KR101219445B1 - Construction method for underground wall - Google Patents

Abstract

PURPOSE: A construction method for an underground wall is provided to reduce construction time and costs by simplifying construction. CONSTITUTION: A construction method for an underground wall is as follows. Multiple boreholes are continuously formed. Borehole expansion members(100) with detachable front earth retaining plates(110) and rear earth retaining plates(120) are continuously inserted into the boreholes. The bottom ends of the front and rear earth retaining plates are coupled to each other. When the front and rear earth retaining plates are inserted into the boreholes, the borehole expansion members are removed. Bar arrangement assemblies are formed by assembling reinforcing bars to bar arrangement plates. The front earth retaining plates are removed, and the bar arrangement assemblies are inserted into the boreholes. Concrete is placed between the rear earth retaining plates and the bar arrangement plates.

Description

Construction method of underground wall {CONSTRUCTION METHOD FOR UNDERGROUND WALL}

The present invention relates to the field of civil engineering, and more particularly, to a construction method of underground walls.

Top-down methods are actively used to form walls in the ground and construct building structures based on them.

This is the first to form underground wall (dirt wall) as a temporary facility by cast in place pile (CIP) method, oil cement wall (SCW) method, etc., and then close the wall (plywood wall) by concrete casting. The construction of the building structure is carried out by forming pillars or bearing walls on the main wall.

By the way, this conventional construction method has a problem that the construction is complicated and excessively time and cost is required because the construction of the wall and the main wall double.

The present invention is derived to solve the above problems, it is an object of the present invention to propose a construction method for the construction of the underground wall to simplify the construction, to reduce the time and cost of construction.

In order to solve the above problems, the present invention is a punching step of forming a plurality of drilling holes (10) continuously; While inserting a plurality of punching hole expansion member 100 in which the front retaining plate 110 and the rear retaining plate 120 are detachably coupled to both sides, respectively, are continuously inserted into the plurality of punching holes 10, the front retaining plate ( 110) and the lower end of the rear retaining plate 120 is inserted into the drilling hole expansion member for coupling to maintain a certain distance from each other; An earth plate support step of supporting the upper end of the front retaining plate 110 and the upper end of the rear retaining plate 120 at the rear; Removing the drilling hole expansion member to remove the drilling hole expansion member 100 in the state in which the front retaining plate 110 and the rear retaining plate 120 are inserted into the drilling hole 10; Reinforcement assembly assembly step of assembling the reinforcement to the reinforcement plate 210 to form the reinforcement assembly 200; Inserting the reinforcement assembly 200 between the front retaining plate 110 and the rear retaining plate 120, the reinforcement assembly inserting step so that the reinforcement plate 210 is in the position of the front retaining plate 110 ; Removing the front retaining plate 110 to remove the front retaining plate (110); It presents a construction method for underground walls, comprising a; concrete placing step of placing the concrete (C) in the area between the rear retaining plate 120 and the reinforcement plate 210 to form a wall.

The drilling hole expansion member 100 is a cylindrical pipe 130; It is preferable to include a; coupling plate 140 coupled to the upper and lower ends of the cylindrical pipe 130 to be coupled to the coupling plate 140a of the other drilling hole expansion member (100a).

The front retainer plate 110 and the rear retainer plate 120 may include a plurality of steel sheets 110a, 110b, 120a, and 120b; A paddle steel plate 111 and 121 coupled to a padding joint to the coupling portions of the plurality of steel plates 110a, 110b, 120a and 120b; And a bolt 101 and a nut 102 for coupling the plurality of steel sheets 110a, 110b, 120a, and 120b to the pad steel sheets 111 and 121.

It is preferable that the through groove 141 is formed at the edge of the coupling plate 140 so that the bolt 101 or the nut 102 penetrates.

It is preferable that a pair of blade members 150 are installed to face each other at the lower end of the drilling hole expanding member 100.

Double head bolt inserting grooves 112 and 122 are formed at the lower ends of the front retaining plate 110 and the rear retaining plate 120, and the lower ends of the front retaining plate 110 and the rear retaining plate 120 have a predetermined distance from each other. Supported by the double head bolt 160 is inserted into the double head bolt insertion grooves 112 and 122 to maintain, the lower head bolt to be caught by the double head bolt 160 at the bottom of the pair of blade members 150 It is preferable that the locking groove 151 is formed.

The reinforcement assembly 200 includes a plurality of widthwise reinforcing bars 220 coupled in a vertical direction to the reinforcement plate 210; A plurality of depth direction bars 230 coupled to the plurality of width direction bars 220 in a depth direction; It is preferable to include; a plurality of longitudinal reinforcing bars 240 coupled in the longitudinal direction to the plurality of widthwise reinforcing bars 220.

The widthwise reinforcing bar 220 preferably includes a gap retaining reinforcing bar 221 installed so that an end thereof comes into contact with the rear retaining plate 120 in order to maintain the gap with the rear retaining plate 120.

The reinforcement plate 210 is a plurality of iron plate (210a, 210b); And a paddle iron plate 211 that couples to the coupling portions of the plurality of iron plates 210a and 210b for padding. The plurality of iron plates 210a and 210b selectively expose the coupling portion with the beam. It is preferable to include a beam coupling site iron plate (210a) for.

At the end of the longitudinal reinforcement 240, it is preferable that the fitting portion 250 of the bent structure is formed so as to fit with the end of the longitudinal reinforcement (240a) of the other reinforcement assembly (200a).

The fitting portion 250 is an inward fitting portion 251 formed by bending inward from one end of the longitudinal reinforcement 240; It is preferable to include; outward fitting portion 252 formed by bending outward from the other end of the longitudinal reinforcement 240.

The longitudinal reinforcing bar 240 preferably includes a pair of longitudinal reinforcing bars 240a and 240b formed in a symmetrical structure.

It is preferable that the sliding plate 253 is coupled to the fitting portion 250 of the plurality of longitudinal reinforcing bars 240 along the depth direction.

The present invention provides a construction method for underground wall construction that allows for easy construction and can reduce the time and cost of construction.

Figure 1 below shows an embodiment of the present invention,
1 is a process chart of the drilling step of the underground wall construction method.
2 is a perspective view of the drilling hole expansion member.
3 is a partial perspective view of the retaining plate.
4 is a perspective view of the blade member.
5 is a perspective view of a double head bolt.
6 is a cross-sectional view of the blade member and the double head bolt.
7 is a partial perspective view of a perforation hole expanding member.
8 is a cross-sectional view of the retaining plate.
9 is a plan view of the bonding plate.
Figure 10 is a process chart of the drilling hole expansion member insertion step.
11 and 12 are process diagrams of the step of removing the perforation hole expansion member.
13 is a perspective view of the muscle assembly.
14 is a side view of the muscle assembly.
15 is a plan view of a longitudinal rebar;
16 is a flow chart of the step of inserting the muscle assembly.
17 is a process chart of the concrete pouring step.
18 is a process chart of the step of removing the reinforcement plate.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 1 below, the underground wall construction method according to the present invention is basically constituted by the following process.

A plurality of drilled holes 10 are successively formed (FIG. 1).

While inserting a plurality of punching hole expansion member 100 in which the front retaining plate 110 and the rear retaining plate 120 are detachably coupled to both sides, respectively, are continuously inserted into the plurality of drilling holes 10, the front retaining plate 110, respectively. And the lower ends of the rear retaining plate 120 are combined to maintain a predetermined distance to each other (FIGS. 2 to 10).

The perforation hole 10 formed in a circular cross-sectional structure by auger, etc. is transformed into a rectangular cross-sectional structure by the perforation hole expanding member 100, the front earth plate 110, and the rear earth plate 120.

The upper end of the front retaining plate 110 is supported forward, the upper end of the rear retaining plate 120 is supported rearward (Figs. 11 and 12).

Since the lower ends of the front retaining plate 110 and the rear retaining plate 120 are coupled to maintain a constant distance from each other, the upper ends of the front retaining plates are supported by the ropes 111 and 121 and the piles 112 and 122, and the front retaining plate ( It is to secure an area for forming a wall between the 110 and the rear retaining plate (120).

The front retainer plate 110 and the rear retainer plate 120 are removed from the drilled hole expansion member 100 in a state of being inserted into the drilled hole 10 (FIGS. 11 and 12).

Reinforcing bars are assembled on the reinforcement plate 210 to form the reinforcement assembly 200 (FIGS. 13 to 15).

Insert the reinforcement assembly 200 between the front earthenware plate 110 and the rear earthenware plate 120, so that the reinforcement plate 210 is in the position of the front earthenware plate 110.

Then, the front retaining plate 110 is removed (FIG. 16).

Instead of removing the front retaining plate 110, the reinforcement is assembled to the reinforcement plate 210 to the position of the front retaining plate 110, so as to perform the role of installing the retaining and reinforcing bar at the same time.

Concrete (C) is poured in the area between the rear retaining plate 120 and the reinforcement plate 210 (FIG. 17).

Thereafter, while excavating the front surface (installation area of the present structure) of the reinforcement plate 210, the reinforcement plate 210 is dismantled, and the wall formed therein is used as the wall of the present structure (FIG. 18).

This is not a double construction of the temporary wall and the main wall as in the prior art, and after the construction of a single underground wall to use this as the main wall to proceed to the next work, the construction is simple, greatly reducing the time and cost of construction It can be effective.

Hereinafter, the specific structure of each member used for this invention is demonstrated in detail.

The perforation hole expanding member 100 is a structure in which the front retaining plate 110 and the rear retaining plate 120 are detachably installed on the front and rear surfaces, and basically take the structure of the cylindrical pipe 130 (FIG. 2, 4).

When the depth of the drilling hole 10 is deep, the coupling with the other drilling hole expansion member (100a) is required, in this case, the cylindrical pipe to engage with the coupling plate (140a) of the other drilling hole expansion member (100a) It takes the structure that the coupling plate 140 is coupled to the upper and lower ends of the 130 (Fig. 7).

The coupling plate 140a of the other drilling hole expansion member 100a and the coupling plate 140 of the drilling hole expansion member 100 may be connected by bolt coupling through the bolt coupling hole 143 formed therethrough. (Figure 7,9).

Even in the case of the front retainer plate 110 and the rear retainer plate 120, when the depth of the drilling hole 10 is deep, a plurality of steel sheets (110a, 110b, 120a, 120b); Pad steel plates 111 and 121 that couple to the joint portions of the plurality of steel sheets 110a, 110b, 120a, and 120b for padding; It is preferable to take a structure including a bolt 101 and a nut 102 for coupling the plurality of steel sheets 110a, 110b, 120a, and 120b and the pad steel sheets 111 and 121 (FIG. 8).

In this case, the upper bolt plate 101 or the nut 102 and the coupling plate 140 may cause mutual interference in the process of removing the front retaining plate 110 and the drilling hole expansion member 100 upward. In order to prevent the through hole 141 is preferably formed so that the bolt 101 or the nut 102 penetrates the edge of the coupling plate 140 (FIG. 9).

In order to expand the drilling hole 10 in a rectangular cross section, it is preferable that a pair of blade members 150 are installed at the lower end of the drilling hole expanding member 100 so as to face each other (FIGS. 4 and 6).

As described above, the front retainer plate 110, the rear retainer plate 120 and the perforation hole expansion member 100, while the intervals at the bottom thereof should be kept stable with each other, which may be sequentially removed upwards. A rescue should be taken.

To this end, double head bolt inserting grooves 112 and 122 are formed at the lower ends of the front retaining plate 110 and the rear retaining plate 120, and the lower ends of the front retaining plate 110 and the rear retaining plate 120 are at a predetermined distance from each other. It is supported by the double head bolt 160 inserted into the double head bolt insertion grooves 112 and 122 to maintain the double head bolt engaging groove to be caught by the double head bolt 160 at the bottom of the pair of blade members 150. It is preferable to take the structure in which 151 is formed.

In this case, the bottom of the front clapper board 110 and the rear clapper board 120 are supported to maintain a constant distance from each other by the double head bolts 160, and when removed, only lifting the retaining boards 110 and 120 upwards. You can do it easily.

In addition, since the double head bolt locking groove 151 is formed at the lower ends of the pair of blade members 150, the interference by the double head bolt 160 is completely eliminated during the process of removing the drilling hole expansion member 100 upward. You will not receive.

The reinforcement assembly 200 basically includes a plurality of widthwise rebars 220 vertically coupled to the reinforcement plate 210; A plurality of depth reinforcing bars 230 coupled to the plurality of widthwise reinforcing bars 220 in the depth direction; And a plurality of longitudinal reinforcing bars 240 coupled in the longitudinal direction to the plurality of widthwise rebars 220 (FIG. 13).

These reinforcing bars (220, 230, 240) is embedded in the concrete to be poured later to form the internal reinforcement of the wall.

Width reinforcing bar 220 is to form a width in the reinforcement of the wall, to maintain the gap with the rear retaining plate 120, the length of the reinforcing bar reinforcement slightly longer than the other width direction reinforcing bars 220 Take a configuration including, and the interval maintaining reinforcing bar 221, the end is in contact with the rear retaining plate 120, thereby maintaining the distance between the reinforcement plate 210 and the rear retaining plate (120).

The widthwise rebar 220 may take a configuration fixed to the reinforcement plate 210, but the end penetrated through the through hole formed in the reinforcement plate 210 is detachably fixed by a coupling tool such as a separate bolt. It is desirable to take the configured configuration.

After the concrete is poured, the reinforcement plate 210 will be removed together with the ground excavation for installation of the present structure, to facilitate the removal of such a reinforcement plate 210.

When the depth of the drilling hole 10 is deep, the reinforcement plate 210 includes a plurality of iron plates 210a and 210b; It is preferable to take a configuration that includes; a paddle plate 211 for coupling to the padding portion of the plurality of iron plate (210a, 210b) (Fig. 14).

When the present structure to be installed in the ground has a configuration including a plurality of layers of beams and slabs, it is preferable that a beam joining portion iron plate 210a is provided so as to selectively expose the joining portion with the beams (FIG. 14). .

That is, after the excavation of a part of the ground, it is possible to perform the coupling work of the wall and beam reinforcement and the installation of the beam in the state in which only the plate iron plate 211 and the beam coupling portion iron plate 210a is removed.

In addition, the above-described beam installation work and thus the slab installation work can be carried out on the ground in the state of only the excavation work up to the floor, it is added that there is no need for a separate support and other provisions.

To this end, it is necessary to form a cavity by the installation of styrofoam inside the beam coupling portion iron plate (210a) to expose the rebar.

The back muscle assembly 200 is formed to have a predetermined width, and a plurality of continuous holes are installed in the drilling hole 10.

In order to ensure that the plurality of reinforcement assembly 200 is connected to each other stably, fitting of the bending structure to fit the end of the longitudinal reinforcement (240a) of the other reinforcement (200a) to the end of the longitudinal reinforcement (240a) It is preferable that the part 250 is formed (FIG. 15, 16).

Fitting portion 250 is specifically, the inward fitting portion 251 formed by bending inward from one end of the longitudinal reinforcement 240; It is preferable in terms of structural stability to take a configuration including; outward fitting portion 252 formed by bending outward from the other end of the longitudinal reinforcement 240 (FIG. 15).

The longitudinal reinforcing bars 240 are more preferably constituted by a pair of longitudinal reinforcing bars 240a and 240b in which these structures are formed in a mutually symmetrical structure (FIG. 15).

When the sliding plate 253 is coupled to the fitting portion 250 of the plurality of longitudinal reinforcing bars 240 along the depth direction, more stable coupling and convenient construction of the two reinforcement assemblies (200, 200a) can be expected (Fig. 15,16).

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

10: drilling hole 100: drilling hole expansion member
110: front soil plate 111: the plate steel plate
112: double head bolt insertion groove 120: rear retaining plate
121: Patch steel plate 122: Double head bolt insertion groove
130: cylindrical pipe 140: bonding plate
141: through groove 150: blade member
151: double head bolt locking groove 160: double head bolt
200: reinforcement assembly 210: reinforcement plate
210a: beam joining plate iron plate 211: patch iron plate
220: widthwise reinforcing bars 221: spacing bar
230: Depth direction bar 240,240a, 240b: Length direction bar
250: fitting portion 251: inward fitting portion
252: outwardly fitted portion 253: sliding plate
C: concrete

Claims (13)

A punching step of successively forming a plurality of punching holes 10;
While inserting a plurality of punching hole expansion member 100 in which the front retaining plate 110 and the rear retaining plate 120 are detachably coupled to both sides, respectively, are continuously inserted into the plurality of punching holes 10, the front retaining plate ( 110) and the lower end of the rear retaining plate 120 is inserted into the drilling hole expansion member for coupling to maintain a certain distance from each other;
An earth plate support step of supporting the upper end of the front retaining plate 110 and the upper end of the rear retaining plate 120 at the rear;
Removing the drilling hole expansion member to remove the drilling hole expansion member 100 in the state in which the front retaining plate 110 and the rear retaining plate 120 are inserted into the drilling hole 10;
Reinforcement assembly assembly step of assembling the reinforcement to the reinforcement plate 210 to form the reinforcement assembly 200;
Inserting the reinforcement assembly 200 between the front retaining plate 110 and the rear retaining plate 120, the reinforcement assembly inserting step so that the reinforcement plate 210 is in the position of the front retaining plate 110 ;
Removing the front retaining plate 110 to remove the front retaining plate (110);
Concrete pouring step of forming a wall by pouring concrete (C) in the area between the rear retaining plate 120 and the reinforcement plate 210;
Underground wall construction method comprising a. The method of claim 1,
The drilling hole expansion member 100 is
Cylindrical pipe 130;
A coupling plate 140 coupled to upper and lower ends of the cylindrical pipe 130 so as to be coupled to the coupling plate 140a of the other drilling hole expansion member 100a.
Underground wall construction method comprising a. The method of claim 2,
The front retaining plate 110 and the rear retaining plate 120
A plurality of steel sheets 110a, 110b, 120a, and 120b;
A paddle steel plate 111 and 121 coupled to a padding joint to the coupling portions of the plurality of steel plates 110a, 110b, 120a and 120b;
Bolts 101 and nuts 102 for coupling the plurality of steel sheets (110a, 110b, 120a, 120b) and the patch steel plates (111, 121);
Underground wall construction method comprising a. The method of claim 3,
Underground wall construction method characterized in that the through groove (141) is formed so that the bolt 101 or the nut (102) penetrates the edge of the coupling plate (140). The method of claim 1,
Underground construction method, characterized in that the lower end of the drilling hole expansion member 100 is installed so that a pair of blade members 150 face each other. The method of claim 5,
Double head bolt insertion grooves 112 and 122 are formed at the lower ends of the front retaining plate 110 and the rear retaining plate 120.
The lower ends of the front retainer plate 110 and the rear retainer plate 120 are supported by a double head bolt 160 inserted into the double head bolt insertion grooves 112 and 122 to maintain a constant distance from each other.
Underground wall construction method characterized in that the double head bolt engaging groove 151 is formed on the lower end of the pair of blade members 150 to be caught by the double head bolt 160. The method of claim 1,
The back muscle assembly 200 is
A plurality of widthwise rebars 220 vertically coupled to the reinforcement plate 210;
A plurality of depth direction bars 230 coupled to the plurality of width direction bars 220 in a depth direction;
A plurality of longitudinal rebars 240 coupled to the plurality of widthwise rebars 220 in the longitudinal direction;
Underground wall construction method comprising a. The method of claim 7, wherein
The widthwise rebar 220 is
In order to maintain the distance between the rear retaining plate 120, underground wall construction method characterized in that it comprises a gap retaining reinforcing bar (221) is installed so that the end is in contact with the rear retaining plate (120). The method of claim 7, wherein
The reinforcement plate 210 is
A plurality of iron plates 210a and 210b;
Includes; a paddle iron plate 211 for coupling to the joint portion of the plurality of iron plate (210a, 210b);
The plurality of iron plates 210a and 210b are
The construction method of the underground wall comprising a beam coupling site iron plate (210a) for selectively exposing the coupling site with the beam. The method of claim 7, wherein
At the end of the longitudinal reinforcement 240,
The construction method of the underground wall, characterized in that the fitting portion 250 of the bending structure is formed to fit the end of the longitudinal reinforcement (240a) of the other reinforcement assembly (200a). The method of claim 10,
The fitting portion 250 is
An inward fitting portion 251 formed by bending inward from one end of the longitudinal reinforcing rod 240;
An outward fitting portion 252 formed by bending outward from the other end of the longitudinal reinforcing bars 240;
Underground wall construction method comprising a. The method of claim 11,
The longitudinal reinforcement 240 is
Underground wall construction method comprising a pair of longitudinal reinforcing bars (240a, 240b) formed in a mutually symmetrical structure. The method of claim 10,
Underground construction method, characterized in that the sliding plate 253 is coupled to the fitting portion 250 of the plurality of longitudinal reinforcing bars 240 along the depth direction.

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