KR20200124949A - Anchor Tension way sheathing structure and sheathing method of construction - Google Patents

Abstract

In the present invention, by installing an earth anchor to the rear of the post pile so that the upper part of the post pile is tensioned, there is no concern that the post pile falls or collapses into the trenching work space without installing a separate support material on the excavation side. The goal is to provide an anchor tension-type retaining structure and a retaining method that can easily provide safe excavation work at low cost even within a narrow space in the city.
That is, the present invention and the post pile installed at the boundary of the trench; An earth anchor including a wire or steel bar provided at the lower end of the anchor installed at a depth greater than that of the post pile to the outside of the post pile; A horizontal support member fixing one end to the upper end of the post pile so as to be positioned outside the post pile; A pair of anchor supports installed at right angles to the horizontal support member to provide a tensile space; It is to provide a retaining structure including an anchor bracket for tensioning the wire or steel bar drawn out through a tensioning space while being placed in the anchor support and a method of constructing the same.

Description

Anchor Tension way sheathing structure and sheathing method of construction

The present invention relates to an anchor tension-type soil barrier structure and a soil barrier construction method for installing earth plates on a pillar pile erected at regular intervals in a civil engineering or building construction site, and more specifically, an earth anchor installed at the rear of the pillar pile to the top of the pillar pile. By being tensioned, there is no fear that the stakes may fall or collapse into the trenching work space even without installing a separate support material on the trenching side.Especially, safe trenching work can be easily provided at low cost even within a narrow urban area. It is intended to provide an anchor tension type retaining structure and a retaining method.

In general, the earth protection method is a temporary structure installed for the purpose of preventing the collapse of the excavation wall or the inflow of soil so that the underground works can be performed smoothly, and it is a facility that requires both safety and construction and economical efficiency.

In addition, H.PILE + earth plate installation method, sheet pile installation method, and prefabricated simple earth block installation method are mainly used for the earth protection method. Appropriate method is selected and installed according to various conditions such as soil quality and groundwater level of the installation site. It is decided in the order of selection, determination of buried type (buried width and depth), earth pressure calculation, safety factor application, need for earth protection, strength calculation, comparison of construction, selection of earth protection method and design construction.

The support pile earth plate construction method of a general example of the earth protection method consists of a structure including a plurality of support piles (H beams) vertically installed, and an earth plate that is coupled between the support piles to prevent the rear pile of soil from collapsing forward.

At this time, a wooden plate or a steel plate of a predetermined standard is used as the earth plate, which is laminated to form a wall, and has a structure in which a clamp (wedge) is installed to fix the laminated earth plate.

In the case of high-depth dug construction, such a supporting pile soil blocking method cannot resist the earth pressure of the rear soil with only the H beam, so a large number of support materials (Strut, Earth Anchor, etc.) Raker, etc.), which takes a long construction period and is not economical, and makes it difficult to secure a working space and is structurally inefficient, so there is a high risk of subsidence of the surrounding ground and a relatively large displacement of the upper head. Therefore, there was a problem that large relaxation of the ground on the back side occurred.

As a prior art for solving the above problems, Korean Registered Patent Publication (B1) Registration No. 10-0964993 (2010.06.21.) discloses support materials (Strut, Earth Anchor, Raker) even when high-depth excavation is performed. Etc.) to sufficiently resist the earth pressure of the rear soil and suppress the occurrence of the overall displacement of the soil barrier structure. A technology has been provided that allows sufficient resistance and suppresses the occurrence of overall displacement of the retaining structure.

Looking at the constitutional features of the two-row earthing method, as shown in Fig. 4, in a state in which the first row thumb piles and the second row restraint piles are spaced apart from each other and perpendicularly to the ground, the upper part is connected through a connecting member. By connecting the piles in the form of approximately "P", a construction method capable of preventing the deformation of the piles has been disclosed by sufficiently resisting the pressure of the rear soil more excellently than the existing one-row piles.

However, as described above, it can be confirmed that the resistance dimension against high earth pressure is higher than that of the two-row impeding pile earthing method and the first row earthing method, but there has been a problem that large displacement occurs due to structural warpage.

In addition, by additionally installing an anchor or rail inside the pile in order to increase the resistance of these two-row restrained piles, there was a problem in that the duration of the earth protection work was lengthened and the installation cost was increased.

As another prior art, the post-type soil barrier method of Korean Registered Patent Publication (B1) 10-1262357 (2013.05.08.) is provided, and the configuration is a boring device (not shown) to prevent multiple soil barriers at regular intervals. A hole drilling step of drilling a hole for a pillar, a post installation step of inserting the first and second stakes into the perforated post holes, respectively, and the upper connection portion of the first and second stakes A binding step of connecting using a binding means; an excavation step of excavating the ground so that one side of the first pillar is exposed while the first and second pillars are connected, and the exposed first pillar and Includes; Including, the second holding pile is divided into a drawing portion and a fixed portion formed by temporary welding (假接) a fixing portion at the lower end of the second pillar pile, and the second In the column type soiling method in which one or more wires are closely adhered to the outer circumferential surface of the holding pile and the exposed steel wire is connected to the fixed part by covering the end, the fixing part is temporarily bonded to the end of the second pile A steel pipe having a plurality of holes, a plurality of spaces formed inside the steel pipe, a binding line connecting and fixing several spacers inside the steel pipe, and at least one steel wire inserted into the inside of the steel pipe and covered by a wire and exposed Including, wherein, by pouring concrete on the outside of the steel pipe, the concrete is evenly poured into the inside and outside of the steel pipe through the hole in the steel pipe, and the holding part and the steel wire inserted therein are firmly cured. Has been provided.

In this configuration, the first and second stakes are installed in an inclined manner so that the tops meet each other, so constructability is poor, and the construction of the inclined first and second stakes in an urban area where the space is narrow. There was a difficulty in securing the space for drilling the post hole, so it was difficult to apply it to the field.

KR 100964993 B1 2010.06.21. KR 101262357 B1 2013.05.08.

Accordingly, the present inventor has researched and developed the present invention in order to solve this problem because the conventional earth-blocking method has difficulty in functioning in an urban area with a narrow place.

In other words, in the present invention, a post pile is erected at the boundary of the trench, and the wire or steel bar of the earth anchor installed to be supported by the post pile is tensioned by installing an earth anchor to the rear of the trench. The goal is to provide an anchor tension-type soil barrier structure and a soil barrier construction method that can easily provide safe excavation work at low cost even within a narrow urban area by preventing the risk of the piles falling or collapsing into the excavation work area.

In the present invention as a means of solving the problem, the first post pile installed at the boundary of the trench; An earth anchor including a wire or steel bar provided at the lower end of the anchor installed at a depth greater than that of the post pile to the outside of the post pile; A horizontal support member fixing one end to the upper end of the post pile so as to be positioned outside the post pile; A pair of anchor supports installed at right angles to the horizontal support member to provide a tensile space; It characterized in that it comprises an anchor bracket for tensioning the wire or steel bar drawn out through the tension space in a state placed in the anchor support.

Second, a post pile installed at the boundary of the trench; An earth anchor including a wire or steel bar provided at the lower end of the anchor installed at a depth greater than that of the post pile to the outside of the post pile; A horizontal support member fixing one end to the upper end of the post pile so as to be positioned outside the post pile; An anchor support mounted at a right angle to the horizontal support member; It characterized in that it comprises a cone for anchor tension installed on the anchor support to tension the wire or steel bar drawn out through the tensioning hole formed in the anchor support.

Third, the wire or steel rod is characterized in that it is installed in an inclined manner so that the distance from the anchor to the stake pile gradually approaches.

Fourth, the wire or steel bar is characterized in that it is configured to be detachable from the anchor.

A fifth step of installing a post pile in which a post hole is drilled at the boundary of the trench and a post pile is inserted; An anchor hole is drilled to the outside of the pillar pile to a deeper depth than the pillar pile, and the anchor is formed in the ground, and the lower end of the wire or steel bar is fixed to the anchor so that the distance from the vertical or anchor to the pillar pile is gradually approached. Earth anchor installation step; A horizontal support member installation step of installing a horizontal support member positioned outside the post pile so that one end is fixed to the upper end of the post pile; An anchor support installation step of installing and coupling a pair of anchor supports to the upper side of the horizontal support member at a right angle to the horizontal support member to provide a tension space; An anchor bracket installation step of placing the anchor bracket on the anchor support to tension the wire or steel bar drawn out into the tensioning space formed between the anchor supports; It characterized in that it comprises a tensioning step of bonding the wire or steel bar to the anchor bracket and tensioning.

Sixth, the tensioning step is characterized in that the trenching is performed at least once more after the excavation is made to a certain depth so that the wire or steel bar for tensioning the post pile can always maintain the tensioned state.

In the case of using the anchor tension type retaining structure and the retaining method provided by the present invention, there are the following effects.

-The anchor is provided in a state that is installed at a deeper depth than the pillar pile, and the wire or steel bar combined with the anchor stretches the top of the pillar pile and pulls it to the outside of the excavation work space. Can be wiped out.

-It is easy to secure work space and improve workability as it can minimize the installation of separate support materials or strips on the excavation side.

-As earth anchor construction is possible in a narrow space, construction costs in a narrow space in the city center can be drastically reduced.

1 is a perspective view showing a preferred example of the anchor tension retaining structure provided by the present invention
Figure 2 is a plan view of Figure 1
Figure 3 is a side cross-sectional view of Figure 1
4 is a side cross-sectional view showing an example in which a wire or steel bar is installed in an inclined manner in the present invention anchor tension type retaining structure
Figure 5 is a side cross-sectional view showing an example of installing one anchor support in the present invention anchor tension retaining structure
Figure 6 is a flow chart showing the construction step according to the anchor tension type retaining method provided in the present invention

Hereinafter, a preferred embodiment of the anchor tension type retaining structure and the retaining method provided by the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing a preferred example of the anchor tension type retaining structure provided by the present invention, FIG. 2 is a plan view of FIG. 1, and FIG. 3 is a side cross-sectional view of FIG.

When digging in a civil engineering or building construction site, a line is drawn at the boundary to be dug, and a pillar hole is drilled at regular intervals along this line to install a pillar pile (2) in an H-beam configuration, and a pillar pile (2). An earth plate (3) is inserted between the fields to block the inflow of earth and sand into the excavation area. In this case, in this case, it is located on the side of the excavation construction section so as to eliminate the risk of collapse of the pillar pile (2) into the excavation area A large number of support materials (Strut, Earth Anchor, Raker, etc.) are used. In the present invention, an anchor tension type retaining structure (1) has been developed to solve such a problem.

In particular, the anchor tension-type earth retaining structure (1) provided by the present invention is to provide effective digging even in a narrow working space in the city center, and to the outside of the post pile (2) installed along the digging boundary, the post pile (2) The anchor 41 is constructed at a deeper depth, and the rear of the pillar pile 2 is applied by applying the earth anchor 4 of the configuration of drawing the wire or steel bar 42 coupled to the lower end to the ground. To be located.

At this time, the anchor 41 can be installed on the outside of the holding pile (2) or outside between the holding pile (2) and the holding pile (2), preferably between the holding pile (2) and the holding pile (2) Place it on the outside. In addition, the wire or steel bar 42 having the lower end coupled to the anchor 41 may be configured such that the lower end is integrally fixed to the anchor 41 or may be coupled in a detachable structure.

The wire or steel bar 42 is installed inclined so that the distance gradually approaches from the anchor 41 toward the post pile 2 as shown in FIG. 4. Installation of such a wire or steel bar 42 may provide more stable tension of the post pile 2.

A horizontal support member 5 is installed at the upper end of the post pile 2 so as to face the outside of the boundary of the dug. The horizontal support member 5 may be selectively coupled to the upper or rear upper end of the post pile 2, and the horizontal support member 5 may be reinforced using the reinforcing rib 51.

The horizontal support member 5 is installed at the same height in a state in which the height of the post pile 2 is arranged horizontally to provide a horizontal state.

A pair of anchor supports 6 are installed on the upper side of the horizontal support member 5 installed as described above. Anchor support (6) is mounted at a right angle to the horizontal support member (5), so that the tension space (7) can be provided between the two anchor support (6).

And an anchor bracket (8) is installed so that the upper end of the pair of anchor supports (6) is located at the upper end of the wire or steel bar (42) with the lower end coupled to the anchor (41), and is drawn out through the tension space (7). It is configured to be able to tension the wire or steel bar (42).

The anchor bracket 8 is not specifically shown, but has a built-in anchor tension cone capable of clamping after tensioning the wire or steel bar 42, and various known products may be selected and used.

Figure 5 is a side cross-sectional view showing an example of installing one anchor support in the present invention anchor tension type retaining structure.

For this, an anchor support 6 is installed on the upper side of the horizontal support member 5, and after this is installed, a hole for tensioning 6a is drilled, and then an anchor tensioning cone 9 is installed on the upper side of the hole for tensioning. It is configured to be able to tension the wire or steel bar 42 drawn through (6a).

Figure 6 shows a flow chart showing the construction step according to the anchor tension type retaining method provided in the present invention.

The anchor tension type earthen blocking method provided in the present invention includes: 1) a post pile installation step (S10), 2) an earth anchor installation step (S20), 3) a horizontal support member installation step (S30), and 4) an anchor support installation Steps (S40), 5) anchor bracket installation step (S50), and 6) tensioning step (S60) are sequentially performed, and these methods will be described in more detail below.

1) Post pile installation step (S10)

By designing and surveying, a line is drawn at the boundary of the excavation, and a post hole is drilled to a certain depth at regular intervals using an auger machine along this line, and the auger is pulled out and the post pile (2) is inserted. Install the post pile (2) by the method.

In areas where soil is lost due to groundwater, etc. when drilling the pillar hole, it is preferable to construct a concrete wall covering.

2) Earth anchor installation step (S20)

When the post pile (2) is installed along the digging boundary as described above, the earth anchor (4) is installed outside the post pile (2).

The post pile (2) is installed to a depth corresponding to the depth of excavation, but the earth anchor (4) drills an anchor hole at a depth deeper than the post pile (2) at the bottom of the rock layer or gravel layer, and the anchor (41) in the ground. It is formed to provide a supporting force, and the lower end of the wire or steel bar 42 is installed on the anchor 41.

At this time, the wire or steel bar 42 is installed to be vertically tensioned from the anchor 41 as shown in FIG. 3, or inclined so that the distance from the anchor 41 to the post pile 2 gradually approaches as shown in FIG. It can be installed as much as possible.

In addition, the wire or steel bar 42 is installed so that the lower end is fixed to the anchor 41 or is installed in a separate type so that the wire or steel bar 42 can be removed in a state where the excavation work or the like is completed.

3) Horizontal support member installation step (S30)

The horizontal support member installation step (S30) is a step of installing the horizontal support member 5 so that one end is fixed to the upper end of the pillar pile 2 so as to be located outside the pillar pile 2.

The horizontal support member 5 may be welded to the upper part of the post pile 2 to be integrally coupled, or welded to the rear of the upper end to be integrally coupled.

Before installing the horizontal support member 5, it must be done after arranging the post piles 2 to the same height, and it is natural that a reinforcing rib 51 for supporting the horizontal support member 5 may be additionally installed.

4) Anchor support installation step (S40)

As described above, in the state where the horizontal support member 5 is installed on the pillar pile 2, the anchor support 6 is placed above the horizontal support member 5 to be coupled.

The anchor support (6) is coupled to the horizontal support member (5) in two rows so as to be as far away as possible from the post pile (2), and a tension space (7) is formed between the anchor support (6), and the earth anchor installation step (S20) The wire or steel wire drawn out from) to the ground is inserted into the tension space (7).

In addition, it is natural that the anchor support 6 may be provided in a single type in which tension holes 6a are perforated at regular intervals as shown in FIG. 5.

5) Anchor bracket installation step (S50)

When a single or two rows of anchor supports 6 are installed above the horizontal support as described above, the anchor bracket 8 is placed on the top of the wire or steel bar 42 drawn into the tensile space 7 and the anchor support 6 Don't get on the upper side.

6) Tensile step (S60)

The tensioning step (S60) is a step of combining the wire or steel rod 42, which is drawn into the tensioning space 7 as described above, to the anchor bracket 8 placed in the anchor support 6 and tensioning.

The tensioning step (S60) is preferably performed at least once more after the excavation is made to a certain depth so that the wire or steel bar 42 for tensioning the post pile 2 always maintains a tensioned state.

In the drawings, unexplained reference numeral 9 denotes a strip length installed horizontally on the post pile 2 in the state of being dug inside the post pile 2.

In the case of using the anchor tension type retaining structure (1) and the retaining method of the present invention provided as described above, since the anchor 41 can be constructed within a narrow space, construction costs in a narrow space in the city center can be significantly reduced. In addition, it is possible to minimize the installation of separate support materials or strips on the excavation side, so it is possible to secure a work space, thereby maximizing work efficiency, while eliminating the worry of the pillar pile (2) falling or collapsing toward the excavation area. It will be possible.

In the detailed description of the present invention, specific embodiments are described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of protection of the present invention should not be defined by being limited to the described embodiments, and should not be determined by the claims to be described later as well as equivalents.

1: Anchor tension type earthen barrier structure 2: Pillars
3: Earth version 4: Earth anchor
41: anchor 42: wire or steel bar
5: horizontal support member 51: reinforcing rib
6: Anchor support 6a: Tension hole
7: Tensile space 8: Anchor bracket
S10: post pile installation step
S20: Earth anchor installation step
S30: horizontal support member installation step
S40: Anchor support installation step
S50: Anchor bracket installation step
S60: Tension stage

Claims (6)

A post pile (2) installed at the boundary of the excavation;
An earth anchor 4 including a wire or steel bar 42 provided at the lower end of the anchor 41, which is constructed to the outside of the pillar pile 2 at a depth deeper than the pillar pile 2;
A horizontal support member (5) fixing one end to the upper end of the post pile (2) so as to be positioned outside the post pile (2);
A pair of anchor supports (6) mounted at right angles to the horizontal support member (5) to provide a tension space (7);
An anchor tension type retaining structure, characterized in that it comprises an anchor bracket (8) for tensioning the wire or steel bar (42) drawn out through the tensioning space (7) while being placed in the anchor support (6).
A post pile (2) installed at the boundary of the excavation;
An earth anchor 4 including a wire or steel bar 42 provided at the lower end of the anchor 41, which is constructed to the outside of the pillar pile 2 at a depth deeper than the pillar pile 2;
A horizontal support member (5) fixing one end to the upper end of the post pile (2) so as to be positioned outside the post pile (2);
An anchor support (6) mounted at a right angle to the horizontal support member (5);
An anchor, characterized in that it comprises an anchor tension cone (9) installed on the anchor support (6) to tension the wire or steel bar (42) from which the tensioning hole (6a) formed in the anchor support (6) is drawn out Tension type earth protection structure.
The method according to claim 1 or 2;
The wire or steel bar 42 is an anchor tension type retaining structure, characterized in that it is installed obliquely so that the distance from the anchor 41 to the holding pile (2) gradually approaches.
The method according to claim 1 or 2;
The wire or steel rod 42 is an anchor tension type retaining structure, characterized in that configured to be detachable from the anchor (41).
A post pile installation step (S10) of drilling a post hole at the boundary of the dug and inserting the post pile (2);
An anchor hole is drilled to the outside of the pillar pile (2) to a deeper depth than the pillar pile (2), and the anchor 41 is formed in the ground, and the lower end of the wire or steel bar 42 is fixed to the anchor 41 to vertically Or an earth anchor installation step (S20) to be tensioned obliquely so that the distance from the anchor 41 to the post pile 2 gradually approaches;
A horizontal support member installation step (S30) of installing a horizontal support member 5 to be positioned outward of the post pile 2 so that one end is fixed to the upper end of the post pile 2;
An anchor support installation step (S40) of installing and coupling a pair of anchor supports (6) at a right angle to the horizontal support member (5) above the horizontal support member (5) to provide a tension space (7);
An anchor bracket installation step (S50) of placing the anchor bracket 8 on the anchor support 6 so as to tension the wire or steel bar 42 drawn out into the tension space 7 formed between the anchor support 6;
Anchor tension type retaining method comprising a tensioning step (S60) of bonding and tensioning the wire or steel rod (42) to the anchor bracket (8).
The method according to claim 5;
The tensioning step (S60) is performed at least once more after the excavation is made to a certain depth so that the wire or steel bar 42 for tensioning the post pile 2 always maintains a tensile state. Method.

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