KR101026731B1 - Basement construction method of completed building - Google Patents

Abstract

The present invention is installed through the bottom concrete of the completed building to install the indenter on the fixed support, and by using the indenter to securely support the completed construction of a plurality of pillars formed by indenting the hollow pile in a row, the completion The underground construction method of the completed building to excavate the ground of the old building to selectively form the underground space and to form the underground space by pouring the bottom surface of the underground space into concrete,
Passing a plurality of holes and a slot in communication with the hole in the bottom floor concrete of the completed building, and inserting a support into the slot to fix the stopper protruding from the bottom of the support so as not to move under the slot; Installing an indenter on the support; After inserting the hollow pile into each of the holes, press the pile into the basement by using the indenter, and when the pile is pressed, the pile piles another pile on each of the infiltrated piles, and then sequentially presses the pile into the indenter. Press-fitting a strut supporting the building in a built basement; When the building completed by the pillars pressed into the basement is supported, digging the lower ground concrete floor to secure the underground space; And placing concrete on a horizontal plane and a vertical plane of the underground space secured by digging the lower concrete ground.

Description

Construction method of cellar for building completed}

The present invention relates to a basement construction method of a completed building that can be used to excavate the lower ground of the building while leaving the already completed building, in particular through the bottom concrete of the completed building An indenter is installed on the support, and a plurality of struts formed by indenting hollow piles in a line are used to securely support the completed building. Then, the ground of the completed building is excavated to selectively form an underground space. The present invention relates to a method for constructing a basement of a completed building that can be installed in a narrow space with low noise and low cost by constructing a basement by placing a basement floor with concrete.

Since already completed buildings, especially large buildings, are heavy, their basement supporting the structure is weak when the basement is secured by digging the lower ground. .

Therefore, even if there is no basement or there is a basement, the lack of buildings, especially large buildings that need to increase the underground parking lot had to buy a separate land or building to solve this problem, there was a realistic problem that requires a lot of purchase costs.

In order to solve this problem, recently, a method of constructing a basement has also been proposed in the case of a completed building, but since a complicated structure for supporting the building is installed under the building, the structure is complicated and the cost of installation This not only takes a lot of work, but also increases the number of work delayed air, and also has a problem that the construction cost increases due to the input of a large number of workers.

Accordingly, the present invention is to solve the problems of the basement construction method of the conventionally completed building as described above, the object is to install the indenter to the fixed support through the bottom concrete of the completed building, this indenter After the hollow piles are press-fitted in a line to secure the completed building, the excavation of the ground of the completed building is carried out to selectively form the underground space, and the base surface of the underground space is poured into concrete By forming a space, it is to provide a basement construction method of the completed building that can be constructed easily and safely.

Another object of the present invention is to provide a basement construction method of a completed building that can be built or expanded the basement of the completed building at low cost in a narrow space.

Still another object of the present invention is to provide a method for constructing a basement of a completed building that can press-fit the prop with low vibration and low noise of the completed building using a hydraulic presser.

Basement construction method of the completed building according to the present invention for achieving the above object, through the plurality of holes and the slot in communication with the hole in the bottom floor concrete of the completed building, by inserting a support inside the slot Fixing the stopper protruding from the lower part of the support so as not to be caught in the lower part of the slot;

Installing an indenter on the support;

After inserting the hollow pile into each of the holes, press the pile into the basement by using the indenter, and when the pile is pressed, the pile piles another pile on each of the infiltrated piles, and then sequentially presses the pile into the indenter. Press-fitting a strut supporting the building in a built basement;

When the building completed by the pillars pressed into the basement is supported, digging the lower ground concrete floor to secure the underground space; And

And placing concrete on the horizontal plane and the vertical plane of the underground space secured by digging the lower ground of the concrete.

The basement construction method of the completed building as described above can newly establish or expand the basement without rebuilding the completed building, thereby reducing the generation of construction waste and preventing environmental pollution as well as preventing the waste of construction materials. Can have advantages.

According to the present invention, it is possible to provide an environment-friendly working environment because noise and vibration are not issued by using a hydraulic cylinder that puts piles, and a plurality of pillars that are press-fitted to the basement of the building support the building. Since there is no need to install a complicated separate structure to support it, the labor can be reduced and construction can be done easily and safely in a short time.

In addition, the basement of the lowermost floor of the already completed building is pressed by a presser with a presser, and after removing the ground where the pile is located to form an underground space, it has the advantage that the basement can be easily constructed at low cost in a narrow space.

1 is a schematic view showing a building completed on the ground without a basement before constructing the present invention
Figure 2 is a view showing a process of pressing the file into the ground under construction using the indenter according to the present invention
3 is a view showing a state in which a support formed by injecting a pile into the ground of the completed building using the indenter according to the present invention supports the completed building;
4 is a plan view showing a state in which the pile is pressed in the building ground completed in accordance with the present invention
FIG. 5 is a view illustrating a process of digging a building underground ground completed in the state of FIG. 4; FIG.
FIG. 6 is a view of a state in which a basement ground space is prepared by digging a ground of a building that is completed in the state of FIG. 4; FIG.
FIG. 7 is a view illustrating a state in which concrete is poured into the prepared basement 1 floor of FIG. 6;
FIG. 8 is a view illustrating a process of digging the lower ground floor of FIG. 7.
FIG. 9 is a view of a state in which a basement 2 floor space is prepared by digging the lower ground floor of the basement 1 floor of FIG.
FIG. 10 is a view illustrating a state in which concrete is poured into the prepared basement 2 floor of FIG.
11 is a view showing in sequence the process of installing in the concrete of the floor of the building completed the indenter according to the present invention
12 is an exploded perspective view showing a state before installing the support according to the invention on the completed building floor surface
Figure 13 is a perspective view showing a state in which the installation completed on the floor of the building completed the support and the indenter according to the present invention
14 is a photograph of the actual construction of the present invention
15 is a construction flowchart according to the present invention

Hereinafter, with reference to the accompanying drawings will be described in detail the basement construction method of the completed building according to the present invention.

The present invention is to enable the construction or expansion of the basement in a simple and safe way when there is no basement in the already completed building or even if there is a basement lacking.

The construction method of the basement is to dig a basement of the lower part of the completed building in order to support the completed building with a plurality of pillars formed by stacking unit piles into the ground corresponding to the basement of the completed building. Multiple floors can be constructed by placing a floor in concrete to make a basement 1 floor, and then digging the ground below the basement 1 floor and then placing a floor in concrete to create a basement 2 floor.

Here, the pillars of the constructed basement become pillars connected in a line with unit piles, and the basement can be constructed up to the position where the pillars are pressed.

Referring to the basement construction method of the completed building according to the present invention in more detail as follows.

A plurality of holes (3) and the slot (4) through the hole (3) in communication with the bottom floor concrete (2) of the completed building (1), the support (5) inside the slot (4) Inserting and fixing the stopper 5a protruding from the lower portion of the support 5 so as not to be caught in the lower portion of the slot 4 (S1);

Installing an indenter (6) on the support (5) (S2);

After inserting the hollow pile 7a into the holes 3, the pile 7a is press-fitted underground using the indenter 6, and each time the pile 7a is press-fitted Stacking another pile (7a) on top of the pile (7a) and then press-fitted with the indenter (6) to press the support (7) supporting the building (1) to support the completed building (1) ( S3);

When the building (1) completed by the support (7) pressed into the basement is supported, digging the ground of the concrete (1) bottom surface to secure the underground space (S4); And

And placing concrete 8 on the horizontal and vertical surfaces of the underground space 8 secured by digging the lower concrete ground (S5).

In addition, the present invention further includes a step of covering a finishing member (not shown) on the outer circumference of the support 7 so as to beautify the appearance of the support 7 after the step of digging the ground.

Fixing the support (5) (S1) is a technology that the applicant has registered and applied for a prior patent, it is well shown in Figs.

That is, a plurality of holes 3 are penetrated so that the pile 7a can be inserted into the loading element of the bottom floor concrete 2 of the completed building 1, and the hole (3) outside the hole 3 A plurality of slots 4 are formed in communication with 3). The reason for forming the slot 4 in communication with the hole 3 in this way is that the stopper 5a formed under the support 5 by inserting the support 5 into the hole 3 and then into the slot 4. ) Is to be fixed to the bottom of the concrete (2). To this end, a guide space 10 communicating with the slot 4 is formed in the lower ground of the concrete 2 so as to accommodate the stopper 5a.

In the drawings, four slots 4 into which the support 5 is inserted are illustrated, but may be added or subtracted as necessary. As shown in FIG. 12, the diameter of the slot 4 should not be larger than the protruding size of the stopper 5a so that the stopper 5a formed at the bottom of the supporter 5 is caught in the lower end of the slot 4 and does not fall out in the vertical direction.

When the guide space 10 is formed as described above, the support 5 is inserted into each slot 4 until the stopper 5a protruding from the bottom of the support 5 is in close contact with the bottom of the concrete 2. After lifting up the support 5, the mortar 11 is cured in the slot 4 to fix the support 5 to the slot 4.

When the support 5 is fixed to the concrete 5 as described above, the presser 6 for installing the support 7 in the basement 1 of the completed building 1 by compressing the pile 7a on the upper part of the support 5. Installing step (S2) proceeds.

The indenter 6 is a well-known technique, and in the present invention, a hydraulic cylinder is used. The hydraulic cylinder is fixed to the upper portion of the support (5) and the rod is lifted by the supplied hydraulic pressure while the hollow pile (7a) inserted into the hole (3) is pressed to the lower ground of the completed building (1) post (7) )

The step (3) of pressing the pillar (7) into the ground of the completed building (1) is performed by pressing the pile (7a) in a line in each of the holes (3) previously formed in the previous step. The pile 7a used in the present invention may be a shape that can be applied to the present invention, including a hollow pipe shape or an H-Beam shape, and preferably, a hollow pipe shape is used. Since the hollow pile 7a has a hollow interior, it is light in weight and is easy to handle. Also, when the pile 7a is pushed into the basement by the indenter 6, it is blocked by rock and difficult to press to the required depth. By inserting a perforator inside the tube, the perforator can be drilled into the rock to reach the required depth.

The step (S3) of pressing the pillar will be described in detail with reference to FIG.

First, as shown in FIG. 11F, after the pile 7a is inserted into the hole 3 formed in the concrete 2, the presser 6 is driven to press the pile 7a into the ground while the rod descends. After raising the rod, the new pile 7a is also pressed onto the ground by lowering the rod of the indenter 6 again while first arranging the new pile 7a in the upper portion of the piled pile 7a. By arranging the new pile 7a in a row in order to press the pile 7a on the press-fitted pile 7a in this manner, the pillars 7 having a columnar shape are erected on the lower ground of the completed building 1.

When the indenter 6 presses the pile 7a in the process of installing the support 7, the support 5 on which the indenter 6 is mounted has the pile 7 as much as the pile 7a is press-fitted. 7a), but the support 5 is integrally formed with the concrete 2 by the mortar 11 cured with the stopper 5a formed at the lower part of the slot 4 being caught in the lower end of the slot 4. Since the molding is fixed, the indenter 6 is not pushed in the opposite direction to the pile 7a.

In this process, the indenter 6 may be press-fitted until the upper part of the pile 7a to be pressed reaches the lower part of the hole 3 formed in the concrete 2. The reason is that each pile 7a is arranged so that new piles 7a are arranged in a row on top of the pressed pile 7a so that the upper portion of the pile 7a first pressed in the lower portion does not shake when pressing the pile 7a. This is to ensure that their connection is smooth.

It is desirable to form fittings (not shown) at the ends of the piles 7a so that they can be fitted with the neighboring piles 7a smoothly.

Here, the depth of the strut 7 pressed into the ground should be inserted deeper than the underground space 8 in consideration of the pressurized strut 7 being used as a basement 12 pillar, and the strut 7 has an additional load. This action allows the tip to be inserted into the hard strata where no tip is inserted. Whether or not the strut 7 reaches the hard strata can be seen by looking at the pressure of the hydraulic gauge installed in the indenter. If the pressure is high, the strut 7 reaches the solid ground, and if the pressure is low, it is located in the soft ground. Will be shown.

If the support (7) is built in the basement of the building (1) completed in the same way as described above, the step (S4) of digging the lower ground of the building (1) completed in the next step is carried out. Digging the lower ground will be a key technique of the present invention.

That is, when the support (7) is erected to securely support the completed building (1), using a heavy equipment required for excavation, such as forklane or dozer, digging the ground gradually from the side of the building (1) as shown in FIG. 6, the underground space 8 is secured by the required area under the completed building 1 as shown in FIG. In this case, the bottom of the completed building 1 is removed from the ground as if it is floating in the air, but the piles 7a are connected in a row and firmly supported by the plurality of pillars 7 that are press-fitted.

The number of positions of the pillars 7 is preferably determined by the position and quantity of the pillars 7 according to the structure of the completed building 1, more specifically, the magnitude of the vertical load of the building 1. For example, as shown in FIG. 4, if any part of the building 1 is formed in a low floor and the vertical load is relatively light, the number of the pillars 7 in the corresponding part is small, and the other part is formed in a high floor and is loaded vertically. This relatively heavy portion of the corresponding portion of the support (7) is a large number, if the amount of the support (7) a large number between the support (7) or may be greater load capacity of one support.

In addition, the step of digging the ground (S4) is dug to the depth that the bottom surface of the pillar (7) pressed in the basement of the completed building (1) to the exposed depth, the concrete (9) in the underground space (8) formed in the process The basement 12 is constructed by pouring at least one floor.

When the basement space 8 is secured in the basement of the completed building 1 as described above, the step of placing concrete 9 in the basement space 8 to make this part the basement 12 is performed (S5). .

When the concrete 9 is placed on the horizontal and vertical planes of the secured underground space 8, the basement 12 is completed. Since the horizontal plane becomes the bottom of the basement 12, the base plane 12 is thicker than the vertical plane, and further, the lower horizontal plane. When the basement 12 is re-created and a plurality of basements 12 are formed, the horizontal plane of each floor should be considered in consideration of the load according to the purpose of use of the basement 12 so that the horizontal plane of each floor has a sufficient proof strength.

10 of the present invention shows that the basement 12 is configured in the form of a two-story basement, which is dug the ground of the completed building (1) to secure the underground space (8) of the first floor of the basement, and then the horizontal and vertical planes thereof The basement (12) to secure the basement (12) of the basement 1 basement, and when curing of the concrete (9) is completed, again excavate the lower ground of the basement (12) of the basement (12) of the basement 1 floor and underground space ( 8) to secure the horizontal and vertical surfaces of the concrete (9) to complete the basement 2 basement (12).

Therefore, according to the construction method as described above it is possible to make the basement 12 in a plurality of floors.

On the other hand, the present invention further comprises the step of covering the finishing member on the outer circumference of the support (7) to beautify the appearance of the support (7) after digging the ground (S4), the finishing material used here is known use. In this way, the strut 7 is blocked by the finishing material, and the inner wall is finished with concrete 9 so that the constructed basement 12 is as beautiful as the basement of a newly constructed building.

If the present invention constructed as described above is not vulnerable to the conditions under which the construction (1) the ground under construction is suitable for the construction of the present invention, the strut 7 pressed into the ground is in close contact with the ground around the outer surface, In addition, since the bottom is supported by the ground, even in the case of a completed building (1) such as a bulky and heavy building, the pressurized support (7) is securely supported to support the basement (12) at the bottom thereof. It is a beneficial invention.

3: hole 4: slot
5: support 5a: stopper
6: indenter 7: holding
8: underground space 9: concrete
10: Information Space 11: Mortar
12: Basement

Claims (3)

Passing a plurality of holes and a slot in communication with the hole in the bottom floor concrete of the completed building, and inserting a support into the slot to fix the stopper protruding from the bottom of the support so as not to move under the slot;
Installing an indenter on the support;
After inserting the hollow pile into each of the holes, press the pile into the basement by using the indenter, and when the pile is pressed, the pile piles another pile on each of the infiltrated piles, and then sequentially presses the pile into the indenter. Press-fitting a strut supporting the building in a built basement;
When the building completed by the pillars pressed into the basement is supported, digging the lower ground concrete floor to secure the underground space; And
And placing concrete on the horizontal and vertical surfaces of the underground space secured by digging the lower ground of the concrete.
The method of claim 1, wherein the fixing of the support unit binds a plurality of upper end portions of the support, penetrates a stopper protruding from the lower portion of the support to the concrete, and casts mortar into the slot to fix the support around the hole. Basement construction method of the completed building characterized in that.
The method of claim 1, wherein the excavation of the ground in the step of digging the bottom of the concrete to excavate to the depth of the exposed base bottom pressed into the basement of the completed building to the depth not exposed, at least one floor of concrete in the underground space formed in the process A basement construction method for completed buildings, characterized in that the construction of the basement by pouring.

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