KR101551487B1 - A construction method for collapse prevention of retaining wall - Google Patents

Abstract

The present invention relates to a construction method of a cut surface having earth pressure resistance, which not only obtains stability of a cut surface by a double earth pressure resistant wall, but also minimizes displacement of a finishing wall (precast concrete wall) caused by an earth pressure. The construction method of a cut surface having earth pressure resistance of the present invention stabilizes movement of a first back filler (220) by a stiffener (230), and obtains stability of a cut surface (201) by a double earth pressure resistant wall by a precast concrete wall (300) and a reinforced wall (210).

Description

Technical Field [0001] The present invention relates to a method of constructing a retaining wall,

The present invention relates to a method for constructing a retaining wall having a resistance to earth pressure in a two-stage construction. In particular, it is possible to secure the stability of a cut-off surface by using a double earth pressure resistance wall, To minimize the earthquake resistance.

In general, the construction of roads, industrial complexes, residential complexes, waterways, and embankments are accompanied by cut-off work. Cut-outs formed by cut-off work are weak in their own capacity, So that the risk of collapse due to the increase is increased.

Therefore, an anchor bolt is installed in the cutout to stabilize the ground, and when the loss of the soil is severe, the block is connected to the exposed part of the anchor bolt to finish the cutoff surface.

An example of a cut-sheet construction method is shown in Figs. This is because the soil bag 1 is sequentially stacked on the excavated slope and the backfill soil 5 is filled on the back of the soil bag 1 and the behavior of the backfill soil 5 is stabilized through the geogrid sheet 4 And it shows the construction of the earth retaining structure constructed by the construction method.

In this construction method, the soil bags 1 are horizontally arranged in close contact with each other, and then the backfill soil 5 is piled up by the height of the soil bag 1.

Then the geogrid sheet 4 is hooked on the projections 3a of the connecting plate 3 after the connecting plate 3 having the projections 3a formed on the upper and lower surfaces thereof is placed on the upper surface of the soil bag 1, As shown in FIG.

Subsequently, the soil bag 1 is placed on the upper surface of the connecting plate 3, the backing soil 5 is filled, the connecting plate 3 is placed on the upper surface, and the process of installing the geogrid sheet 4 as described above is continuously performed And build it.

The connecting plate 3 has a structure in which protrusions 3a are formed on the upper and lower surfaces of the connecting plate 3 so that the upper and lower soil bags 1 are connected to each other by the connecting plate 3, It is possible to build.

After the soil bags 1 are formed at the predetermined height as described above, the finishing plate 6, to which the fixing pins 7 are coupled as shown in Fig. 3, is fixed to the outside of the soil bags 1 Closing.

However, such a construction method has a problem that a force for forming the soil bag 1 is required and thus the air is lengthened, and a displacement occurs for each soil bag 1 according to the partial earth pressure difference of the backfill soil 5 There is a problem that the finishing plate 6 to be applied to the surface is difficult to be uniformly applied.

A method of constructing a retaining wall that improves this is disclosed in Korean Patent Laid-Open No. 10-2010-0040698 and shown in Fig.

After the treading is performed, the base plate 110 is placed on the terraced surface by using a cast concrete or precast.

The stress reducing type retaining wall member 120 is installed on the base plate 110 in a self-supporting manner. The upper surface of the base plate 110 and the back surface of the retaining wall member 120 are subjected to a tensile force The retaining wall 120 of the stress reduction type is installed.

The bending moment acting on the back surface of the wall body 120 is reduced by the tension member 130 in the stress reducing type retaining wall member 120.

Next, the primary earth 140 is filled in the back surface of the stress-reducing retaining wall 120, the service gallery 150 is installed on the upper portion of the stress-reducing retaining wall, and the secondary covering 160 is completed do.

However, since the earth pressure of the ground 100 and the earth pressure of the ground 100 integrally act, the earth pressure in the transverse direction ('a' direction) acts entirely on the retaining wall wall 120, 120 may be cracked earlier.

Since the tension member 130 is installed in an inclined state between the upper surface of the base plate 110 and the back surface of the retaining wall member 120 in spite of the installation of the tension member 130, So that a large number of tensions are required, such as the installation of a double tension member 130 as shown in Fig.

Korean Patent Publication No. 10-2010-0040698

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a retaining wall construction method having a resistance to earth pressure by a two-stage construction in which displacement of a finished wall (precast concrete wall) .

In order to accomplish the above object, according to the present invention, there is provided a retaining wall construction method,

a) cutting the ground to form a cut-off surface;

b) erecting a net-shaped reinforcing bar wall on the bottom surface away from the cut-off surface;

c) arranging a stiffener on the upper surface of the first backfill while filling a first backfill with a predetermined height between the reinforcing wall and the cut-away surface, and fixing one end of the stiffener to the reinforcing wall;

d) installing the first backfill material and the reinforcement material in a plurality of layers between the reinforcing bar wall and the cut surface by repeating the step c);

e) arranging a plurality of precast concrete walls spaced from the reinforcing wall in the lateral and longitudinal directions and standing on the ground;

f) connecting and supporting each precast concrete wall to the reinforcing wall supported by the first backfill material by the reinforcing material;

g) filling a second backfill between the precast concrete wall and the reinforcing wall,
the method comprising the steps of: (a) forming a base block to which a lowermost precast concrete wall is coupled to the ground in step (e), forming an arcuate embossed portion on the wall surface of the precast concrete facing the reinforcing wall, A triangular-shaped reinforcing bar supported on the ground and the foundation block is formed.

Also, in the method of the present invention, a plurality of traction rings are formed on the reinforcing bar wall in step f), a second traction loop is formed on each precast concrete wall,

And the pre-cast concrete walls are connected to the first and second tow rings by a turnbuckle so as to support the pre-cast concrete walls to the reinforcing wall.

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In the construction method of the present invention, the first backfill may be a site soil cut off the ground, and the second backfill may be a crushed aggregate.

In the cut-off surface construction method of the present invention, the first backfill material 220 is stabilized by the reinforcing material 230 and the pre-cast concrete wall 300 and the double earth pressure resistance So that the stability of the cut-off surface 201 can be ensured by the wall.

Second, by stabilizing the behavior of the first backfill material 220 by the reinforcing wall 210 and the reinforcing material 230, the resistance to earth pressure on the precast concrete wall 300 as a finished wall is lowered to minimize the occurrence of cracks, Thereby saving time and cost.

Third, by supporting each pre-cast concrete wall 300 with the turnbuckle 310 while adjusting the distance to the reinforcing wall 210, the pre-cast concrete walls 300 protrude at the time of construction of the second backbone material 320 .

1 to 3 are schematic views for explaining a conventional construction method,
4 is a cross-sectional view illustrating a conventional precast segment dock wall construction method,
Fig. 5 is a schematic view showing a cut-away face portion formed by the construction method of the present invention,
6A to 6F are flowcharts for explaining the construction method of the present invention,
Fig. 7 is a perspective view of a reinforcing wall applied to the construction method of the present invention. Fig.

The retaining wall construction method of the embodiment of the present invention is constructed so as to have the earth pressure resistance so as to minimize the displacement of the closed wall (pre-cast concrete wall) by the earth pressure.

The construction method of the present invention is applied to prevent the risk of collapse of the slope and the weakening of the supporting force after the cutting operation accompanied with various civil engineering works such as road construction, industrial complex and housing complex construction, waterway and embankment construction.

As shown in FIG. 6A, the retaining wall construction method of the embodiment of the present invention cuts the ground 200 to form a cut-off surface 201.

Subsequently, as shown in FIG. 6B and FIG. 7, a net-shaped reinforcing bar 210 is installed on the bottom surface 200a away from the cut-off surface 201. As shown in FIG.

At this time, a plurality of first pulling rings 205 are formed in the reinforcing wall 210 at regular intervals.

6C, the first backfill material 220 is filled with a predetermined height between the reinforcing bar wall 210 and the cut surface 201, and one end of the reinforcing material 230 formed of steel or fiber material is inserted into the reinforcing bar 230, The stiffener 230 is arranged on the upper surface of the first backfill material 220 while being fixed to the wall 210.

The first backfill material 220 is used as the cut soil.

The first backfill material 220 and the reinforcing material 230 are repeatedly formed into a plurality of layers between the reinforcing bar wall 210 and the cut-

6D and 6E, a channel-shaped base block 400 is formed on the bottom surface 200a apart from the reinforcing bar wall 210, and the base block 400 is provided with a plurality of precast concrete walls (300) are arranged in the horizontal direction and the vertical direction.

An arcuate embossing section 301 is formed on a surface of the precast concrete wall 300 facing the reinforcing bar wall 210 and a bottom surface 200a and a bottom surface 200b are formed in the lowermost precast concrete wall 300. [ A triangular-shaped reinforcing bar 302 supported by the block 400 is formed.

Referring to FIG. 6F, the precast concrete wall 300 is connected to the reinforcing wall 210 supported by the first backfill material 220 by the reinforcing material 230.

A plurality of first tow rings 205 are formed on the reinforcing bar wall 210 and a second tow ring 305 is formed on each precast concrete wall 300 to form the first and second tow rings 205 (305) to the turnbuckle (310) to support the precast concrete wall (300) to the reinforcing wall (210).

A second backfill material 320 is filled between the precast concrete wall 300 and the reinforcing bar wall 210. The second backfill material 320 may be used as a crushed stone aggregate or a site soil cut from the ground.

The cut-off surface construction method having the earth pressure resistance stabilizes the behavior of the first backfill material 220 by the reinforcing material 230 and prevents the pre-cast concrete wall 300 and the double- So that the stability of the cut-off surface 201 can be ensured.

Particularly, by stabilizing the behavior of the first backfill material 220 by the reinforcing wall 210 and the reinforcing material 230, it is possible to minimize the occurrence of cracks by reducing the earth pressure resistance to the precast concrete wall 300, Thereby saving time and cost.

The precast concrete walls 300 are spaced apart from each other by the turnbuckle 310 and supported by the reinforcing wall 210 so that the precast concrete walls 300 protrude at the time of construction of the second backfill material 320 .

200 ... Ground 201 ... Cutting surface
210 ... Rebar wall 205 ... 1st ring
220 ... first backfill material 230 ... stiffener
300 ... Precast Concrete Wall
310 ... turnbuckle 320 ... second backfill material
400 .. base block

Claims (4)

a) cutting the ground (200) to form a cut-off surface (201);
b) erecting a net-like reinforcing wall (210) on the bottom surface (200a) away from the cut-off surface (201);
c) The first backfill material 220 is filled with a predetermined height between the reinforcing bar wall 210 and the cut surface 201 and the one end of the reinforcing material 230 is fixed to the reinforcing bar wall 210 while the first backfill material Arranging a stiffener (230) on an upper surface of the stator (220);
d) installing the first backfill material 220 and the reinforcing material 230 in a plurality of layers between the reinforcing bar wall 210 and the cut surface 201 by repeating the step c);
e) arranging a plurality of precast concrete walls (300) spaced apart from the reinforcing walls (210) in the lateral and longitudinal directions and standing on the floor (200a);
f) connecting and supporting each precast concrete wall (300) to the reinforcing wall (210) supported by the first backfill material (220) by the reinforcing material (230);
g) filling a second backfill material (320) between the precast concrete wall (300) and the reinforcing wall (210)
In step e), a bottom block 200a is provided with a base block 400 to which a lowermost precast concrete wall 300 is coupled, and the pre-cast concrete wall 300, which is opposed to the reinforcing bar wall 210, And a bottom surface 200a and a triangular reinforcing base 302 supported by the foundation block 400 are formed on the lowermost precast concrete wall 300 The construction of the retaining wall with the earth pressure resistance as the two stage construction. The method as claimed in claim 1, wherein in step f), a plurality of first tow rings (205) are formed on the reinforcing wall (210), and a second tow ring (305) is formed on each precast concrete wall Therefore,
And the pre-cast concrete wall 300 is connected to the first and second traction rings 205 and 305 by a turnbuckle 310 to support the pre-cast concrete wall 300 to the reinforcing wall 210. In the second- . delete 2. The method according to claim 1, wherein the first backfill material (220) is a field sand cut on the ground (200) and the second backfill material (320) is a crushed aggregate material. Retaining wall construction method.

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