KR200233300Y1 - a sand pack using in public works - Google Patents

Abstract

Both sides of the pair of woven boards in which the warp 31 and the weft 32 of the synthetic resin material are woven in a lattice form are pressed together to form a crimping portion 33, and sand is introduced between the crimping portions 33. In order to prevent the sandpack 3 from being damaged at the time, the sandpack 3 having the reinforcing portion 34 having a higher density of the warp 31 than the density of the warp 31 of the other part is formed. In this case, the compression reinforcement portion 35 is formed inside the crimping portion 33 so that the density of the inclination 31 is relatively higher than the density of the inclination 31 of the other portion so as to have the same strength as that of the reinforcement portion 340. Sand pile installation sand pack for civil engineering, which prevents the loading load from being concentrated and damaged when sand is introduced into the sand pack by providing a compressive reinforcing part having the same strength as that of the reinforcing part on the crimping part side. To provide.

Description

Sand pack using in public works}

The present invention relates to a sand pillar installation sand pack for civil engineering, and more specifically, to provide a compression reinforcement having the same strength as that of the reinforcement on the crimping side. The present invention relates to a sand pillar installation sand pack for civil engineering to prevent damage.

In civil works, such as road works, it often happens that asphalt is installed on land after reclaiming wetlands such as lakes, rivers, and water puddles.

In order to reclaim the wetland, first, the water of the wetland is pumped and removed to create a state of sand, and then the landfill soil is poured into the sand layer.

However, because the clay layer is mainly composed of clay and contains a lot of moisture, it is very helpless against the vertical load applied to it, so if no action is taken, the landfill is poured onto the clay layer and chopped. When the road is constructed by installing an asphalt layer thereon, there is a problem that the ground layer is compressed due to the vertical load continuously applied to the surface of the road by the traffic vehicle, and the asphalt layer falls down accordingly.

In order to prevent the above problems, as shown in Fig. 1, the landfill soil 2 is poured over the plywood layer 1 and chopped, and then a constant length and a constant diameter in the vertical direction from the surface of the landfill paper. After numerous holes were drilled at predetermined intervals, the sand packs 3 were installed in each hole, and sand was poured into the sand packs 3 to provide numerous sand pillars 4, thereby forming the sand layer 1 2) and the soil (2) is a dense and absorbent sand column (4) by the osmotic action to allow the water to be introduced through the drainage structure to remove the water inside the landfill soil to effectively remove the landfill soil (2) The technology to prevent the asphalt layer (5) installed on the top of the swelling is in the 'Sandpack for civil engineering' of Korean Utility Model Application Publication No. 96-2801 (Application date: April 8, 1996 AD) It has disclosed bar.

The sand pack (3) is a woven plate having a lattice of the warp 31 and the weft 32 of a synthetic resin material such as polyethylene having a high tensile strength and a fineness of about 380 ~ 400 denier (Denier), for example. After weaving, the two sides of the pair of woven plates are pressed together to form a crimping portion 33 to produce a cylindrical shape. The pressing part 33 also serves to prevent the sand pack 3 from twisting, and also prevents the sand pack 3 from being damaged when sand is introduced between the pressing parts 33. In order to be able to do so, the reinforcement part 34 is formed in which the density of the inclination 31 is relatively higher than the density of the inclination 31 of other portions.

However, in the conventional civil engineering sand pillar installation sand pack having such a structure, since the crimping portion 33 has a relatively weak structure as compared with the reinforcing portion 34, the input load of sand is concentrated to the crimping portion 33. There is a problem that the crimping portion 33 is easily torn.

An object of the present invention is to solve the conventional problems as described above, by providing a crimped reinforcement having the same strength as the reinforcement on the side of the crimping part that the load is concentrated in one place when sand is introduced into the sandpack, It is to provide sand pillar installation sand pack for civil engineering.

1 is a cross-sectional view of the ground on which a conventional sand pillar installation sand pack for civil engineering is installed.

2 is a partial perspective view of a sandpack installation sandpack for civil engineering according to the prior art.

3 is a partial perspective view of the sand pillar installation sand pack for civil engineering according to an embodiment of the present invention.

4 is an enlarged view illustrating main parts of a sand pillar installation sand pack for civil engineering according to an embodiment of the present invention.

-Explanation of symbols for the main parts of the drawings-

1: second floor: landfill

3: sandpack 4: sand pillar

5: asphalt layer 31: slope

32: weft 33: crimping portion

34: reinforcement part 35: crimp reinforcement part

Hereinafter, in order to explain in detail enough to be easily carried out by those of ordinary skill in the art to the present invention, the most preferred embodiment of the present invention with reference to the accompanying drawings in detail Same as

In the embodiment of the present invention, the same configuration, function, and role of the sandbag installation sand pack for a civil engineering work shown in Figure 2 will be represented using the same reference numerals.

As shown in Figure 3 and 4, the configuration of the sand pillar installation sand pack for civil engineering according to an embodiment of the present invention, a pair of woven plate weaving the warp 31 and the weft 32 of the synthetic resin material in a lattice form The inclined portion 31 in order to prevent the sand pack 3 from being damaged when sand is introduced between the two pressed portions 33 to form a crimping portion 33. In the sand pack 3 in which the reinforcement part 34 is formed relatively higher than the density of the inclination 31 of the site | part of which density differs, the site | part of which the density of the inclination 31 differs in the inside of the said crimp part 33 above. Compression reinforcement part 35 is formed relatively higher than the density of the inclined 31 of the structure to have a strength equivalent to the reinforcement part 34.

In the above, the density of the inclination 31 of the reinforcement part 34 and the crimp reinforcement part 35 is preferably about two times the density of the inclination 31 of another part, and the reinforcement part 34 and the compression reinforcement The width of the portion 35 is preferably determined in consideration of the overall diameter of the sand pack 3.

For example, if the density of the inclination 31 of another part is 21 ol per square inch, the density of the inclination 31 of the reinforcement part 34 and the crimp reinforcement part 35 is about 40 to 42 ol per square inch. Preferably, if the total diameter of the sand pack 3 is about 200 millimeters (mm), the width of the reinforcement part 34 and the crimp reinforcement part 35 is preferably set to about 10 millimeters (mm).

An inflow space is provided between the inclined 31 and the weft 32 of the sand pack 3 to allow the moisture of the soil layer 1 or the landfill soil 2 to pass therethrough. When the sand pack 3 is lowered, the sand pack 3 may be damaged when the sand pack 3 is installed, or sand inside the sand pack 3 may be lost to the landfill layer 2 or the soil layer 1. On the contrary, if the inflow space is too small, the water permeation efficiency is lowered, and the water in the soil layer 1 or the landfill layer 2 cannot be absorbed effectively.

Therefore, in making the sand pack 3, it is important to make the inflow space suitable area. In general, the density of the inflow space having an appropriate area is provided on the outer circumference of the sand pack 3 to be 1 square inch (Inch²). It is desirable to allow the sugar incline to be about 21 ol and weft about 16 ol.

The length of the sand pack 3 has a length of about 25 to 30 meters (m) to be sufficiently introduced into the mud layer (1) and the landfill soil (2).

As described above, in the embodiment of the present invention, by providing a crimp reinforcement part having the same strength as that of the reinforcement part on the crimping part side, when sand is introduced into the sand pack, the load is concentrated at one place to prevent damage. We can provide sand pillar installation sand pack for civil engineering. This effect of the present invention can be used in the civil engineering field modified within the scope of the present invention.

Claims (1)

Both sides of the pair of woven boards in which the warp 31 and the weft 32 of the synthetic resin material are woven in a lattice form are pressed together to form a crimping portion 33, and sand is introduced between the crimping portions 33. In order to prevent the sandpack 3 from being damaged at the time, the sandpack 3 having the reinforcing portion 34 having a higher density of the warp 31 than the density of the warp 31 of the other part is formed. In this case, the compression reinforcement portion 35 is formed inside the crimping portion 33 so that the density of the inclination 31 is relatively higher than the density of the inclination 31 of the other portion so as to have the same strength as that of the reinforcement portion 340. Sand pillar installation sand pack for civil engineering, characterized in that consisting of a structure.