KR101169732B1 - Earth anchor and retaining wall using it - Google Patents

Abstract

PURPOSE: An underground anchor system and a retaining wall structure using the same are provided to improve construction quality by improving the rigidity and durability of the retaining wall structure. CONSTITUTION: An underground anchor system comprises a corrugated steel pipe(11), a fixing member(12), and a connection member(13). The corrugated steel pipe is inserted into a buried hole(b) and has a spiral part(111). The fixing member is installed in the corrugated steel pipe and has first and second fastening parts. Spiral grooves(121a) are formed on the inner surface of the first fastening part and coupled to the spiral part of the corrugated steel pipe. The second fastening part is formed outside the first fastening part. The connection member is connected to the fixing member. One side of the connection member is inserted into the corrugated steel pipe and fixed to the second fastening part, and the other side is connected to a part to be installed.

Description

Underground anchoring device and retaining wall structure using the same {EARTH ANCHOR AND RETAINING WALL USING IT}

The present invention relates to an underground anchor device and a retaining wall structure using the same, and more particularly, due to an increase in the area in contact with the grouting in the construction state, the fixing strength in the buried hole is increased to stabilize the conduction moment of the fixed member. The present invention relates to an underground anchor device and a retaining wall structure using the same, which can be supported, and can be light and easy to construct, thereby improving workability and handling, as well as reducing construction cost and shortening construction period.

Generally, retaining walls are constructed in order to prevent collapse due to the loss of soil in the course of various civil works such as road construction, housing complex creation, waterway and embankment construction.

Retaining wall is implemented by various construction methods, but it can be divided into retaining wall construction method in the cultivated land and retaining wall construction method in incision site.However, in Korea, road construction, housing complex creation, waterway and embankment are made due to the characteristics of the country with many mountainous regions. In the process of civil works, such as construction, there are relatively many incision sites, and the retaining wall construction method using blocks and underground bolts is widely applied.

The retaining wall structure constructed at the incision site cuts the original ground to form an inclined surface so as to form a cut slope, and inserts underground bolts (anchors) by inserting underground bolts (anchors) at a predetermined interval on the cut slope.

When the curing of the injected grout is completed, the block (or precast panel) stacked vertically on the foundation surface of the cut slope is connected to the ground bolt exposed to the cut slope to support the conductive moment acting on the block so that the retaining wall To prevent collapse.

On the other hand, the retaining wall structure to be constructed in the incision site adopts a method of using the reinforcement mainly as underground anchors as disclosed in Republic of Korea Patent Registration No. 10-1010366 and Republic of Korea Patent No. 10-0391770.

However, the rebars applied as underground anchors have a small surface area in contact with grouting per unit length, so that the fixing strength in the buried holes is reduced, so that the rigidity is weak against tensile force, and thus the conductive moment of the block cannot be stably supported. There is a problem that causes serious safety accidents such as collapse of the retaining wall.

In addition, since the reinforcing bar is not easily bent, it is very difficult to connect the exposed part of the block and the reinforcing bar and takes a lot of work time. In addition, the rebar is a rod-like member that does not have a hollow portion therein, which is relatively heavy, which makes it difficult for workers to transport, handle, and install the construction, resulting in poor workability and causing safety accidents.

In addition, the rebar has caused a rise in construction costs due to a rise in material costs due to the recent surge in iron ore prices.

The present invention has been proposed in view of the above-mentioned contents, and the underground anchor which can stably support the conduction moment of the fixed member by increasing the fixing strength inside the buried hole due to the increase of the area in contact with the grouting in the construction state It is an object of the present invention to provide an apparatus and a retaining wall structure using the same.

Another object of the present invention is to provide an underground anchor device and a retaining wall structure using the same, which is light and easy to construct, which improves workability and handleability, reduces construction costs, and shortens the construction period.

In order to achieve the above object, the underground anchor device according to the present invention is an underground anchor device installed in a buried hole formed in the ground, the corrugated steel pipe having a spiral portion inserted into the interior of the buried hole and formed in a spiral on the outer peripheral surface; A fixing member having a first fastening part having a spiral groove formed therein in a spiral shape to be inserted into and fastened to an outer spiral part of the corrugated steel pipe, and a second fastening part formed at an outer side of the first fastening part; And a connecting member which is fixed by the second fastening part in a state where one side is inserted into the corrugated steel pipe and the other end is connected to the installed part.

The first fastening part may include a plurality of wrinkles formed at a portion in contact with the second fastening part.

The second fastening portion is integrally protruded into the first fastening portion and the insertion hole is formed in the center is formed at least one or more cutouts are formed on the outer peripheral surface and a plurality of rod-like elastic protrusions protruding on the inner surface A fixed part; It may include a clamping member installed on the outer surface of the elastic fixing portion for pressing the connection member inserted therein.

In addition, as long as the second fastening portion protrudes from the end of the body formed in an arc shape so that one side portion is integrally connected to the first fastening portion and the inner and outer sides of the hollow portion into which the connection member is inserted are formed or collected. A pair of clamp pieces; It may include a fastening member fastened to the fastening protrusion to press the connecting member inserted into the clamp piece.

At this time, a plurality of pressing projections for pressing the connection member may be projected on the inner surface of the clamp piece.

The corrugated steel pipe may be perforated with a plurality of grouting flow holes communicated with the hollow portion inside the outer circumferential surface.

In order to achieve the above object, the retaining wall structure using the underground anchor device according to the present invention is the above-mentioned underground anchor device; An internal grouting layer and an external grouting layer, wherein a grouting material is injected into the buried hole to cure and form inside and outside the corrugated steel pipe; And a structure constructed in front of the cut slope and formed of a block or precast panel and to which an outer end of the connecting member is connected.

According to the underground anchor device and the retaining wall structure using the same according to the present invention, since the part inserted into the buried hole and fixed by grouting is composed of a corrugated steel pipe having a large surface area, it is buried due to an increase in the area in contact with the grouting in the constructed state. In addition to increasing the fixing strength inside the hole, the grouting layer injected and formed inside the buried hole is composed of an internal grouting layer and an external grouting layer, which are cured and formed inside and outside the corrugated steel pipe, thereby maintaining a firm fixed state. There is an effect that can stably support the conduction moment of the retaining wall. This improves the construction quality because the rigidity and durability of the retaining wall structure is improved.

In addition, the underground anchor device according to the present invention applies a corrugated steel pipe having a hollow portion, and is constructed in such a manner as to combine a fixing member for fixing a connecting member to an outer end, so that the construction is lighter than that of a rebar used as a conventional underground anchor. Because of its simplicity, workability and handling are improved, which can shorten air and reduce safety accidents.

In addition, the construction cost can be reduced because the construction of the low cost corrugated steel pipe due to the low weight ratio compared to the expensive rebar due to the recent surge in international prices of iron ore.

Figure 1 is a side cross-sectional view showing the overall structure of the underground anchor device according to an embodiment of the present invention,
Figure 2 is an exploded perspective view showing an underground anchor device according to an embodiment of the present invention,
Figure 3a is an exploded perspective view showing a first modification of the fixing member applicable to the underground anchor device according to an embodiment of the present invention,
Figure 3b is a perspective view showing a second modification of the fixing member which can be applied to the underground anchor device according to an embodiment of the present invention,
Figure 4 is a perspective view showing a modification of the corrugated steel pipe that can be applied to the underground anchor device according to an embodiment of the present invention,
5a to 5f are views for explaining the construction process of the retaining wall structure using the underground anchor device according to an embodiment of the present invention,
Figure 6 is a process diagram showing the construction process of the retaining wall structure using an underground anchor device according to an embodiment of the present invention.

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

1 is a side cross-sectional view showing the overall structure of an underground anchor device according to an embodiment of the present invention, Figure 2 is an exploded perspective view showing an underground anchor device according to an embodiment of the present invention.

1 and 2, the underground anchor device 1 according to an embodiment of the present invention is used for the construction of the retaining wall structure constructed on the cut slope (a), buried hole (b) perforated in the ground And a corrugated steel pipe 11 inserted into the corrugated steel pipe 11, a fixing member 12 installed on the corrugated steel pipe 12, and a connecting member 13 connected to the fixing member 12.

The corrugated steel pipe 11 is a rod-shaped member, usually referred to as a corrugated pipe, and has a spiral portion 111 formed in a spiral shape on an outer circumferential surface of a body inserted into the buried hole b.

The fixing member 12 includes a first fastening part 121 having a spiral groove 121a formed therein in a spiral shape so as to be inserted into and fastened to the outer helix part 111 of the corrugated steel pipe 11, and the first fastening part. The second fastening part 122 formed outside the 121 is provided.

In addition, the second fastening part 122 may be formed in various structures without limitation as long as it is a structure capable of firmly fixing the connection member 13 inserted therein, as shown in FIG. 1 consists of a pair of clamp pieces 122a having one side part integrally connected to the fastening part 121 and a fastening member 122b for pressing the connecting member 13 inserted into the clamp piece 122a. have.

Clamp piece (122a) is composed of a body formed in an arc shape formed to open or gather inward and outward on the basis of the hollow portion into which the connection member 13 is inserted, while the fastening hole (122b) is fastened to the end of the body ( The fastening protrusion 122c which has 122d) protrudes. In addition, a plurality of pressing protrusions 122e for pressing the connecting member 13 protrude from the inner surface of the clamp piece 122a, and the pressing protrusion 122d is firmly rubbed on the outer surface of the connecting member 13 during pressing. It is configured to maintain a fixed state.

The connecting member 13 is fixed by the second fastening part 122 in a state in which one side is inserted into the corrugated steel pipe 11, and the other end thereof is installed as the precast panel 2 of the retaining wall structure in which the other end is described later. Connected to the negative.

Figure 3a is an exploded perspective view showing a first modification of the fixing member that can be applied to the underground anchor device according to an embodiment of the present invention.

Referring to FIG. 3A, the fixing member 12 is formed on the outer side of the first fastening part 121 and the first fastening part 121 which is inserted into and fastened to the outer spiral part 111 of the corrugated steel pipe 11. The second fastening part 122 is provided, and the second fastening part 122 has an elastic fixing part 122f into which the connecting member 13 is inserted, and the elastic fixing part 122f is pressed against the inside to be pressed into the inside. It consists of a clamping member 122g for pressing and fixing the inserted connecting member 13.

The elastic fixing part 122f is formed of a rod-shaped structure in which an insertion hole into which the connecting member 13 is inserted at the center and integrally protrudes from the first fastening part 121 is formed. At least one cutout 122h is formed on the outer circumferential surface thereof. It is formed, and the some pressurization protrusion 122i protrudes on the inner surface.

Figure 3b is a perspective view showing a second modification of the fixing member which can be applied to the underground anchor device according to an embodiment of the present invention.

Referring to FIG. 3B, the fixing member 12 is formed on the outer side of the first fastening part 121 and the first fastening part 121 which is inserted into and fastened to the outer spiral part 111 of the corrugated steel pipe 11. It is provided with a second fastening portion 122, the second fastening portion 122 is configured to enable the adjustment of the angle.

To this end, the first fastening part 121 is formed with a plurality of wrinkles 123 formed in the contact with the second fastening part 122.

As shown in FIG. 3B, when the corrugation part 123 is formed in the first fastening part 121, the angle of the second fastening part 122 can be adjusted to fit the installation angle even if the connecting member 13 is bent. Therefore, even when the bent connection member 13 is installed for fixing with the precast panel 2, the connection work can be performed conveniently and quickly.

Figure 4 is a perspective view showing a modification of the corrugated steel pipe applicable to the underground anchor device according to an embodiment of the present invention.

Referring to Figure 4, the corrugated steel pipe 11 has a plurality of grouting flow holes 113 are in communication with the inner hollow portion on the outer peripheral surface.

When the grouting flow hole 113 is drilled in the corrugated steel pipe 11 as described above, the corrugated steel pipe 11 is inserted through the grouting flow hole 113 in the process of injecting grouting into the buried hole b during construction. Since the concrete mortar flows easily to the outside and inside of the), it is possible to easily form the inner grouting layer 4 and the outer grouting layer 5, as shown in Figure 1, to evenly fill the concrete mortar to improve the construction quality Can be.

On the other hand, the retaining wall structure using the above-mentioned underground anchor device is a construction (2, free) installed in one or more stages on the base portion (3) formed on the lower base surface (c) of the cut slope (a) as shown in FIG. Cast panel), underground anchor device (1) inserted into the buried hole (b) perforated on the cut slope, and the grouting material is injected into the buried hole (b) to cure in and out of the corrugated steel pipe (11), It is composed of an inner grouting layer 4 and an outer grouting layer 5 formed.

The construction 2 may be applied to various constructions such as a block or a precast panel, but the present embodiment will be described based on the application of the precast panel 2.

The precast panel 2 may be constructed by selecting a form in which a color coating layer is formed on the front surface, a wood plate attached form, a form having a vegetation structure for vegetation, etc., so as to express various aesthetics. This was done using the basic precast panel formed only.

In addition, the precast panel 2 is formed to be inclined anchor insertion hole 21 formed in the center for fastening with the connecting member (13). As such, when the anchor insertion hole 21 is formed to be inclined, the connection member 13 can be connected without bending, and thus the workability is improved. In addition, the anchor insertion hole 21 is provided with a cover member (not shown) is inserted in order to block the inflow of the appearance and the like to improve.

5a to 5f are views for explaining the construction process of the retaining wall structure using the underground anchor device according to an embodiment of the present invention, Figure 6 is a view of the retaining wall structure using the underground anchor device according to an embodiment of the present invention It is a process chart showing the construction process.

5a to 5f, the retaining wall structure using the underground anchor device is cut step (S1), anchor installation step (S2), foundation forming step (S3), panel installation step (S4) and back filling step (S5) Although the retaining wall is constructed by sequentially, the order of implementation of each step may be changed depending on the construction method and site conditions of the retaining wall.

Cutting step (S1) is a step of cutting the original ground to form a slope, as shown in Figure 5a by cutting the ground to have an angle designed using equipment such as an excavator to form a slope (a), the lower portion of the slope The horizontal foundation surface (c) is to be formed. If sand or silt soil without adhesive force appears during cutting, or if deformation of the ground occurs due to tensile cracking of the ground, and the risk of collapse is expected, the cutting operation should be stopped immediately. Afterwards, measures should be taken to resolve the situation.

The anchor installation step (S2) is a step of installing the underground anchor device (1) for supporting the conduction moment acting on the precast panel (2) as shown in Figure 5b to drill a buried hole (b) in the slope Insert underground anchor device (1) to install in a tensioned state.

Looking at the installation method of the underground anchor device 1 in more detail, as shown in Figure 1, the corrugated steel pipe 11 is inserted into the buried hole (b) and the internal grouting inside and outside the corrugated steel pipe (11) A grouting material such as concrete mortar is injected to form the layer 4 and the outer grouting layer 5, the fastening member 12 is fastened to the outer portion of the corrugated steel pipe 11, and then the connecting member 13, such as reinforcing steel bars. Is inserted through the second fastening portion 122 of the fixing member 12 and installed to be located inside the corrugated steel pipe 11.

Subsequently, the fastening member 122b is fastened to the fastening protrusion 122c of the clamp piece 122a so that the connection member 13 inserted therein is press-fixed to the fixing member 12.

The foundation forming step S3 is a step of forming the foundation 3 on the lower horizontal foundation surface c of the slope a as shown in FIG. 5C, and a known method of installing a foundation block prepared and prepared in advance. Can be implemented.

In the panel installation step (S4), the precast panel (2) prepared in advance by precasting is lifted by lifting equipment such as a crane and arranged in a row along the transverse direction, but the connecting member (13) is precast panel (2). Insert into the anchor insertion hole 21 of the) and then fixed in a tension state using the fixing nut (22).

Backfilling step (S5) is a step of filling and filling the space between the back and the slope of the precast panel (2), as shown in Figure 5d by putting gravel and soil so that rainwater or groundwater is easily discharged This is done by forming a fill layer (6).

On the other hand, the retaining wall structure using the underground anchoring device according to the present invention after the construction of the first stage retaining wall as shown in Figure 5e through the construction step as described above, the lower ground of the first stage retaining wall constructed as shown in Figure 5f It is possible to form a multi-stage retaining wall by selecting from a top-down retaining wall construction method for sequentially forming another retaining wall or a bottom-up retaining wall construction method for sequentially forming another retaining wall in the upper ground of the single-stage retaining wall. .

What has been described above is only one embodiment for implementing the underground anchor device and the retaining wall structure using the same according to the present invention, the present invention is not limited to the above embodiment, as claimed in the following claims Those skilled in the art to which the present invention pertains without departing from the gist of the present invention will have the technical idea of the present invention to the extent that various modifications can be made.

1: Underground anchor device 11: Corrugated steel pipe
111: spiral portion 12: fixing member
121: first fastening portion 121a: spiral groove
122: second fastening portion 123: wrinkle portion
13: Connecting member 2: Precast panel
3: Foundation part 4: Internal grouting layer
5: outer grouting layer S1: cutting step
S2: Anchor installation step S3: Foundation formation step
S4: Panel installation step S5: Backfill step
a: Cut slope b: Buried hole

Claims (7)

In the underground anchor device installed in the buried hole formed in the ground,
A corrugated steel pipe inserted into the buried hole and having a spiral portion formed in a spiral shape on an outer circumferential surface thereof;
A fixing member having a first fastening part having a spiral groove formed therein in a spiral shape to be inserted into and fastened to an outer spiral part of the corrugated steel pipe, and a second fastening part formed at an outer side of the first fastening part; And
Underground anchoring device characterized in that it comprises a connecting member which is fixed by the second fastening portion in the state in which one side is inserted into the corrugated steel pipe, the other end is connected to the installed portion.
The method of claim 1,
The first anchor portion is a ground anchor device, characterized in that provided with a plurality of wrinkles formed in the portion in contact with the second fastening portion.
The method of claim 1,
The second fastening portion is integrally protruded into the first fastening portion and the insertion hole is formed in the center is formed at least one or more cutouts are formed on the outer peripheral surface and a plurality of rod-like elastic protrusions protruding on the inner surface A fixed part;
Underground anchoring device characterized in that it comprises a clamping member installed on the outer surface of the elastic fixing portion for pressing the connection member inserted therein.
The method of claim 1,
The second fastening portion is a pair of protrusions protruding from the end of the body formed in an arc shape so that one side portion is integrally connected to the first fastening portion and the inner and outer sides of the hollow portion into which the connecting member is inserted A clamp piece;
Underground anchoring device comprising a fastening member fastened to the fastening protrusion to press the connecting member inserted into the clamp piece.
The method of claim 4, wherein
The underground anchor device, characterized in that a plurality of pressing projections for pressing the connecting member on the inner surface of the clamp piece protrudes.
The method of claim 1,
The corrugated steel pipe is an underground anchor device, characterized in that a plurality of grouting flow holes that are in communication with the inner hollow portion on the outer circumferential surface.
In the retaining wall structure,
The underground anchor device according to any one of claims 1 to 6;
An internal grouting layer and an external grouting layer, wherein a grouting material is injected into the buried hole to cure and form inside and outside the corrugated steel pipe; And
Retaining wall structure using an underground anchor device, characterized in that it comprises a structure constructed in front of the cut slope and made of a block or precast panel, the outer end of the connecting member is connected.

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