KR101082995B1 - Buried precast concrete wale for constructing basement wall and the method for constructing basement wall - Google Patents

Abstract

PURPOSE: A buried PC wale for basement outer wall construction and a construction method for integrating a buried PC wale and a single face wall using the same are provided to stably and safely construct an outer wall of a basement. CONSTITUTION: A buried PC wale for basement outer wall construction comprises precast concrete. When concrete is poured in the side contiguous to a lagging(20), multiple concave parts are formed at a regular interval in order to insert a vertical reinforcing bar into a basement outer wall. Multiple steel reinforcement bars and prestressed steel wire(31) are inserted into the wale in a longitudinal direction in order to reinforce strength. A stirrup bar is combined with the multiple steel reinforcement bars and prestressed steel wire while surrounding them. A buried metallic material(32) is combined to the outside of the wale.

Description

Buried precast concrete wale for constructing basement wall and the method for constructing basement wall}

The present invention relates to a buried PC belt for the basement outer wall construction and to a buried PC belted plywood integrated method using the same, and more specifically, to a buried PC belt used in the construction of the plywood construction in contact with the earthquake installation structure and the basement outer wall in the basement outer wall construction It relates to a buried PC belt-shaped plywood integrated method using the same.

In the past, when digging a basement, it was common to dig up the ground, complete the basement framing, and then backfill the soil in the free space between the temporary barriers and the outer walls of the basement, and recover the strip and H-pile. It was. However, in order to maximize the utilization of the land now, most of the 'plywood' method of constructing the outer wall surface of the basement to be in direct contact with the inner surface of the temporary wall is used.

The retaining structure and the band used for this plywood construction are shown in FIG. Conventionally, the clamshell structure used in the construction of plywood is installed on the H-pile (1) to install the earth plate (2) to support the earth pressure so as not to collapse the side of the pit between the H-pile (1) buried at a predetermined interval in the ground A strip 3 is installed on the strip 5 horizontally, and an earth anchor 4 which is embedded in the soil outside the earth plate 2 so that the H-pile 1 withstands the earth pressure is installed in the strip 3. In addition, the bracket 5 is supported by the brace 6 formed in the H-pile 1. In addition, the earth anchor 4 is embedded in the soil inclined about 30 degrees horizontally so as to withstand the earth pressure more stably, and thus the belt length 3 is also inclined.

However, in this conventional plywood construction, the girders preoccupy the space to perform the basement exterior wall construction. Therefore, interference occurs. In most sites, only the lower portion of the girders located in the middle of the floor is pre-constructed to remove wall girders. The situation where the upper wall and the upper floor concrete are being installed, but when removing the strip, there is a risk of collapse of the pit surface, and even if it does not collapse, the center of the wall causes bending deformation. Subsequently, there was a significant problem in construction safety, such as water leakage at the proximal part.

Therefore, the present invention has been made to solve the conventional problems, the construction of the buried PC belt for the basement outer wall construction and easy construction without impairing the safety of the basement outer wall construction, and the embedded PC banding combined wall integrated method using the same The purpose is to provide.

The buried PC strip according to the present invention includes a plurality of H-piles which are vertically buried at regular intervals on the ground outside the space in which the basement outer wall is to be formed, and a plurality of earth-plates which are installed for the soil barrier between the plurality of H-piles. In the baseboard installed to reinforce the earth pressure bearing force in the basement plywood construction made of,

The strip is made of precast concrete, a plurality of recesses are formed on the side adjacent to the earth plate so that vertical reinforcing bars to be inserted into the outer wall of the basement when the concrete is placed, a plurality of recesses in the longitudinal direction of the inside of the strip Reinforcing bars or prestressed steel wires are embedded together with the stirrup reinforcement, and are supported by the brackets formed in the respective H-piles, so that a plurality of horizontal bars are arranged horizontally with respect to the vertical H-pile and adjacent bands are connected to each other. It is composed of a structure in which the purchase hardware is combined so that each purchase hardware of the adjacent bands is connected to the connecting plate,

The strip made of precast concrete forms the basement outer wall together with the cast concrete to eliminate the strip length, making construction easier and at the same time the structural stability of the outer wall is made of the same material as the basement outer wall.

In addition, the buried PC strip-shaped plywood integrated method according to the present invention,

Burrowing a certain depth to form a basement of the building and laying a plurality of H-piles vertically on the ground;

Installing an earth plate for the earth block between the plurality of H piles;

Seating the bands made of precast concrete on the brackets formed on the respective H-piles, and placing a plurality of horizontally with respect to the H-piles to be mutually coupled;

Arranging vertical reinforcing bars to be reinforcement with the basement outer wall on both sides of the strip made of precast concrete;

And placing the wall concrete to form the basement outer wall to form a basement outer wall by embedding precast concrete strips together in the poured concrete.

The strip is formed with a plurality of recesses in the side adjacent to the earth plate so that vertical reinforcing bars to be inserted into the basement outer wall when the concrete is placed, a plurality of reinforcement or prestressed steel wires are built in the longitudinal direction It is embedded with the stirrup reinforcement, and is supported by the brackets formed in the respective H-piles, so that a plurality of horizontally arranged vertically H-piles are connected to each other so that the adjacent metal bands are connected to each other so that adjacent bands are connected to each other. It is characterized by consisting of a structure in which each embedded hardware of the sheet is coupled to the connecting plate.

According to the present invention, there is provided a buried PC belt for the basement outer wall construction and a buried PC belt-integrated construction method using the same, which is easy to construct and at the same time safe construction without impairing the safety of the construction of the basement outer wall.

1 is a view showing a conventional installation structure for basement outer wall construction,
Figure 2 is a view showing the installation structure for the construction of the basement outer wall using a buried precast strip according to the present invention,
3 is a plan view of FIG.
4 is a side view of FIG. 2;
5 is a view showing a connection structure of adjacent bands.

Hereinafter, the buried precast strip according to the preferred embodiment of the present invention will be described in detail with reference to the installation structure for basement outer wall construction using the same.

Figure 2 is a view showing the installation structure for the basement outer wall construction using a buried PC stripe according to the present invention, Figure 3 is a plan view of Figure 2, Figure 4 is a side view of Figure 2, Figure 5 is a connection structure of adjacent strips Figure showing.

The installation structure for basement outer wall construction using the buried PC belt 30 according to the present invention is a plurality of H-pile 10 and H-pile 10 which are buried vertically on the ground at regular intervals outside the space where the basement outer wall is to be formed. It comprises a plurality of earth plate 20 and a buried PC strip 30 is installed between the).

The H-pile (H-pile, 10) is excavated by a predetermined depth and then buried vertically on the ground, the bracket 50 is installed so that the buried PC strip 30 to be described later is installed, the bracket 50 In order to more firmly support, the brace 60 is coupled to the lower side of the bracket 50 in an inclined state from the H-pile 10.

The earth plate 20 is installed for the earth block between the H-pile 10, a plurality of elongated wood is laminated.

The embedded PC strip 30 is used to enhance the resistance to earth pressure in addition to the H-pile 10, and a plurality of pre-cast concrete wales are arranged horizontally with respect to the vertical H-pile 10 and manufactured in advance in the factory. A plurality of recesses 35 are formed at predetermined intervals so that the vertical reinforcing bars 70 to be reinforced to the outer wall of the basement when the wall concrete is placed on the side adjacent to the earth plate 20 are made of precast concrete. It is formed on the bracket 50 is formed on each of the H-pile 10. In addition, the embedded PC strip 30 has a plurality of reinforcing bars or prestressed steel wire 31 is built in the longitudinal direction to reinforce the strength, the stirrup reinforcing bars are joined to surround the reinforcement or prestressed steel wire 31 31a is incorporated together. In this way, the reinforcement or prestressed steel wire 31 is embedded, so that the tensile strength and the shear strength of the embedded PC strip 30 are strengthened.

And, as shown in Figure 5 embedded buried PC strip 30 is coupled to the embedded hardware 32 on the outside, the connection plate 34 in the adjacent portion of the strip 30 is embedded hardware of each strip (30) ( 32 is welded to adjacent bands 30 are coupled to each other. In addition, in order to more firmly connect the strip 30, the connecting plate 33 is coupled to the strip 30 to the anchor bolt 33a on the lower strip 30, the lower surface.

Meanwhile, the strut 40 shown in FIG. 2 is installed between the opposing bands 30 so as to mutually support the bands 30 facing each other. In the present invention, the struts 40 are used, but the earth A raker may be installed to be inclined at the anchor or the ground to support the strip 30.

As described above, the buried PC strip 30 used in the basement outer wall construction according to the present invention is made of precast concrete already made to be installed by mounting on the bracket 50 of the H-pile 10 H- There is an advantage that the installation is easy because no welding or bolting with the pile. In addition, a plurality of recesses 35 are formed to allow the vertical reinforcement 70 to be inserted outside the strip 30 adjacent to the earth plate 20 so that interference with the vertical reinforcement 70 does not occur, and the cast concrete It eliminates the need for stripping by eliminating the stripe by forming the basement outer wall, which is buried together, and solves the problem that the H-pile or soil plate does not withstand earth pressure and deforms or collapses when using the conventional method of removing the stripe and placing the outer wall concrete. Can be. In addition, the embedded precast strip 30 is made of the same material as the concrete of the basement outer wall also has the advantage of ensuring the structural stability of the outer wall.

Next, a description will be given of the buried PC strip-shaped plywood integrated method using the buried PC strip 30 according to the present invention described above.

In the buried PC belt-shaped plywood integrated method according to the present invention, first, a plurality of H piles 10 are spaced apart at regular intervals around the space to form the outer wall of the basement by digging to a certain depth to form a basement of the building and buried in the ground. Then, by installing the earth plate 20 for the clogging between a plurality of H pile 10 to perform the foundation construction.

Then, the belt 30 made of the precast concrete described above is seated on the bracket 50 formed in each of the H-pile 10 and disposed horizontally, and then the embedded hardware 32 formed outside the belt 30. The coupling plate 34 is welded to each other and additionally, the connecting plate 33 is fixed to the anchor bolt 33a by applying the connecting plate 33 to the upper and lower portions of the adjacent strip 30 to couple the strip 30 to each other. In addition, the strut 40 is provided between the opposing bands 30. As described above, an earth anchor or a raker may be used instead of the strut 40.

Next, vertical reinforcing bars 70 to be placed on the basement outer walls are placed on both sides of the embedded PC strip 30, and then the wall concrete to form the basement outer walls is poured to precast concrete strips 30 to the poured concrete. It will be reclaimed to construct the basement outer wall. The embedded PC strip 30 is described in detail in the above-described mounting structure and a detailed description thereof will be omitted here.

As described above, the buried PC stripe plywood integrated method according to the present invention forms the outer wall of the basement with the concrete in which the buried PC stripe 30 is poured, thus eliminating the stripping and thus eliminating the conventional stripe. When using the H-pile or earth plate can not solve the problem that the deformation of the soil or collapse the oyster soil side can not be solved. In addition, a plurality of recesses 35 are formed so that the vertical reinforcing bar 70 can be inserted outside the strip 30 adjacent to the earth plate 20 so that interference with the vertical reinforcing bar 70 does not occur, and the buried free Cast strip 30 is made of the same material as the basement outer wall also has the advantage of ensuring the structural stability of the outer wall.

In addition, the buried PC belt-integrated wall integration method according to the present invention can also solve the problem of weakening the bonding strength at the portion of the wall connecting the concrete up and down by removing the conventional strip by integrally placing the basement outer wall wall concrete.

The present invention has been described above with reference to preferred embodiments, but the present invention is not limited thereto, and any person having ordinary knowledge in the field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. Any variety of variations will be possible.

<Description of the symbols for the main parts of the drawings>
10: H-pile 20: earth plate
30: embedded PC band 31: rebar or steel wire
32: purchase hardware 33: connecting plate
34: connecting plate 40: strut
50: bracket 60: brace

Claims (2)

Earth pressure in basement outer wall construction including a plurality of H-piles vertically buried in the ground at regular intervals outside the space where the basement outer wall is to be formed, and a plurality of soil plates installed for the cuffs between the plurality of H-piles. In the band is installed to reinforce the bearing capacity,
The strip is made of precast concrete, a plurality of recesses are formed on the side adjacent to the earth plate so that vertical reinforcing bars to be inserted into the outer wall of the basement when the concrete is placed, a plurality of recesses in the longitudinal direction of the inside of the strip Reinforcing bars or prestressed steel wires are embedded together with the stirrup reinforcement, and are supported by the brackets formed in the respective H-piles. It is composed of a structure in which the purchase hardware is combined so that each purchase hardware of the adjacent bands is connected to the connecting plate,
A buried PC strip that is made of precast concrete and forms a basement outer wall together with the cast concrete, so that the stripping is unnecessary, so that construction is easy and the structural stability of the outer wall is made of the same material as the basement outer wall. Burrowing a certain depth to form a basement of the building and laying a plurality of H-piles vertically on the ground;
Installing an earth plate for the earth block between the plurality of H piles;
Seating the bands made of precast concrete on the brackets formed on the respective H-piles, and placing a plurality of horizontally with respect to the H-piles to be mutually coupled;
Arranging vertical reinforcing bars to be reinforcement with the basement outer wall on both sides of the strip made of precast concrete;
And placing the wall concrete to form the basement outer wall to form a basement outer wall by embedding precast concrete strips together in the poured concrete.
The strip is formed with a plurality of recesses in the side adjacent to the earth plate so that vertical reinforcing bars to be inserted into the basement outer wall when the concrete is placed, a plurality of reinforcement or prestressed steel wires are built in the longitudinal direction It is embedded with the stirrup reinforcement, and is supported by the brackets formed in the respective H-piles, so that a plurality of horizontally arranged vertically H-piles are connected to each other so that the adjacent metal bands are connected to each other so that adjacent bands are connected to each other. A buried PC strip-shaped plywood integrated method comprising a structure in which each embedded hardware of a sheet is coupled to a connecting plate.

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