KR101975297B1 - Multi-wall construction method using multi-wall construction supporting files and supporting files used for construction of harbors, rivers, dams and concrete that can prevent the inflow of soil and water - Google Patents

Abstract

The present invention relates to a method for constructing a port, a river, a dam, and a concrete building for constructing a port, a river, a dam, and a concrete building to prevent the infiltration of soil and water, The present invention relates to a wall construction method and a building structure using the multiwalled structure, wherein a groove 20 for inserting an inner plate into which the inner plate 11 of the support pile 10 is inserted is perforated (S100) for inserting an inner plate for inserting the outer plate (12) of the support pile (10) into a construction site (S200) of drilling a hole for inserting an outer plate, which is perforated around the outer circumferential plate insertion groove (20) at a predetermined interval, When the drilling operation of the inner circumference plate insertion groove 20 and the outer plate insertion groove 30 is completed, the inner plate 11 of the support pile is positioned in the inner plate insertion groove 20 Forming mold 40 in which the outer plate 12 of the support file 10 on the other side is positioned in the groove 30 for inserting the outer plate and then the support file is fixed to form the mold 40 A waterproof sheet insertion step (S400) for inserting a waterproof sheet (50) capable of ensuring watertightness into the mold (40) formed by the support pile (10) A three-dimensional reinforcing structure (70) having the same or similar size as the standard of the formwork (40) is inserted and fixed so as to ensure the rigidity of any one selected from concrete or grout placed in the formwork Reinforcing bar A filler filling step (S600) for filling and filling any one filler (60) selected from concrete or grout after the water fixing step (S500) and fixing the three-dimensional reinforcing structure (70) (S700) for curing for a certain period of time after the filling of the supporting wall (80) and the supporting file (10) fixed to the outer surface of the multiwalled body (80) (S800) for performing a surrounding process for the subsequent process after the process of drawing the substrate 10 is completed.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multi-wall construction supporting file for supporting multi-wall construction for use in harbor, river, dam, and supporting files used for construction of harbors, rivers, dams and concrete that can prevent the inflow of soil and water}

The present invention relates to a multi-wall construction method using multi-wall construction supporting files and supporting files used for construction of harbors, rivers, dams and concrete that can prevent the inflow of soil and water, and more particularly, For the construction of multi-walled structures used for construction of harbors, rivers, dams and concrete buildings that can prevent the infiltration of soil and water, The present invention relates to a multiwall construction method using a file and its supporting file.

Generally, as a method to maintain the stability of the adjacent ground through the dismantling, settlement prevention and displacement suppression of the back surface of excavation during the excavation work for the construction of concrete structures in civil engineering and construction sites, In the case of urban densely populated areas, the demand for the settlement or collapse of the ground due to the excavation of the ground and the stability of the surrounding buildings is rising as the close construction with the existing building becomes frequent, Is increasing.

This construction method is classified into a toe wall method and a toe wall supporting method. Among them, the toe wall method which is especially suitable for the construction work in the downtown is to prevent the ground collapse and to prevent the leakage of the soil due to the deterioration of the groundwater level The displacement of the ground and the settlement of adjacent buildings can be minimized.

As described above, the continuous wall construction method such as the soil cement wall construction method (S.C.W construction method) and the on-site concrete pile construction method (C.I.P construction method) is mainly used for the construction method of the ground wall used for the construction of the urban area.

In addition, the dam construction is installed to prevent intrusion of outside water by surrounding the construction area when installing work structures such as dams, seawalls, hydrants and bridges in rivers and oceans. In general, A file method, a caisson method, and a method of embedding and building sandstone and soil.

The sheet file method is suitable for a small-sized water tank such as a river tributary by installing plate-shaped sheet files continuously on the bottom of the sea floor to prevent invasion of outside water, and it is difficult to apply to a large- , The caisson method is a method of making the base by making the caisson which is the base of the structure and grounding the caisson while excavating the soil of the sea floor after making it from the ground. It is accompanied with great difficulty in carrying and installing due to the high weight of the caisson, It is difficult to apply it to the ground where the deep and soft layer is distributed thickly.

In order to improve the strength of the concrete wall, it is necessary to construct the reinforcing bars from the bottom. In the construction of such reinforcing bars, considerable time and effort are required as well as economic costs This is a necessary task.

In addition, after the construction, the support file (normal 'H beam') can not be withdrawn, resulting in the burial of the buried soil, which may pollute the soil environment. However, unreasonable A problem has occurred.

1. Patent Registration No. 10-1318793 (title of invention: retaining structure for foundation terraces) 2. Application for utility model registration No. 20-2005-0001185 (Name of design: Underground clay or pile file) 3. Korean Patent Laid-Open No. 10-2005-0013659 (entitled "underground cofferdam or pile file and method of constructing cofferdam or retaining pile using the same) 4. Patent Registration No. 10-1859440 (title of the invention: a method for constructing a complex river system using a connecting means between walls)

In view of the above problems, the present invention recognizes the above problems, and it is easy to construct the multi-wall which can be used not only as a 10M but also a 30M or more earth wall as well as a water film using wall as well as economical cost and time, Which can be used in the construction of ports, rivers, dams and concrete buildings that can prevent the inflow of soil and water that can preserve the soil environment as well as reuse of resources by making it possible to withdraw the metal support files used in the construction process. And a method for constructing a multi-wall structure using the support file and the support file.

Another object of the present invention is to provide a waterproof function of a building by constructing a multi-wall structure around a building in the construction of a concrete building such as an office tower, a hospital, an apartment, To be performed.

In order to accomplish the above object, there is provided a method for constructing a multi-wall structure using a support pile for multi-wall construction, which is used for construction of a port, a river, a dam, and a concrete, A step S100 of drilling a groove for inserting an inner plate into which the inner plate 20 for inserting the inner plate 11 of the support pile 10 is inserted at a predetermined interval in the construction site, (30) for inserting an outer plate (12) of a support pile (10) by using a perforator are bored at a predetermined interval over the entire construction site, and the inner plate insertion groove (20) (Step S200) for drilling a hole for inserting an outer plate into which the hole for perforating the outer plate 20 is inserted, The inner plate 11 of the support file is arranged to be positioned in the groove 20 for inserting the inner plate and the outer plate 12 of the support file 10 on the other side is arranged in the groove (S 300) for forming a mold (40) by fixing the support file after disposing the support file (10) so that the mold (40) A waterproof sheet insertion step (S400) of inserting the waterproof sheet (50) having the waterproof sheet (50) and a concrete filler (60) placed in the concrete after the waterproof sheet (S500) of loading and fixing a three-dimensional reinforced concrete structure (70) having the same or similar standard as the standard of the formwork (40) so that the concrete can be fixed to the reinforced concrete structure A filler filling step (S600) for filling and filling the selected one filler (60); a step of curing the filler (60) for a certain period of time after the filling of the filler A support file withdrawing step S700 for withdrawing the support file 10 fixed to the side by using the anti-eraser, and a surrounding arrangement step S800 for performing the surrounding process for the subsequent process after the support file 10 is taken out Thereby terminating the construction of the multiwalled building.

The support pile 10 includes an outer plate 12 inserted into the outer plate insertion groove 30 and an inner plate inserted and fixed into the inner plate insertion groove 20 to form a substantial plate 40 11) and a support plate (13) fixed to the inner plate in face-to-face contact so as to form a joint end (14)

A connection plate 15 for connecting the outer plate 12 and the support plate 13 is integrally fixed to the inner plate 11 and a fixing groove 16 are formed.

In this case, the groove 30 for inserting the outer plate is inserted into the groove 20 for inserting the inner plate, and the inner plate 11 is inserted into the recess 20 for inserting the inner plate. And can be formed at regular intervals in the boundary positions of the first and second substrates.

The waterproofing liquid 100 may be applied to any one of the selected one or all of the inner side plate 11 and the waterproof sheet 50 of the support pile 10 to ensure watertightness. do.

In addition, in the step of fixing the three-dimensional reinforcing structure, a plurality of reinforcing bars (not shown) are installed in the multi-wall reinforced concrete structure 70 in order to drain water for draining water generated therein, A plurality of pipes 90 can be fixed at predetermined intervals so that the plurality of pipes 90 can be formed.

In addition, the filler 60 may be filled with a predetermined proportion (weight%) of a curing agent at the same time.

The multi-wall structure for building harbors, rivers, dams, and concrete buildings that can prevent the inflow of soil and water can be constructed by arranging multiwall bodies 80 on at least one surface with a certain distance from the outside of the concrete building 110 .

The multi-wall construction method using the multi-wall construction supporting file and the supporting file used in the construction of ports, rivers, dams, and concrete that can prevent the inflow of soil and water according to the present invention having the above- It is possible to construct the multiwalled structure which can be used as a water wall for the water film as well as the construction of the earth wall and the metal supporting file which is used in the construction process after the construction is easy, It is possible to preserve the soil environment in addition to the resource reuse of the building, and in case of constructing a concrete building such as an office building, a hospital, an apartment, etc., It is possible to perform the function of the primary shield even in an external impact.

1 is a plan view showing a preferred embodiment of the present invention.
Fig. 2 is a perspective view showing the support file used in Fig.
Fig. 3 is a plan view showing another embodiment of Fig. 1
FIG. 4 is a view showing the state of use of the waterproof sheet shown in FIG.
5 is a perspective view showing a die of a preferred embodiment of the present invention.
6 is a perspective view showing a three-dimensional reinforcing structure according to a preferred embodiment of the present invention.
Fig. 7 is a view showing a state of use in which the three-dimensional reinforcing steel structure of Fig. 6 is inserted into the mold of Fig. 5
8 is a view showing a state of use in which a filler is poured into a mold into which a three-
9 is a perspective view showing a multiwalled structure completed
FIG. 10 is a perspective view showing another embodiment of FIG.
Fig. 11 is a perspective view showing a multiwalled structure of another embodiment constructed by Fig. 10; Fig.
12 is an example of a use state showing a state in which the multiwall of the present invention is installed around a concrete building
13 is a block diagram showing a construction process of a preferred embodiment of the present invention

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings and the preferred embodiments thereof. In the following description of the preferred embodiments of the present invention, The construction method of the wall will be described as follows.

First, as shown in FIG. 1, a method for constructing a multi-wall construction for a port, a river, a dam, and a concrete building construction that can prevent the inflow of soil and water according to the present invention is performed by using a known perforator (not shown) The inner plate 20 is inserted into the entire construction site at regular intervals, and the holes 20 are formed in a manner to face each other (S100).

That is, perforations are formed around the periphery of the multiwalled body 80, and a perforated plate is formed around the periphery of the support plate 10, The groove 30 for inserting the outer plate is inserted into the entire construction site at regular intervals (S200).

When the drilling operation of the inner plate insertion groove 20 and the outer plate insertion groove 30 is completed as described above, the inner plate 11 of the support pile is inserted into the inner plate insertion hole And the outer plate 12 of the support file 10 on the other side is arranged to be positioned in the groove 30 for inserting the outer plate and then the support file is fixed to the die 40, (S300).

3, when the connection plate 15 of the support file is embedded in the ground, the grooves of the inner plate insertion groove 20 and the outer plate insertion groove 30 are collapsed, The support pawls 10 can be more firmly fixed.

In addition, as shown in FIG. 3, the inner plate 11 of the support file can be inserted and fixed into two grooves 20 for inserting the inner plate. At this time, And is formed at a predetermined position at a boundary position of the groove 20 for inserting the inner plate.

In addition, the support piles 10 may be fixed to both ends of the support piles so that the piles formed by the support piles may be formed.

4, when the waterproof sheet 50 is inserted into the mold 40 (S400), the inside of the mold 40 formed by the support pile 10 Watertightness can be ensured.

The introduction of the waterproof sheet 50 can be completed more easily by using the fixing groove 16 formed on the surface of the support pile. After the waterproof sheet 50 is inserted, The reinforced concrete structure 70 having the same or similar standard as the form 40 is inserted and fixed (S500).

The reinforced concrete structure 70 can secure the rigidity and cohesion of any one of the fillers 60 selected from the concrete or grout placed in the formwork. The reinforced concrete structure 70 can be manufactured from the outside of the formwork, It is possible to reduce the time and cost required for fabrication.

More specifically, a general reinforcing steel structure is a structure in which a reinforcing steel structure is worked before a formwork is formed, and then a form is surrounded by a reinforcing steel structure. In a worksite having a narrow width and a depth of at least 10M, And the delay in the work due to the increase of the work cost is increased to the construction cost. In the present invention, this problem is recognized and improved.

8, a concrete crane (not shown) or the like may be used for the introduction of the three-dimensional reinforcing structure 70. After the three-dimensional reinforcing structure 70 is inserted and fixed, The filler 60 is poured and filled (S600).

At this time, the filler 60 may be mixed with a predetermined ratio (wt%) of the curing agent at the same time, and the curing is performed for a certain period of time after the filling of the filler 60 is performed.

When the curing process is completed and the shape of the multiwalled body 80 is completed, the support pile 10 fixed to the outer surface of the multiwalled body 80 is taken out (S700) using an anti-eraser (not shown) H-beam 'extraction process because the support file 10 does not directly touch the filler, and by withdrawing the support file of the metal, it is possible to recycle the expensive resource, as well as the soil pollution .

After the support pile 10 is taken out as described above, the construction of the multiwall is completed by performing the surrounding process for the subsequent process (S800).

As shown in FIG. 12, the multi-walled structure 80 constructed by the above-mentioned construction process can be used not only for the earthy film but also for the water film. As shown in FIG. 12, (80) is disposed on at least one side of the concrete structure, it is possible to provide a primary protection film when leakage occurs and external pressure is generated in the concrete building.

2, the supporting pawl 10 includes an outer plate 12 inserted into the groove 30 for inserting the outer plate, an inner plate 20 inserted into the groove 20 for inserting the inner plate, And a connecting plate 13 connecting the outer plate 12 and the support plate 13 to each other so that the inner plate 11 and the inner plate 14 are fixed to each other in a surface- A plurality of fixing grooves 16 are formed on the surface of the inner plate 11 so as to fix the waterproof sheet 50.

As shown in FIG. 5, the support pile 10 can be connected in the horizontal direction through the joint end portion 14, and the support pile 10 can be connected to the support pile 10 according to the size and width of the operation site. As a matter of course, although not shown, a lower end portion of the support pile can be formed in a wedge shape, in this case, depending on the working conditions of the site.

9 and 11, a waterproofing liquid 100 (see FIG. 9) is provided on one of the selected one or all of the selected one of the inner plate 11 and the waterproof sheet 50 of the support pile 10, In the step of fixing the three-dimensional reinforcing structure, a multi-wall structure 80 is provided between the three-dimensional reinforcing structure 70 to drain water generated therein, A plurality of pipes 90 may be fixed at predetermined intervals as shown in FIG.

In the case where the pipe 90 is fixed between the three-dimensional reinforcing steel structures 70 and the filling material is poured, the pipe 81 as shown in FIG. 11 is formed outside the multiwall.

In the meantime, the method of constructing the multi-wall structure can be applied by increasing the water quantity in the width or width direction of the support pile 10 depending on the size of the work site.

10: support file 11: inner plate
12: outer plate 13: support plate
14: connecting end 15: connecting plate
16: fixing groove 20: groove for inserting the inner plate
30: groove for inserting plate
40: Form 50: Waterproof sheet
60: Filler 70: Three-dimensional reinforcing steel structure
80: multiwall 81: duct
90: pipe 100: waterproofing liquid
110: Concrete building
S100: Perforation of the groove for inserting the inner plate
S200: Step for drilling the groove for inserting the outer plate
S300: Formation step
S400: Step of injecting waterproof sheet
S500: Step of fixing the three-dimensional reinforcing structure
S600: filler filling step
S700: Support file extraction step
S800: Surrounding cleanup steps

Claims (7)

An outer plate (12) inserted into the groove (30) for inserting the outer plate; Wow,
A support plate 13 inserted and fixed in the groove 20 for inserting the inner plate so as to form an inner plate 11 which is involved in forming a substantial die 40 and which is fixed in surface contact with the inner plate to form a joint end 14; Wow,
A connection plate 15 for connecting the outer plate 12 and the support plate 13 is integrally fixed to the inner plate 11 and a fixing groove 16); Which is used for construction of harbors, rivers, dams and concrete buildings, which can prevent inflow of soil and water, which can prevent inflow of soil and water.
The method according to claim 1,
The inner plate 11 of the support file can be inserted and fixed in the shape of two inner plate insertion grooves 20. At this time, the outer plate insertion groove 30 is inserted into the outer plate insertion groove 20, Which is capable of preventing the inflow of soil and water, which can be formed at regular intervals in a predetermined position.
An outer plate 12 which is inserted into the groove 30 for inserting the outer plate using a perforator and an inner plate 11 which is inserted and fixed in the groove 20 for inserting the inner plate into a substantial die 40, And a connecting plate 15 for connecting the outer plate 12 and the support plate 13 are integrally fixed to the outer plate 12, A plurality of fixing grooves 16 for fixing the waterproof sheet 50 are formed on a surface of the inner plate 11 so that the inner plate 11 for inserting the inner plate 11, (S100) for drilling an inner plate for inserting the inner plate (20) in a manner that the inner plate (20) is perforated in the entire construction site at regular intervals; Wow
A hole 30 for inserting the outer plate 12 into which the support plate 10 of the support pile 10 is inserted is punched at a predetermined interval over the entire construction site using a perforator, A step (S200) of drilling a groove for inserting an outer plate for perforating the outer periphery; Wow,
When the drilling operation of the inner plate insertion groove 20 and the outer plate insertion groove 30 is completed, the inner plate 11 of the support pile is positioned in the inner plate insertion groove 20 Forming mold 40 in which the outer plate 12 of the support file 10 on the other side is positioned in the groove 30 for inserting the outer plate and then the support file is fixed to form the mold 40 ); Wow,
A waterproof sheet insertion step (S400) of inserting a waterproof sheet (50) ensuring watertightness into the mold (40) formed by the support pile (10); Wow,
A reinforced concrete structure having the same or similar size as that of the form 40 so as to ensure the rigidity of the filler 60 selected from concrete or grout poured into the mold after the waterproof sheet 50 is inserted (S500); Wow,
A filler filling step (S600) of filling a filler (60) selected from concrete or grout after filling the solid reinforced concrete structure (70), and filling the filled filler (60); Wow,
A support file taking-out step S700 for curing for a certain period of time after the filling of the filler 60 is carried out and withdrawing the support file 10 fixed on the outer surface of the cured multiwalled body 80 by using an anti- ); Wow,
A peripheral clearance step (S800) of performing peripheral cleaning for a subsequent process after the support pile (10) is taken out;
Wherein the construction of the multi-wall is completed by performing the multi-wall construction using the support file for the multi-wall construction used in the construction of the port, the river, the dam, and the concrete to prevent the inflow of the soil and the water. delete delete delete delete

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