KR102597314B1 - the improved retaining wall structure reduced its thickness - Google Patents

Abstract

The present invention relates to an earth retaining wall built underground,
A plurality of perforated holes (10) spaced a predetermined distance from the exterior wall (W) of a nearby building and overlapping each other;
Mortar (20) filled in the perforated hole (10);
A steel frame (100) installed by penetrating into the mortar (20);
It provides an improved retaining wall structure for reducing wall thickness, characterized in that it comprises a.
In addition, the steel frame 100 is composed of a plurality of units, and one unit is installed by penetrating one drilled hole 10, and the plurality of units are coupled to each other in series to reduce wall thickness. Provides an improved retaining wall structure for .
The unit is an H-beam 110, and an improved retaining wall structure for reducing wall thickness is characterized in that one end of the flange of the H-beam 110 is fastened to the other end of the flange of the adjacent H-beam 110. Provides,
The unit is a steel pipe 130, and the right side of the steel pipe 130 is fastened to the left side of the adjacent steel pipe 130 to provide an improved retaining wall structure for reducing wall thickness.
In addition, the present invention is for forming a drilling hole (10) for the construction of an earth retaining wall built underground,
A crane (210) to which the boom (211) is connected;
A support frame 220 installed vertically at the end of the boom 211;
A rotary head 230 installed on the upper front of the support frame 220;
An auger rod (250) installed to penetrate the rotary head (230) from top to bottom;
An improved ground boring machine (200) that can be used in a narrow work space is provided, which includes a.
And when the auger rod 250 is rotated and raised or lowered to drill the ground, the position of the rotary head 230 is fixed, and the auger rod 250 penetrates the rotary head 230. An improved ground that can be used in a narrow work space, characterized in that there is no change in the center of gravity due to the vertical position change of the rotary head 230, thereby reducing the risk of falling of the support frame 220, as it rises or falls in the state. A perforator 200 is provided.

Description

The improved retaining wall structure reduced its thickness}

The present invention provides an improved retaining wall structure that reduces the wall thickness by eliminating the need for separate water grouting and inner wall construction, unlike the existing retaining wall, in a retaining wall built underground;

This is an improved ground boring machine capable of constructing earth retaining walls even in narrow work spaces.

Figures 1 and 2 show a conventional earth retaining wall structure.

For most existing retaining walls, the CIP method is mainly used.

As shown,

The existing earth retaining wall was separated from the nearby building exterior wall (W) and CIP was constructed.

Because CIP itself is difficult to maintain order performance and structural performance,

Next, water grouting is performed toward the exterior wall (W) of the building,

Construct underground inner wall concrete.

Therefore, since it usually requires a thickness of about 1.2 to 1.5 m, the problem of securing underground space has been pointed out.

Accordingly, the present inventor approaches the building's outer wall (W) and drills it to construct an underground earth retaining wall, but there is no risk of collapse, water blocking performance is secured without separate water blocking work, and durability is secured at the same time to be used as an underground wall in an underground space. An improved retaining wall structure was developed to reduce the wall thickness of the present invention.

Figures 11 and 12 show a conventional ground boring machine.

As shown in Figure 11, the conventional ground boring machine has an auger rod 250 coupled to the lower part of the rotary head 230,

When drilling the ground, the combination of the rotary head 230 and the auger rod 250 moves up and down.

At this time, when the combination of the rotary head 230 and the auger rod 250 was located at the top, the center of gravity was located at the top due to the weight of the rotary head 230, and accidents involving the support frame 220 frequently fell.

And as shown in FIG. 12, the auger rod 250 is coupled to the center of the conventional rotary head 230,

Due to the width of the rotary head 230, there was a problem that it was impossible to work adjacent to the outer wall (W) of a nearby building.

Accordingly, the present inventor rotates and raises or lowers the auger rod 250 to drill the ground,

Since the rotary head 230 rises or falls while its position is fixed and the auger rod 250 penetrates the rotary head 230,

There is no change in the center of gravity due to the vertical position change of the rotary head 230, thereby reducing the risk of falling of the support frame 220,

The penetrating position of the rotary head 230 is also biased from the rotary head 230 toward the exterior wall of a nearby building (W), so that work can be done adjacent to the exterior wall of a nearby building (W) in a narrow work space. We have developed an improved ground boring machine that can be used.

[Document 1] Republic of Korea Patent No. 10-1542078 ‘Eco-friendly earth retaining wall and its construction method’, July 30, 2015 [Document 2] Republic of Korea Patent No. 10-1692542 ‘Manufacturing method of steel pipe piles for earth retaining wall construction’, December 28, 2016

The present invention is proposed to solve various problems of the prior art as described above.

The purpose is to approach the exterior wall of the building, drill a hole, and build an underground retaining wall, so that there is no risk of collapse, water blocking performance is secured without separate water blocking work, and durability is secured at the same time, so the present invention can be used as an underground wall in an underground space. The aim is to provide an improved retaining wall structure to reduce wall thickness.

In addition, when drilling the ground by rotating and raising or lowering the auger rod, the rotary head is in a fixed position and rises or falls while the auger rod penetrates the rotary head, so there is no risk due to the vertical position fluctuation of the rotary head. The aim is to provide an improved ground boring machine that can be used in a narrow work space, which reduces the risk of falling over of the support frame due to no change in the center of gravity.

In order to solve the above technical problems, the present invention relates to an earth retaining wall built underground,

A plurality of perforated holes (10) spaced a predetermined distance from the exterior wall (W) of a nearby building and overlapping each other;

Mortar (20) filled in the perforated hole (10);

A steel frame (100) installed by penetrating into the mortar (20);

It provides an improved retaining wall structure for reducing wall thickness, characterized in that it comprises a.

In addition, the steel frame 100 is composed of a plurality of units, and one unit is installed by penetrating one drilled hole 10, and the plurality of units are coupled to each other in series to reduce wall thickness. Provides an improved retaining wall structure for .

The unit is an H-beam 110, and an improved retaining wall structure for reducing wall thickness is characterized in that one end of the flange of the H-beam 110 is fastened to the other end of the flange of the adjacent H-beam 110. Provides,

The unit is a steel pipe 130, and the right side of the steel pipe 130 is fastened to the left side of the adjacent steel pipe 130 to provide an improved retaining wall structure for reducing wall thickness.

In addition, the present invention is for forming a drilling hole (10) for the construction of an earth retaining wall built underground,

A crane (210) to which the boom (211) is connected;

A support frame 220 installed vertically at the end of the boom 211;

A rotary head 230 installed on the upper front of the support frame 220;

An auger rod (250) installed to penetrate the rotary head (230) from top to bottom;

An improved ground boring machine (200) that can be used in a narrow work space is provided, which includes a.

And when the auger rod 250 is rotated and raised or lowered to drill the ground, the position of the rotary head 230 is fixed, and the auger rod 250 penetrates the rotary head 230. An improved ground that can be used in a narrow work space, characterized in that there is no change in the center of gravity due to the vertical position change of the rotary head 230, thereby reducing the risk of falling of the support frame 220, as it rises or falls in the state. A perforator 200 is provided.

According to the present invention, there is no risk of collapse even when approaching the exterior wall of a building, drilling a hole, and constructing an underground retaining wall. Waterproofing performance is secured without separate water blocking work. At the same time, durability is ensured, and the present invention can be used as an underground wall in an underground space. An improved retaining wall structure is provided to reduce wall thickness.

In addition, when drilling the ground by rotating and raising or lowering the auger rod, the rotary head is in a fixed position and rises or falls while the auger rod penetrates the rotary head, so there is no risk due to the vertical position fluctuation of the rotary head. An improved ground boring machine that can be used in a narrow work space is provided, which reduces the risk of falling over of the support frame due to no change in the center of gravity.

Figures 1 and 2 show a conventional earth retaining wall structure.
Figures 3 and 4 show an improved retaining wall structure for reducing wall thickness of the present invention.
Figures 5 to 7 show various examples of an improved retaining wall structure for reducing wall thickness of the present invention.
Figure 8 shows a guide head in the present invention.
Figures 9 to 10 show the construction method of an improved retaining wall structure for reducing wall thickness of the present invention.
Figures 11 and 12 show a conventional ground boring machine.
Figures 13 and 14 show an improved ground boring machine that can be used in a narrow work space according to the present invention.
Figure 15 shows the auger rod used in the present invention.
Figure 16 is another embodiment of Figure 5.

Hereinafter, the present invention will be described in more detail through embodiments in which the above-described concept of the present invention is preferably implemented along with the accompanying drawings.

In addition, it is disclosed in advance that the improved earth retaining wall structure for reducing wall thickness of the present invention described below and the improved ground boring machine that can be used in a narrow work space of the present invention can be used individually or together.

Figures 3 and 4 show an improved retaining wall structure for reducing wall thickness of the present invention.

Figures 5 to 7 show various examples of an improved retaining wall structure for reducing wall thickness of the present invention.

Figure 8 shows a guide head in the present invention.

Figures 9 to 10 show the construction method of an improved retaining wall structure for reducing wall thickness of the present invention.

The improved retaining wall structure for reducing wall thickness of the present invention is,

It relates to an earth retaining wall built underground.

A plurality of perforated holes (10) spaced a predetermined distance from the exterior wall (W) of a nearby building and overlapping each other;

Mortar (20) filled in the perforated hole (10);

A steel frame (100) installed by penetrating into the mortar (20);

It provides an improved retaining wall structure for reducing wall thickness, characterized in that it comprises a.

In addition, the steel frame 100 is composed of a plurality of units, and one unit is installed by penetrating one drilled hole 10, and the plurality of units are coupled to each other in series to reduce wall thickness. Provides an improved retaining wall structure for .

The unit is an H-beam 110, and an improved retaining wall structure for reducing wall thickness is characterized in that one end of the flange of the H-beam 110 is fastened to the other end of the flange of the adjacent H-beam 110. Provides,

The unit is a steel pipe 130, and the right side of the steel pipe 130 is fastened to the left side of the adjacent steel pipe 130 to provide an improved retaining wall structure for reducing wall thickness.

As described above, the conventional earth retaining wall structure shown in Figure 1 is,

After constructing CIP at a distance from the exterior wall (W) of a nearby building,

Because CIP itself is difficult to maintain order performance and structural performance,

Next, water grouting is performed toward the exterior wall (W) of the building,

Since the underground interior wall concrete is constructed,

Since it usually requires a thickness of about 1.2 to 1.5 m, the problem of securing underground space has been pointed out.

However, in the present invention, there is no risk of collapse even when approaching the outer wall of the building (W) by drilling and constructing an underground earth retaining wall, water blocking performance is secured without separate water blocking work, and durability is secured at the same time, so it can be used as an underground wall in an underground space. There is a feature that makes this possible.

In the present invention, the steel frame 100 is composed of a plurality of units, one unit is installed by penetrating one drilled hole 10, and the plurality of units are coupled to each other in series.

And as shown in Figure 5,

The unit is an H-beam 110, and one end of the flange of the H-beam 110 is coupled to the other end of the flange of the adjacent H-beam 110.

Specifically, when the drilling hole 10 is drilled and the auger rod 250 of the improved ground drilling machine 200 is pulled out,

At the same time, grout material or mortar 20 is poured into the drilling hole 10 to prevent the hollow wall of the drilling hole 10 from collapsing,

A plurality of H-beams 110 are sequentially deposited in the mortar 20 to cure the mortar 20 to form a bulb.

At this time, since one end of the flange of the H-beam 110 is physically fastened and coupled to the other end of the flange of the adjacent H-beam 110,

In the retaining wall itself, a plurality of H-beams (110) are combined as one unit to form a framework without any gaps,

Since the plurality of drilling holes 10 are formed to overlap each other by more than the web height of the H-beam 110, the entire earth retaining wall itself secures a thickness of a certain level or more due to the mortar 20.

Therefore, without any other measures,

Since it performs the functions of an earth retaining wall + water blocking wall + underground interior wall, it is possible to achieve the effect of killing three birds with one stone.

Figure 16 is another embodiment of Figure 5.

The embodiment of FIG. 5 is prepared for the case where the gap between the H-beams 110 in FIG. 5 widens, and a connecting material 140 is provided between one end of the flange of the H-beam 110 and the other end of the flange of the adjacent H-beam 110. ) was concluded.

Specifically, a T-shaped male coupling portion 141 consisting of a body 141 ` and a fastening portion 141 `` is joined to the flange end of the H-beam 110, and the connecting member 140 is bent at both ends to The fastening part (141``) is inserted and caught.

At this time, depending on the gap between the H-beams 110, the fastening portion 141`` can be flexibly positioned within the connecting member 140 in response to the gap between the H-beams 110.

It should be noted in advance that the structure in which the connecting member 140 of FIG. 16 is added can also be applied to the embodiments of FIGS. 6 to 8 described later.

Figure 6 shows an embodiment in which the H-beam 110 is replaced with a steel pipe 130.

Figure 7 is based on the embodiment of Figure 5,

In order to prevent over-design of the H-beam (110),

The two units between the H-beams (110) are replaced with modified H-beams (120) having a long-span lower flange and a short-span upper flange.

Figure 8 shows a guide head in the present invention.

Figures 9 to 10 show the construction method of an improved retaining wall structure for reducing wall thickness of the present invention.

The guide head 170 shown in Figure 8,

Prior to underground drilling, a trench was excavated in the ground lengthwise to a predetermined depth, a formwork was installed, and a concrete structure was constructed in the shape of the top of the drilling hole (10).

When constructing the drilling hole (10) by operating the improved ground drilling machine (200) to lower the auger rod (250), it functions to secure and maintain the horizontal position and verticality of the auger rod (250) on the ground, and is not dismantled. It remains in place and serves the function of reinforcing the two parts of the pile by connecting them to each other.

Figures 11 and 12 show a conventional ground boring machine.

Figures 13 and 14 show an improved ground boring machine that can be used in a narrow work space according to the present invention.

Figure 15 shows the auger rod used in the present invention.

As shown, in a conventional ground drilling machine, the auger rod 250 is coupled to the lower part of the rotary head 230, and when drilling the ground, the combination of the rotary head 230 and the auger rod 250 moves up and down.

At this time, when the combination of the rotary head 230 and the auger rod 250 was located at the top, the center of gravity was located at the top due to the weight of the rotary head 230, and accidents involving the support frame 220 frequently fell.

And, as shown in FIG. 12, the conventional rotary head 230 is coupled to the auger rod 250 at the center, so the width of the rotary head 230 allows work adjacent to the outer wall (W) of a nearby building. There was an impossible problem.

However, in the present invention, when the auger rod 250 is rotated and raised or lowered to drill the ground, the position of the rotary head 230 is fixed, and the auger rod 250 is connected to the rotary head 230. Since it rises or falls while penetrating, there is no change in the center of gravity due to the vertical position change of the rotary head 230, thereby reducing the risk of falling of the support frame 220.

In addition, the present invention is characterized in that the penetration position of the rotary head 230 is biased from the rotary head 230 toward the outer wall of a nearby building (W), so that work is possible adjacent to the outer wall of a nearby building (W). .

An improved ground boring machine that can be used in a narrow work space of the present invention,

It is used to form a drilling hole (10) for the construction of an earth retaining wall built underground.

A crane (210) to which the boom (211) is connected;

A support frame 220 installed vertically at the end of the boom 211;

A rotary head 230 installed on the upper front of the support frame 220;

An auger rod (250) installed to penetrate the rotary head (230) from top to bottom;

It is characterized by being composed of a.

And when the auger rod 250 is rotated and raised or lowered to drill the ground, the position of the rotary head 230 is fixed, and the auger rod 250 penetrates the rotary head 230. Since the rotary head 230 is raised or lowered, there is no change in the center of gravity due to the vertical position change of the rotary head 230, thereby reducing the risk of the support frame 220 falling.

In addition, as shown in FIG. 14, the penetrating position of the rotary head 230 is also biased from the rotary head 230 toward the exterior wall of a nearby building (W), so work is performed adjacent to the exterior wall of a nearby building (W). It is characterized by being possible.

Figure 15 shows the auger rod used in the present invention.

As shown,

The auger rod 250 used in the present invention is similar to a typical auger rod in which a drill 251 is formed on the outer peripheral surface.

However, the improved retaining wall structure for reducing the wall thickness of the present invention described above,

After drilling the ground, mortar (20) is injected without a separate bentonite solution injection to prevent cavity wall collapse.

In order to prevent the collapse of the hollow walls of the drilling holes (10) before or during injection of the mortar (20) and during the curing process of the mortar (20), consolidation of the hollow walls is necessary during the drilling process using the auger rod (250).

Basically, although the load is applied by the drill 251 and the consolidation of the cavity walls occurs,

In the present invention, it is preferable to install a drill 251 and a separate compaction sphere 253 on the auger rod 250 so that the compaction sphere 253 pushes the soil to the hole wall, compacting and compacting it.

The consolidation sphere 253 serves to prevent the collapse of the cavity wall and at the same time smoothen the cavity wall surface of the drilling hole 10 to facilitate penetration of the steel frame 100.

Although the present invention has been described in relation to the preferred embodiment as mentioned above, various modifications and variations are possible without departing from the gist of the present invention and can be used in various fields.

Accordingly, the scope of the claims includes modifications and variations falling within the true scope of the invention.

W: exterior wall of the building
10: Perforated hole
20: mortar
100: steel frame
110: H-beam steel
120: Deformed H-beam steel
130: steel pipe
140: Connecting material
141: male coupling part
140`: body
140``: Fastening part
170: Guide head
200: Improved ground boring machine
210: crane
211: boom stand
220: Support frame
230: Rotary head
250: Ogrerod
251: drill
253: Consolidated sphere

Claims (4)

It relates to an earth retaining wall built underground.
A plurality of perforated holes (10) spaced a predetermined distance from the exterior wall (W) of a nearby building and overlapping each other; Mortar (20) filled in the perforated hole (10); Characterized in that it includes a steel frame (100) installed by penetrating into the mortar (20),
The steel frame 100 is composed of a plurality of units, one unit is installed by penetrating one drilled hole 10, and the plurality of units are coupled to each other in series,
The unit is an H-beam 110, and one end of the flange of the H-beam 110 is coupled to the other end of the flange of the adjacent H-beam 110,
The drilling hole 10 is formed using an improved ground boring machine,
The improved ground boring machine,
A crane (210) to which the boom (211) is connected; A support frame 220 installed vertically at the end of the boom 211; A rotary head 230 installed on the upper front of the support frame 220; Characterized in that it includes an auger rod (250) installed to penetrate the rotary head (230) from top to bottom,
When drilling the ground by rotating and rising or lowering the auger rod 250, the position of the rotary head 230 is fixed, and the auger rod 250 penetrates the rotary head 230. Since it rises or falls, there is no change in the center of gravity due to the vertical position change of the rotary head 230, thereby reducing the risk of falling of the support frame 220,
Since the penetrating position of the rotary head 230 is biased from the rotary head 230 to the outer wall of a nearby building, work is possible adjacent to the outer wall of a nearby building,
A compaction sphere 253 is installed separately from the drill 251 on the auger rod 250 so that the compaction sphere 253 pushes the soil to the cavity wall to compact and consolidate it. Therefore, the compaction sphere 253 prevents the collapse of the cavity wall. It is characterized by a function of smoothing the hollow wall surface of the perforated hole (10) to prevent and at the same time facilitate penetration of the steel frame (100),
When a gap occurs between one end of the flange of the H-beam 110 and the other end of the flange of the adjacent H-beam 110, the connecting material 140 is inserted and fastened into the gap,
A T-shaped male coupling portion 141 consisting of a body 141 ` and a fastening portion 141 `` is joined to the flange end of the H-beam 110,
The connecting member 140 is bent at both ends so that the fastening part 141`` is inserted and caught,
Characterized in that the fastening portion 141 `` can be flexibly positioned within the connecting member 140 in accordance with the spacing between the H-beams 110,
When constructing the drilling hole 10 by lowering the auger rod 250, it functions to secure and maintain the horizontal position and verticality of the auger rod 250 on the ground, and is maintained without being removed, so that the head of the pile is maintained. To function to strengthen and connect each other,
Wall thickness reduction, characterized in that a guide head 170, which is a concrete structure constructed in the upper shape of the drilling hole 10, is provided by excavating a trench in the ground direction in the longitudinal direction to a predetermined depth and installing a formwork prior to underground drilling. An improved retaining wall structure for. delete delete delete