KR101072527B1 - Retaining wall structure using twisted steel wire - Google Patents

Abstract

The present invention relates to a retaining wall structure using a strand wire underground anchor, and more particularly, a strand wire in which the anchorage area is increased in the ground, thereby improving the bearing capacity, and the construction and durability of the retaining wall is improved due to easy and convenient construction and handling. Retaining wall structure using underground anchors.
In the retaining wall structure using the strand wire anchor according to the present invention, in the retaining wall structure constructed on a cut slope, a plurality of PC strands are wound in a bundle in parallel along the longitudinal direction, and formed in the wire body and the wire body. An underground anchor having a fixed bulb formed such that the steel wire protrudes outwardly at an interval to expand an outer diameter thereof; A block constructed in front of the cut slope; A first transverse connecting bar installed laterally so as to connect the blocks of the constructed row to each other; And connecting means for connecting and fixing the exposed portion of the underground anchor buried in the excavation hole of the cut slope and the first lateral connecting bar to each other.
As a result, underground anchors are formed of PC strands, which significantly increases the anchoring area in the ground, thereby improving the construction quality.The anchors can be stably connected to the blocks in a straight line to provide stable tension. There is an effect that can be improved. In addition, since the bending work can be easily performed at the bending point with the cut slope (a), the workability is remarkably improved compared to the conventional one, which shortens the air, reduces the construction cost, and is lighter than the conventional rebar. The handling, installation, etc. are easy to handle and the fatigue of the operator can be reduced, so the risk of safety accident is greatly reduced.

Description

Retaining wall structure using stranded underground anchors {RETAINING WALL STRUCTURE USING TWISTED STEEL WIRE}

The present invention relates to a retaining wall structure using a strand wire underground anchor, and more particularly, a strand wire in which the anchorage area is increased in the ground, thereby improving the bearing capacity, and the construction and durability of the retaining wall is improved due to easy and convenient construction and handling. Retaining wall structure using underground anchors.

In general, the process of various civil works such as road construction, housing complex creation, waterway and embankment work involves cutting work, and the incision formed through cutting work is weak in its own support and collapses due to loss of soil. Risk increases.

Accordingly, underground anchors are installed in the incision to stabilize the ground, and when the soil is severely lost, the retaining wall is constructed by connecting blocks to exposed parts of the underground anchors.

The method of installing the underground anchors drills the excavation hole 1 in the incision as shown in FIG. 1, inserts the underground bolt 2 into the drilled excavation hole 1, and then grouts the material around it. ), And the injected grouting material is cured, which acts to stabilize the incision by the underground bolts exerting tension.

Then, the sealing means (5) for preventing the outflow of the grouting material is injected into the inlet of the excavation hole (1) in which the underground bolt (2) is inserted is installed. The sealing means (5) consists of a cylindrical insertion tube (51) and a cap (52) fitted to the end of the insertion tube (51), and the cap (52) is a bolt insertion hole into which the underground bolt (2) is inserted; A hose insertion hole into which an injection hose 3 for injection of grouting material is inserted is formed.

The above-mentioned underground bolts 2 are formed in the form of long bolts, and mainly use rods which are generally referred to as reinforcing bars. There is a problem in that the construction cost is excessively increased because it is necessary to use a large diameter rebar in order to secure a large bearing capacity.

In addition, referring to the method of constructing the retaining wall using the underground bolts installed as described above, as shown in FIG. 2, the exposed portion 21 and the block 6 of the underground bolts 2 exposed on the slope of the cutout are The construction is connected to each other to be fixed, but the reinforcing bar used as the underground bolt (2) is difficult to bend, so the connection work is difficult and takes a lot of work time.

Further, even when the underground bolt 2 is bent, the curved portion is expanded when the earth retaining pressure is applied to the constructed retaining wall, so that the curved portion is unfolded. . In addition, since the exposed portion 21 of the ground bolt 2 is intricately intertwined between the block 6 and the slope (a) of the incision, the worker, the falling object, the equipment, etc. When contacted or collided, the exposed portion 21 of the underground bolt 2 is unfolded, causing a problem such that the block 6 is separated to the front side.

In addition, the conventional underground bolt (2) is constructed by a reinforcing bar without flexibility, so if the straightness of the excavation hole is not maintained, it is difficult to install and has a disadvantage in that a lot of work time is required. In addition, the conventional underground bolt (2) is heavy, which is inconvenient to handle, such as transport, installation, and the like, not only causes a decrease in work efficiency due to increased fatigue of the operator, but also has a large risk of safety accidents.

The present invention has been proposed in view of the above, by providing a ground anchor using a stranded wire to provide a retaining wall structure using a stranded steel anchor to improve the construction and construction quality by increasing the anchoring area in the ground to improve the bearing capacity. Its purpose is to.

Another object of the present invention is that construction and handling are easy and convenient to reduce the construction cost and shorten the construction period, as well as to improve durability because the underground anchor can be connected to the block in a straight line to give a stable tension. It is to provide a retaining wall structure using a stranded underground anchor.

In order to achieve the above object, the retaining wall structure using the strand wire anchor anchor according to the present invention, in the retaining wall structure constructed on the cut slope, a plurality of PC strands are wound in a bundle in parallel along the longitudinal direction, formed steel wire body And an underground anchor having a fixed bulb formed on the steel wire body to protrude outward from the steel wire at a predetermined interval. A block constructed in front of the cut slope; A first transverse connecting bar installed laterally so as to connect the blocks of the constructed row to each other; And connecting means for connecting and fixing the exposed portion of the underground anchor buried in the excavation hole of the cut slope and the first lateral connecting bar to each other.

The connecting means, the first fastening hole is formed on one side, the fixing body is formed with a steel wire fixing part for fixing the wire body is inserted into the other side, the insertion hole is inserted, fastened to the steel wire fixing part and the wire body is inserted in the center A fastening member having a fixed head formed therein, and a wedge inserted to press and fix the steel wire body of the underground anchor exposed end positioned at the inner center of the fixed head; And a screw bolt fastened to the first fastening hole at one side and a ring bolt having a ring-shaped ring portion at which the first horizontal connection bar is inserted at the other side, or a screw part fastened to the first fastening hole at one side thereof, and an extension part formed at the center thereof. And it is characterized in that it comprises a connecting member consisting of a hook-type bolt is formed on the other side the hook hook is inserted into the first lateral connecting bar.

On the other hand, the connecting means, the bar fixing head is formed in the bar insertion hole is inserted into the first horizontal connecting bar is inserted into one side of the bar fixing head; A spring cap is formed on an outer circumferential surface and a spring seating groove is recessed and formed on one side; An elastic member seated in a spring seating groove of the spring cap; Anchor fixing is inserted into the fastening groove, fastened, the insertion hole formed to insert the steel wire body in the center, the outer screw portion formed on the outer peripheral surface to be fastened to the fastening groove, the anchor provided with an inner screw portion formed on the inner inner peripheral surface to fasten the spring cap head; And a wedge which is inserted into the anchor fixing head and presses and fixes the steel wire body of the underground anchor exposure part positioned at an inner center thereof.

And, the second horizontal connecting bar is installed in the transverse direction on the block rear side of the one row is connected to the other end of the connecting means; And a block connecting rod having one end connected to the second horizontal connecting bar and the other end connected to the block.

In this case, the block connecting rod may have a hook to be fitted to the second lateral connecting bar on one side of the center connecting portion, the hooking portion is formed on both sides of the groove formed in the block on the other side.

The block is a connecting bar seating groove formed in the transverse direction in the block body so that the first horizontal connecting bar is inserted, the locking groove is inserted, the locking protrusion of the block connecting portion, and the locking so that the block connecting rod can be elevated It may be provided with a settlement guide groove indented, formed in communication with the groove.

The underground anchor is disposed along the wire body so as to be coupled to the distal end of the underground anchor to prevent loosening of the steel wire body and to act as an injection passage of the grouting material and the loosening prevention member for smoothly performing the insertion operation when inserted into the drilling hole. It may include a grouting injection hose that is fixed.

On the other hand, the pressure plate is installed on the underground anchor is in close contact with the cut slope; And an acupressure plate fixing member for fixing the acupressure plate so as not to be separated from the underground anchor.

At this time, it may include a fixed bar coupled to the pressure plate is installed in the longitudinal and / or transverse direction on the cut slope.

In the retaining wall structure using the strand wire anchor of the present invention, since the anchor anchor is formed as a PC strand, the anchoring area in the ground is significantly increased, and thus the construction quality is improved, and the anchor anchor is linearly connected to the block to stabilize the tension force. Since it can be given, there is an effect that can improve the durability of the retaining wall.

In addition, since the bending work can be easily performed at the bending point with the cut slope (a), the workability is remarkably improved compared to the conventional one, which shortens the air, reduces the construction cost, and is lighter than the conventional rebar. The handling, installation, etc. are easy to handle and the fatigue of the operator can be reduced, so the risk of safety accident is greatly reduced.

1 is a view for explaining the underground bolt installation structure of the conventional retaining wall structure,
2 is a plan view for explaining a conventional retaining wall structure,
3A and 3B are views for explaining a retaining wall structure using a strand wire underground anchor according to an embodiment of the present invention;
4 is a perspective view showing an underground anchor applied to a retaining wall structure using a stranded underground anchor according to an embodiment of the present invention;
5a to 5c is a view showing an example of the connecting means applied to the retaining wall structure using the strand wire underground anchor according to an embodiment of the present invention,
6a and 6b are views showing another example of the connection means applied to the retaining wall structure using the strand wire underground anchor according to an embodiment of the present invention,
7 is a perspective view showing a block used in the construction of a retaining wall using a retaining wall structure using a strand wire underground anchor according to an embodiment of the present invention;
8 is a view for explaining a modification of the retaining wall structure using the strand wire underground anchor according to an embodiment of the present invention;
9 is a view for explaining a block connecting rod applied to the modified example of the retaining wall structure using the strand wire underground anchor according to an embodiment of the present invention;
10 is a view for explaining a retaining wall structure using a strand wire underground anchor according to another embodiment of the present invention;
11 is a perspective view showing an underground anchor applied to the retaining wall structure using the strand wire underground anchor according to another embodiment of the present invention;
12a to 12f are views for explaining a construction method of the retaining wall structure according to an embodiment of the present invention,
FIG. 13 is a perspective view for explaining a construction process of a retaining wall structure using a strand wire anchor in accordance with an embodiment of the present invention. FIG.

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

Figures 3a and 3b is a view for explaining a retaining wall structure using a steel wire underground anchor according to an embodiment of the present invention, Figure 4 is a ground anchor applied to the retaining wall structure using a steel wire underground anchor according to an embodiment of the present invention 3A is a schematic side cross-sectional view and FIG. 3B is a schematic plan view.

3A to 4, the retaining wall structure using the strand wire anchor in accordance with an embodiment of the present invention is a ground anchor 110 formed of a PC strand, a block 140 constructed in front of a cut slope, and a built one. The first horizontal connecting bar 150 is installed in the transverse direction to connect the blocks of the row and the exposed portion of the underground anchor 110 embedded in the excavation hole (b) of the cut slope (a) and the first horizontal connecting bar ( 150 is provided with a connecting means 200 for connecting and fixing each other.

The underground anchor 110, as shown in Figure 4, a plurality of PC strands are wound in a bundle in parallel along the longitudinal direction, formed steel wire body 112, and the steel wire at a predetermined interval to the steel wire body 112 It is provided with a fixed bulb 113 formed so that the outer diameter is enlarged as it protrudes outward.

The underground anchor 110 is further provided with an anti-loosening member 114 and a grouting injection hose 115. The anti-loosening member 114 is a member coupled to the front end portion (inner distal end inserted into the excavation hole) of the underground anchor 110 to prevent loosening of the steel wire body 112, and is formed in the form of a substantially metal lid in this embodiment. . When the anti-loosening member 114 of this type is pressed into the inner end of the steel wire body 112 and is installed, it not only prevents loosening of the steel wire body but also facilitates the insertion operation when inserted into the excavation hole b. Can be done.

The grouting injection hose 115 is a hose disposed along the steel wire body 112 to serve as an injection passage for the grouting material, and is fixed to the steel wire body 112 by a fixing band such as a cable tie.

5A to 5C are diagrams showing an example of a connecting means applied to the retaining wall structure using the strand wire underground anchor according to an embodiment of the present invention. Figure 5a is a cross-sectional view showing a fastening member of the connecting means, Figures 5b and 5c is a view showing a connecting member of the connecting means.

5A to 5C, one side of the connecting means 200 is connected to an exposed end (end of the exposed portion 111) of the underground anchor 110 embedded in the excavation hole b of the cut slope a. It consists of a fastening member 220 and a connection member 230, one end of which is connected to the other side of the fastening member 220.

The fastening member 220 has a fixed body 221 to which the underground anchor 110 is inserted and fixed as shown in FIG. 5A, and a fixed head for fixing the underground anchor 110 inserted into the fixed body 221 ( 222 and wedges 223.

The fixing body 221 has a hole having a multi-stepped step inside the body having a substantially cylindrical shape, and a first fastening hole 221a is formed to which the connection member 230 is fastened to one side of the hole, and an underground anchor (on the other side). The steel wire fixing part 221b to which the 110 is inserted and fixed is formed. And, the steel wire fixing portion (221b) is preferably formed with a female screw on the inner peripheral surface for the fastening of the fixed head 222.

The fixed head 222 is inserted into and fastened to the steel fixing part 221b and has an insertion hole 222a into which the underground anchor 110 is inserted at the center thereof. The wedge 223 inserted into the wedge 223 is formed in an all-optical narrow structure corresponding to the wedge shape.

The wedge 223 is inserted into the liner fixing portion 221b of the fixed body 221 and contracts inward when the fixed head 222 is fastened to the liner body 112 of the underground anchor 110 positioned at the inner center thereof. It is configured to press and hold.

The connecting member 230 connects the fastening member 220 and the first horizontal connecting bar 150 or the fastening member 220 and the second horizontal connecting bar 160 to be described later, as shown in FIGS. 5B and 5C. As a member, as shown in FIG. 5B, a threaded portion 231 fastened to the first fastening hole 221a of the fastening member 220 on one side and a ring-shaped bolt (usually an eye bolt) having a ring-shaped ring portion 232 on the other side thereof. It is composed of a bolt-like form called.

In addition, the connection member 230 is a screw portion 233 is fastened to the first fastening hole 221a of the fastening member 220 is formed on one side in consideration of convenience during installation as shown in Figure 5c and extends in the central portion Part 234 is formed and may be composed of a hook-type bolt is formed on the other side hook hook 235 is fitted to the first horizontal connecting bar 150 or the second horizontal connecting bar 160.

6a and 6b are views showing another example of the connecting means applied to the retaining wall structure using the strand wire anchor anchor according to an embodiment of the present invention, Figure 6a is a perspective view, Figure 6b is a cross-sectional view showing an assembled state to be.

The connecting means 200 which can be applied in addition to the shape shown in FIG. 5A is an elastic member inserted into the bar fixing head 240, the spring cap 250, and the spring cap 250 as shown in FIGS. 6A and 6B. 260, anchor fixing head 270, and wedge 280 is configured to be more convenient to perform the construction of the retaining wall structure.

The bar fixing head 240 is formed with a bar insertion hole 241 into which the first lateral connecting bar 150 is inserted into one side of the body having a round bar shape having a stepped portion and a fastening groove 242 formed at the other side. On the inner circumferential surface of the groove 242, a female screw portion for fastening with the anchor fixing head 270 is formed.

Spring cap 250 is a circular cap shape is formed on the outer circumferential surface of the screw portion 251 is fastened to the inner inner peripheral surface of the anchor fixing head 270 to be described later, the spring seating groove 252 is inserted into one side of the elastic member Concave and formed, it is fastened and installed in the internal threaded portion 273 of the anchor fixing head 270 to be described later to be located inside the fastening groove 242 of the bar fixing head 240.

The elastic member 260 is inserted into the spring cap 250 to apply an elastic force to the wedge 280, the steel wire body of the underground anchor 110 that is inserted while applying the elastic force to the back of the wedge 270 is passed through. It is formed by a compression coil spring so that it can be.

The anchor fixing head 270 is inserted into and fastened to the fastening groove 242 of the bar fixing head 240 so that the tension force of the underground anchor 110 may be the first horizontal connecting bar 150 or the second horizontal connecting bar 160. In the configuration to be transmitted to the side, the insertion hole 271 is formed in the center of the steel wire body is formed and the outer thread portion 272 is fastened to the fastening groove 242 on the outer peripheral surface, the spring cap 250 is fastened to the inner inner peripheral surface Internal threaded portion 273 is formed.

The wedge 280 is configured to press and fix the steel wire body of the underground anchor 110 exposed portion 111 inserted into the anchor fixing head 270 and inserted into the inner center, and the wedge piece 281 divided into several pieces. ) Is formed in a conventional wedge structure which is fixed by a fixing ring 282 inserted into the groove portion 281a.

On the other hand, the connecting means 200 of the type shown in Figure 6a has the advantage that can significantly improve the workability at the time of construction of the retaining wall structure compared to the connecting means 200 of the type shown in Figure 5a. Specifically, since the connecting means 200 of the type shown in FIG. 6a is a structure capable of directly inserting the first horizontal connecting bar 150 into the bar insertion hole 241 of the bar fixing head 240. There is no need for a separate connecting member 230 provided in the connecting means 200 of the type shown in Figure 5a, the structure and assembly is simple, simple, there is an advantage that the material cost is reduced.

And, as shown in Figure 6b the elastic member 260 is applied to the wedge 280 to form an elastic space in the rear space, so that the anchor fixing head 270 including the wedge 280 bar fixing head ( Even when assembled to 240, when the exposed portion 111 of the underground anchor 110 is pushed in and pressed, the exposed portion 111 easily enters into the spaced space through the inner through hole of the elastic member 260. Since it is fixed in a one-touch manner, there is an effect that the convenience to work is improved.

In addition, the anchor fixing head 270 has a long length of the external thread 272 is formed in the fastening or loosening operation using a tool or the like even when fastened to the bar fixing head 240 bar fixing head 240 Since it moves upward, the tension between the underground anchor 110 and the first transverse bar 150 can be adjusted through such a forward and backward operation. That is, even without dismantling the entire connecting means 200 or cutting the underground anchors 111, a simple operation of the anchor fixing head 270 is performed between the underground anchors 110 and the block 140. It is possible to construct a solid and stable retaining wall structure while controlling the applied tension.

Figure 7 is a perspective view showing a block used in the construction of the retaining wall using the retaining wall structure using the strand wire underground anchor according to an embodiment of the present invention.

Referring to FIG. 7, the block 140 includes a seating jaw 142, a seating groove 143, a locking groove 144, a settlement guide groove 145, and a connection bar seating groove 146 in the block body 141. It is provided.

The seating jaw 142 is formed on the front side of the block body 141 to protrude on the top surface of the block body 141 to be seated on the bottom surface of the upper block in the stacking process of the block. .

The seating recess 143 is recessed on the bottom surface of the block body 141 to be fitted to the seating jaw 142 of the block positioned at the bottom of the block stacking process. Formed.

The locking groove 144 is recessed and formed downward from an upper surface thereof so that the locking protrusion of the block connecting portion described later in the construction process of the retaining wall is inserted. The settlement guide groove 145 is recessed downwardly from the upper surface of the block body 141 to communicate with the locking groove 144 to form a rear surface and an opening of the block 140 so that the block connecting rod can be lifted and inserted. .

The connecting bar seating groove 146 is recessed in the transverse direction of the block body 141 such that the first horizontal connecting bar 150 is inserted into the row of blocks in a row in the construction process of the retaining wall.

In addition, the block 140 applied in the present embodiment has a surface processing portion 147 to which natural aggregate is exposed in order to express a natural aesthetic on the front surface of the block body 141.

FIG. 8 is a view for explaining a modification of the retaining wall structure using the strand wire underground anchor according to an embodiment of the present invention. FIG.

Referring to FIG. 8, the retaining wall structure using the strand wire anchor is formed of a plurality of strands of PC strand and is connected to one side of the underground anchor 110 having a fixed bulb 113 and an exposed end of the underground anchor 110. The member 220, the connecting member 230 having one end connected to the other side of the fastening member 220, and a row of blocks 140 that are constructed in front of the cut slope are horizontally installed to connect each other and the connecting member 230. And a second horizontal connecting bar 160 having a first horizontal connecting bar 150 connected to the other end of the column, and being installed in a horizontal direction on the rear side of the block in a row, and having the other end of the connecting member 230 connected thereto. One end is connected to the second horizontal connecting bar 160, and the other end is further provided with a block connecting rod 170 is connected to the block.

9 is a view for explaining a block connecting block applied to the modified example of the retaining wall structure using the strand wire underground anchor according to an embodiment of the present invention.

Referring to FIG. 9, the block connecting rod 170 has a hook-type hook 172 fitted to the second horizontal connecting bar 160 on one side of the center connecting portion 171, and the block 140 on the other side. A locking protrusion 173 inserted into and engaged in the locking groove 145 formed in the upper side is formed.

10 is a view for explaining a retaining wall structure using a strand wire underground anchor according to another embodiment of the present invention, Figure 11 is a perspective view showing a underground anchor applied to the retaining wall structure using a steel wire underground anchor according to another embodiment of the present invention The same and similar components as in the embodiment will be described with the same reference numerals.

10 and 11, a retaining wall structure using a strand wire anchor in accordance with another embodiment of the present invention is a fastening member having one side connected to an exposed end of the underground anchor 110 and the underground anchor 110 formed of a PC strand. 220, a connecting member 230, one end of which is connected to the other side of the fastening member 220, and a row of horizontally installed to connect the block 140 of the row formed in front of the cut slope (a) and the connecting member The other end of the 230 is provided with a first horizontal connecting bar 150 is connected, the ground anchor 110 may further include a pressure plate 117 and the pressure plate fixing member 118.

The pressure plate 117 is a member which is installed on the exposed portion of the underground anchor 110 to be pressed on the cut slope, the through hole is formed in the center of the body having a substantially rectangular plate shape. The pressure plate fixing member 118 is a member for applying a fixing force to prevent the departure of the pressure plate 117, the fastener 118a which is in close contact with the outer surface of the pressure plate 117 inserted into the underground anchor 110, and the fastener ( It consists of the wedge 118b which press-fits between the inner peripheral surface of 118a and the outer surface of the underground anchor 110. As shown in FIG.

In addition, the pressure plate 117 is formed with a protrusion 117a on the outer surface portion where the through-hole is formed so that it can be easily installed on the inclined cut slope. In addition, the fastener 118a fastened to the protrusion 117a has a corresponding portion curved and formed in a substantially conical shape.

 As such, when the protrusion 117a is formed on the pressure plate 117 to the outside, and the corresponding fixture 118a is curved, the interference phenomenon does not occur even if the fastening direction of the fixture 118a is changed according to the inclination of the cut slope. Therefore, it is possible to smoothly fasten and to maintain a stable fixed state can ensure a sufficient supporting force.

In addition, the pressure plate 117 may be coupled to the fixing bar 119 is installed in the longitudinal direction and / or transverse direction on the cut slope to reinforce the bearing force. At this time, the fixing bar 119 is formed in the shape of a round bar such as rebar.

Hereinafter, a method of constructing a retaining wall of a retaining wall structure using a stranded underground anchor according to an embodiment of the present invention will be described.

12A to 12F are views for explaining a construction method of a retaining wall structure according to an embodiment of the present invention, and FIG. 13 illustrates a process of constructing a retaining wall structure using a strand wire anchor in accordance with an embodiment of the present invention. It is a perspective view for demonstrating.

12A to 13, a method of constructing a retaining wall structure according to an embodiment of the present invention may include: cutting an original ground for constructing a block retaining wall to form a cut slope, embedding a ground anchor, and foundation A set of retaining walls are constructed including a forming step, a block laminating step, a fastening member and a connecting member installation step, and a back filling step.

A second cut slope is formed below the foundation portion of the retaining wall thus formed within the lower stress range of the retaining wall constructed according to various considerations such as the height of the original ground, and the retaining wall is formed by the same method on the second cut slope. At least one lower retaining wall is constructed in such a way as to form a.

In the step of forming the cut slope, a cut surface (a) is formed by cutting the original ground to have an angle determined by site conditions, construction drawings, and specifications using a construction machine such as an excavator as shown in FIG. 12A. .

In the underground anchoring step, as shown in FIG. 12B, the drilling position is marked on the cut slope a, the drilling angle and the drilling depth are determined, and the drilling holes b are drilled by the drilling machine. Thereafter, the grouting injection hose 115 is connected to the underground anchor 110, inserted into the excavation hole, and then grouted and cured to complete the underground anchoring. At this time, the underground anchor 110 is exposed to a length such that the exposed portion 111 of a length that can reach from the cut slope (a) to the stacking position of the block. In addition, the step of embedding the underground anchor is not limited to the above-described manner, but may be performed by various known small rail construction methods.

The foundation forming step is performed to provide a foundation 40 for supporting the block 140 forming the retaining wall, as shown in Figure 12c, the step of drilling a lower surface of the cut slope (a), And inserting and fixing the vertical underground anchor 42 in the perforated hole, and forming the base concrete layer 41 by concrete mortar.

The block stacking step is a step of stacking the block 40 using the block 140 on the base portion 40 to form a multi-layer block. After the row forming step, the filling and filling of the filling between the back and cut slopes of the foundation block rows are carried out, and the blocks are stacked again to form a block row and backfilling the block rows. Perform iteratively.

Filling in the back filling step is preferably gravel for smooth drainage, it is possible to embed the drain pipe 60 for more smooth drainage before performing this back filling step.

The fastening member and the connecting member installation step may include a fastening member 220 installed at the end of the exposed portion 111 of the underground anchor 110 and a connecting member 230 installed at the fastening member 220, and then the first horizontal connecting bar. And accessing 150.

Referring to this installation process in detail, as shown in Figure 5a is inserted into the wedge 223 to the exposed end of the underground anchor 110, the exposed end portion including the wedge 223 is the fastening member 220 When the fixing head 222 is inserted into the fixing body 221 and then the fixing head 222 is fastened, the wedge 223 is contracted so that the fixing force is applied while pressing the outer surface of the underground anchor 110.

In this manner, the fastening member 220 is fixed to the exposed end of the underground anchor 110, the ring portion 232 of the connecting member 230 is inserted into the first horizontal connecting bar 150, and then the connecting member 230. When the connecting portion 230 is installed by fastening the screw portion 231 of the fixed body 221 to the first fastening hole 221a of the fixing body 221, the tension force of the underground anchor 110 is directed to the first horizontal connecting bar 150. The block 140 is firmly fixed while being delivered.

In particular, in the process of performing the above-described installation process, the underground anchor 110 is formed of a PC strand and can be easily performed bending at the bending point with the cut slope (a) is significantly improved workability compared to the conventional It can shorten the air and reduce the construction cost. In addition, it is lighter than the conventional reinforcing bar, easy to handle, such as installation and handling can reduce the fatigue of the operator has the advantage that the risk of safety accidents are significantly lowered.

When the execution of the above-described fastening member and the connection member installation step is completed, the backfill step of filling and filling the space between the block 140 and the cut slope (a) with a predetermined filling is performed according to a conventional construction method.

In this order, when the construction of the retaining wall is completed at a predetermined height as shown in FIG. 13, a finishing block installation step of installing the finishing block 190 on the upper surface of the uppermost row of blocks formed by the block 140 is performed. Then, it is possible to perform a greening business planting trees and the like on the ground provided between the finishing block 190 and the cut slope (a) installed in this way.

The finishing block 190 used in the finishing block installation step may be formed in various forms as long as it can seal the plane of the block 140 shown in FIG. For example, in this embodiment, it is formed in a trapezoidal plate shape and installed.

On the other hand, once the retaining wall is completed in the form shown in Fig. 13, a second cut slope a 'is formed on the base portion 40 as shown in Fig. 4E within the lower stress range of the retaining wall. As shown in FIG. 12F, at least one lower retaining wall is repeatedly formed on the second cut slope a ′ through the same steps as the process of forming the upper retaining wall described above.

What has been described above is just one embodiment for carrying out the retaining wall structure using the strand wire underground anchor according to the present invention, the present invention is not limited to the above-described 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 changes can be made.

a: Cut slope b: Excavator
110: underground anchor 111: exposed part
112: steel wire body 113: fixed bulb
140 Block 141: Block Body
142: seating jaw 143: seating groove
144: jamming groove 145: settlement guide
146: connecting bar seating groove 150: first horizontal connecting bar
160: second horizontal connecting bar 170: block connection
171: center connection 172: locking hook
173: Jamming protrusion 190: Closing block
200: connecting means 220: fastening member
221: fixed body 222: fixed head
223: wedge 230: connecting member
231: screw part 232: ring part
240: bar fixing head 250: spring cap
260: spring cap 260: elastic member
270: anchor anchor head 280: wedge

Claims (9)

In the retaining wall structure constructed on the cut slope,
A ground anchor having a plurality of PC strands wound in a bundle in parallel along the longitudinal direction, the formed steel wire body, and a fixed bulb formed on the steel wire body so that the steel wire protrudes outwardly at a predetermined interval to enlarge an outer diameter thereof;
A block constructed in front of the cut slope;
A first transverse connecting bar installed laterally so as to connect the blocks of the constructed row to each other; And
And connecting means for connecting and fixing the exposed portion of the underground anchor buried in the excavation hole of the cut slope and the first lateral connecting bar to each other,
The connecting means includes a bar fixing head in which a bar insertion hole into which the first lateral connecting bar is inserted is formed and a fastening groove is formed in the other side; A spring cap is formed on an outer circumferential surface and a spring seating groove is recessed and formed on one side; An elastic member seated in a spring seating groove of the spring cap; Anchor fixing is inserted into the fastening groove, fastened, the insertion hole formed to insert the steel wire body in the center, the outer screw portion formed on the outer peripheral surface to be fastened to the fastening groove, the anchor provided with an inner screw portion formed on the inner inner peripheral surface to fasten the spring cap head; And a wedge which is inserted into the anchor fixing head and presses and fixes the steel wire body of the underground anchor exposure part positioned at an inner center thereof.
delete delete The method of claim 1,
A second transverse connecting bar installed in the transverse direction on one side of the block rear side and connected to the other end of the connecting means; And
Retaining wall structure using a steel wire underground anchor comprising one end connected to the second lateral connecting bar and the other end connected to the block.
The method of claim 4, wherein
The block connecting rod is a retaining wall structure using a strand wire anchor, characterized in that the hook is formed on one side of the center connecting portion is fitted to the second horizontal connecting bar, the other side engaging hooks are formed on both sides of the groove formed in the block. .
The method according to any one of claims 1, 4 and 5,
The block is a connecting bar seating groove formed in the transverse direction in the block body so that the first horizontal connecting bar is inserted, the locking groove is inserted, the locking protrusion of the block connecting portion, and the locking so that the block connecting rod can be elevated Retaining wall structure using a steel wire underground anchor, characterized in that provided with a settlement guide groove that is recessed, formed in communication with the groove.
The method of claim 6,
The underground anchor is disposed along the wire body so as to be coupled to the distal end of the underground anchor to prevent loosening of the steel wire body and to act as an injection passage of the grouting material and the loosening prevention member for smoothly performing the insertion operation when inserted into the drilling hole. Retaining wall structure using a strand wire anchor anchor, characterized in that it comprises a grout injection hose is fixed.
The method of claim 7, wherein
An acupressure plate installed on the underground anchor and in close contact with the cut slope; And
Retaining wall structure using a stranded wire anchor, characterized in that it comprises a pressure plate fixing member for fixing the pressure plate is not separated from the underground anchor.
The method of claim 8,
Retaining wall structure using a steel wire underground anchor is coupled to the pressure plate is installed on the cut slope in the longitudinal direction and / or transverse direction.

Images