KR100444838B1 - A fiber reinforced earth retaining wall, a constructing method thereof, and a composite underground wall structure using thereof - Google Patents

Abstract

The present invention relates to an earthquake structure that can be used to construct a subterranean outer wall structure economically by synthesizing the earthquake structure with a subterranean outer wall of a building, a construction method thereof, and a composite subterranean outer wall structure using the same.

In the present invention, as an earth block structure to support the load from the surrounding ground during underground excavation, one side of the flange vertically inserted into the ground toward the basement outer wall of the underground building is provided with a connector for connection with the concrete of the building outer wall Thumb piles made of H-shaped steel, and reinforcing fibers are mixed, and the fiber reinforced soil cement or concrete that is poured to a predetermined thickness on the outer wall of the underground building so as to surround the thumb piles and fill the gap between the thumb piles, and the fiber reinforced soil cement Or reinforcing the strength of the building's basement outer wall by combining it with the basement outer wall of the building by including a reinforcing bar embedded over the soil cement and the concrete of the building's basement outer wall for connection between concrete and the concrete of the building's basement outer wall. Characteristic earthquake A structure is provided.

According to the present invention, by temporarily installing a temporary earthquake structure for the construction of the underground structure of the building and using it once as a part of the permanent structure, which was demolished or buried, as a part of the permanent structure, it is possible to use limited resources more efficiently and reduce construction costs. You can do it. In addition, it is possible to reduce the thickness of the outer wall of the basement to secure a wider underground space, and to reduce the amount of construction waste materials, thereby enabling environmentally friendly construction.

Description

Fiber reinforced earth retaining wall, a construction method method, and a composite underground wall structure using

The present invention relates to an earthquake structure, a construction method thereof, and a composite basement outer wall structure using the same, and specifically, by introducing a high-performance reinforcing fiber to a temporary earthquake structure and synthesizing it with the basement outer wall of the building, it is economical The present invention relates to an earthquake barrier structure for constructing an underground outer wall structure, a construction method thereof, and a composite underground outer wall structure using the same.

In recent years, as urban buildings become larger and more tall, many underground spaces are needed for the stability of the buildings and for securing parking spaces and the construction of underground shopping malls. It is becoming larger and larger. In underground excavation work to build large architectural underground structures in limited spaces in urban areas, the stability of the surrounding ground should be the top priority.

In general, the construction of the earthenware occupies a very high proportion of the construction cost of the entire building, and the importance of the earthen construction in the construction of underground structures of large buildings in the urban area in a limited space is so important that the success of the entire construction is determined. . Therefore, it is very important to determine which construction method is to be adopted when establishing the construction plan of the building.

Generally, there is a method of using a temporary block structure and a method of constructing an underground structure in parallel with the gulting construction, while the main structure of the building serves as a wall of walls supporting the load from the surrounding ground such as earth pressure and water pressure. .

In the method using the temporary cladding structure, civil complaints may be caused from around the construction site due to the noise generated when installing the cladding structure, deformation of the surrounding ground, etc., and the risk of collapse of the retaining structure itself due to the stability problem of the surrounding ground is eliminated. Can not. In fact, many cases of earthquake structures collapsed due to the load from the surrounding ground, and many cases have been reported that civil construction has been suspended due to the deformation of the surrounding ground and construction has been stopped or many complaints have been compensated. However, due to the advantage that it can be easily constructed, the earthquake structure that is used only as a temporary earthquake use in underground excavation is still used a lot.

Conventional clamshell structures include structures consisting of H-beams and wood earthen boards interposed therebetween, cast-in-place concrete walls (CIPs), soil cement walls (SCW), and the like. . The type of supporting wall is supported by using a temporary strut, the type using ground anchor, soil nailing, rock bolt, and so on. There is a type supported by the top-down method.

In recent years, as shown in Figure 3, as shown in Figure 3, the soil cement to insert the thumb pile 101 made of H-beams on the side of the basement outer wall 104 of the building in the ground and cover the thumb pile 101 (Soil Cement) or concrete 102 is used to form a cement cement heating wall or concrete wall 100 by pouring.

However, in the conventional structure such as the above, H-beam and soil cement or concrete are merely used as a temporary material to support the load from the surrounding ground at the time of excavation, and it is not considered as part of the actual building. It is the present situation that afterwards it will die and become useless. This, in turn, wastes a lot of resources and increases construction costs.

In view of the lack of resources in Korea and the need to improve the competitiveness of the domestic construction industry, H-beams and soil cement or concrete of earthquake structures, which are used only for gulting construction and are not considered as actual structures, are useful. There is an urgent need for technology development.

The present invention overcomes the limitations of the conventional masonry structure as described above, by actively utilizing the H-beam and soil cement or concrete of the masonry structure as part of the building underground structure to prevent waste of resources and reduce city parks It aims to provide a new type of earthquake structure that can shorten the air, its construction method, and composite underground wall structure using the same.

1 is a plan view for showing a state in which the earthquake structure according to the present invention is constructed by being constructed with the basement outer wall of the building,

Figure 2 is a cross-sectional perspective view showing the side cross-section of the earthen structure according to the present invention is constructed by combining with the basement outer wall of the building,

3 is a plan view showing a state in which the conventional temporary earthquake structure is installed on the side of the basement outer wall of the building.

* Description of the symbols for the main parts of the drawings *

1 Thumb pile 2 Fiber reinforced soil Cement or concrete

3 connectors 4 connecting rebar

5 Underground wall of the building 6 Horizontal rebar

7 vertical rebar 10 retaining structure

In order to achieve the above object, in the present invention, as an earth block structure for supporting the load from the surrounding ground during underground pit excavation, one side of the flange vertically inserted into the ground toward the basement outer wall of the underground building and the concrete of the outer wall of the building Thumb pile made of H-shaped steel with connector for connection, and high-performance reinforcing fiber is mixed, and the fiber reinforcement soil is placed to the outside of the basement outer wall of the underground building to fill the gap between the pile and the thumb pile In order to connect cement or concrete with the fiber reinforced soil cement or concrete and the building's basement outer wall, the fiber reinforced soil cement or concrete and the connecting iron embedded in the concrete of the building's basement outer wall are embedded to form a composite with the basement outer wall of the building. Building underworld The retaining structure, characterized in that to reinforce the strength of the wall is provided.

The connector of the thumb pile is made of a stud bolt or other similar hardware integrally attached to one side of the flange, and the connector is embedded in the concrete of the outer wall of the building so that the thumb pile and the outer wall of the building are firmly coupled. .

In addition, in the present invention, the earth block structure that supports the load from the surrounding ground during underground excavation, the connector is inserted into the ground vertically to one side of the flange toward the basement outer wall of the building connector for connection with the concrete of the outer wall of the building H-shaped steel thumb pile and reinforcing fiber are mixed, and the fiber reinforced soil cement or concrete which is poured to a predetermined thickness outside the basement outer wall of the building so as to surround the thumb pile and fill the gap between the thumb pile, and the fiber reinforced soil cement Or a connection hardware embedded between the soil cement and the concrete of the building basement outer wall for connection between concrete and the concrete of the building basement outer wall, and the thumb pile on the concrete of the building basement outer wall which is constructed in contact with the earthenware structure. Is provided on the flange of Connector and the connection hardware is embedded has become the outer wall of the concrete structure and the retaining structure is provided with a composite structure with an outer wall underground earth retaining structures, it characterized in that the firmly bonded to each other.

Next, a detailed configuration of the present invention will be described with reference to the drawings schematically showing an embodiment of the present invention.

1 is a plan view showing a state in which a fiber reinforced temporary earthquake structure 10 according to the present invention is constructed by being synthesized on the basement outer wall 5 of a building, and FIG. 2 is a cross-sectional perspective view showing a sectional side view. .

As shown in Fig. 1 and Fig. 2, the H-beam forming the thumb pile 1 is inserted vertically into the ground. On one side of the flange of the thumb pile 1, the connector 3 is mounted in the direction of the building's basement outer wall. As an example of the connector 3, a general stud bolt may be used. However, the connector 3 is not necessarily limited to the stud bolt, but may also be composed of other hardware such as a shear key having an equivalent function. The connector 3 is later embedded in the concrete when the concrete basement wall 5 is poured so that the thumb pile 1 is firmly connected to the basement wall 5 of the building.

Around the thumb pile 1, a fiber-reinforced soil cement or concrete 2 in which reinforcing fibers are mixed is poured to a predetermined thickness so as to surround the thumb pile 1. Of course, in the area between the thumb pile 1 and the thumb pile is also reinforced fiber cement or concrete (2) in a predetermined thickness. In general, as shown in the figure, fiber reinforced soil cement or concrete 2 is formed by pouring a column having a predetermined diameter in a continuous shape, but is not necessarily limited thereto.

Fibers incorporated into the fiber reinforced soil cement or concrete 2 include, but are not limited to, steel fibers, glass fibers, and the like. In the present invention, by reinforcing the fibers in the soil cement or concrete (2) can improve the tensile strength by about 3 to 7 times compared to the earth structure using the soil cement without reinforcing fibers, the compressive strength is also about 1.2 to 1.7 times The improved effect can be exhibited. Flexural strength is also improved by about 2 to 3 times. The strength improvement effect varies somewhat depending on the type and amount of fiber used and the strength of the fiber, and the type, amount and strength of the fiber used are determined in consideration of the site mix design according to the required design strength and site classic Fiber mixing rate can be used up to 0.1 to 2.0%.

In the present invention, a plurality of connecting hardware (4) is provided in the soil cement or concrete (2) for the synthesis by the firm coupling of the main heat wall consisting of the soil cement wall or concrete (2) and the building basement outer wall (5) It is provided integrally. The connecting hardware 4 may be used to transfer the shear force, such as anchor bolts, rebar, angle, etc. according to the shear strength required between the main heat wall and the basement outer wall (5) of the soil cement or concrete (2). As shown in the figure, one end of the connecting hardware 4 is embedded in the fiber reinforced soil cement or concrete 2 and integrated with the soil cement or concrete 2, the other end of which is later By embedding in the concrete of the outer wall (5) so that the soil cement or concrete (2) and the basement outer wall (5) of the building is firmly coupled. In the drawings, the member numbers 6 and 7 are horizontal reinforcement 6 and vertical reinforcement 7 provided in the basement outer wall 5 of the building, respectively.

As described above, in the masonry structure 10 of the present invention, the thumb pile 1 and the fiber-reinforced soil cement or concrete 2 of the masonry structure are firmly connected to the basement outer wall 5 of the building, and thus the basement outer wall of the building 5. In addition, it is not only a function of the temporary structure at the time of excavation, but also a function of reinforcing the strength of the basement outer wall 5 of the building. Therefore, when designing the basement outer wall 5 of the building can be considered without ignoring the strength of the retaining structure 10, it is possible to reduce the thickness of the basement outer wall 5 of the building by that much. Depending on the design, the thickness of the basement outer wall 5 of the building may be reduced by about 40-50%.

Next will be described the construction method of the earth retaining structure according to the present invention. First, the soil is drilled and stirred with an ogre while injecting cement milk or concrete containing reinforcing fibers. The thumb pile 1 of the H-beam is accurately inserted in the stirred soil cement or concrete according to the reference point. Continuous construction of the above process to form the main heat wall of fiber reinforced soil cement or concrete. During the excavation, some cement or concrete is removed and the H-shape flange face of the thumb pile 1 is exposed. Attach the connector (3) to one side of the exposed H-shaped flange face. In addition, the connecting hardware (4) is installed in the soil cement or concrete so that it can be buried over the concrete of the soil cement or concrete (2) and the building's basement outer wall (5). The vertical and horizontal roots of the building's basement outer wall (5) are removed, and after the formwork is installed, concrete is poured to construct the building's basement outer wall (5). Through the above process, the connector 3 of the H-shape flange face of the thumb pile 1 and the connecting hardware 4 in which one side is embedded in soil cement or concrete are embedded in the concrete of the basement wall 5 of the building. 10 and building basement outer wall 5 are firmly synthesized. The same process can be applied to other cladding structures, such as on-site pour walls.

Although the preferred embodiments of the present invention have been described above, those skilled in the art will appreciate that the present invention can be modified or modified in various ways. Therefore, changes of the embodiments of the present invention will not be able to escape the technical scope of the present invention.

As described above, according to the present invention, the thumb pile steel (1) and the soil cement wall or concrete wall (2) of the masonry structure is firmly connected to the basement outer wall (5) of the building, the basement outer wall (5) of the building In addition, it is not only a function of the temporary structure at the time of excavation, but also a function of reinforcing the strength of the basement outer wall 5 of the building. Therefore, when designing the basement outer wall 5 of the building can be considered as the building underground structure without ignoring the strength and strength of the retaining structure 10, it is possible to reduce the thickness of the basement outer wall 5 of the building by that much. .

In addition, according to the present invention, after the temporary installation for the underground structure of the underground structure of the building to be used after the demolition or landfill structure will be used as part of the permanent structure. That is, it is possible to efficiently utilize the limited resources by reflecting the strength and strength of the earthquake structure, which was not conventionally considered in the design of the underground structure, in the design of the building's basement exterior wall, thereby reducing the thickness of the building's basement exterior wall. As a result, a wider underground space can be secured, thereby increasing the effective area of underground space (2 ~ 5%), reducing the generation of construction waste, enabling eco-friendly construction, and reducing construction costs by reducing air. The competitiveness of the industry can be enhanced.

Claims (4)

As an earth block structure that supports the load from the surrounding ground during underground excavation, Thumb pile (1) made of H-shaped steel, which is vertically inserted into the ground and is provided with a connector (3) on one side of the flange facing the basement outer wall (5) of the underground building to be connected to the concrete of the basement wall (5) of the building and, Soil cement wall (2) which is cast with a predetermined thickness on the outer wall of the underground building to surround the thumb pile (1) and to fill between the thumb pile (1), In order to connect the soil cement wall (2) and the concrete of the building basement outer wall (5) including a connection hardware (4) buried over the concrete of the soil cement wall (2) and building basement outer wall (5) Is composed, The connector 3 of the thumb pile 1 is buried in the basement outer wall 5 of the building and is integrally attached to one side of the flange so as to firmly couple the thumb pile 1 and the basement outer wall 5 of the building. Done, The soil cement (2) is the earth structure, characterized in that composed of fiber reinforced soil cement containing the reinforcing fibers. delete As the construction method of the earth block structure to support the load from the surrounding ground during underground excavation, the H-shaped steel (1) made of H-beams is installed vertically in the ground, and the H-beams facing the underground outer wall (5) of the building. Soil cement (2) consisting of fiber-reinforced soil cement containing the reinforcing fibers and integrally installing the connector (3) integrally connected to the concrete of the building's basement outer wall (5) on one side of the flange Fiber reinforced soil cement containing reinforcing fibers after being positioned so that the connecting hardware (4) can be embedded over the concrete of the soil cement (2) and the building's basement outer wall (5) for connection with the concrete of (5). Soil cement (2) consisting of the earthwork structure construction method characterized in that it is poured so as to surround the thumb pile (1) and fill between the thumb pile (1). The earth block structure that supports the load from the surrounding ground during underground pit excavation is inserted into the ground vertically, and on one side of the flange facing the underground outer wall 5 of the building, a connector for connection with the concrete of the building underground outer wall 5 is formed. 3) is provided with a thumb pile (1) made of H-shaped steel, and the cement cemented to a predetermined thickness on the basement outer wall (5) of the building so as to surround the thumb pile (1) and fill between the thumb pile (1) 2) and the connecting hardware (4) buried over the concrete of the soil cement (2) and the building basement outer wall (5) for the connection between the soil cement (2) and the concrete of the building basement outer wall (5) And the connector 3 and the connecting hardware 4 provided in the flange of the thumb pile 1 are embedded in the concrete of the building basement outer wall 5 which is constructed in contact with the earth structure. The water and the concrete structure of the underground external wall (5) are firmly bonded to each other; Said soil cement (2) is a synthetic underground outer wall structure using the earth block structure, characterized in that composed of fiber reinforced soil cement containing reinforcing fibers.