KR101058380B1 - Connection apparatus for reinforcing earth bag of incline - Google Patents

Abstract

PURPOSE: A connection apparatus for reinforcing earth bags on a slope is provided to improve the installation stability of earth bags by integrating multiple earth bags arranged on the front of a slope. CONSTITUTION: A connection apparatus for reinforcing earth bags on a slope comprises a center plate member(100) and side plate members(200). The center plate member comprises front and rear parts(110,120). Upper fixing wedges are formed on the top of the front part. The front part passes through adjacent earth bags. The rear part is inserted into an earth layer formed in the rear of the earth bags. The side board members are integrally extended from the left and right ends of the center plate member and are located between the earth bags. Lower fixing wedges are formed on the bottom surfaces of the side plate members.

Description

Connection Apparatus for Reinforcing Earth Bag of Incline}

The present invention relates to an inclined reinforcement tonic connector, and more particularly, to an inclined reinforcement tonic connecting material that can improve the installation stability of the tonic by allowing a plurality of toners to be connected to each other to be connected to each other installed in front of the inclined surface.

The collapse, conduction, and settlement of structures such as slopes and retaining walls are caused by surface water, groundwater, and eluate not being properly discharged from the back side, resulting in an increase in water pressure, resulting in an increase in earth pressure.

When the inclined surface or retaining wall collapses in this way, a method of stacking and reinforcing the inclined surface or the retaining wall using a tonne is common.

However, the conventional reinforcement method takes a structure in which the soil collected at the site is filled and stacked in a plurality of soil bags, and as time passes, some soils of the plurality of soil bags are separated from the structure of the soil bag, and thus, the installation stability of the soil is weakened or surface water or As groundwater is not properly discharged, soil pressure increases, causing a problem of collapse of stacked soil.

The present invention has been made to solve the above problems of the prior art, it is an object of the present invention to provide a slope reinforcement tonic connecting material which can move the tonang integrally by allowing a plurality of tons installed in front of the inclined surface connected to each other. .

In addition, an object of the present invention is to provide an inclined reinforcement tonic connecting material which can improve the stability of the tonic by inserting a part into the backfilling soil layer formed on the rear side of the tonic, thereby improving frictional resistance with the soil.

In addition, by discharging the water (groundwater, infiltration water) generated from the backfill soil layer formed on the rear side of the ton to the front side of the bag, to provide a reinforcing bag to prevent the collapse of the bag by water pressure have.

Slope reinforcement tonic connecting member according to the present invention for solving the above problems is to connect the adjacent sack among a plurality of sack disposed in the horizontal and vertical direction in front of the inclined surface for reinforcing the slope, and is located between the sack A center plate member having an upper fixing wedge formed on an upper surface thereof and penetrating an adjacent tonal bag adjacent to the upper part, and a rear part integrally formed with the anterior part and inserted into a backfilling soil layer formed behind the tonal bag; It is formed integrally extending from the front left and right ends of the center plate material is positioned between the tonang, the lower side fixed wedge is formed on the lower surface penetrating the adjacent to the bag to the lower side; consists of.

Here, the rear portion of the center plate material is formed with a plurality of friction protrusions projected at regular intervals on the upper and lower surfaces, respectively.

The front portion of the center plate is formed with a plurality of drainage holes in the front-rear direction, and the rear portion of the center plate is formed with a rear surface collecting space therein so as to communicate with the drainage hole in the front portion, and behind the rear surface collecting space. A plurality of inlet holes are formed to allow the water generated from the filled soil layer to flow in.

In addition, the rear portion of the center plate is wrapped in a pocket made of a nonwoven fabric.

The sloped reinforcement tonic connecting member of the present invention configured as described above is provided with an upper fixing wedge and a lower fixing wedge, respectively, in the front and side plates of the center plate to penetrate adjacent sack, so that a plurality of sacks disposed in front of the slope are mutually It can be integrated by connecting, and as a result there is an advantage that can improve the installation stability of the bag.

In addition, since friction projections are formed at the rear portion of the center plate inserted into the backfill soil layer, the frictional resistance between the soil and the reinforcement tonic connecting member is improved, thereby improving the installation stability of the tonic.

In addition, the water generated from the backfilling soil layer through the inlet hole is collected into the rear water collection space at the rear part of the center plate, and then the collected water is discharged through the drainage hole at the front part of the center plate to prevent the collapse of the bag. There is an advantage to that.

Figure 1a is a perspective view showing the top surface of the slope reinforcement tonic connector according to the present invention.
Figure 1b is a perspective view showing the lower surface of the inclined reinforcement tonic connector shown in Figure 1a.
Figure 2a is a perspective view showing the top surface of the inclined reinforcement tonic connector of another form according to the present invention.
Figure 2b is a perspective view showing the lower surface of the inclined reinforcement tonic connector shown in 2a.
Figure 3a is a perspective view showing a top surface of the inclined reinforcement tonic connector of another form according to the present invention.
Figure 3b is a perspective view showing the lower surface of the inclined reinforcement tonic connector shown in Figure 3a.
Figure 3c is a perspective view showing a state in which the bag is installed on the slope reinforcement tonic connector shown in Figure 3a.
FIG. 3D is a cross-sectional view illustrating a cut along the line AA ′ of FIG. 3A. FIG.
Figure 4 is a state of use of the slope reinforcement tonic connector according to the present invention.

Hereinafter, with reference to Figures 1a and 1b of the accompanying drawings an embodiment of the inclined surface reinforcement tonic connector according to the invention will be described in detail.

Figure 1a is a perspective view showing the top surface of the inclined reinforcement tonic connector according to the present invention, Figure 1b is a perspective view showing the bottom surface of the inclined surface reinforcement tonic connector shown in Figure 1a.

Slope reinforced reinforcement tonang according to the present invention is used to connect adjacent sack among the plurality of sack disposed in the horizontal and vertical direction in front of the inclined surface for reinforcing the slope, the overall shape is a 'T' shape Consists of the center plate 100 and the side plate 200.

The center plate 100 is formed to be elongated in the front-rear direction, and includes a front part 110 and a rear part 120 formed integrally with the front part 110.

The front portion 110 is a portion located between the sack (P) installed in front of the inclined surface, that is, between the stool disposed on the upper side and the stool disposed on the lower side is a portion pressed by the weight of the sack (P). The front part 110 has one or more upper fixing wedges 111 protruding from the upper surface of the front portion 110 so that the upper fixing wedges 111 penetrate through the tonal bag P adjacent to the upper side.

The upper fixing wedge 111 is configured in the form of a pointed end so that it can easily penetrate the ton (P). In more detail, the upper fixing wedge 111 is composed of an upper body (111a) and the upper cone (111b).

The upper body (111a) is formed integrally extending on the upper surface of the front portion 110 of the center plate 100, has a cross-shaped column shape is gradually narrowed toward the upper side.

The upper cone (111b) is formed to extend in the form of a cone from the upper end of the upper body (111a), the lower surface is formed wider than the upper surface of the upper body (111a). Therefore, the upper fixing wedge 111 easily penetrates into the sackcloth P when penetrating the sackcloth P adjacent to the upper portion, but the upper fixing wedge 111 penetrates the stool P into the stool P. In the situation that has already penetrated the upper fixing wedge 111 does not fall easily.

The rear part 120 is integrally formed with the front part 110 and inserted into the backfilling soil layer E formed at the rear of the ton bag P. Backfill soil layer (E) is formed by filling a large amount of soil between the inclined surface and tonality (P), and the backing layer (120) is inserted into the backfill soil layer (E). (E) to ensure that the center plate 100 is firmly fixed.

In addition, a plurality of grooves 12a and grooves formed in left and right directions are formed at upper and lower surfaces of the rear part 120 at predetermined intervals, respectively. The reason why the groove 121 is formed is to improve the frictional resistance with the earth and sand so that the rear portion 120 of the center plate 100 is not easily separated from the backfilling soil layer E.

The side plate 200 is formed integrally extending from the left end and the right end of the front portion 110 of the center plate 100 is positioned between the ton (P). That is, it is located between the sack disposed on the upper side and the sack disposed on the lower side is a portion that is pressed by the weight of the sack (P), similar to the front portion 110 of the center plate 100. One or more lower fixing wedges 210 are formed on a lower surface of the side plate material 200 so that the lower fixing wedges 210 penetrate through the tonal bag P adjacent to the lower side.

The lower fixing wedge 210 is formed in a pointed shape so that the ton (P) can be easily penetrated. In more detail, the lower fixing wedge 210 is composed of a lower body 211 and the lower cone (212).

The lower body 211 is formed integrally extending from the lower surface of the side plate material 200, and has a cross-shaped column shape whose width becomes narrower toward the lower side.

The lower cone 212 is formed to extend in the form of a cone from the lower end of the lower body 211, the upper surface is formed wider than the lower surface of the lower body 211. Therefore, the lower fixing wedge 210 easily penetrates into the sackcloth P when penetrating the stool P adjacent to the lower portion, but the lower fixing wedge 210 penetrates the stool P into the stool P. In the situation that has already penetrated the lower fixing wedge 210 does not fall easily.

In the above, the inclined surface reinforced tonic connector according to the present invention was described with reference to FIGS. 1A and 1B, and the inclined surface reinforced tonic connector according to the present invention will be described below with reference to FIGS. 2A and 2B.

Figure 2a is a perspective view showing the upper surface of the inclined reinforcement tonic connector of another form according to the present invention, Figure 2b is a perspective view showing the lower surface of the inclined surface reinforcement tonic connector shown in 2a.

Since the inclined surface reinforced tonic connector shown in FIGS. 2A and 2B is not significantly different from the inclined surface reinforced tonic connector shown in FIGS. 1A and 1B, only different parts will be described herein.

That is, the center plate material consisting of the front reinforcement torn reinforcement connecting member shown in Figures 2a and 2b also comprises a front portion 110 provided with an upper fixing wedge 111 and a rear portion 120 integrally formed with the front portion 110 ( 100 and a side plate member 200 formed integrally with the left and right ends of the center plate member 100 and having a lower fixing wedge 210 formed thereon, and the rear portion 120 of the center plate member 100 has an upper surface. Instead of the groove 121, a plurality of friction protrusions 122 are formed on the lower surface at a predetermined interval. The friction protrusion 122 is to improve the frictional resistance with the soil constituting the backfilling soil layer (E) so that the rear portion 120 of the center plate 100 is not easily separated from the backfilling soil layer (E), up and down The groove 122a having a constant angle in the direction is formed. As the groove 122a is formed in this way, the frictional resistance with the backfilled soil layer E can be further improved.

Hereinafter, with reference to Figures 3a to 3d and 4 will be described inclined surface reinforcement tonic connector according to the present invention.

Figure 3a is a perspective view showing the upper surface of the inclined reinforcement tonic connector of another form according to the present invention, Figure 3b is a perspective view showing a lower surface of the inclined reinforcement tonic connector shown in Figure 3a, Figure 3c is a slope reinforcement soil shown in Figure 3a Figure 3 is a perspective view showing a state in which the bag is installed in the sac connecting material, Figure 3d is a cross-sectional view showing a state cut along the line AA 'shown in Figure 3a.

And, Figure 4 is a state diagram used inclined reinforcement tonic connector according to the present invention.

The sloped reinforcement tonic connector shown in FIGS. 3A to 3D is not significantly different from the sloped reinforcement tonic connector shown in FIGS. 2A and 2B.

That is, the inclined surface reinforcing bag connecting member shown in Figures 3a to 3d is also formed integrally with the front portion 110 and the front portion 110 provided with the upper fixing wedge 111 and the friction protrusion 122 is provided The center plate 100 is formed of a rear portion 120 and the side plate 200 formed integrally at the left and right ends of the center plate 100 and the lower fixing wedge 210 is formed.

The center plate 100 may be configured to have the same thickness as that of the side plate 200, but is formed thicker than the side plate 200 in consideration of the back surface collecting space 123 to be described later.

The front portion 110 of the center plate 100 is formed with a plurality of drain holes 112 long in the front and rear directions.

The rear portion 120 of the center plate 100 is formed inside the rear surface collecting space 123, the rear surface collecting space 123 is in communication with the drain hole 112 of the front portion 110. . In addition, the rear part 120 of the center plate 100 is formed with a plurality of inflow holes 124.

Therefore, water (groundwater, infiltration water, etc.) generated from the backfilled soil layer E is introduced into the rear surface water collecting space 123 through the inflow hole 124 and flows into the rear surface water collecting space 123. The water is discharged to the outside of the center plate 100 through the drain hole 112 of the front portion 110.

On the other hand, the rear portion 120 of the center plate 100 is wrapped with a bag 300 made of a nonwoven fabric.

The bag 300 is treated with the rubber inlet portion to change the shape or diameter of the inlet portion. The bag 300 serves to block the inflow of the earth and sand mixed with water when the water generated from the backfilling soil layer E is introduced into the inlet hole 124 of the rear portion 120 of the center plate 100. Do it. That is, the bag 300 made of a nonwoven fabric is filtered so that the soil is not introduced into the back surface collecting space 123 formed in the rear portion 120 of the center plate 100 so that the backfilling soil layer E is weakened. To prevent that.

100: center plate 110: front portion
111: upper fixing wedge 111a: upper body
111b: upper cone 120: rear
121: groove 122: friction protrusion
122a: groove 123: rear surface collecting space
124: inlet hole 200: side plate
210: lower fixing wedge 211: lower body
212: lower cone 300: pocket
P: Tonne E: Backfill soil layer

Claims (6)

delete In the inclined surface reinforcement tonic connecting material for connecting adjacent stony among the plurality of sack disposed in the horizontal and vertical direction in front of the inclined surface for reinforcement,
The inclined surface reinforcement tonang connector is located between the ton (P) and the upper fixing wedge 111 is formed on the upper surface 110 to pass through the ton (P) adjacent to the upper side, and the front portion 110 and A center plate member 100 formed integrally with the rear part 120 inserted into the backfilling soil layer E formed at the rear of the ton bag P; It is formed integrally extending from the left and right ends of the front portion 110 of the center plate 100 is located between the ton (P), the lower fixing wedge 210 is formed on the lower surface penetrates the ton (P) adjacent to the lower side Side plate material 200; consisting of,
The rear portion 120 of the center plate 100 is a slope reinforcement tonic connecting member, characterized in that formed on the upper surface and a plurality of grooves 121 to form a predetermined interval, respectively.
In the inclined surface reinforcement tonic connecting material for connecting adjacent stony among the plurality of sack disposed in the horizontal and vertical direction in front of the inclined surface for reinforcement,
The inclined surface reinforcement tonang connector is located between the ton (P) and the upper fixing wedge 111 is formed on the upper surface 110 to pass through the ton (P) adjacent to the upper side, and the front portion 110 and A center plate member 100 formed integrally with the rear part 120 inserted into the backfilling soil layer E formed at the rear of the ton bag P; It is formed integrally extending from the left and right ends of the front portion 110 of the center plate 100 is located between the ton (P), the lower fixing wedge 210 is formed on the lower surface penetrates the ton (P) adjacent to the lower side Side plate material 200; consisting of,
The rear portion 120 of the center plate material 100 is inclined surface reinforcement tonic connecting member, characterized in that the plurality of friction projections 122 are formed on the upper surface and the lower surface protruding at a predetermined interval, respectively.
The method according to claim 3,
The front portion 110 of the center plate 100 is formed with a plurality of drain holes 112 in the front and rear direction, the rear portion 120 of the center plate 100 is a drain hole of the front portion 110 ( A back water collecting space 123 is formed therein so as to be in communication with 112, and a plurality of inflow holes 124 are provided to allow water generated from the backfill soil layer E to flow into the back water collecting space 123. Sloped reinforcement tonic connector, characterized in that formed.
The method according to claim 4,
The rear portion 120 of the center plate 100 is inclined surface reinforcement tonic connecting member, characterized in that wrapped in a bag 300 made of a non-woven fabric.
The method according to claim 2 or 3,
The upper fixing wedge 111 extends from the upper surface of the front portion 110 of the center plate material 100 in the form of a cross, the width of the upper body (111a) is narrowed toward the upper side of the upper body (111a) The lower surface extends in the form of a cone, the lower surface is composed of an upper cone (111b) wider than the upper surface of the upper body (111a),
The lower fixing wedge 210 extends from the lower surface of the side plate 200 in the form of a cross, but the lower body 211 is narrowed toward the lower side and the lower body of the lower body 211 in the form of a cone Sloped reinforcement tonic connecting member, characterized in that consisting of a lower cone (212) that extends but the upper surface is wider than the lower surface of the lower body 211.

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