KR100882736B1 - Unit hexagonal structure of gravity type natural stone retaining wall and construction method of natural stone retaining wall using same - Google Patents

Abstract

The present invention is a structure that allows the natural stone to act as an environmentally friendly exterior material and at the same time as a structural member of the unit hexagonal structure. The unit structure of the gravity type natural stone retaining wall is formed in a hexagonal structure based on a triangular shape to make it structurally stable. It is a structure in which the back ground pressure is not directly acted on the natural stone. It is a structure that is fully supported, and it is a configuration that increases the self-weight of gravity type natural retaining wall by filling the filling material in the continuous filling space formed by the natural stone connecting wall and the unit supporting wall.

As described above, the present invention is a useful invention in which the unit hexagonal structure is simple, so that the construction of the gravity-type natural stone retaining wall is easy, and thus economical construction is possible.

Description

A hexagon-shaped structure of retaining wall of gravity type using native rocks and method constructing retaining wall of gravity type}

The present invention relates to a technique for supporting the back soil pressure by the weight of the gravity natural stone retaining wall.

Gravity-type natural stone retaining wall is formed by unit hexagonal structure, and unit hexagonal structure is formed by large natural stone. Natural stone is a structural material of unit hexagonal structure and forms the exterior of the gravity retaining wall. The exterior of the gravity retaining wall is made of natural stone, so the exterior is natural and environmentally friendly.

Vegetation retaining wall method using natural stone is divided into cut and fill parts according to the topography and earthwork conditions of the site.

The cut section reinforces the inclined surface with rock bolts, soil nailing, earth anchors, etc. installed to secure the stability of the back ground cutting slope. In this case, the back earth pressure is a structure directly acting on the natural stone, so to support the natural stone, it is common to support by a wire connecting the natural stone and the tension member such as soil nailing, earth anchor.

Soil nailing, earth anchor, etc. can not be used in the fill. Cut is cut from top to bottom of slope, while fill is cut from bottom to top. As a result, the method of reinforcement is different in the cut and fill sections.

Representative of the natural stone support in the fill portion is shown in Figure 1a and 1b.

The method of Figure 1a is a method of resisting the passive earth pressure against the horizontal earth pressure acting on the front natural stone, Figure 1b is a method of supporting the horizontal earth pressure by the weight of the reinforced soil body.

Looking at this in more detail as follows.

1a is a structure in which natural stone directly supports the back soil pressure. Natural stone is a structural material that supports the back soil pressure. Since the rear horizontal earth pressure acting on the natural stone directly acts on the natural stone, the rear support and the natural stone are connected by reinforcing bars to reinforce the natural stone bearing capacity.

The present invention is a technique for the fill portion.

It looks at the problems of the reinforcement method of Figure 1a and Figure 1b.

1a is a structure in which the rear support supports the natural stone by reinforcing bars, but the natural stone directly supports the back ground pressure. Natural stone is a structural material that supports the back soil pressure.

In order for the rear support to firmly support the natural stone, the wider the gap, the better.

However, in the field conditions, the gap is usually narrow.

As such, when the gap is narrow, the natural support must bear the rear horizontal earth pressure because the rear support cannot perform its role properly. When the burden of natural stone becomes large, there is a problem that the natural stone is pushed forward by being pushed back by the horizontal soil pressure and structurally unstable. If severe, the slope may collapse.

Figure 1b is a reinforced earth method.

The reinforcement soil method is structurally more stable than that of FIG. 1A because the natural stone is not a structure directly supporting the horizontal soil pressure.

Since the reinforcement soil method of FIG. 1B is a structure in which the self-weight of the reinforcement soil fully supports the rear horizontal soil pressure, the natural stone is not a structural material supporting the rear horizontal soil pressure, but only an exterior material protecting the skin of the reinforced soil. Reinforced soil is a reinforced reinforcement in which the geogrid is laid and filled at regular heights.

Although the large natural stone is a member intact as a structural member, the reinforcement soil method of FIG. 1B is a method in which a reinforcement soil is separately formed to support the rear horizontal soil pressure and a natural stone which is an exterior facing material is formed separately. This method is pointed out as the problem of inefficiency of material utilization as long as natural stone is used to reinforce slopes.

In addition, the use of geogrid is inevitable to form reinforced earth. Geogrid should be laid at a certain height and laid on top of it, so there are not many products for construction.

Another problem is the uneconomical effect of geogrid laying and filling, and the installation of natural stone on reinforced soil.

The present invention has the object of making the natural stone to act as an environmentally friendly exterior material and at the same time as a structural member of the unit hexagonal structure, by connecting the unit hexagonal structure to form a gravity-type natural stone retaining wall and the back horizontal earth pressure of the gravity of the natural stone retaining wall Another purpose is to make the unit structure of gravity-type natural stone retaining wall into a hexagonal structure based on a triangular shape, and to make it structurally stable, by means of natural stone connecting wall and unit support wall. Another purpose is to form a continuous filling space and fill the filling material to increase the self-weight of the gravity-type natural stone retaining wall, and another purpose is to make the construction simple and economical by forming the unit hexagonal structure in a simple structure.

The large scale natural stone 12a of the present invention is a structural member of the unit hexagonal structure 10 that forms the gravity natural stone retaining wall 20 while being an exterior member of the gravity type natural stone retaining wall 20.

Gravity natural stone retaining wall (20) is the final result of supporting the back earth pressure, but because the unit of gravity natural stone retaining wall (20) is formed by the unit hexagonal structure 10, the technical understanding of the gravity natural stone retaining wall (20) of the present invention In order to help, the unit hexagonal structure 10 and the gravity-type natural stone retaining wall 20 will be described.

Although it is the final result to make the gravity-type natural stone retaining wall 20 to support the back earth pressure, since the gravity-type natural stone retaining wall 20 is formed by the unit hexagonal structure 10, the technical description of the gravity-type natural stone retaining wall 20 of the present invention. In order to facilitate understanding, the unit hexagonal structure 10 and the gravity-type natural stone retaining wall 20 will be described.

1) Unit hexagon structure (10)

The unit hexagonal structure 10 has a hexagonal shape.

The front two sides of the hexagon are made of two natural stones 12a, and the concrete forms two sides of the hexagon at a rear position symmetrical thereto. The height of the natural stone 12a is 1 to 2 m.

The natural stone 12a on the front two sides is firmly fixed by a fixing means 12b such as a set anchor, and the concrete on the rear two sides is manufactured without being separated.

The natural stone 12a of the two front surfaces, which are firmly fixed by the fixing means 12b, will be referred to as the unit natural stone wall 12, and the concrete of the two rear surfaces integrally manufactured will be called the unit support wall 14 Shall be.

The unit natural stone wall 12 and the unit support wall 14 are connected by a connecting member 16 such as reinforcing bars.

The unit natural stone wall 12 and the unit support wall 14 are closed by two sides, but the place where the connecting member 16 is located is open without being closed.

The unit filling space 18 is formed in the internal space of the unit hexagonal structure 10.

Both the unit natural stone wall 12 formed by the two natural stones 12a and the unit support wall 14 formed of concrete of two rear surfaces formed integrally form a triangular shape.

Since the unit forms a triangular shape, the unit natural stone wall 12 and the unit support wall 14 are structurally stable.

The unit hexagonal structure 10 is also a stable structure.

The unit hexagonal structure 10 is because the unit natural stone wall 12 and the unit support wall 14 is firmly connected to the connecting member 16.

Since the unit hexagonal structure 10 has a simple structure and a stable structure capable of self-supporting, it is easy to fill the unit filling space 18 with the filling material 26 such as earth and sand. Since the self-supporting structure does not require a separate support means, filling of the filler 26 is easy.

2) Gravity Natural Stone Retaining Wall (20)

The gravity natural stone retaining wall 20 is formed by arranging the unit hexagonal structures 10.

In the state where the unit hexagonal structure 10 is arranged, the adjacent unit natural stone walls 12 are firmly fixed and connected by fixing means 12b such as set anchors to form the front natural stone connecting wall 22. The unit support wall 14 which is symmetrical with the unit natural stone wall 12 is not connected.

In other words, the front unit natural stone wall 12 of the gravity-type natural stone retaining wall 20 is connected to each other to form a natural stone connecting wall 22, but the unit support wall 14 of the rear is not connected.

Since the gravity-type natural stone retaining wall 20 continuously connects the unit hexagonal structures 10, the unit filling spaces 18 of the unit hexagonal structures 10 also communicate with each other to form a continuous filling space 24.

When the soil is filled with the filling material 26 in the continuous filling space 24, the gravity-type natural stone retaining wall 20 is completed in the first step S1.

The second step (S2) gravity retaining wall thereon may be repeated the above process.

However, in the first step gravity-type natural stone retaining wall 20, the concrete base plate 28 is formed at the position where the unit hexagonal structure 10 is installed. In order to stabilize the installation of the unit hexagonal structure 10.

The relationship between the gravity-type natural stone retaining wall 20 and the back soil pressure is a relationship in which the back horizontal soil pressure is supported by the weight of the gravity retaining wall.

In this case, the weight of the gravity retaining wall is given by the soil filled in the continuous filling space 24. The continuous filling space 24 has a structure formed by the natural stone connecting wall 22, the unit support wall 14, and the connecting member 16.

According to the present invention, since natural stone is a structural member of a unit hexagon structure, which is a unit structure of a gravity type natural stone retaining wall, and at the same time an exterior material of a gravity type natural stone retaining wall, material utilization is not only efficient, but construction cost is economical.

The natural stone is structurally stable against the horizontal horizontal pressure because it is not a structure that directly supports the back ground pressure, but is a structure that supports the back horizontal soil pressure by the weight of the gravity retaining wall.

In particular, it is an excellent structure to prevent activity and fall against the rear horizontal soil pressure.

Since the unit structure of the gravity natural retaining wall is formed with a hexagonal structure based on a triangular shape, it is structurally stable, making it easy to install the unit hexagonal structure and to fill and stratify the filling material in the continuous filling space.

The unit hexagonal structure is stable because the unit natural stone wall and the unit support wall form a triangular shape.

Since the unit hexagonal structure is a simple structure, the installation is easy and economical construction is a useful invention.

Since the gravity-type natural stone retaining wall 20 is made of a unit hexagonal structure 10, the unit hexagonal structure 10 and the gravity-type natural stone retaining wall 20 will be described as follows.

1) Unit hexagon structure (10)

The unit hexagonal structure 10 has a unit natural stone wall 12 on the front and a unit support wall 14 on the rear and is connected by a connecting member 16.

The unit filling space 18 is formed in the unit hexagonal structure 10.

The unit natural stone wall 12 and the unit support wall 14 are structurally stable in a triangular shape.

The unit natural stone wall 12 is firmly fixed by three anchors with two natural stones 12a, and the unit support wall 14 is integrally formed with concrete.

2) Construction method of gravity type natural stone retaining wall 20 using unit hexagonal structure 10

 end. The construction method of the gravity-type natural stone retaining wall 20 using the unit hexagonal structure 10 is as follows.

  정리 cleaning the ground and installing a concrete foundation plate 28 thereon;

  (B) forming a unit hexagonal structure (10) by symmetrically placing the unit natural stone wall (12) at the front and the unit support wall (14) at the rear and connecting them with the connecting member (16);

  단위 arranging the unit hexagonal structure (10) on the concrete base plate (28);

  (B) firmly fixing unit natural stone walls 12 of adjacent unit hexagonal structures 10 to each other by fixing means 12b to form natural stone connecting walls 22;

  (B) filling the filling material 26 in the continuous filling space 24 to complete the construction of the first step S1 gravitational natural stone wall 20;

  It is a method of constructing a natural stone retaining wall using the unit hexagonal structure 10, characterized in that the gravity-type natural retaining wall 20 is built on the upper part repeatedly.

 I. If this is divided, it is as follows.

  A) unit natural stone wall (12)

   석 Two natural stones 12a are placed in the ground in the form of triangles.

   자연 The natural stone 12a is tightly fixed by the fixing means 12b (set anchor, etc.).

  B) unit support wall (14)

   The unit support wall 14 is integrally formed of concrete. For convenience of construction, the unit support wall 14 is advantageously manufactured by precast.

   The angle of the unit support wall 14 is preferably 120 °.

   The height of the unit support wall 14 may be equal to or lower than the height h of the natural stone 12a. As for a preferable height, (1 / 3-1 / 2) h is preferable. This is to facilitate the filling of the filling material 26.

  C) Connecting member (16)

   ⒜ The unit natural stone wall 12 and the unit support wall 14 are connected by the connecting member 16. The connecting member 16 is mainly used for rebar.

  D) natural stone wall (22)

   자연 The unit natural stone wall 12 of the adjacent unit hexagonal structure 10 is firmly fixed by the fixing means 12b to form one natural stone connecting wall 22.

   ⒝ In contrast, the unit support walls 14 are not connected as one but are spaced apart.

  E) continuous filling space (24)

The filling material 26 is filled in the continuous filling space 24 to complete the construction of the gravity type natural retaining wall 20.

Filler 26 is mainly used for earth and sand may be used gravel or recycled aggregates in some cases.

1A and 1B are a plan view and a cross-sectional perspective view showing a prior art

Figure 2 Plan view of unit hexagonal structure

Fig. 3 is a plan view of gravity natural stone retaining wall connecting unit hexagonal structure

Figure 4 is a front view of the gravity type natural stone retaining wall

5 is a perspective view showing the image of the gravity-type natural stone retaining wall

<Description of Major Symbols in Drawing>

10; Unit hexagon structure

12; Unit natural stone wall, 12a; Natural stone, 12b; Fastening means 14; Unit support wall, 16; Connecting member, 18; Unit fill space

20; Gravity Natural Stone Retaining Wall

22; Natural stone wall, 24; Continuous fill space, 26; Filler, d; Separation distance, 28; Concrete foundation

Claims (2)

The unit natural stone wall 12, which has two natural stones 12a firmly fixed on the front, forms a triangular shape, and the unit support wall 14, which is integrally formed in a triangular shape symmetrically with the unit natural stone wall 12, on the rear side; And a connecting member 16 connecting the unit natural stone wall 12 and the unit supporting wall 14, and the unit filling space 18 filling the filling material 26 is formed in the interior of the unit natural stone wall 12 and the unit supporting wall 14. Unit hexagonal structure (10) forming a gravity-type natural stone retaining wall (20) 정리 cleaning the ground and installing a concrete foundation plate 28 thereon; (B) forming a unit hexagonal structure (10) by symmetrically placing the unit natural stone wall (12) at the front and the unit support wall (14) at the rear and connecting them with the connecting member (16); 단위 arranging the unit hexagonal structure (10) on the concrete base plate (28); (B) firmly fixing unit natural stone walls 12 of adjacent unit hexagonal structures 10 to each other by fixing means 12b to form natural stone connecting walls 22; (B) filling up the filling material 26 in the continuous filling space 24 and compacting to complete the construction of the first step S1 gravity type natural retaining wall 20; Method of constructing natural stone retaining wall using unit hexagonal structure 10 characterized in that the gravity natural stone retaining wall 20 is built on the upper part repeatedly.

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