KR20120038179A - Buttressed retaining wall with one-way bending - Google Patents

Abstract

PURPOSE: A buttressed retaining wall which can be bent in a direction is provided to cost-efficiently and easily construct the retaining wall a proper thickness regardless of the height of the retaining wall. CONSTITUTION: A buttressed retaining wall which can be bent in a direction is composed of a front wall(10) and a foundation plate(20), buttresses(30), and connection units(40). The front wall and the foundation plate receive one-way bending force. The thickness of the retaining wall is optimized by controlling a distance between the buttresses regardless of the height of the retaining wall.

Description

One-way bending retaining wall {buttressed retaining wall with one-way bending}

The present invention relates to a retaining wall that is widely used for the use of earthen screen, and in particular, to facilitate the design and construction of subwall retaining wall and to significantly improve the economics.

Retaining walls are generally used for earthquakes in civil engineering, buildings, etc., and reinforced concrete is mainly used for materials. Gravity retaining walls, which are partly resistant to strength and ensure stability only in concrete, are also used, but the conditions of use are limited. In practice, most of them are reinforced concrete retaining walls.

Reinforced concrete retaining wall is divided into inverted T-shaped retaining wall, L-shaped retaining wall, and inverted L-shaped retaining wall according to its shape.All of the structurally cantilever type is fixed to the bottom of the wall, and the moment generated as the height of the retaining wall increases The maximum values 53 and 54 also increase so that the scale of the front wall 10 and the base plate 20 becomes exponentially large. Accordingly, it is known that the economic height of the cantilever type retaining wall is about 8m.

The general cross-sectional shape of the cantilevered retaining wall is shown in FIG. 1 and the structural behavior of the cantilevered retaining wall is shown in FIG. Since the moment 51 of the front wall, the moment 52 of the base plate, and the maximum values 53 and 54 are proportional to the square of the height of the front wall, the economical efficiency decreases rapidly as the height of the retaining wall increases.

In order to compensate for the height constraint, a subwall 30 may be introduced, but the subwall retaining wall adopting the subwall has a higher height even with a relatively smaller front wall 10 and base plate 20 than cantilever type. Retaining wall can be implemented.

The general shape of the subwall retaining wall is shown in FIG. 3.

However, the sub-wall retaining wall has additional moments 61 and 62 which are not present in the cantilever retaining wall due to the sub-wall installation. This not only complicates the design and construction procedure but also requires additional reinforcing bars to resist additional moments, and the advantages of installing buttresses may not be fully realized.

The structural behavior of the subwall retaining wall is shown in FIG.

In addition to the moment 51 of the front wall and the moment 52 of the base plate, the horizontal wall 61 of the front wall and the longitudinal moment 62 of the base plate are added to the subwall retaining wall. Each base plate has a two-way bending behavior in which moments occur in two directions. This complicates the design and construction process, and the added reinforcing bars also fade away from the advantages of installing buttresses.

The one-way flexural behavior rebar arrangement concept of the cantilever type retaining wall is shown in FIG. 5, and the two-direction flexural behavior rebar arrangement concept of the subwall retaining wall is illustrated in FIG. 6.

 Reinforced soil retaining walls are also used to compensate for the shortcomings of the cantilever type retaining walls and subwall retaining walls.

The technical problem to be achieved by the present invention is to provide a retaining wall that can be applied to a high height with both economical, constructive, safety.

In order to solve the above problems, the present invention provides a subwall retaining wall, characterized in that the connecting portion 40 of the front wall 10 and the base plate 20 are separated.

The present invention provides an economical subwall retaining wall that is simple in design and construction and has an appropriate member thickness regardless of the retaining wall height.

1 shows a general cross-sectional shape of a cantilever type retaining wall,
2 shows the structural behavior of cantilevered retaining walls.
Figure 3 shows the general shape of the subwall retaining wall,
4 shows the structural behavior of the subwall retaining wall.
FIG. 5 illustrates a one-way bending behavior rebar arrangement concept of a cantilever type retaining wall.
Figure 6 illustrates the concept of two-way flexural behavior of the sub-wall retaining wall.
7 shows the structural behavior of the subwall retaining wall according to the present invention,
8 illustrates a mechanism for securing economic efficiency of a subwall retaining wall according to the present invention.
Figure 9 illustrates the concept of one-way bending behavior reinforcing bar arrangement of the sub-wall retaining wall according to the present invention.

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

FIG. 7 illustrates the structural behavior of the subwall retaining wall according to the present invention, and FIG. 8 illustrates an economical securing mechanism of the subwall retaining wall according to the present invention.

As a compensation for the horizontal moment 61 of the front wall and the longitudinal moment 62 of the base plate, which are additionally generated by installing the subwall in the cantilever type retaining wall, the subwall retaining wall according to the present invention is the moment of the front wall 51. And the moment 52 of the base plate does not occur.

To this end, the present invention provides a subwall retaining wall, characterized in that for separating the connecting portion 40 of the front wall 10 and the base plate 20.

In the subwall retaining wall in which the connection part of the front wall and the base plate is separated, there is no cantilever fixing point 50 in the cantilever type retaining wall, and thus, the moment 51 of the front wall and the moment 52 of the base plate as shown in FIG. 7. In the conventional two-way bending behavior in which two moments were generated in the front wall and the base plate, as in the cantilever type retaining wall, one-way bending in which the one-way moment was generated in the front wall and the base plate, respectively. It will change into behavior.

In other words, similar to the cantilever type retaining wall, it is changed into a simple behavior that is easy to design and construct. The one-way bending behavior rebar arrangement concept of the subwall retaining wall according to the present invention is illustrated in FIG. 9.

In addition, it will explain how to secure breakthrough economic feasibility.

In the cantilever type retaining wall and the existing subwall retaining wall, the maximum moment 53 of the front wall which determines the scale of the front wall and the maximum moment 54 of the foundation plate which determines the scale of the base plate are absolute to the height of the retaining wall. get affected. For this reason, the proper height of the cantilever type retaining wall is limited to within 8m.

However, in the sub-wall retaining wall proposed in the present invention, as shown in FIG. 8, the maximum moment 63 of the parent moment 63, the maximum moment 65 of the horizontal moment 61 of the front wall, which influences the scale of the front wall, and Both the parent moment maximum value 64 and the static moment maximum value 66 of the longitudinal moment 62 of the foundation plate, which influence the size of the foundation plate, are affected only by the distance between the subwalls.

In other words, the sub-wall retaining wall according to the present invention can be determined by adjusting the distance between the sub-walls irrespective of the height of the retaining wall, so that even in a very high retaining wall exceeding 8 m in height, the economy does not become oversized or complicated in structure behavior. It is possible to install a safe and secure reinforced concrete retaining wall.

On the other hand, in terms of the stability of the retaining wall wall to prevent the entire retaining wall structure from slipping or falling apart, the subwall type according to the present invention is not different from the connection part 40 of the front wall and the base plate. There is no difference between the retaining wall and the existing subwall retaining wall.

In addition, although the front wall and the base plate are separated, the front wall and the sub-wall, the base plate and the sub-wall are respectively connected by rigidity, so there is no problem in the overall safety of the structure.

 The above has been described with respect to some of the preferred embodiments that can be implemented by the present invention, the technical idea of the present invention can be applied to the subwall retaining wall of various shapes, even if a part of the structural member is treated by precast Since it will not change, it can be said that all fall within the scope of the present invention.

Reference Signs List 10: Front Wall 20: Base Plate 30: Wall 40: Connection between Front Wall and Base Plate
50: Cantilever fixing point generating moment of front wall and base plate
51: Moment of the front wall 52: Moment of the base plate
53: Maximum moment of front wall 54: Maximum moment of base plate
61: horizontal moment of front wall 62: longitudinal moment of base plate
63: maximum value of the parent moment of the horizontal moment of the front wall
64: maximum value of the parent moment of the longitudinal moment of the base plate
65: Maximum static moment of horizontal moment of front wall
66: Maximum static moment of longitudinal moment of base plate

Claims (1)

In the subwall retaining wall structure, the main wall member is separated from the base plate 20 so that the main structural member constituting the retaining wall has a one-way bending behavior.

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