KR20120093547A - Top-down construction method of basement - Google Patents

Abstract

PURPOSE: A top-down construction method of a basement is provided to prevent environmental contamination and the waste of resources caused by the new construction of a structure by constructing a basement on an existing structure. CONSTITUTION: A top-down construction method of a basement is as follows. A support unit is installed between a bearing part of an existing structure(10) and the ground(30) and supports and reinforces the existing structure. When the existing structure is supported to the ground through the support unit, a lowermost layer foundation and a floor slab of the existing structure are removed, and concrete is re-placed thereon. A space is formed by excavating the bottom of the existing structure. A basement is formed by placing concrete in the excavated portion.

Description

Top-down construction method of basement

The present invention relates to a top-down underground construction method for expanding a basement under an existing building. More specifically, the basement is safely secured by carrying out excavation and concrete placing while supporting the weight of the existing building with a plurality of piles. The present invention relates to a method of construction of a top-down underground extension that can be expanded.

The apartment type, which was first introduced to Korea in the 1960s from the Mapo apartment, solved the housing shortage caused by the rapid increase in urban population through high industrial growth and industrialization centered on the city through industrial generators in the 1970s. I came up with a solution.

Through the construction of 2 million homes and large-scale land development projects in the 1980s, it has now become a representative type of housing. In particular, multi-family housing complexes, which have been settled as housing styles that can accommodate a larger population and housing on a limited land like Korea, are expected to continue to increase in the future.

According to statistics from the National Statistical Office, apartments, excluding multi-family homes, in 2005 have already exceeded 52%. The expansion of multi-family housing has led to an increase in the number of high-density, high-rise apartments, and the proportion of outdoor space is rapidly decreasing.

On the other hand, apartments built before the 1980s, as the number of cars per household increased, the lack of parking space became a new social problem.

However, redevelopment of dismantled apartments and construction of new ones cannot be activated due to strict requirements and complicated procedures. In terms of recycling of resources, remodeling existing apartments rather than building new ones is emerging as an environmentally friendly alternative as a way to minimize environmental degradation.

Therefore, a method of increasing the parking space by expanding the basement as a way to secure the parking space without dismantling the existing building is being sought. In addition, there is a growing need to expand not only apartments, but also underground buildings such as buildings, department stores, and performance facilities.

Due to this need, the basement is secured by digging the lower ground in order to expand the basement, but the ground supporting the existing building is weak and there is a great risk of safety collapse.

In addition, in order to install the basement outside, there is a problem in that the cost of having to purchase a separate land is increased.

Therefore, the present invention has been devised to solve the above problems, the top-down underground extension to be able to prevent the safety accidents due to the collapse of the ground in the construction by performing underground extension construction to reinforce existing buildings The purpose is to provide a construction method.

In addition, an object of the present invention is to provide a top-down underground construction method that does not require a separate land cost for installing the basement because the basement can be safely installed in the basement of the existing building.

In addition, the present invention can be installed in the existing building basement to prevent waste of resources due to the construction of the building and to provide a top-down underground underground construction method that can prevent the environmental pollution caused by this in advance have.

In another aspect, the present invention provides a top-down underground construction method for underground construction by removing the lowermost foundation and floor slab of the existing building in the state of supporting the existing building and re-establishing concrete to structurally stabilize collapse. The purpose is to.

In addition, the present invention is to provide a top-down underground construction method that can be installed in the basement of the existing building and the existing building at the same time because the installation of a separate external support means between the existing building and the land boundary. .

In addition, an object of the present invention is to provide a top-down underground extension construction method for preventing the deterioration of durability of surrounding buildings because a separate external support means is installed between the existing building and the land boundary.

In addition, an object of the present invention is to provide a top-down underground extension construction method in which a support means is firmly adhered to a bearing wall of an existing building using a reinforcement pile so that the existing building is firmly supported on a support base.

In addition, an object of the present invention is to provide a top-down underground construction method for improving durability by pressurizing the reinforcement pile and the existing building using a separate indenter.

In addition, the present invention pressurizes several reinforcement piles at the same time using an indenter, so that the top-down underground construction method is characterized in that the existing building is supported at the same height at the same height than the conventional level while maintaining the horizontal level and structurally stable. The purpose is to provide.

In addition, an object of the present invention is to provide a top-down underground construction method that uses a hydraulic indenter as an indenter to prevent noise and vibration to provide an environment-friendly working environment.

In addition, an object of the present invention is to provide a top-down underground extension construction method that can be performed while monitoring the hydraulic gauge in real time through the hydraulic gauge using a hydraulic indenter to improve the construction accuracy.

The present invention reinforcement process of the existing building reinforcement to install the support means between the bearing and the hard ground of the existing building to support the existing building to reach the hard ground of the existing building; A structural stabilization process of removing the lowermost base and the bottom slab of the existing building and re-placing concrete in the state in which the existing building is supported on the hard ground by the support means; A space formation process of forming a space by excavating a lower portion of the existing building; It provides a top-down underground construction method comprising a; basement formation process of forming a basement by pouring concrete in the excavated lower portion of the existing building.

In this case, it is preferable to further include an external support structure forming process for installing a separate external support means supported on the hard ground between the existing building and the land boundary.

In addition, the existing building reinforcement process is the step of inserting the foundation perforated pile into the existing building, the step of injecting the reinforcement pile into the support base to the foundation perforated pile, in the state that the strength of the reinforcement pile and the existing building in close contact It is preferable that the step consists of supporting the existing building.

In addition, it is preferable that the indenter is used in the step of injecting the reinforcement pile to the support base and supporting the existing building.

In addition, it is preferable to operate the indenter at the same time in the step of supporting the existing building so that the existing building is supported than the conventional level while maintaining a horizontal state.

Further, the indenter is more preferably a hydraulic indenter.

As described above, the top-down underground extension construction method according to the present invention can prevent the safety accidents due to the collapse of the ground during construction by performing the underground extension construction in the state of reinforcing the existing building.

In addition, the top-down underground construction method according to the present invention can be installed in the basement of the existing building safely underground, there is no need for a separate land cost to install the basement.

In addition, the top-down underground extension construction method according to the present invention can be installed in the existing building basement can prevent the waste of resources due to the construction of the building and also prevent the environmental pollution due to this in advance.

In addition, the top-down underground extension construction method according to the present invention can prevent the collapse accident because it is structurally stabilized by removing the lowermost foundation and floor slab of the existing building in the state of supporting the existing building and re-installing the concrete.

In addition, the top-down underground extension construction method according to the present invention can be installed at the same time the basement of the existing building and the outside of the existing building because a separate external support means is installed between the existing building and the land boundary.

In addition, the top-down underground construction method according to the present invention can prevent the deterioration of durability of the surrounding buildings because a separate external support means is installed between the existing building and the land boundary.

In addition, the top-down underground extension construction method according to the present invention is reinforced so that the support means is in close contact with the bearing wall of the existing building by using the reinforcement pile, the existing building is firmly supported on the support base.

In addition, the top-down underground extension construction method according to the present invention is to improve the durability by pressing the reinforcement pile and the existing building using a separate indenter.

In addition, the top-down underground extension construction method according to the present invention pressurizes several reinforcement piles at the same time by using an indenter at the same time, while maintaining the horizontal level of the existing building at the same height than the conventional level is structurally stable.

In addition, the top-down underground extension construction method according to the present invention provides an environment-friendly working environment by preventing the noise and vibration by using a hydraulic inlet as an indenter.

In addition, the top-down underground extension construction method according to the present invention can be performed while monitoring in real time through the hydraulic gauge using a hydraulic inlet as an indenter is improved the construction accuracy.

1 is a working state diagram showing the step of inserting the foundation drilling piles in the existing building of the top-down underground extension construction method according to an embodiment of the present invention.
Figure 2 is a working state diagram showing the step of indenting the reinforcement pile of the top-down underground construction method according to an embodiment of the present invention to the support base.
Figure 3 is a working state diagram showing the step of supporting the existing building of the top-down underground extension construction method according to an embodiment of the present invention.
4 is a working state diagram showing a space forming process of digging the bottom of an existing building of the top-down underground extension construction method according to an embodiment of the present invention.
5 is a working state diagram showing the step of placing concrete on the excavated lower part of the existing building of the top-down underground extension construction method according to an embodiment of the present invention.
6 is a working state diagram of excavating the lower portion of the existing building exterior of the top-down underground construction method according to an embodiment of the present invention.
7 is a view showing a building extended by a top-down underground construction method according to an embodiment of the present invention.
8 is a flowchart illustrating a top-down underground construction method according to an embodiment of the present invention.

Hereinafter, an embodiment of the top-down underground construction method according to the present invention will be described with reference to the accompanying drawings.

In the top-down underground extension construction method according to an embodiment of the present invention, as shown in FIG. 8, by supporting means between the load-bearing portion of the existing building and the hard ground, the support means reaches the hard ground of the existing building. Existing building reinforcement process (S1) to reinforce the existing building to support, and the structure of the existing building is demolished on the lower floor foundation and floor slab of the existing building in the state supported on the hard ground by the support means and re-installed concrete Stabilization process (S2), space formation process (S3) to form a space by excavating the lower part of the existing building and basement formation process (S4) to form a basement by pouring concrete to the excavated lower part of the existing building do.

First, the existing building reinforcement process (S1) is a step of inserting the foundation perforated pile 20 into the existing building 10, and the step of indenting the reinforcement pile 22 into the foundation perforated pile 20 to the support base 30 And, it is made of the step of supporting the existing building 10 in a state in which the strength of the reinforcement pile 22 and the existing building 10 in close contact.

Inserting the foundation perforated pile into the existing building, as shown in Figure 1 by breaking a portion of the foundation of the existing building 10 to insert the foundation perforated pile (20). At this time, be careful not to break the foundation part under pressure by the weight of the existing building (10). The foundation perforated pile 20 is penetrated in the axial direction so that the reinforcement pile 22 can be inserted. Here, if necessary, an additional external support means 40 supported by the hard ground 30 between the existing building 10 and the ground boundary line may be installed. At this time, the external support means 40 may drive the reinforcement pile 22 using a pile hammer 42 or the like.

Next, the step of press-fitting the reinforcement pile to the support base to the foundation perforation pile is inserted into the foundation perforation pile 20 as shown in FIG. 2 and then using the indenter 60 to reinforce the pile 22. ) Is pressed into the basement. At this time, since the indenter 50 is stretched between the tip of the reinforcement pile 22 and the bearing portion, the reinforcement pile 22 is press-fitted by using the reaction force caused by the weight of the existing building 10.

Next, the step of supporting the existing building, as shown in Figure 3, when the strength of the reinforcement pile 22 and the existing building 10 is in close contact with the indenter 50 at the same time operating the existing building (10) It is a step to be supported. At this time, the indenter 50 should be operated at the same time so that the existing building 60 can be maintained in a horizontal state without falling. In addition, the indenter 50 is preferably used to control the pressure or level of the existing building precisely.

The structural stabilization process (S2) is to remove the base and the bottom slab of the lower floor of the existing building 10 in the state in which the existing building 10 is supported on the hard ground by the support means to re-pour concrete It is a process. Here, the self-weight of the superstructure is supported by a plurality of reinforcement piles 22, but the lowermost base and the bottom slab of the existing building are on the soil before the underground expansion but become a slab floating after the underground expansion. In this way, when the foundation and the floor slab is floating, the structures such as the reinforcement of the reinforcing bars and the reinforcing bars are different, so the foundation and the floor slab of the lowermost floor of the existing building are removed and the concrete is re-installed. In particular, since the floor slab securely supports the cast-in-place pile or the basement wall outside the basement floor, it is essential to recast the concrete for safe excavation.

Next, the space forming process S3 removes the earth and sand from the lower portion of the existing building 10 using the excavator 60 as shown in FIG. 4 to form an underground space. At this time, the cast-in-place earth wall, basement outer wall is excavated underground, supported by the first-floor floor concrete of the existing building (10). Of course, the first floor concrete can be used as a work space.

Next, the basement forming process (S4) is a step of forming a basement (B) by placing concrete in columns or walls of the basement space when the underground space is formed through the space forming process in FIG. 5.

After pouring concrete and curing as described above, when the first floor of the basement (B) is completed, as shown in FIG. 6, the soil of the lower part of the existing building 10 is removed by using the excavator 60 again, and then the basement (B). Form two layers. At this time, the floor of the basement (B) the first floor of the concrete can be used to form a floor to use as a work space, of course. In this way, after placing concrete on the floor, the basement is expanded by a top-down method in which the lower part is excavated and the lower layer concrete is poured.

Repeat the process of forming the underground space and placing concrete to form the basement as described above to extend the basement (B) to the required layer up to the upper part of the support base 30 as shown in FIG. can do.

10: existing building 20: foundation perforated pile
22: reinforcement pile 30: hard ground
40: external support means 42: pile hammer
50: indenter 60: excavator
B: basement

Claims (6)

An existing building reinforcement process for installing the supporting means between the bearing portion of the existing building and the hard ground to reinforce the supporting means so as to reach the hard ground of the existing building to support the existing building;
A structural stabilization process of removing the lowermost base and the bottom slab of the existing building and re-placing concrete in the state in which the existing building is supported on the hard ground by the support means;
A space formation process of forming a space by excavating a lower portion of the existing building;
A basement forming process of forming a basement by pouring concrete on an excavated lower portion of the existing building;
Top-down underground extension construction method comprising a.
The method according to claim 1,
Top-down underground construction method further comprising the step of forming an external support structure for installing a separate external support means supported on hard ground between the existing building and the ground boundary line.
The method according to claim 1 or 2,
The reinforcing process of the existing building includes inserting the foundation perforated pile into the existing building, press-fitting the reinforcement pile to the support base to the foundation perforated pile, and in the state where the strength of the reinforcement pile and the existing building is in close contact with the existing building. Top-down underground construction method comprising the steps of supporting the building.
The method according to claim 3,
Top-down underground extension construction method characterized in that the indenter is used in the step of pressing the reinforcement pile up to the support base and supporting the existing building.
The method of claim 4,
Top-down underground construction method characterized in that to operate the indenter at the same time in the step of supporting the existing building to maintain the existing building than the conventional level while maintaining a horizontal state.
The method of claim 4,
The indenter is a top-down underground construction method, characterized in that the hydraulic indenter.

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