KR102322689B1 - Ground penetration device and penetration method of concrete buildings - Google Patents

Abstract

The present invention relates to a ground penetration apparatus for a concrete building. The ground penetration apparatus comprises: a penetration spraying member comprising a penetration angle member composed of a vertical plate and an inclined plate, and a pipe member installed in the penetration angle member to spray water so that the penetration angle member penetrates the ground; and multiple concrete walls formed at the height of the building to be constructed on an upper surface of the penetration angle member. According to the present invention, concrete constructions corresponding to a basement and above-ground floors of the concrete building can be simply lowered through an excavation hole drilled along a boundary of the concrete building. In addition, it is possible to construct the basement and above-ground floors of the concrete building at the same time. Moreover, since the concrete walls can be lowered simultaneously with the lowering of the penetration spraying member and ground excavation and retaining work are not carried out, the construction period and construction cost can be greatly reduced.

Description

Ground penetration device and penetration method of concrete buildings {Ground penetration device and penetration method of concrete buildings}

The present invention relates to a ground penetration device for a concrete building and a penetration method thereof, and more particularly, to allow a concrete building corresponding to the exterior wall of a building to penetrate into the ground without excavating the ground and retaining the ground to construct the building. It relates to a ground penetration device for a concrete building and its penetration method.

In general, the foundation work of a building is the cornerstone of a concrete building. When a structure such as a building is built on the ground, the vertical load due to the weight of the concrete structure and the horizontal load applied to the structure by earthquakes and winds are transmitted to the ground. It refers to the operation of forming a workpiece to be made.

In the construction stage of general foundation work, first excavate the excavation for the foundation work, then compact the soil at the excavated point, lay rubble and vinyl on it, and then excrete reinforcing bars on it.

After that, the formwork is installed, concrete is poured into the inner side of the formwork to cure, and then the framework is carried out on it.

In particular, before the excavation work in the downtown area, the retaining work is preceded for the purpose of stabilizing the ground and blocking groundwater so that the outer wall does not collapse.

Conventional retaining construction technology embeds the H-beam in the rim portion of the section for excavation construction.

At this time, a plurality of wooden earth plates having the same height as the depth of the excavation work are inserted and fixed between the H-beam and other adjacent H-beams.

That is, first, the H-beam is buried, and then the excavation work is performed on the part where the H-beam is buried.

Thereafter, a plurality of wooden earth plates having a predetermined length between the H-beam that appears externally through the excavation work and the other adjacent H-beams are sequentially laminated and inserted as the excavation work progresses and installed.

Accordingly, it is possible to prevent the soil in the cut part from collapsing by the earth plate installed between the H-beam and other adjacent H-beams, and to prevent the inflow of groundwater in advance by performing an order grouting on the back of the retaining wall.

However, in this prior art, the basic retaining structure has a lot of driving work in which a large number of H-beams to support the earth wall from both sides are driven and fixed. This had to be done first, so there was a problem that a lot of work time was required.

That is, in the conventional basement construction of a concrete building, since the earth retaining construction is simultaneously carried out while excavating the ground by excavating the ground, there is a problem that the construction period is prolonged as well as the collapse of the surrounding buildings.

In addition, since the outer wall of the concrete building is constructed after excavation of the ground, there is a problem that it takes a long time according to the construction of the outer wall of the concrete building.

For example, Patent Document 1 below discloses 'a building wall structure and a construction method therefor'.

The wall structure according to the following Patent Document 1 drills a hole in the site boundary of the building ground where the building is to be constructed and the surrounding ground adjacent to the building ground, and then is inserted and fixed in the hole, so that one side of the outer periphery supports the surrounding ground A plurality of support pillars, and a building wall that is connected to the support pillar and serves as a retainer of the surrounding ground and a side wall of the building, and a building beam and a building slab integrally connected to the building wall.

Patent Document 2 below discloses 'an integrally coupled building module composed of a base floor plate, a column, and a wall'.

The integrally coupled building module consisting of a base deck, columns, and walls according to the following Patent Document 2 consists of a base base plate, a plurality of columns disposed on the base base plate, and a plurality of walls disposed between each column. In the integrally coupled building module to form a fastening member for maintaining a predetermined distance between the foundation floor plate and the column, the foundation floor plate and the wall, respectively, to correspond to each other, respectively. In the following, a cover plate is formed at the lower end of the column and the wall to perform a formwork function so that the concrete poured between the base floor plate and the column, the base floor plate and the wall does not leak, but the cover plate formed at the lower end of the column is two to cover the direction of

All corners and edges of the base plate are formed with a fastening member consisting of reinforcing bars or couplers and turnbuckles for fastening columns and walls. and a turnbuckle to adjust the spacing between the base plate and column, and the base plate and wall, so that the base plate, column, and wall can form one integrated building module with one concrete pour. is configured to

Korean Patent Publication No. 10-2010-0094140 Republic of Korea Patent Registration No. 10-2040229 Republic of Korea Patent Registration No. 10-2159832

SUMMARY OF THE INVENTION An object of the present invention is to solve the above problems, and to provide a ground penetration device for a concrete building and a method for penetrating the ground so that a concrete building can be constructed by penetrating the basement wall of the concrete building into the ground.

Another object of the present invention is to provide a ground penetration device for a concrete building and a penetration method thereof that allow a wall of a concrete building to be penetrated into the ground without going through processes such as excavation and retaining.

In order to achieve the above object, the ground penetration device of a concrete building according to the present invention includes a penetration angle member 110 consisting of a vertical plate 111 and an inclined plate 112, and the penetration angle member 110. a penetration injection member 100 made of a pipe member 130 installed on the penetration angle member 110 to spray water so as to penetrate into the ground; A plurality of concrete walls 210 formed at the height of the building to be constructed on the upper surface of the penetration angle member 110; characterized in that it includes.

The penetrating angle member 110 includes a vertical plate 111 that is fixed vertically, an inclined plate 112 that is installed to be inclined at a predetermined angle at the lower end of the vertical plate 111 , and the ejection of the pipe member 130 . and a plurality of pipe holes 113 formed at regular intervals in the inclined plate 112 so as to install the pipe 113 .

The pipe member 130 includes a vertical pipe 131 installed to be spaced apart from the vertical plate 111 by a predetermined distance, and a horizontal pipe 132 installed in a direction perpendicular to the lower end of the vertical pipe 131 and , The ejection pipe 133 installed at regular intervals along the longitudinal direction of the horizontal pipe 132; includes;

The ejection pipe 133 is characterized in that it is installed to protrude to the outside of the inclined plate 112 of the penetrating angle member (110).

The ground penetration device fills the excavation hole formed by excavating the ground to a predetermined width, and then the sand is raised by the high-pressure water jetted from the jet pipe 133 of the pipe member 130 and the penetration angle member 110 ) is characterized in that it is lowered.

The vertical plate 111 and the upper end of the inclined plate 112 of the penetration angle member 110 are formed at the same height, and the penetration angle member 110 is characterized in that concrete is poured.

The concrete wall 210 includes a first wall 211 corresponding to the basement; a second wall 212 corresponding to the lower basement of the first wall 211; and a third wall (213) corresponding to the lower basement of the second wall (212).

The ground penetration method of a concrete building according to the present invention comprises: a perforating step (S10) of perforating the ground to a predetermined width with a perforator along the boundary of the concrete building to be constructed; sand filling step (S20) of filling the excavation hole drilled by the perforator with sand; Installing and installing the penetration spray member 100 on the upper surface of the sand (S30); Constructing a concrete wall to a height to be constructed on the upper surface of the intrusion injection member 100 (S40); and lowering the penetration spray member 100 and the concrete wall to the ground (S50).

As described above, according to the ground penetration device for a concrete building and its penetration method according to the present invention, the concrete building corresponding to the basement of the concrete building can be simply lowered through the excavation hole drilled along the outer wall boundary of the basement of the concrete building. It is possible to obtain the effect that the concrete structure of the basement level can be built on the ground penetration device through concrete work in advance on the ground before penetration into the ground.

Since the penetration spray member and the basement floor of a building built on the ground in advance are an integral structure with a very large weight, when the high-pressure water is ejected, the sand from the bottom is easily penetrated. Accordingly, the effect of significantly reducing the construction period and construction cost is obtained.

1 is an exploded three-dimensional view showing a ground penetration device of a concrete building according to a preferred embodiment of the present invention;
2 is a three-dimensional view showing a ground penetration device of a concrete building according to a preferred embodiment of the present invention;
3 is an enlarged three-dimensional view showing a ground penetration device of a concrete building according to a preferred embodiment of the present invention;
4 is a three-dimensional view showing a ground penetration device of a concrete building according to a preferred embodiment of the present invention;
5 is a cross-sectional view showing a ground penetration device of a concrete building according to a preferred embodiment of the present invention;
6 is a plan view showing a ground penetration device of a concrete building according to a preferred embodiment of the present invention;
7 is a process diagram showing a ground penetration method of a concrete building according to a preferred embodiment of the present invention;
8 is a cross-sectional view schematically showing an excavation state so that the ground penetration device of a concrete building according to a preferred embodiment of the present invention can be penetrated;
9 is a plan view schematically showing the shape of a concrete building to be constructed by a ground penetration device according to a preferred embodiment of the present invention;
10 is a cross-sectional view schematically showing a state in which the ground penetration device is lowered according to a preferred embodiment of the present invention;
11 is a cross-sectional view schematically showing a state in which the ground penetration device and the concrete wall are lowered according to a preferred embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art can easily implement them.

However, since the description of the present invention is merely an embodiment for structural or functional description, the scope of the present invention should not be construed as being limited by the embodiment described in the text.

For example, it should be understood that the scope of the present invention includes equivalents capable of realizing the technical idea because the embodiments are capable of various changes and may have various forms.

In addition, the scope of the present invention should not be construed as being limited thereby because the object or effect presented in the present invention does not mean that a specific embodiment should include all of them or only such effects.

In the present specification, the present embodiment is provided to complete the disclosure of the present invention, and to completely inform those of ordinary skill in the art to the scope of the present invention. And the invention is only defined by the scope of the claims.

Thus, in some embodiments, well-known components, well-known operations, and well-known techniques have not been specifically described to avoid obscuring the present invention.

Hereinafter, a ground penetration device for a concrete building and a penetration method thereof according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The ground penetration device of a concrete building according to a preferred embodiment of the present invention includes a penetration angle member 110 composed of a vertical plate 111 and an inclined plate 112, and water so that the penetration angle member 110 penetrates into the ground. A penetration injection member 100 made of a pipe member 130 installed on the penetration angle member 110 so as to be able to spray, and a plurality of pieces formed at the height of the building to be constructed on the upper surface of the penetration angle member 110 Concrete wall 210 is included.

As shown in FIG. 1, the penetration injection member 100 and the concrete wall 210 are penetrated into the ground along the boundary to construct the concrete building, and the penetration injection member 100 and the concrete wall 210 are assembled at the construction site.

2 is a three-dimensional view showing the penetration injection member 100 of the ground penetration device of a concrete building according to a preferred embodiment of the present invention.

FIG. 2 shows the ground penetration device of a concrete building by arranging it in a rectangular shape, and it goes without saying that the ground penetration device may have a polygonal shape depending on the shape of the building to be constructed.

That is, FIG. 2 shows the ground penetration device as a rectangle for convenience of explanation, and the length of one side of the rectangle may be formed differently.

Figure 3 is an enlarged three-dimensional view showing the ground penetration device of a concrete building according to a preferred embodiment of the present invention, Figure 4 is a three-dimensional view showing the ground penetration device of a concrete building according to a preferred embodiment of the present invention, Figure 5 is a cross-sectional view showing a ground penetration device for a concrete building according to a preferred embodiment of the present invention, and FIG. 6 is a plan view showing a ground penetration device for a concrete building according to a preferred embodiment of the present invention.

3 to 6, in the penetration injection member 100 of the ground penetration device according to an embodiment of the present invention, the penetration angle member 110 and the penetration angle member 110 penetrating into the ground are to be descended. It consists of a pipe member 130 for spraying water so as to

The penetration angle member 110 includes a vertical plate 111 formed to a predetermined height, and an inclined plate 112 formed to be inclined at a predetermined angle with respect to the vertical plate 111 .

The penetrating angle member 110 is formed to have a length of 10 m, and of course, the length may be short or long depending on the shape of the concrete building.

In addition, the vertical plate 111 is vertically fixed, and an inclined plate 112 is installed at the lower end of the vertical plate 111 . The vertical plate 111 and the inclined plate 112 are installed to be inclined at an angle of about 20 to 70°, preferably installed at an angle of 40 to 45°.

This is to facilitate the penetration of the penetration device when the penetration of the penetration injection member 100 into the ground.

Meanwhile, the vertical plate 111 and the inclined plate 112 may be formed to a thickness of 10 mm to maintain rigidity, and the thickness of the plates 111 and 112 may be thickened or formed as needed, of course. am.

A pipe hole 113 is formed in the inclined plate 112 so that the ejection pipe 133 of the pipe member 130 can be inserted thereinto. A plurality of these pipe holes 113 are formed in the inclined plate 112 at regular intervals.

In addition, these pipe holes 113 are formed at equal intervals so that the ejection pipes 133 are arranged at equal intervals.

The pipe member 130 includes a vertical pipe 131 receiving water from the water pump 135 , a horizontal pipe 132 connected to the lower end of the vertical pipe 131 in a horizontal direction, and the horizontal pipe 132 . It consists of a jet pipe 133 installed at equal intervals in the.

The vertical pipe 131 is installed vertically between the vertical plate 111 and the inclined plate 112 , and a horizontal pipe 132 having the same diameter is connected to the lower end of the vertical pipe 131 in the horizontal direction.

In addition, the ejection pipe 133 is installed in the horizontal pipe 132 to correspond to the pipe hole (113).

The vertical pipe 131 and the horizontal pipe 132 are formed to have the same diameter, and these pipes 131 and 132 are formed to have a diameter of approximately 50 mm, and the diameters of the pipes 131 and 132 may vary as needed. Of course you can.

Meanwhile, the jet pipe 133 may have a diameter of 10 to 20 mm smaller than that of the pipes 131 and 132 so that the water supplied from the water pump 135 can be jetted at high pressure.

That is, the jet pipe 133 is formed to have a smaller diameter than the pipes 131 and 132 , so that the jet pipe 133 serves as a nozzle for jetting water at high pressure.

One end of the ejection pipe 133 is connected to the horizontal pipe 132 , and the other end of the ejection pipe 133 is installed to protrude to the outside of the pipe hole 113 .

A concrete wall 210 is installed on the upper surface of the penetration injection member 100 . The concrete wall 210 is made of a structure corresponding to the outer wall of the basement of the concrete building.

Meanwhile, the concrete wall 210 refers to the outer wall of the basement floor and the outer wall of the above-ground floor, and for convenience of description, it will be described as an outer wall corresponding to the basement floor.

The concrete wall 210 may include a first wall 211 corresponding to the first basement floor, a second wall 212 corresponding to the second basement floor, and a third wall 213 corresponding to the third basement floor. .

Of course, these walls (211, 212, 213) are to be described by way of example, and can be increased or decreased according to the height of the basement and above-ground floors of the concrete building.

Next, a penetration method of a ground penetration device of a concrete building according to a preferred embodiment of the present invention will be described with reference to FIGS. 1 to 10 .

7 is a process diagram illustrating a ground penetration method of a concrete building according to a preferred embodiment of the present invention.

7, the ground penetration method of a concrete building of the present invention includes a drilling step (S10) of drilling the ground to a predetermined width with a perforator along the boundary of the concrete building to be constructed, and perforating by the perforator A sand filling step (S20) of filling the excavated hole with sand, a step (S30) of seating and installing the penetration spray member 100 on the upper surface of the sand (S30), and the top surface of the penetration spray member 100. It includes a step of constructing a concrete wall to a height of (S40), and a step (S50) of lowering the penetrating injection member 100 and the concrete wall to the ground.

8 is a cross-sectional view schematically showing an excavation state so that the ground penetration device of a concrete building according to a preferred embodiment of the present invention can be penetrated, and FIG. 9 is a ground penetration device according to a preferred embodiment of the present invention. It is a plan view schematically showing the shape of a concrete building.

8 schematically shows a state of excavating the ground to install the ground penetration device according to an embodiment of the present invention, and FIG. 9 shows the shape of a concrete building to be constructed.

As shown in FIGS. 8 and 9 , the ground is drilled with a perforator 150 or the like according to the shape of the concrete building to be constructed. As shown in FIG. 9, the ground is perforated along the perimeter corresponding to the outer wall of the concrete building by the perforator 150 or the like (S10).

At this time, the perforation width is thicker than the thickness of the outer wall of the concrete building, and the perforation is made with a width of approximately 1,200 to 1,500 mm. This makes it easier to penetrate the ground penetration device by drilling wider than the thickness of the outer wall of the concrete building.

After the drilling is made by the perforator 150, the excavation hole 151 is filled with sand (S20).

9 is a cross-sectional view schematically showing a state in which the ground penetration device is lowered according to a preferred embodiment of the present invention, and FIG. and FIG. 11 is a cross-sectional view schematically illustrating a state in which the ground penetration device and the concrete wall are lowered according to a preferred embodiment of the present invention.

9 and 10 , the penetration injection member 100 and the concrete wall 210 are installed on the upper portion of the excavation hole 151 . As shown in FIG. 10 , the penetration injection member 100 is installed on the upper surface of the sand of the excavation hole 151 ( S30 ).

In addition, as shown in FIG. 11 , concrete walls 211 , 212 , and 213 corresponding to the basement or above-ground floors are constructed on the upper surface of the penetration injection member 100 ( S40 ).

As shown in FIG. 9, the pipe member 130 for supplying water is installed in the penetration angle member 110, and the vertical plate 111 and the inclined plate 112 have a weight in the penetration angle member 110. pour concrete until

Such a ground penetration device is installed along the outer boundary of the concrete building to be constructed, and a water pump 135 for supplying water to the pipe member 130 is installed.

At this time, water is ejected at the same water pressure in the ejection pipe 133 installed in the penetrating angle member 110 having a length of approximately 10m.

That is, by allowing water of the same pressure to be ejected from the ejection pipe 133 , the penetrating ejection member 100 is lowered while maintaining the horizontal level.

The penetration angle member 110 of the ground penetration device supplies water to the pipe member 130 by the water pump 135 in a state in which it is installed on the upper surface of the sand.

Accordingly, the water supplied from the water pump 135 is moved to the vertical pipe 131 , then to the horizontal pipe 132 , and is sprayed to the outside of the inclined plate 112 through the ejection pipe 133 .

Accordingly, as the sand filled in the drilling hole 151 is moved to the upper side of the drilling hole 151 by water pressure, the penetration angle member 110 is lowered (S50).

At this time, the penetration angle member 110 is lowered by the weight of the penetration angle member 110 and the weight of the wall 210 of the concrete building.

That is, since the ground penetration device is lowered in a state where the structure corresponding to the outer wall of the concrete building is mounted on the upper surface of the penetration angle member 110, the weight of the penetration angle member 110 is applied to the penetration angle member 110 of the concrete building.

In this way, it is possible to construct a concrete building corresponding to the basement floor by penetrating the outer wall of the concrete building into the perforated excavation hole 151 .

The invention made by the present inventors has been described in detail according to the above embodiments, but the present invention is not limited to the above embodiments and various modifications can be made without departing from the gist of the present invention.

100: penetration injection member 110: penetration angle member
111: vertical plate 112: inclined plate
113: pipe hole
130: pipe member 131: vertical pipe
132: horizontal pipe 133: ejection pipe
135: water pump
210: concrete wall 211: first wall
212: second wall 213: third wall

Claims (7)

an excavation hole for excavating the ground corresponding to the structure of a concrete building and filling the interior with sand;
a vertical plate 111 having the same configuration as that of the excavation hole and installed on the sand, the inclined plate 112 bent at 40 to 45°;
A horizontal pipe 132 that communicates with the vertical pipe 131 connected to the water pump 135 and is coupled in the longitudinal direction of the vertical plate 111, and one end is connected to the horizontal pipe 132 and the other end is an inclined plate. Doedoe spaced apart from the 112, the jet pipe 113 made of a diameter smaller than the diameter of the vertical pipe (131) and;
The ground penetration device of a concrete building, characterized in that it has a height possessed by the building and includes a concrete wall (210) composed of a plurality of walls (211 to 213) stacked on top of both the plates (111, 112). delete delete delete delete delete delete

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