KR100663108B1 - Method for Constructing an Underground Structure Using Up-down Method - Google Patents

Abstract

The present invention improves the efficiency of construction work by constructing the earthquake construction and the structure at the same time after the excavation of the underground by using the basement structure such as the column to be built up and the slab to be built down the underground structure, the effect of shortening the air and reducing the construction cost The present invention relates to a method for constructing underground structures using an up-down earth retaining jib hole of a new configuration capable of exerting a high performance.

In the present invention, a method for constructing an underground structure by digging the ground, comprising the steps of: constructing a wall along the excavation interface; Forming a central excavation by digging a center to form a slope while maintaining an angle of repose to a position away from the wall of the earth wall; Constructing a foundation and a pillar on the bottom surface of the central excavation portion; A ground floor structure corresponding to the ground floor of the structure, and transversely supporting the ground wall structure on the top of the pillar; Excavating the sloped soil remaining in the form of a slope around the base structure and the pillar of the central drilling portion above the height of the underground one-story structure; Constructing an underground first floor structure corresponding to an underground first floor above the excavation ground and supporting an earth wall in a transverse direction; Excavating residual soil around the central excavation; And laying the concrete on the excavated bottom surface to complete the floor slab is provided an underground structure construction method comprising a step of constructing a two-story underground structure.

Dig, Climbing Wall, Underground Structure, Jibo

Description

Method for constructing an underground structure using up-down method

 1 to 7 is a schematic excavation cross-sectional view showing each step constituting the earthquake construction method of the present invention.

 8a to 8c is a schematic excavation cross-sectional view showing a construction step included in a modified embodiment of the earthquake construction method of the present invention.

<Explanation of symbols for the main parts of the drawings>

1: earth wall 2: central excavation

3: foundation structure 4: column

10: ground floor structure 11: underground basement structure

12: floor slab

The present invention relates to a method of constructing an underground structure, specifically, by using a basement structure, such as a column to be built up and a down-constructed slab of the underground structure, the earthquake construction and the construction of the structure at the same time after the excavation of the underground construction. The present invention relates to a method for constructing an underground structure using an up-down mud supporter of a new configuration that can improve efficiency and reduce air and reduce construction costs.

In general, the earthquake construction for the construction of underground structures occupies an important part of the installation of the earthquake wall to prevent the flow of soil in contact with the soil and the jibogong which supports the earthquake wall. According to the concrete construction method and the material used, there are various construction methods for earthquake. There are representative construction methods such as sheet pile method, thumb pile-earth plate method, underground continuous wall method, and columnar wall method depending on the method of installing the wall. Depending on the type of jibo ball, strut method, earth anchor method, and nailing method are considered as typical methods.

Recently, with the redevelopment and reconstruction of the downtown area, the depth of underground excavation is not very deep, about 10m, but the low-depth wide-area excavation construction sites that are more than 50m in width are increasing. In particular, in urban areas, excavation work is often performed near the adjacent land boundary to increase land utilization. Although the earth anchor method is effective for supporting the earth wall, the earth anchor method, which must penetrate the adjacent ground, cannot be applied to the low-depth wide-area excavation work in the downtown area. Therefore, the brace method using the H-beam is applied as the support, but in the case of the brace method using the H-beam, the steel consumption is enormous, which requires a lot of construction costs. There is a problem that this is low. In the case of a so-called raker method in which the prop is inclined to be modified by the prop method, the steel consumption can be reduced, but there is a problem that the risk of collapse is very high due to low mechanical stability, causing settlement of the surrounding ground.

Therefore, there is an urgent need for the development of a method for constructing underground structures that can support mud walls in a new way that is suitable for low-depth wide-area excavation works in urban areas, but also to facilitate the ease of construction, shorten the construction period and reduce construction costs. to be.

The present invention was developed to meet the demands of the industry, and can exhibit the effect of ease of construction, shortening the construction period and reducing the construction cost in the construction of the basement, new construction suitable for low-depth wide-scale excavation construction in the downtown area It is an object to provide a method.

An object of the present invention described above is a method of constructing an underground structure by breaking the ground, comprising the steps of: constructing a wall along the excavation interface; Forming a central excavation by digging a center to form a slope while maintaining an angle of repose to a position away from the wall of the earth wall; Constructing a foundation and a pillar on the bottom surface of the central excavation portion; A ground floor structure corresponding to the ground floor of the structure, and transversely supporting the ground wall structure on the top of the pillar; Excavating the sloped soil remaining in the form of a slope around the outermost base structure and the pillar of the central excavation portion more than the height of one underground structure; Constructing an underground first floor structure corresponding to an underground first floor above the excavation ground and supporting an earth wall in a transverse direction; Excavating residual soil around the central excavation; And by placing concrete on the excavated floor surface is completed by the underground structure construction method comprising the step of completing the floor slab to construct a two-story underground structure.

In the present invention, as a specific embodiment of the above construction method, prior to completing the floor slab, further comprises the step of further construction of the additional underground layer by repeating the excavation step of the residual soil around the central excavation and the construction of the basement layer structure Thereby, there is provided an underground structure construction method comprising constructing an underground structure having two or more layers underground.

In the present invention, in the above-described construction method, in constructing the ground layer structure and the basement layer structure, the ground layer structure and the basement layer structure have their periphery extending to the wall of the earth wall so as to be closed in plane with the earth wall.

In the present invention, as a specific embodiment of the above-described construction method, prior to completing the floor slab, by repeating the excavation step of the remaining soil around the central excavation and the construction step of the basement layer structure, further construction of the additional basement layer By providing an underground structure construction method comprising the construction of an underground structure having two or more floors underground.

On the other hand, in forming the central excavation, the slope is maintained only on one side of the retaining wall and the excavating wall is exposed to the opposite retaining wall without the slope, and then the subsequent construction step is carried out, the construction method of the present invention described above is the retaining wall Only one side of can be applied.

Hereinafter, with reference to the accompanying drawings will be described in each step the construction method of the underground structure of the present invention. 1 to 7 are schematic excavation cross-sectional views for explaining each step constituting the construction method of the present invention.

First, the piling wall 1 is constructed along the excavation interface as shown in FIG. 1 by injecting the piling wall pile or by using a cast-in-place concrete wall or a pile wall. In this invention, there is no restriction | limiting in the method of constructing the retaining wall 1 and the form of the retaining wall 1.

Subsequently, the center portion is excavated, and as shown in FIG. 2, the slope is maintained to a position away from the earth wall 1 by a predetermined distance, that is, near the position where the foundation structure and the pillar are installed as described below. The center is excavated to form a central excavation 2. When the excavation of the central excavation 2 is completed, the foundation 3 is constructed such as a slab foundation or an independent foundation, and the pillar 4 supporting the underground structure is constructed on the foundation 3 (FIG. 3). ). The foundation 3 may be in the form of an independent basis, as shown in the embodiment of the figure, but in some cases may also be of the form of a continuous basis. In short, in the present invention, the type of the foundation structure 3 is not limited.

When the construction of the basic structure (3) and the column (4) is completed, the ground layer structure 10 consisting of a ground layer slab or ground layer girder, etc. to form a ground layer on top thereof is constructed. At this time, the periphery of the ground layer structure 10 extends to the upper part of the retaining wall 1 so that the ground layer structure 10 and the retaining wall 1 are completely closed in a plane, and thus the ground layer structure 10 becomes the retaining wall 1. To be supported.

Next, the earth and sand around the central excavation part 2 which remained in the form of a slope is excavated. That is, as shown in FIG. 4, the sloped soil around the outermost foundation 3 and the pillar 4 is excavated to a height between one floor of the underground structure.

Subsequently, an underground one-story structure 11, such as an underground one-story slab or an underground one-layer girder, corresponding to the underground one, is constructed (FIG. 5). Like the ground layer structure 10, the basement 1 layer structure 11 is extended to the earth wall 1 to form a form in which the earth wall 1 is completely closed with the earth wall 1. As described above, in the present invention, since the first basement structure 11 functions as a supporting function of the retaining wall 1, there is no need to separately install a brace for supporting the retaining wall 1 as in the conventional case. Can reduce the steel consumption. In particular, the layer structure consisting of slabs or girders is a very rigid structure, and this high rigidity underground structure is used to support the retaining walls 1, thereby significantly improving the stability of the retaining walls 1. It becomes possible. That is, the displacement and settlement of the ground around the excavation work can be actively suppressed, and the stability of the excavation work can be significantly improved. In addition, since the construction of the underground structure can proceed simultaneously with the support work of the retaining wall 1, a significant reduction in the construction period can be obtained.

Subsequently, the residual soil around the central excavation 2 is excavated (FIG. 6), and concrete is poured into the bottom to complete the bottom slab 12 (FIG. 7). As described above, the foundation structure 3 may be installed in the form of a continuous foundation in addition to the independent foundation as shown in the drawing. When the foundation structure 3 is constructed in the form of the continuous foundation, the soil of the excavation part is exposed. By placing concrete only on the bottom surface, it is possible to simply complete the floor slab (12).

After the bottom slab 12 is completed as described above, the outer wall of the structure is constructed on the inner surface of the retaining wall 1, and other finishes are completed to complete the entire underground structure.

In the embodiment shown in the drawings exemplified a case of constructing a structure only up to the basement 2, if necessary, more basement may be constructed. That is, the excavated soil around the central excavation part 2 is excavated at the height of the construction of the underground two-story structure, and then underground, such as the underground two-story slab or the underground two-story girder, which corresponds to the two-story underground, like the underground one-story structure 11. The construction of the two-layer structure, and again repeating the excavation of the remaining soil around the central excavation (2), it is also possible to further build an additional underground layer.

On the other hand, the construction method of the present invention as described above can be modified as follows, depending on the site conditions. 8A to 8C schematically show each construction step included in the modified embodiment of the present invention. The construction steps shown in FIGS. 8A to 8C are excavation steps of the central excavation unit 2 shown in FIG. 2. The later steps are modified.

If the basement of the underground structure is relatively deep, there may be difficulties in constructing the ground layer structure 10 after the foundation structure 3 and the pillars 4 in the step of FIG. That is, since the height of the column 4 is high, it may be difficult to install the slab casting formwork for the construction of the ground layer structure (10). In this case, a construction step as shown in FIGS. 8A to 8C may be used. That is, as shown in Figure 8a, after the foundation structure (3) and pillars (4) to the central excavation (2), a part of the underground one-story structure 11 is to be constructed in advance. At this time, since there is a residual slope around the central excavation portion 2, the periphery of the basement 1 story structure 11 can not yet be closed with the retaining wall (1).

Subsequently, the ground layer structure 10 is constructed, as shown in FIG. 8B. The ground floor structure 10 can be easily installed by using a part of the construction of the basement 1 floor structure 11, so that the ground layer structure 10 can be easily installed even if the height of the column 4 is high. It becomes possible. When the ground layer structure 10 is completed, the earth and sand around the central excavation 2, that is, the outermost base structure 3 and the sloped soil around the column, can be constructed as shown in FIG. 8C. Excavation and continuous construction of the periphery of the basement 1st floor structure 11 (part shown by dashed line in FIG. 8C), which has already been installed, so that the periphery of the basement 1st floor structure 11 is closed with the retaining wall 1. By doing so, the basement 1 story structure 11 can support the earth pressure acting on the retaining wall 1. Since the subsequent construction steps are the same as those after the steps shown in FIG. 5, repeated descriptions thereof will be omitted.

In the embodiment of the present invention as described above, as an example of the basement layer structure that is partially installed before the construction of the ground layer structure 10, the basement 1 layer structure 11 is illustrated, but in some cases, the basement 2 layer structure or more It is also possible to construct a part of the basement structure in the basement in advance and use it for the construction of the ground layer structure (10). That is, for example, after installing a part of the basement 2 stories after the installation of the column 4, the ground floor structure 10 and the basement 1 floor structure (11) after the construction by the method described above in turn, the basement 2 floor structure It is also possible to complete.

Meanwhile, in the above embodiment, both sides of the excavation portion are described as supporting the ground layer structure 10 and the basement layer structure, but it may be applied only to one side of the excavation portion. That is, when the retaining wall on one side of the excavation part can be supported using an anchor or the like, the above-described construction method of the present invention can be applied only to one side of the excavation part which cannot be supported by the anchor or the like.

Specifically, in forming the central excavation portion 2 according to the construction method of the present invention, the slope is maintained only on one side of the retaining wall (1) and the retaining wall (1) without the slope on the opposite retaining wall (1) Excavate to expose. Thereafter, as described above, the foundation structure 3, the pillar 4 and the ground layer structure 10 are constructed. Subsequently, the sloped soil remaining only on one side of the retaining wall 1 is excavated above the height of one basement layer, and a basement structure is constructed. Thereafter, the remaining slopes left on only one side of the retaining wall 1 are excavated and the floor slab is constructed.

As described above, in the present invention, when one side of the wall is supported by an anchor or the like, step slope excavation according to the construction procedure of the basement layer can be performed only on one side of the wall.

As described above, in the construction method of the present invention, since the layer structure made of slab or girder having a large rigidity is used for support for supporting the retaining wall 1, the stability of the retaining wall 1 can be remarkably improved. Since there is no need for a separate support work, such as a support wall for supporting the retaining wall (1), the construction cost such as material costs, installation and dismantling costs associated with installing the support work can be reduced, as well as the construction period. In particular, since the construction of the underground structure can be carried out simultaneously with the support of the retaining wall 1, it is possible to obtain a significant reduction in the construction period.

In addition, when carrying out excavation work for removing the earth and sand around the foundation structures and pillars, the work space is large and it is easy to secure copper wire for the excavation of excavated earth and sand, and thus the construction can be carried out quickly and economically.

In general, when the foundation ground is weak, the pile foundation should be constructed. However, when constructing the support wall of the retaining wall using the prop as in the conventional technique, the pile foundation is pre-installed because there is considerable limitation in the underground work space. shall. Therefore, additional cost is generated due to the pre-installation of the pile foundation, there is a problem that the construction period is also long.

However, in the present invention, unlike the prior art, since the central portion is pre-excavated, the pile foundation can be constructed after excavation. Therefore, it is possible to reduce the additional cost according to the pre-installation of the pile foundation, there is an advantage that can ease the work as well as the reduction of construction period.

In addition, in the present invention, the underground structure is constructed downward, and the load of each layer of the underground structure can be supported by the already constructed pillars and the foundation structure, so the construction of the site-placement pile before the ground excavation required in the prior art is necessary. You will not. Therefore, in the present invention, the construction period can be reduced as compared with the prior art, and construction costs can be significantly reduced.

Therefore, the construction method according to the present invention is very suitable for the construction of the underground structure after the low depth wide excavation construction in downtown.

Claims (4)

As a method of constructing underground structures by breaking the ground, Constructing the retaining wall 1 along the excavation interface; Forming a central excavation part 2 by digging a center to form a slope while maintaining an angle of repose to a position away from the earth wall 1; Constructing the foundation structure (3) and the pillar (4) on the bottom surface of the central excavation (2); Constructing a ground layer structure (10) corresponding to the ground layer of the structure and having a periphery close to the earth wall (1) to support the earth wall (1) at the top of the column (4); Digging the slopes remaining in the form of slopes around the foundation structure (3) and the pillar (4) of the central drilling portion (2) above the height of the structure of the first basement; The basement layer 11, which corresponds to the basement layer above the excavated ground and is laterally merged with the retaining wall 1 and supports the retaining wall 1, in the space above the surface of the excavated sloped soil. Construction step; Excavating residual soil around the central excavation (2); And Underground construction method comprising the step of constructing the floor slab 12 by pouring concrete to the excavated floor surface. The method according to claim 1, wherein before the step of digging out the residual soil around the central excavation portion 2, excavating the sloped soil around the central excavation portion 2 above the height of the underground one-story structure, and the excavated slope Repeating the step of constructing the basement layer structure 11 in the space above the surface of the earth and sand to further construct the basement layer, and then the step of constructing the residual soil excavation step and the bottom slab 12 around the central excavation 2 Underground structure construction method characterized in that performed. As a method of constructing underground structures by breaking the ground, Constructing the retaining wall 1 along the excavation interface; Forming a central excavation part 2 by digging a center to form a slope while maintaining an angle of repose to a position away from the earth wall 1; Constructing the foundation structure (3) and the pillar (4) on the bottom surface of the central excavation (2); Constructing a part of the basement structure 11 corresponding to the basement 1 in the space in the central drilling part 2; Constructing a ground layer structure (10) corresponding to the ground layer of the structure and having a periphery close to the earth wall (1) to support the earth wall (1) at the top of the column (4); Digging the slopes remaining in the form of slopes around the foundation structure (3) and the pillar (4) of the central drilling portion (2) above the height of the structure of the first basement; Constructing the remaining part of the basement layer structure 11 so that the periphery of the basement layer structure 11, which was only partially constructed, is closed with the retaining wall 1 to support the retaining wall 1; Excavating residual soil around the central excavation (2); And Underground construction method comprising the step of constructing the floor slab 12 by pouring concrete to the excavated floor surface. The method of claim 1, In the step of forming the central excavation part 2, the slope is maintained only in the direction of one side wall (1) and the slope is removed in the direction of the opposite side wall (1) to excavate so that the wall (1) is exposed Underground structure construction method characterized in that to form a central excavation (2).

Images