method for manufacturing and constructing a geotextile made of a double laselle, and more particularly, the upper layer, the upper layer in the form of a network lower layer and a plurality of connecting yarns beneath the upper layer inclined in one direction. The geotextile made of a double cell formed by including a middle layer connecting the woven and connected to each other and the lower layer is expanded in the width direction and then heat-fixed, thereby securing a space for filling soil in the middle layer of the double cell It relates to a manufacturing method and construction method of geo-fiber consisting of a double laselle to improve the workability and completeness of the.

Description

Method for manufacturing and construction of geotextiles made of double laselle {Method for manufacturing and construction using geotextile made of double raschel}

The present invention relates to a method for manufacturing and constructing a geotextile made of a double laselle, and more particularly, the upper layer, the upper layer in the form of a network lower layer and a plurality of connecting yarns beneath the upper layer inclined in one direction. The geotextile made of a double cell formed by including a middle layer connecting the woven and connected to each other and the lower layer is expanded in the width direction and then heat-fixed, thereby securing a space for filling soil in the middle layer of the double cell It relates to a manufacturing method and construction method of geo-fiber consisting of a double laselle to improve the workability and completeness of the.

In general, geotextiles or gabions are used to protect river banks or bottoms, to prevent the loss of soil on road slopes, and to prevent falling rocks.

At this time, the gabions are made by putting heavy and large stones in them to support the land of the slopes. It was difficult to install.

In addition, the method using the gabion had a problem that the road and the ground subsides or collapses due to the rainwater penetrated between the stones contained in the gabion in case of heavy rain, such as the rainy season.

On the other hand, as a method for solving the above-mentioned shortcomings of the gabion, a construction method for installing and finishing concrete blocks on the slopes of embankments and roads has been proposed, but in the case of using concrete blocks, roads and ground due to the infiltration of rainwater This sinking problem does not occur, but there is a problem in that it is not possible to create an environment that is natural because plants cannot be grown in the same way as a gabion construction method.

In other words, conventional gabions or concrete blocks are thick and heavy gabions and concrete blocks completely block the surface of the earth and the environment where only the stones or concrete blocks are exposed to the place where the gabions or concrete blocks are installed, the environment is not possible to grow plants. Will not.

By solving these problems, various methods have been proposed to create environmentally friendly environments by allowing plants to grow while protecting the soil on the slopes or embankments.

One of them, according to the method of building a sloped surface in Korean Patent Publication No. 2001-7665, fills a stone for supporting and protecting soil such as an embankment in the wire mesh, and supports and soil for plant growth on the stone layer. After covering one by one, the earth is fixed with a cover made of a wire mesh again.

However, the above-described method has a function of preventing the loss of the soil of the stone layer filled inside the gabion to some extent, but the support member and soil covered on the stone layer is covered with a cover made of wire mesh Because of this, there is a disadvantage that it is easily swept away by a lot of rainwater or stream water in the rainy season.

That is, in the method of constructing the inclined surface according to the present invention, even though the soil of the inclined surface can be protected by the stone layer contained in the wire mesh, the supporting member and the soil stacked on the stone layer can be easily lost by the river water or the rain water, and the supporting member There is a problem that the plants planted in the soil and can not be firmly supported.

Alternatively, there is a method of constructing a slope using geotextile, which fills the soil inside the geotextile to plant plants, but the above method also does not stably fix the soil inside the geotextile. The soil may be biased or lost depending on the direction of the rainwater and the inclined surface, and thus has the same problems as the prior art.

Therefore, it is necessary to develop a geotextile and a geotextile construction method that can prevent the loss of soil and can be constructed to allow the growth of plants by filling the soil.

The present invention has been made to solve the problems described above, the object of the present invention is the upper layer and the upper layer in the form of the lower layer and a plurality of connecting yarns inclined in one direction of the network is located below the upper layer and The geotextile made of a double cell formed by including a middle layer connecting the lower layers to each other to connect to each other by extending in the width direction and then heat-fixed, to secure a space for the soil filled in the middle layer of the double cell of the geotextile It is to provide a manufacturing method and construction method of geo-fiber consisting of a double laselle to improve the workability and completeness.

Method for producing a geotextile using a double cell of the present invention is a method for producing a geotextile 10, the step of preparing a geotextile 10 woven with a double cell (100); The geotextiles 10 are moved to the tenter 300 while passing through the rollers 200 are rotated facing each other spaced apart from each other to have a predetermined thickness; Both ends of the geosynthetic fiber 10 is fixed to the pin 310 is installed at the edge in the width direction of the tenter 300 to extend the geotextile 10 in the longitudinal direction and the width direction; Heat-setting the heat to maintain the shape of the expanded geotextile 10; And winding the geothermal fiber 10 fixed to the heat; Characterized in that it comprises a.

In addition, in the step of heat-setting by applying heat to maintain the shape of the geosynthetic fiber 10, the geosynthetic fiber so that heat is evenly applied to the upper and lower surfaces of the geotextile 10, which is moved past the tenter 300. 10) is characterized in that the heater 400 is installed on the upper side and the lower side.

In addition, the double cell 100 is the upper layer 110 of the reticular top layer 110, the lower layer 130 and the plurality of connecting yarns 121 are located in one direction beneath the upper layer 110 is inclined in one direction. Intermediate layer 120 for weaving and connecting the 110 and the lower layer 130 to and from each other; And the second electrode is formed.

In addition, the upper layer 110 and the lower layer 130 of the double cell 100 is characterized in that the hexagonal mesh mesh structure.

In addition, the intermediate layer 120 of the double cell 100 is characterized in that the height is 8 to 40mm.

In addition, the construction method of the geosynthetic fiber of the present invention is a method for constructing using geosynthetic fibers, the method comprising the steps of (a) cutting the manufactured geotextile (10); (b) coating the cut geotextiles 10 on rivers and road cut surfaces; (c) filling the inside of the intermediate layer 120 of the double cell 100 forming the geotextile 10 to include sand or soil; And (d) fixing the geotextile 10 to the ground; Characterized in that it comprises a.

In addition, the construction method of the geosynthetic fiber (c) filling the sand or soil contained in the middle layer 120 of the double cell 100 forming the geotextile 10; And (d) fixing the geotextile 10 to the ground; May be performed by changing the order of each other.

In addition, the step of fixing the geosynthetic fiber 10 to the ground is characterized in that it is fixed to the ground by a plurality of anchor pins 500 to the distal end of the geosynthetic fiber 10.

The manufacturing method and construction method of the geosynthetic fiber made of a double laselle of the present invention so that the upper layer and the lower layer and the plurality of connecting yarns in the form of the inclined in one direction, the upper layer and the lower layer is located in the upper layer, The geotextile made of a double laselle formed by including a middle layer to weave is expanded and then thermally fixed in the width direction, thereby providing a space for filling soil between the upper and lower layers of the double laselle.

In addition, the manufacturing method and construction method of the geotextile made of a double laselle of the present invention has the advantage of improving the workability and completeness of the geotextile by heat-fixing the geotextile before weaving.

In addition, the manufacturing method and construction method of the geotextile made of a double cell of the present invention can be easily coated by applying the geotextile to the road and river incision surface, the soil is filled in the middle layer of the geotextile double cell, rain water or There is an advantage that can be prevented to be lost by the wind.

1 is a manufacturing process diagram for producing a geotextile made of a double cell according to an embodiment of the present invention.
2 is a perspective view of a double-lassel knitted fabric in accordance with a preferred embodiment of the present invention.
Figure 3 is a side perspective view of a double cell knitted fabric according to an embodiment of the present invention.
Figure 4 is a flow chart showing the construction method of geo-textile consisting of a double cell of the present invention.
Figure 5 is a perspective view showing that the geotextile made of a double cell of the present invention constructed on the road and river incision surface.

Hereinafter, with reference to the accompanying drawings, a manufacturing method and a construction method of a geotextile made of a double cell of the present invention having the characteristics as described above will be described in detail.

1 is a manufacturing process diagram for manufacturing a geotextile made of a double lasella according to a preferred embodiment of the present invention, Figure 2 is a perspective view of a double cell knitted fabric according to a preferred embodiment of the present invention, Figure 3 is a view of the present invention Side perspective view of a double-lassel knitted fabric according to a preferred embodiment, Figure 4 is a flow chart showing a construction method of geosynthetic fiber made of a double cell of the present invention, Figure 5 is a geotextile made of a double cell of the present invention road and river This is a perspective view showing the construction on the incision surface.

1 is a manufacturing process chart for producing a geotextile made of a double cell according to an embodiment of the present invention.

Referring to Figure 1, a method for producing a geotextile made of a double cell of the present invention comprises the steps of preparing a geotextile 10 woven with a double cell (100); The geotextiles 10 are moved to the tenter 300 while passing through the rollers 200 are rotated facing each other spaced apart from each other to have a predetermined thickness; Both ends of the geosynthetic fiber 10 is fixed to the pin 310 is installed at the edge in the width direction of the tenter 300 to extend the geotextile 10 in the longitudinal direction and the width direction; Heat-setting the heat to maintain the shape of the expanded geotextile 10; And winding the geothermal fiber 10 fixed to the heat; Characterized in that it comprises a.

As shown in FIG. 2, the double cell 100 forming the geotextile 10 has a network upper layer 110, a network lower layer 130 positioned below the upper layer 110, and a plurality of connections. An intermediate layer 120 in which the yarns 121 are woven together to connect the upper and lower layers 110 and 130 to each other in an inclined form in one direction; .

3 is a perspective view of a double cell 100 knitted fabric according to an embodiment of the present invention. Referring to FIG. 3, the side surface of the knitted double cell 100 of the present invention may include an upper layer 110, a lower layer 130, and an intermediate layer 120. In addition, the intermediate layer 120 is connected between the upper and lower layers 110 and 130, the connecting yarn 121 is connected to, the upper layer hexagon 111 and the lower layer hexagon 133 to connect, the adjacent upper layer hexagon It is preferable that the connecting yarn 121 is inclinedly connected to form an oblique line in a form of connecting the 113 and the adjacent lower layer hexagon 135.

As shown in FIG. 1, the compressed geotextiles 10 woven with a double laselle are spaced apart from each other by a predetermined distance so as to have a uniform thickness as a whole, and pass between the rollers 200 which are rotated to face each other, and the height of the intermediate layer 120 is constant. Become.

Next, the geotextile 10 is moved to the tenter 300, the tenter 300 is provided with a pin 310 at the edge in the width direction, both ends of the geotextile 10 It is fixed to the pin 310 is moved in the advancing direction of the tenter 300.

At this time, the width of the tenter 300 is gradually increased so that the distance between the pin 310 and the pin 310 is installed at the edge gradually away.

Accordingly, the geotextile 10 fixed to both ends of the pin 310 may extend in the longitudinal direction and the width direction toward the traveling direction of the tenter 300. The expanded geotextile 10 is applied with heat so that the shape of the upper and lower layers 110 and 130 and the intermediate layer 120 of the network can be fixed.

In the step of heat-setting by applying heat to maintain the shape of the geosynthetic fiber 10, the geosynthetic fiber 10 so that heat is evenly applied to the upper and lower surfaces of the geotextile 10, which is moved past the tenter 300. Preferably, the heater 400 is installed above and below the heater, respectively.

In the case of the geotextile 10 consisting of a conventional double-lasel 100 has not undergone the step of heat-setting to maintain the shape of the geosynthetic fiber 10, the upper layer 110, the lower layer 130 and the intermediate layer 120 ) Was not fixed, so it was difficult to secure a space for the soil to be filled.

On the contrary, the geosynthetic fiber manufactured by the method of manufacturing the geotextile made of the double cell of the present invention is solved as described above through heat fixing, so that about 95% of the internal space of the double cell 100 may be filled with soil. It has the advantage of being formed into space.

As shown in FIG. 2, the upper layer 110 and the lower layer 130 of the double cell 100 may be formed in a mesh of a hexagonal interlocking structure that can secure stability due to a small deformation of the shape.

In addition, the middle layer 120 of the double cell 100 is preferably at least 8mm so as not to inhibit the elongation of the roots and stems of the vegetation plant in the filled soil, it is preferable not to exceed 40mm to facilitate heat fixation. Do.

As shown in Figure 1, through the process as described above, the geothermal fiber 10 is heat-fixed is completed by winding.

The construction method of the geosynthetic fiber 10 manufactured by the method of manufacturing a geotextile using a double laselle (a) cutting the manufactured geotextile (10); (b) coating the cut geotextiles 10 on rivers and road cut surfaces; (c) filling the inside of the intermediate layer 120 of the double cell 100 forming the geotextile 10 to include sand or soil; And (d) fixing the geotextile 10 to the ground; Characterized in that it comprises a.

In the construction method of the geotextiles, the intermediate layer 120 of the geotextiles 10 coated on the river and road cut surfaces may be filled to include sand or soil, and then the geotextiles 10 may be fixed to the ground.

At this time, the construction method of the geosynthetic fiber (c) filling the sand or soil contained in the intermediate layer 120 of the double cell 100 forming the geotextile 10; And (d) fixing the geotextile 10 to the ground; May be performed in a different order.

The geotextile 10 consisting of the double cell 100 is heat-fixed and constructed in such a state that sufficient space for filling soil therein is filled, filling the middle layer 120 of the double cell 100. It is possible to prevent the soil or sand from being lost by external conditions by rainwater and wind.

On the other hand, in the step of fixing the geosynthetic fiber 10 to the ground is fixed to the ground by a plurality of anchor pins 500 to the distal end of the geosynthetic fiber 10.

At this time, the construction in the case where the distal end of the construction surface is a concrete hole in the top of the concrete with an anchor pin 500, and then the anchor pin 500 1/5 to the length of the entire anchor pin 500 2/5 so as to protrude, and plugged so that the double anchor (100) knitted on the protruding anchor pin 500 to cover the concrete surface with a double shell (100) knitted fabric, then the protruding anchor pin 500 nut By tightening to finish the end of the geosynthetic fiber 10 can be fixed to the ground.

Accordingly, the manufacturing method and construction method of the geosynthetic fiber made of a double cell of the present invention is the upper layer of the network, the lower layer of the network located below the upper layer and a plurality of connecting yarns inclined in one direction to form the upper layer and the lower layer Geotextile made of a double cell formed by including a middle layer to connect to each other to connect to each other by extending in the width direction and then heat-fixed, it is possible to secure a space for filling the soil between the upper layer and the lower layer of the double cell There is this.

In addition, the manufacturing method and construction method of the geotextile made of a double laselle of the present invention has the advantage of improving the workability and completeness of the geotextile by heat-fixing the geotextile before weaving.

In addition, the manufacturing method and construction method of the geotextile made of a double cell of the present invention can be easily coated by applying the geotextile to the road and river incision surface, the soil is filled in the middle layer of the geotextile double cell, rain water or There is an advantage that can be prevented to be lost by the wind.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It goes without saying that various modifications can be made.

10: geotextile
100: double laselle
110: upper layer 120: middle layer
121: connected yarn 130: lower layer
200: roller
300: tenter 310: pin
400: heater
500: anchor pin

Claims (8)

In the manufacturing method of geotextiles (10),
The upper layer 110 and the upper layer 110 and the lower layer 130 and the plurality of connecting yarns 121 positioned below the upper layer 110 are inclined in one direction to form the upper layer 110 and the lower layer 130. Preparing a geotextile 10 that is woven into a double cell 100 including an intermediate layer 120 that is woven and connected to each other ;
The geotextiles 10 are moved to the tenter 300 while passing through the rollers 200 are rotated facing each other spaced apart a predetermined distance so that the height of the intermediate layer 120 is constant;
Both ends of the geosynthetic fiber 10 is fixed to the pin 310 of the tenter 300, the distance between the pins installed at the edges so that the width is increased in the advancing direction so that the geotextile 10 is in the longitudinal direction And extending in the width direction;
Applying heat to fix the shape of the top layer, the middle layer, and the bottom layer of the double cell to maintain the shape of the geotextile 10 expanded to secure a space for filling soil in the inner space; And
Winding the geothermal fibers 10 fixed; Including;
The intermediate layer 120 of the double cell 100
Method of manufacturing geotextiles using a double laselle, characterized in that the height is 8 to 40mm .
The method of claim 1,
In the step of heat-setting by applying heat to maintain the shape of the geotextile 10
Double lassell, characterized in that the heater 400 is installed on the upper and lower sides of the geosynthetic fiber 10 so that the heat is evenly applied to the upper and lower surfaces of the geotextile 10 is moved through the tenter (300) Method of manufacturing geotextiles.
delete The method of claim 2 ,
The upper layer 110 and the lower layer 130 of the double cell 100
A method for producing geotextiles using a double raschel, characterized in that the hexagonal mesh mesh.
delete In the method of construction using geosynthetic fibers prepared by any one of claims 1, 2 and 4 ,
(a) cutting the manufactured geotextiles 10;
(b) coating the cut geotextiles 10 on rivers and road cut surfaces;
(c) filling the inside of the intermediate layer 120 of the double cell 100 forming the geotextile 10 to include sand or soil; And
(d) fixing the geotextile 10 to the ground; Construction method of geotextiles comprising a.
delete The method of claim 6 ,
Fixing the geotextile 10 to the ground is
Construction method of a geotextile, characterized in that a plurality of anchor pins (500) in the distal end of the geotextile (10) is fixed to the ground.

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