KR100830682B1 - Fabric form using double raschel - Google Patents

Abstract

The present invention relates to an industrial fiber band, and more specifically, in civil engineering works that require leakage prevention of various water works, fish farm floor work, landfills, incision drainage, etc., considering the internal pressure, surface tension and mechanical support And by using a double-lasel method, the safety and economics, and the field of the industrial environment for excellent industrial applications.

In order to achieve the above object, the industrial fiber band using the double cell according to the present invention is an industrial fiber band applied to the revetment work for preventing leakage, the upper fabric and the lower fabric and the upper fabric and the lower fabric in the vertical direction Comprising a plurality of fixed yarns for connecting, characterized in that the space between the upper fabric and the lower fabric has a predetermined height and the space structure layer is injected concrete is formed.

Textile stand, shore protection work, civil works, water leakage prevention, industrial fiber, civil fiber, double cell

Description

Fabric form using double raschel}

1 to 3 is a view showing a conventional industrial fiber band,

1 is a cross-sectional view.

2 is a view showing a state in which concrete is injected.

3 is a view showing a state of construction.

4 to 7 is a view showing the industrial fiber band of the embodiment of the present invention,

4 is a perspective view.

5 is a sectional view.

6 is a view showing a state in which concrete is injected.

7 is a view showing a state of construction.

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

10: upper fabric 20: lower fabric

11: upper fixing point 21: lower fixing point

30: space structure layer 40: fixed yarn

The present invention relates to an industrial fiber band, and more specifically, in civil engineering works that require leakage prevention of various water works, fish farm floor work, landfills, incision drainage, etc., considering the internal pressure, surface tension and mechanical support And by using a double-lasel method, the safety and economics, and the field of the industrial environment for excellent industrial applications.

In general, industrial (civil) fiber bands woven from high-strength geotextiles by revetment methods are used for waterway floor works such as mountain tombs, valleys, fish farms, and landfills. In general, the revetment method using a fiber band is a method of forming concrete mats by injecting unconsolidated concrete or mortar between textile formwork woven from high-strength geotextiles by foundation reinforcement works such as dikes, reservoirs, landfills, riverbanks, and coasts. Is done.

The industrial fiber band is being developed into a multi-layered structure, which is a three-dimensional structure formed by forming a space structure layer (Air Mesh) using a double-lasel, a special weaving technology, in a conventional planar structure.

Korean Patent Application No. 10-1998-0042515 proposes an industrial fiber band having a multilayer structure. The conventional industrial fiber band is composed of the upper fabric 10 and the lower fabric 20 to form a space structure layer 30 having a predetermined height (a), as shown in Figure 1, one row of fixed yarn 41 and two The row fixing yarns 42 are interwoven with each other to alternately connect the upper fixing points 11 and 21 and the lower fixing points 12 and 22 in turn.

However, in the conventional industrial fiber band made as described above, when concrete is injected into the space structure layer 30, the force acts in the vertical direction by the pressure, so that the upper fixing points 11 and 12 and the lower fixing points 21 and 22 are applied. 2 is convex, so that the height of the spatial structure layer 30 is not constant and becomes relatively high at some positions (between the upper fixing points 11 and 12 and the lower fixing points 21 and 22). Accordingly, the length of the entire fiber band is reduced, resulting in a problem in that the length of the fiber band is shorter than that of the bottom surface requiring the leak construction as shown in FIG.

At this time, when the interval b between the upper fixing points 11 and 12 and the interval between the lower fixing points 21 and 22 (b) become wider, the degree of convexity increases and the degree of shortening of the length of the fiber band also increases. On the contrary, the gap b between the upper fixing points 11 and 12 and the gap b between the lower fixing points 21 and 22 are narrowed so that the first row of fixed yarns 30 and the second row of fixed yarns 40 cross each other more closely. If it is set, it is difficult to smoothly inject concrete into the space structure layer (30).

Typically, the height of the space structure layer 30 is preferably kept constant within about 10cm. However, in the conventional industrial fiber band as described above, it is very difficult to maintain a certain height and shape by the pressure of injecting concrete, and the fiber band thus manufactured is likely to produce defective products due to the shorter length than the work requirement. There is a problem in that high, thus unnecessary labor and costs.

The present invention is to solve the above-mentioned problems, the concrete is smoothly injected into the space structure layer, the height of the space structure layer, the length and shape of the fiber band is kept constant, environmentally friendly to lower the defect rate and increase the efficiency and efficiency An object of the present invention is to propose an industrial fiber band.

In order to achieve the above object, the industrial fiber band woven by using the double-laser technique according to the present invention in the industrial fiber band applied to the revetment work for preventing leakage,

It comprises a plurality of fixed yarns for connecting the upper fabric and the lower fabric and the upper fabric and the lower fabric in the vertical direction, the upper fabric and the lower fabric and a plurality of fixed yarns are woven by the double-lasel technique,

Between the upper fabric and the lower fabric is characterized in that the space structure layer is formed with a certain height and the concrete is injected.

In addition, the upper fabric and the lower fabric is formed with a plurality of upper and lower fixing points having a horizontal and vertical interval of 50mm ~ 500mm, the upper and lower fixing points of the corresponding position up and down by a plurality of high-fiber yarn It is characterized in that the connection.

In addition, the upper fabric and the lower fabric is characterized in that weaving using a polyester yarn of 250 ~ 1500 denier.

In addition, the fixed yarn is characterized in that formed of a plurality of 250 ~ 1500 denier polyester yarn strands.

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

First, the industrial fiber band according to the present invention is composed of a three-dimensional structure (multi-layer structure) in which a space structure layer (Air Mesh) is formed between the upper and lower fabrics by using the special double-lassel technique.

4 to 6 is a view showing the industrial fiber band according to the embodiment of the present invention, Figure 4 is a perspective view, Figure 5 is a sectional view, Figure 6 is a view showing a state in which concrete is injected.

As shown in Figure 4 and 5, the industrial fiber band according to the present invention is a multi-layer structure consisting of the upper fabric 10 and the lower fabric 20 to form a space structure layer 30 having a predetermined height (a) It is made, the fixed yarn 40 for connecting the upper fabric 10 and the lower fabric 20 in the vertical direction is provided separately.

The upper fabric 10 and the lower fabric 20 are woven using a polyester yarn of 250 ~ 1500 denier in consideration of the surface tension and coating degree, preferably 500 denier or 1000 denier yarn.

The upper fabric 10 and the lower fabric 20 is connected by a fixed yarn 40 to form a space structure layer 30 through which concrete or the like can be injected. The fixed yarn 40 is formed of a plurality of strands of polyester yarns of 250 to 1500 denier, preferably 500 or 1000 denier polyester yarns. The fixed yarn 40 must maintain a suitable strength to withstand enough internal pressure to inject concrete and the like.

The fixed yarn 40 thus formed connects the plurality of upper fixing points 11 formed on the upper fabric 10 and the plurality of lower fixing points 21 formed on the lower fabric 20 in the vertical direction, respectively. That is, the upper fabric 10 is formed with a plurality of upper fixing points 11 to have a horizontal and vertical spacing of 50mm ~ 500mm as a whole, the lower fabric 20 at a position corresponding to the upper fixing point 11 A plurality of lower fixing points 21 having horizontal and vertical spacings of 50 mm to 500 mm are formed, and the upper fixing points 11 and the lower fixing points 21 formed at positions corresponding to each other in the vertical direction are fixed yarns 40. Interconnected by

When the fixed yarn 40 is connected in the vertical direction as described above, since the internal structure of the spatial structure layer 30 is not complicated as compared with the fiber band formed by the conventional fixed yarns having an X-shape, injection of concrete or mortar, etc. More smooth.

In addition, even if the force acts in the vertical direction by the injection pressure of the concrete, as shown in Figure 6, because the height of the space structure layer 30 is limited by the fixed yarn 40, the length and shape of the fiber band is maintained as it is .

It is preferable to set the height of the space structure layer 30 to 5 cm to 50 cm, but it can be modified by any number according to the construction purpose and environment. In addition, the fiber band of the present invention manufactured as described above satisfies the standard specifications of tensile strength of 130 kg / inch or more, permeability coefficient α ㅧ 10 ^{-2 ~ 4} cm / sec, daylight fastness 5 or more, unit weight 400 g / M ² or more It is desirable to apply and apply suitably in all places where leakage prevention is needed.

7 is a view showing the construction of the industrial fiber band according to the embodiment of the present invention.

As shown in Figure 7, the industrial fiber band of the present invention is required to prevent leakage, such as agricultural waterway, life industrial waterway, reservoir, fish farm, artificial lake, landfill, sludge treatment plant, incision drainage channel, river dike, etc. Work evenly on the bottom and revetment surface, install the industrial fiber band of the present invention on the working flat surface, and inject the unconsolidated concrete or mortar, etc. using a high-pressure pump to the internal space structure layer 30, The floor is constructed by forming a mat.

Leakage prevention and protection method using the industrial fiber band is not only fast curing time, but also forms a hardened body of high density and high strength, and is a fast and safe method for site topography.

The present invention is not limited to the above-described embodiments, and technical ideas that can be modified and converted by those of ordinary skill in the art to which the present invention pertains without departing from the gist of the present invention also belong to the following claims. Should be seen.

According to the present invention of the above configuration, the present invention is smooth concrete injection into the space structure layer, the height of the space structure layer, the length and shape of the fiber band is kept constant, the defect rate is lowered in the manufacturing and application process and economical and efficiency The height is effective.

In addition, by using environmentally friendly geotextiles that can be applied to various floors and slopes that need to prevent leakage, there is an effect of reducing environmental pollution, such as soil or groundwater.

Claims (4)

delete In the industrial fiber band applied to the revetment work for preventing leakage, It comprises an upper fabric, a lower fabric and a plurality of fixed yarns connecting the upper fabric and the lower fabric in the vertical direction, The upper fabric and the lower fabric and a plurality of fixed yarns are woven using the double-lasel technique, a space structure layer is formed between the upper fabric and the lower fabric having a predetermined height and the concrete is injected, The upper fabric and the lower fabric is formed with a plurality of upper and lower fixing points having a horizontal and vertical spacing of 50mm ~ 500mm, The upper and lower fixing points of the corresponding position up and down is connected to the industrial fiber band using a plurality of high-fiber yarns. The method of claim 2, The upper fabric and the lower fabric is industrial fiber band using a double laselle, characterized in that weaving using a polyester yarn of 250 ~ 1500 denier. The method according to claim 2 or 3, The fixed yarn is an industrial fiber band using a double laselle, characterized in that formed of a plurality of 250 ~ 1500 denier polyester yarn strands.

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