KR20110042450A - Water bag support apparatus for settlement and temporary structure using the same - Google Patents

Abstract

PURPOSE: A water weight loading supporter, a water weight loading temporary structure, and a water weight loading method are provided to prevent the conduction of the supporter since a bottom portion is supported downward by a water bag. CONSTITUTION: A water weight loading supporter comprises a bottom portion(110), a wall portion(120), and a buried portion. The bottom portion contacts the surface of the earth and is supported downward by a water bag(200). The wall portion prevents the water bag from being separated to the outside. The wall portion is expanded from the bottom portion. The buried portion is buried under the surface of the earth. The buried portion supports the bottom portion and the wall portion. The buried portion expanded downward from the lower end of the wall portion. The water weight loading supporter had an L-shape.

Description

WATER BAG SUPPORT APPARATUS FOR SETTLEMENT AND TEMPORARY STRUCTURE USING THE SAME}

The present invention relates to the field of civil engineering, and more particularly, to a water loading method and a structure used therein.

Water loading reworking method is to stabilize the soft ground such as clay or dredging ground, and to leave the water bag filled with a large amount of water on the ground of the soft ground and leave it for a certain period of time. Say a method to make it.

For the same purpose, there is a method of loading earth and sand on the surface of the soft ground, which is stable, but there are problems such as high purchase cost and transport cost of soil, delayed air, and the like. There is an active research on.

However, in the conventional water loading method, a large amount of soil is required for the installation of a levee to support the water bag, and in the case of an air tube levee, a great risk is caused when the tube is broken. In the case of soft ground for the formation of this narrow road, it was difficult to install embankments on both sides.

The present invention is derived to solve the above problems, the construction is simple, there is little risk of damage, even in the case of soft ground for the formation of a narrow road width compared to the length can be sufficiently applied water loading The purpose of the present invention is to provide a support for water, a temporary structure for loading water, and a method for loading water using the same.

The present invention, in order to achieve the object as described above, in contact with the ground surface, the support portion 110 formed to be supported by the water bag 200 to the lower side; In order to prevent the water bag 200 is separated from the outside, the support portion 120 formed to extend upward from the support portion 110; to provide a water load supporting support 100 including.

It is preferably formed into a "b" shaped cross-sectional structure.

It is preferable to further include a buried portion 130 is formed to extend to the lower side of the lower portion of the support portion 120 to be embedded in the lower side of the ground surface to support the support portion 110 and the support portion 120.

It is preferably further provided with; an extension portion 140 extending outward from the outer end of the support portion 110.

It is preferable that the support portion 120 further includes a support portion 150 coupled to the outer surface of the support portion 120 and the upper surface of the extension portion 140.

The support 120 is preferably formed to be inclined inward or outward.

The support 110 is preferably formed in a plate-like structure or rod-shaped structure.

The support 120 is preferably formed in a plate-like structure or rod-shaped structure.

In order to prevent the side and front and rear departure of the water bag 200, the support portion 120 is preferably formed to have a plurality of separation prevention surface.

It is preferable that the plurality of separation preventing surfaces of the support part 120 are formed to be perpendicular to each other.

The present invention is a water load loading hypothesis structure using the water load loading support 100, a pair of the water load loading support (100) installed on both sides to form a water bag loading area 210 therein; And a water bag 200 formed in the inner space of the pair of water load reloading support 100 and formed so as not to be separated from the outside by the water impermeable material, the pair of water load The supporting part 110 of the loading support 100 presents the hypothesis for loading the water load, characterized in that supported by the water bag 200 to the lower side.

The present invention provides a water load loading hypothesis structure using the water load supporting support 100, wherein a plurality of water load loading supports 100 are installed in all directions to form a water bag loading area 210 therein; It is formed so that the water inside the water is not separated to the outside by the impermeable material, and the water bag 200 installed in the inner space of the plurality of water load loading support 100; including, the plurality of water load The supporting portion 110 of the support 100 presents a hypothetical structure for water load reloading, characterized in that supported by the water bag 200 to the lower side.

The present invention provides a water load reloading method using the water load temporary construction, comprising: installing the pair of water load reloading supports (100) on the ground surface requiring load; Presenting the water load reloading method comprising a; the step of installing the water bag 200 in the inner region of the pair of water load support (100).

The present invention provides a water load reloading method using the water load temporary construction, comprising: installing the plurality of water load reloading supports (100) on a ground surface requiring load; Presenting a water load reloading method comprising a; the step of installing the water bag 200 in the inner region of the plurality of water load support (100).

The present invention is easy to construct, less susceptible to damage, even in the case of soft ground for the formation of a narrow road width compared to the length of the water loading support, water loading temporary constructions and using the same Provide water reloading method.

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

As shown below in Figure 1, the water load reloading support 100 according to the present invention is basically, the support portion 110 is formed to be supported by the water bag 200 to the surface contact, the lower side; It is configured to include; support portion 120 formed to extend upward from the support portion 110 to prevent the water bag 200 is separated from the outside.

Here, the water bag 200 is a structure formed so that the water inside is not separated to the outside by an impermeable material, the water load support for support 100 is installed so that a plurality of water bag loading area 210 is formed therein. .

Since the supporting portion 110 of the water load supporting support 100 is supported downward by the water bag 200, the conduction of the support 100 is prevented, so that the inside of the water bag 200 is supported by the support 120. Outer deviation is prevented by the friction between the support 120 and the support 110 and the ground surface of the support 100.

Therefore, since there is no need for a separate dike installation work by earth and sand as in the prior art, the construction is easy, and when the support base 100 is formed of a high-strength material such as steel, there is no fear of damage.

Furthermore, even in the case of soft ground for the formation of a narrow road compared to the length, as shown in FIG. 2, a pair of supports 100 are arranged on both sides of the road in a row, and therein Since it is necessary to load the water bag 200, there is an advantage that it is possible to install an easy and efficient temporary embankment.

Supporting load for water load 100 according to the present invention is basically formed by the "b" shaped cross-sectional structure, all of the above-described effects can be obtained, the supporting portion 110 and the supporting portion constituting the support 100 120 may be implemented by a plate-like structure or a rod-shaped structure (net structure, FIG. 7).

As shown in FIG. 3, the buried part 130 extends downward from the lower end of the support part 120 to be embedded below the ground surface to support the support part 110 and the support part 120. , The buried portion 130 is embedded in the ground has the advantage that the horizontal bearing capacity is further improved.

As shown in FIG. 4, when the extension portion 140 extends outward from the outer end portion of the support portion 110, the conduction of the support 100 is more sure by the support force of the extension portion 140. The effect of being prevented is added.

As shown in FIG. 10, when the support 150 is coupled to the outer surface of the support 120 and the upper surface of the extension 140, the rigidity of the support 120 can be obtained even more. .

As shown in FIG. 5, even when the support part 120 has a structure formed to be inclined inward, it is possible to obtain an effect that the conduction of the support part 100 is prevented.

As shown in FIG. 6, when the support 120 is formed to be inclined outward, the water bag 200 may be accommodated in the inner region of the support 100.

However, in this case, in order to prevent the fall of the support 100, the size of the support 110 is required to be larger.

In the above, the case of the road ground that is narrower than the length is described as an example, but the method according to the present invention can be effectively applied even when the water load is loaded on a general wide area.

In this case, the support bag 100 for the loading of a plurality of loads must be installed in all directions so that the water bag loading area 210 is formed therein, and the support bags 100 are somewhat separated if the water bag 200 is not separated. It may be spaced apart (Fig. 9).

However, it is preferable that the support 100 as shown in FIG. 8 is installed in the corner region of the water bag loading region 210, where the support portion 120 prevents the side and front and rear separation of the water bag 200. In order to achieve this, a structure formed to have a plurality of separation preventing surfaces is taken.

Here, the support portion 120 having a plurality of departure prevention surfaces is to prevent the departure in the corner direction of the water bag loading region 210 of the water bag 200, when the water bag loading region 210 takes a rectangular structure. The plurality of anti-separation surfaces of the support part 120 may be formed to be perpendicular to each other.

The water load reloading method according to the present invention comprises the steps of: installing a plurality (pair) of water load reloading supports 100 on the ground surface requiring load; And installing the water bag 200 in the inner region of the plurality of (pair) of the water load loading support 100.

Here, the water bag 200 is a structure that is formed so that the water inside is not separated to the outside by the impermeable material, is formed in a size that is not too heavy when containing water, the water bag loading region 210 described above ), It is desirable in terms of work efficiency.

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

Figure 1 below shows an embodiment of the present invention,

1 is a cross-sectional view of a first embodiment of the support and the temporary structure.

2 is a perspective view of a first embodiment of a support and a temporary structure;

3 is a sectional view of a second embodiment of the support;

4 is a sectional view of a third embodiment of the support;

5 is a sectional view of a fourth embodiment of the support;

6 is a sectional view of a fifth embodiment of the support;

7 is a sectional view of a sixth embodiment of the support;

8 is a sectional view of a seventh embodiment of the support;

9 is a perspective view of a second embodiment of a temporary structure;

10 is a sectional view of an eighth embodiment of the support;

DESCRIPTION OF REFERENCE NUMERALS

100: support for water load 110: support portion

120: support portion 130: buried portion

140: extension portion 150: bracing portion

200: water bag 210: water bag loading area

Claims (15)

A support 110 formed to be in surface contact with the ground surface and supported by the water bag 200 downward; A support part 120 extending upward from the support part 110 to prevent the water bag 200 from escaping outward; Water load support for supporting (100). The method of claim 1, The water load supporting member 100, characterized in that formed in the "b" shaped cross-sectional structure. The method of claim 1, A buried portion 130 which is formed to extend downward from the lower end of the support portion 120 so as to be buried below the ground surface to support the supporting portion 110 and the support portion 120. Water load support for support 100, characterized in that further provided. The method of claim 1, Extension portion 140 formed to extend outward from the outer end of the support portion 110; Water load support for support 100, characterized in that further provided. The method of claim 4, wherein Supporting load for the water load 100, characterized in that it further comprises; a support portion 150 coupled to the outer surface of the support portion 120 and the upper surface of the extension portion 140. The method of claim 1, The support portion 120 is a water load supporting support 100, characterized in that formed to be inclined inward. The method of claim 1, The support portion 120 is a water load supporting support 100, characterized in that formed to be inclined outward. The method of claim 1, The support portion 110 is a water load supporting member 100, characterized in that formed in a plate-like structure or rod-shaped structure. The method of claim 1, The support portion 120 is a water load supporting member 100, characterized in that formed in a plate-like structure or rod-shaped structure. The method of claim 1, In order to prevent the side and front and rear departure of the water bag 200, the support portion 120 is characterized in that formed to have a plurality of departure prevention surface support for water loads (100). The method of claim 10, The support portion 100 for water load reloading, characterized in that the plurality of separation prevention surface of the support portion 120 is formed to be perpendicular to each other. As a water load loading temporary structure using the water load loading support 100 of any one of claims 1 to 9, A pair of the water load loading support members 100 installed on both sides such that a water bag loading region 210 is formed therein; It is formed so that the water inside the water is not separated to the outside by the impermeable material, and the water bag 200 installed in the inner space of the pair of water load support for support 100; includes, Supporting portion 110 of the pair of water load support for support 100 is a water load loading temporary construction, characterized in that supported by the water bag 200. As a water load loading temporary structure using the water load loading support 100 of any one of claims 1 to 11, A plurality of water load loading supports 100 installed in all directions to form a water bag loading region 210 therein; It is formed so that the water inside the water is not separated to the outside by the impermeable material, and the water bag 200 installed in the inner space of the plurality of water load support support 100; The supporting portion 110 of the plurality of water load support for support 100 is a water load reload hypothesis, characterized in that supported by the water bag 200 to the lower side. A water load reloading method using the temporary load structure of claim 12, Installing the pair of water load supporting members (100) on the ground surface requiring load; Installing the water bag 200 in the inner region of the pair of water load support (100); Water loading method, characterized in that it comprises a. A water load reloading method using the temporary load structure of claim 13, Installing the plurality of water load supporting members (100) on the ground surface requiring load; Installing the water bag 200 in an inner region of the plurality of water load supporting members 100; Water loading method, characterized in that it comprises a.

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