KR102652914B1 - Reinforced soil retaining wall block fixing device - Google Patents

Abstract

The present invention relates to a fixing device for reinforced soil retaining wall blocks. More specifically, when the conditions for installing soil nails, etc. on the original ground are not met due to the problem of securing space between retaining wall blocks and embankment or cut sections, soil nails are installed. This relates to a fixing device for reinforced soil retaining wall blocks that can replace or additionally configure fixing devices such as such, enabling efficient construction, especially in sites where the embankment space for backfilling retaining wall blocks is limited, while also further improving work safety and durability. .
The fixing device for a reinforced soil retaining wall block according to the present invention includes a connecting bar inserted long along a transverse groove formed in the body of a plurality of retaining wall blocks constructed in multiple stages; A reinforcement member whose front end is connected to the connecting bar and extends a certain length to the rear of the retaining wall block; A fixed block embedded in and fixed to the embankment at the rear of the retaining wall block and coupled to the rear end of the reinforcing material; The rear end is installed to be closely supported on the front of the fixing block, is spaced at a certain distance behind the retaining wall block, is inserted perpendicularly into the position where the auger is drilled in the bottom of the foundation, and is grouted and fixed to a predetermined height, and the remaining length is Beam connecting members embedded in the embankment and coupled to longitudinal end portions of the reinforcement members adjacent to each other along the height direction; The retaining wall block has mesh insertion grooves having a grid-like pattern formed at regular intervals on the rear protrusion, is formed in a grid-like pattern corresponding to the mesh insertion groove, and one edge portion is fitted along the mesh insertion groove to form a plurality of neighboring walls. It further includes a wire mesh that interconnects and supports the retaining wall blocks, wherein the reinforcing material includes: a tension wire connected between the connecting bar and the fixed block; A fixture having an insertion hole formed on one side to be inserted into the connecting bar and a wedge receiving portion formed on the other side with a female thread formed on an inner peripheral surface; A plurality of wedge pieces are divided and formed so that the inner diameter is expanded or reduced by external force, and the outer surface is inclined, and the inner circumferential surface is formed as a tapered surface to surround the wedge, and a male thread is formed on the outer circumferential surface to be screwed into the wedge receiving part. It consists of a joint part consisting of a wedge joint that is coupled, and a first groove is formed in a semicircular shape to allow the tension wire to be seated on the upper surface of the fixing block, and the tension wire is seated in the first groove on the top of the fixing block. A fixing plate with a second groove formed on the bottom for fixing the wire is provided to be coupled to the first fastening member, and is supported by being caught at the rear end of the fixing block in a fastening state engaged with the circumference of the tension wire, thereby forming a tension wire. It is characterized in that it is provided with a fixing member to prevent it from being pushed in the direction of the retaining wall block.

Description

Reinforced soil retaining wall block fixing device}

The present invention relates to a fixing device for reinforced soil retaining wall blocks. More specifically, when the conditions for installing soil nails, etc. on the original ground are not met due to the problem of securing space between retaining wall blocks and embankment or cut sections, soil nails are installed. This relates to a fixing device for reinforced soil retaining wall blocks that can replace or additionally configure fixing devices such as such, enabling efficient construction, especially in sites where the embankment space for backfilling retaining wall blocks is limited, while also further improving work safety and durability. .

In general, reinforced soil retaining walls are used in the construction of apartment complexes, road cut and embankment sections, securing slope stability, bridge abutment wing wall construction, waterway and embankment construction, and include the soil on the back, the reinforcement materials buried in the soil, and the retaining wall on the front. It refers to a retaining wall composed of a front section made of blocks or plates.

This reinforced soil retaining wall block is a structure to prevent the soil from collapsing by supporting the slope or slope of the cut site formed by civil engineering work. It is constructed taking into account topographical factors and the pressure distribution applied to the retaining wall after construction.

In addition, these conventional reinforced soil retaining walls and their construction methods require a certain amount of back space to be secured depending on the construction height of the reinforced soil retaining wall, especially in the case of cut sections, but if the area is not secured due to the narrow space of the road, construction becomes difficult. , if a general grid was installed as reinforcement, there was a risk that the reinforced soil block itself would become distorted or the slope would collapse due to insufficient tensile strength.

In order to solve this problem, the present applicant has improved the convenience of assembly of a fixing device installed between the cut and the retaining wall to improve the fixing force of the retaining wall, not only improves economic efficiency by simplifying the component parts, but also improves the economic efficiency by simplifying the component parts. Registered a patent in Korea for the “fixing device for reinforced earth retaining wall blocks,” which prevents safety accidents during construction by making the combined structure more robust, thereby improving safety, durability, and economic efficiency at the same time compared to conventional technologies. It has been registered as No. 10-2107793.

The conventional pre-registered patent as described above is designed to be applied to the soil nail method in which the nail is inserted into the hole formed in the cut portion and grouted to have pullout resistance. The fixing device for such a reinforced soil retaining wall block is connected. It is a technology that facilitates construction work for fastening and tension control between multiple retaining wall block structures and nail parts by means of fixing parts, and improves economic efficiency by simplifying the connection structure while being sturdy.

In addition, Republic of Korea Patent Publication No. 10-2020-0126199 “Block-type reinforced soil retaining wall and its construction method” is disclosed.

Figures 1 and 2 show the construction structure of the block-type reinforced soil retaining wall as described above. This conventional block-type reinforced soil retaining wall is constructed to form a surface structure, the rear end is buried in the embankment, and a longitudinal insertion groove ( 110) and a plurality of blocks 100 in which transverse insertion grooves 120 are recessed; The longitudinal member 210 and the transverse member 220, which are respectively buried in the longitudinal insertion groove 110 and the transverse insertion groove 120, are formed overall in a 'ㄷ' shape and are buried inside the embankment. a plurality of reinforcement parts 200 to support the block 100; It is inserted and buried inside the cut part in contact with the fill part so that the end is exposed to the outside, and one side of the reinforcement part 200 and the other side of the neighboring reinforcement part are fastened to the end exposed to the outside, so that the reinforcement part 200 Soil nail unit 300 that supports; It is characterized by being comprised of:

However, these conventional technologies are said to be able to secure solid structural safety in the cut section through design standards based on pressure distribution on the retaining wall and shear force of the soil, but in the embankment section, the back space where backfilling is performed according to site conditions In cases where this is not met, construction to ensure structural safety is very difficult due to the difficult conditions of firmly constructing the nail part in the above-mentioned soil nail method, and if a general grid is installed as a reinforcement material, a problem of insufficient tensile strength occurs. It was done.

In addition, in this conventional block-type reinforced soil retaining wall, the structure in which the end of the reinforcement part and the nail are fastened can support the pulling resistance applied when the block is pushed toward the road, but the resistance applied when the block is pushed toward the side opposite to the road In terms of compression resistance, the structure cannot properly support the block, so it has the disadvantage of deteriorating structural stability.

Republic of Korea Patent Publication No. 10-2020-0126199: Block-type reinforced soil retaining wall and its construction method

The present invention was devised to solve the above problems, and the purpose of the present invention is to enable efficient construction by replacing or additionally constructing fixing devices such as existing soil nails in sites where the embankment space for backfilling of retaining wall blocks is narrow. The purpose is to provide a fixing device for reinforced soil retaining wall blocks that is possible and can improve safety and durability at the same time.

In addition, another object of the present invention is to provide a reinforced soil retaining wall block that can simultaneously improve constructability and economic efficiency by relatively simplifying the connection configurations, and can also meet the structural strength requirements of a reinforced soil retaining wall through a simple connection method between connection configurations. The purpose is to provide a fixing device.

In order to achieve the above object, a fixing device for a reinforced soil retaining wall block according to the present invention includes a connecting bar inserted long along the transverse groove formed in the body of a plurality of retaining wall blocks constructed in multiple stages; A reinforcement member whose front end is connected to the connecting bar and extends a certain length to the rear of the retaining wall block; A fixed block embedded in and fixed to the embankment at the rear of the retaining wall block and coupled to the rear end of the reinforcing material; The rear end is installed to be closely supported on the front of the fixing block, is spaced at a certain distance behind the retaining wall block, is inserted perpendicularly into the position where the auger is drilled in the bottom of the foundation, and is grouted and fixed to a predetermined height, and the remaining length is Beam connecting members embedded in the embankment and coupled to longitudinal end portions of the reinforcement members adjacent to each other along the height direction; The retaining wall block has mesh insertion grooves having a grid-like pattern formed at regular intervals on the rear protrusion, is formed in a grid-like pattern corresponding to the mesh insertion groove, and one edge portion is fitted along the mesh insertion groove to form a plurality of neighboring walls. It further includes a wire mesh that interconnects and supports the retaining wall blocks, wherein the reinforcing material includes: a tension wire connected between the connecting bar and the fixed block; A fixture having an insertion hole formed on one side to be inserted into the connecting bar and a wedge receiving portion formed on the other side with a female thread formed on an inner peripheral surface; A plurality of wedge pieces are divided and formed so that the inner diameter is expanded or reduced by external force, and the outer surface is inclined, and the inner circumferential surface is formed as a tapered surface to surround the wedge, and a male thread is formed on the outer circumferential surface to be screwed into the wedge receiving part. It consists of a joint part consisting of a wedge joint that is coupled, and a first groove is formed in a semicircular shape to allow the tension wire to be seated on the upper surface of the fixing block, and the tension wire is seated in the first groove on the top of the fixing block. A fixing plate with a second groove formed on the bottom for fixing the wire is provided to be coupled to the first fastening member, and in a state of being engaged with the circumference of the tension wire, it is supported by the rear end of the fixing block so that the tension wire is It is characterized in that it is provided with a fixing member to prevent it from being pushed in the direction of the retaining wall block.

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Due to the above configuration, the fixing device for the reinforced soil retaining wall block according to the present invention enables efficient construction by replacing or additionally constructing fixing devices such as existing soil nails, especially in sites where the embankment space for backfilling the retaining wall block is narrow. At the same time, it has the advantage of improving safety and durability at the same time.

In addition, the fixing device for the reinforced soil retaining wall block according to the present invention not only improves constructability and economic efficiency by relatively simplifying the connection configurations, but also can meet the structural strength requirements of the reinforced soil retaining wall through a simple coupling method between the connection components. It has advantages.

Figure 1 is a side view showing the structure of a block-type reinforced soil retaining wall according to an embodiment of the prior art.
Figure 2 is a plan view showing the structure of a block-type reinforced soil retaining wall according to an embodiment of the prior art.
Figure 3 is a side view showing an example of construction of a fixing device for a reinforced soil retaining wall block according to the first embodiment of the present invention.
Figure 4 is a plan view showing an example of construction of a fixing device for a reinforced soil retaining wall block according to the first embodiment of the present invention.
Figure 5 is an exploded cross-sectional view showing the combined state of the main components of the fixing device for the reinforced soil retaining wall block according to the first embodiment of the present invention.
Figure 6 is a partial side cross-sectional view showing the combined state of the main components of the fixing device for the reinforced soil retaining wall block according to the first embodiment of the present invention.
Figure 7 is an exploded perspective view showing the combined state of the main components of the fixing device for the reinforced soil retaining wall block according to the first embodiment of the present invention.
Figure 8 is a side view showing an example of construction of a fixing device for a reinforced soil retaining wall block according to the second embodiment of the present invention.
Figure 9 is a perspective view showing the combined state of the main components of the fixing device for the reinforced soil retaining wall block according to the second embodiment of the present invention.
Figure 10 is a side view showing an example of construction of a fixing device for a reinforced soil retaining wall block according to the third embodiment of the present invention.
Figure 11 is a plan view showing an example of construction of a fixing device for a reinforced soil retaining wall block according to the fourth embodiment of the present invention.

Hereinafter, the fixing device for the reinforced soil retaining wall block according to the present invention will be described in more detail with reference to the embodiment shown in the drawings.

Figure 3 is a side view showing an example of construction of a fixing device for a reinforced soil retaining wall block according to the first embodiment of the present invention, and Figure 4 is a construction example of a fixing device for a reinforced soil retaining wall block according to the first embodiment of the present invention. It is a plan state diagram, and Figure 5 is an exploded cross-sectional view showing the combined state of the main components of the fixing device for the reinforced soil retaining wall block according to the first embodiment of the present invention, and Figure 6 is the reinforced soil according to the first embodiment of the present invention. It is a partial side cross-sectional view showing the combined state of the main components of the retaining wall block fixing device, and Figure 7 is an exploded perspective view showing the combined state of the main components of the reinforced soil retaining wall block fixing device according to the first embodiment of the present invention.

Referring to the drawings, the fixing device (1) for a reinforced soil retaining wall block according to the first embodiment of the present invention is long along the transverse groove (1a) formed on the body of a plurality of retaining wall blocks (1) constructed in multiple stages. A connecting bar 10 to be inserted, a reinforcing material 20 whose front end is connected to the connecting bar 10 and extends a certain length to the rear of the retaining wall block 1, and fill at the rear of the retaining wall block 1. It is characterized by including a fixing block (30) embedded in and fixed to the part (2) and coupled to the rear end of the reinforcement (20).

First, the plurality of retaining wall blocks (1) may be made of concrete, and are inserted up and down into pin insertion holes formed in the front part of the block body, and are attached to fixing pins that secure the upper and lower neighboring retaining wall blocks (1) to each other. It will be possible to construct a stacked structure in multiple stages, and the plurality of retaining wall blocks 1 will be able to adjust the back engagement inclination angle, etc. through various construction methods disclosed in the related art. Since the construction method of this retaining wall block is general, detailed description will be omitted.

The connecting bar 10 is configured to be seated in the transverse groove 1a of the retaining wall block 1 so that the plurality of retaining wall blocks 1, which are constructed in multiple stages, can be stably supported by each other.

Referring to Figures 3 and 4, the connecting bar 10 in the first embodiment of the present invention is inserted long along the transverse groove 1a formed in the body of the retaining wall block 1, and the reinforcing material described later By (20), it is stretched toward the rear of the plurality of retaining wall blocks (1), that is, in the direction of the embankment portion (2), and serves to reinforce the shear force of the entire plurality of retaining wall blocks (1).

The connecting bar 10 can be a general steel bar or rebar, and can be used as a rod-shaped member with a certain diameter by cutting it as needed. Additionally, the connection bar 10 will not be limited to materials such as metal as long as it has acceptable durability.

The reinforcing material 20 connects the connecting bar 10 and the fixing block 30, which will be described later, to tension and secure the plurality of retaining wall blocks 1 in the direction of the cut surface of the embankment 2. .

Referring to FIGS. 4 and 5, the reinforcing material 20 in the first embodiment of the present invention may include the tension wire 21, the fixture 22, and the joint portion 23.

The tension wire 21 is configured to long connect the connecting bar 10 and the fixing block 30, which will be described later, and extends for a certain length that can extend to the vicinity where the cut surface of the embankment part 2 is formed. , It can be used by cutting to an appropriate length in the space filled with earth behind the plurality of retaining wall blocks (1) structure, that is, in the embankment part (2), and can be pre-manufactured in various thicknesses and lengths to respond to field conditions. .

Accordingly, the tension wire 21 may be a civil engineering tension wire or reinforcing bar, and the tension wire 21 in the first embodiment of the present invention has ribs or nodes 21a continuously formed along the surface. Rebar may be used.

Meanwhile, in the fixing device for the reinforced earth retaining wall block according to the first embodiment of the present invention, the connection structure between the parts is strengthened through the connection configuration of the fixture 22 and the joint portion 23, and the component parts can be simplified. there is.

That is, in the fixing device for the reinforced soil retaining wall block of the present invention, tension adjustment can be easily performed at the same time as the tension wire 21 is coupled through the fixture 22 and the joint portion 23.

Referring to FIG. 5, the fixture 22 has an insertion hole 22a of a predetermined size formed on one side, and a wedge receiving portion 22b of a predetermined depth is formed on the other side.

The insertion hole 22a is formed to be inserted into the connecting bar 10, and the wedge receiving portion 22b has a female thread of a certain length formed therein.

The joint portion 23 is composed of a wedge 23a and a wedge joint 23b, respectively.

The wedge 23a is composed of a plurality of divided wedge pieces joined together to form an arc shape by a rubber ring, so that the inner diameter can be expanded and contracted by external force. At this time, the wedge 23a is formed with a hollow through which the tension wire 21 can pass.

Additionally, the wedge 23a has an inclined portion formed in one direction on its outer surface. The inclined portion is formed to correspond to and contact the tapered surface formed on the inner surface of the wedge joint 23b.

The wedge joint 23b is provided with a predetermined internal space that can be inserted in a way that surrounds the outer surface of the wedge 23a, and in this internal space, a tapered surface corresponding to the inclined surface is formed, as described above. , In addition, the wedge joint 23b, like the wedges 321 and 331, is formed with a hollow through which the tension wire 21 can pass.

Accordingly, the wedge 23a can be integrally coupled with the inclined portion in close contact with the tapered surface of the wedge joint 23b. That is, the wedge 23a can be inserted and accommodated inside the wedge receiving portion 23b.

In addition, the wedge joint (23b) has male threads formed on the outer peripheral surface and is screwed along the inner surface of the wedge receiving portion (22b). At this time, the wedge (23a) is connected to the outer surface by the tapered surface of the wedge joint (23b), that is, As the inclined portion is pressed and the inner diameter is reduced, the tension wire 21 is strongly engaged in the hollow.

Accordingly, the reinforcing material 20 in the present invention allows the tension wire 21 to be easily connected to the connecting bar 10 simply by screwing the wedge joint 23b to the fixture 22. At the same time, the tensile strength can be easily adjusted.

That is, in the fixing device for the reinforced soil retaining wall block of the present invention, the tension wire 21 is easily coupled through the combination of the fixture 23 and the joint portion 23, and the retaining wall is moved in the direction of the fixing block 30, which will be described later. The block (1) can be tensioned and fixed.

The fixed block 30 is embedded in the embankment 2 with backfill material to tension the retaining wall block 1.

Accordingly, the fixing block 30 may be formed in the form of a block made of the same concrete material as the retaining wall block 1, and is determined at appropriate height intervals through a desirable structural design for the construction of the fixing device for the reinforced soil retaining wall block of the present invention. They are arranged as many as the number, and are buried and fixed in the process of backfilling the embankment at a certain distance from the rear of the retaining wall block (1).

Meanwhile, the fixing block 30 is configured to be coupled to the rear end of the reinforcement 20, that is, to the longitudinal end of the tension wire 21.

In addition, the first embodiment of the present invention is characterized in that the fixing block 30 is formed in a structure that can be easily coupled to the tension wire 21.

Accordingly, in the first embodiment of the present invention, a fixing plate 31 capable of firmly fixing the tension wire 21 and the fixing block 30 to each other may be provided.

Referring to Figures 6 and 7, the fixing plate 31 is coupled to cover the upper part of the fixing block 30 with the tension wire 21 positioned between the fixing block 30. Thus, the tension wire 21 is configured to be fixed.

To this end, in the first embodiment of the present invention, the fixing plate 31 may be formed in a rectangular shape whose size corresponds to that of the fixing block 30. In addition, bolt fastening holes (30a) are formed at the four corners of the fixing block 30, and bolt insertion holes (30a) are formed at the four corners of the fixing plate 31 at positions corresponding to the bolt fastening holes (30a). 31a) is formed.

Accordingly, the fixing plate 31 is a first fastening member that is inserted upward into the bolt insertion hole 31a while seated on the upper surface of the fixing block 30 and is screwed to the bolt fastening hole 30a. It can be integrally coupled to the fixed block 30 through (32).

In addition, a first groove (30b) is formed on the upper surface of the fixing block (30) in a direction crossing the center, and the first groove (30b) is semicircular so that the tension wire (21) can be seated long. It has a concave cross-sectional structure. At this time, a rib groove is formed along the longitudinal direction in the first groove (30b) so that the ribs or nodes (21a) of the tension wire (21) can be seated in an engaged state.

Meanwhile, the tension wire 21 preferably has a thickness that can be seated at approximately half the depth in the first groove 30b of the fixing block 30 as described above. That is, the first groove (30b) may be formed in a depth and shape corresponding to the size of the thickness of the tension wire (21), and at this time, the fixing plate (31) has the first groove (30b) along the central portion of the bottom. A second groove (31b) forming a symmetrical structure may be formed to protrude convexly upward.

That is, as shown in Figure 7, the first groove (30b) and the second groove (31b) are the tension wire (21) when the fixing plate 31 is seated on the upper surface of the fixing block 30. It can be formed in a circular shape to surround the circumference.

In addition, the second groove (31b) is formed with a rib groove that can be engaged with the rib or node (21a) of the tension wire (21), so that the tension wire (21) is connected to the first groove (30b) and the It is fixed in a state of engagement with the second groove (31b) and can be firmly fixed without moving between the fixing block 30 and the fixing plate 31.

As described above, the fixing plate 31 can be easily coupled through the first fastening member 32 to cover the upper surface of the fixing block 30, and through this, in the first embodiment of the present invention, the tension Since the wire 21 can be firmly fixed through the fixing block 30, the work of tensioning the plurality of retaining wall blocks 1 in the direction of the cut surface of the embankment 2 is very easy and a stable effect is generated.

In addition, in the first embodiment of the present invention, the first groove (30b) is made of a semicircular structure corresponding to the shape of the tension wire (21), but the tension wire (21) is inserted to a certain depth. It may be formed as a seating groove (30b') having a deeper size and width than the first groove (30b).

At this time, when the tension wire 21 is seated in the first groove 30b or the seating groove 30b', the tension wire 21 is fixed in close contact with the rear end of the fixing block 30. The member 33 is fastened.

The fixing member 33 is connected to the rear end of the fixing block 30 while being integrally engaged around the tension wire 21 so that the tension wire 21 moves in the direction of the retaining wall block 1. It plays a role in preventing it from being pushed back.

Meanwhile, the fixing member 33 as described above can be firmly fixed to the tension wire 21 through a separate fixing means (not shown), and such fixing means will not be limited, for example, A type similar to the wedge joint 23b may be used.

Meanwhile, hereinafter, a second embodiment of the fixing device for a reinforced soil retaining wall block according to the present invention will be described.

In the past, when constructing reinforced soil retaining wall blocks, various methods were being explored to tension retaining wall blocks stacked at a certain height with sufficient strength in sites where the fill space for backfilling the retaining wall blocks was limited.

Accordingly, the second embodiment of the present invention is characterized by including a beam connecting member 40 that replaces the function of the fixed block 30.

Figure 8 is a side view showing an example of the construction of a fixing device for a reinforced soil retaining wall block according to a second embodiment of the present invention, and Figure 9 is a diagram showing the main configuration of a fixing device for a reinforced soil retaining wall block according to a second embodiment of the present invention. This is a perspective view showing the combined state.

Referring to FIG. 8, the beam connecting member 40 is spaced at a certain distance from the rear of the retaining wall block and is vertically inserted and fixed at a position where an auger hole (H) is made in the bottom of the foundation.

The beam connecting member 40 serves to connect and secure the reinforcing members 20 so that the plurality of retaining wall blocks 1 are maintained in a tensioned state by the reinforcing members 20.

Accordingly, the beam connecting member 40 in the second embodiment of the present invention may be a metal beam of appropriate thickness with an “H”-shaped cross section, and may be used of an appropriate thickness through a desirable structural design. In addition, the beam connecting member 40 is inserted perpendicularly into the auger-perforated base portion, the inserted portion is embedded to be fixed with grouting (G), and the remaining portion exposed in the height direction is the reinforcing material 20. After connection work, it is buried in the embankment.

In addition, the beam connecting member 40 is provided with a coupling plate 41 for connection to the reinforcing member 20.

The coupling plate 41 may be provided to protrude to one side of the beam connecting member 40. That is, when the tension wire 21 extends past the side of the beam connecting member 40, it is provided to protrude in the side direction of the beam connecting member 40 so as to pass through the coupling plate 41.

Accordingly, in the second embodiment of the present invention, the coupling plate 41 is welded at regular intervals along the longitudinal direction of the beam connecting member 40 and can be integrally coupled with the beam connecting member 40. , the coupling plate 41 has a flat front surface protruding in a direction facing the retaining wall block 1, and a central portion of the flat surface is perforated to a size larger than that through which the tension wire 21 can penetrate. A central hole 41a is formed.

Accordingly, the reinforcing material 20 is arranged side by side at regular intervals along the height direction of the retaining wall block 1, and one side in the longitudinal direction of the tension wire 21 is connected to the fixture 22 and the joint portion ( It is connected to the retaining wall block 1 through 23), and the other side in the longitudinal direction intersects the beam connecting member 40 and can be integrally fixed to the coupling plate 41.

Accordingly, the other side of the tension wire 21 in the longitudinal direction extends a certain length further through the central hole 41a of the coupling plate 41, and the tension wire 21 extended in this way has the coupling plate The second fastening member 42 is inserted and fastened to the rear of the central hole 41a of (41) so as to be supported.

The second fastening member 42 serves to connect the tension wire 21 and the coupling plate 41 to maintain the tension wire 21 at the rear of the coupling plate 41. , the second fastening member 42 is firmly fastened to the rear surface of the coupling plate 41 and is firmly engaged with the tension wire 21. In other words, the second fastening member 42 can easily fix the tension wire 21 to the coupling plate 41 so that the reinforcing material 20 is maintained in a tension state in which it is pulled in the direction of the cut surface.

Meanwhile, various types of fasteners capable of firmly holding the tension wire 21 may be used as the second fastening member 42, for example, fasteners such as liner screws may be used. You can.

Accordingly, the reinforcing members 20 can be each firmly fixed along the height direction of the beam connecting member 40 so that the plurality of retaining wall blocks 1 can be maintained in a rearward tensioned state.

As described above, in the second embodiment of the present invention, the beam connecting member 40 is installed, so that the reinforcing material 20 is installed in the embankment section 2, especially in a field where the embankment space for backfilling the retaining wall block is narrow. A new reinforced earth retaining wall block fixing device is proposed, which has the advantage of being able to be combined simply and firmly, enabling efficient construction and securing structural rigidity at the same time.

Meanwhile, the third embodiment of the fixing device for reinforced soil retaining wall blocks according to the present invention will be described below.

Figure 10 is a side view showing an example of construction of a fixing device for a reinforced soil retaining wall block according to the third embodiment of the present invention.

Referring to Figure 10, in the third embodiment of the present invention, the fixed block 30 is embedded and fixed in the embankment at the rear of the retaining wall block 1, and the beam connecting member 40 is connected to the fixed block ( It is characterized in that the rear end is installed in close contact with the front of 30).

Accordingly, it is preferable that one end of the tension wire 21 in the longitudinal direction extends further by a predetermined length to the rear of the beam connecting member 40.

At this time, the tension wire 21 passes through the central hole 41a of the coupling plate 41 protruding to one side of the beam connecting member 40 and then extends long rearward so that its distal end is connected to the fixing block 30. It is coupled and fixed to.

That is, the beam connecting member 40 is configured to be arranged in close contact with the front of the fixed block 30 between the retaining wall block 1 and so that the fixed block 30 is supported in close contact with the rear, thereby forming the embankment portion ( 2) In the buried state, the fixing block 30 is firmly fixed to the beam connecting member 40, so that the tensile state of the reinforcing member 20, which is integrally coupled with the beam connecting member 40, is more certain. It has the advantage of being maintainable.

Meanwhile, the fourth embodiment of the fixing device for a reinforced soil retaining wall block according to the present invention will be described below.

Figure 11 is a plan view showing an example of construction of a fixing device for a reinforced soil retaining wall block according to the fourth embodiment of the present invention.

The fourth embodiment of the present invention is characterized in that the beam connecting member 40 is combined with the soil nail portion 50.

Referring to FIG. 11, the soil nail portion 50 is configured to be coupled to the reinforcing member 20 via the beam connecting member 40.

In addition, the soil nail part 50 can apply the soil nail method, which increases the overall shear strength of the original ground itself by inserting a nail into the original ground of the cut portion.

The first to third embodiments as described above are characterized in that they are configured to construct a fixing device for reinforced soil retaining wall blocks in the embankment where the installation conditions for soil nails, etc. are not met, while the fourth embodiment In , the original ground exists at the rear of the retaining wall block (1) and the soil nail portion (50) is constructed together in a portion where a cut surface is formed.

Accordingly, the soil nail portion 50 can be inserted into the hole formed in the cut surface 3 and the nail 51 can be grouted to have pull-out resistance.

In addition, in the fourth embodiment of the present invention, the nail 51 extends a certain length from the cut surface 2 and is connected to the coupling plate 41 of the beam connecting member 40.

That is, in a state where the tension wire 21 is installed to pass through the central hole 41a of the coupling plate 41 in the front direction of the beam connecting member 40, the beam is connected through the second fastening member 42. At the same time as being coupled to the connecting member 40, the distal end of the nail 51 is installed to pass through the central hole 41a of the coupling plate 41 in the rear direction of the beam connecting member 40, and the coupling It has a structure that faces the second fastening member 42 at the front part of the central hole 41a of the plate 41 and is inserted into the nail 51 to be closely fixed to the coupling plate 41 to secure the nail 51. A third fastening member 52 is provided for gripping.

Therefore, the fixing device for the reinforced soil retaining wall block of the present invention enables the additional configuration of the soil nail part 50 when the beam connecting member 40 is constructed close to the cut surface of the original ground, thereby providing slope stability and anti-buckling effects. Of course, each tensile force is generated in the direction in which the reinforcing material 20 and the nail portion 50 face each other on both sides via the beam connecting member 40, thereby causing a bending moment of the beam connecting member 40. By complementing each other, it becomes possible to construct a more robust and stable reinforced soil retaining wall block.

On the other hand, in the first to fourth embodiments as described above, a wire mesh is installed to be embedded in the embankment (2) while interconnecting and supporting the retaining wall blocks (1) arranged adjacent to each other in succession in the horizontal direction. It may be configured to further include (60).

Accordingly, referring to the drawings, the retaining wall block 1 has mesh insertion grooves 1b having a grid-like pattern formed at regular intervals on the rear protrusion.

The mesh insertion groove (1b) is a groove formed in a grid-like pattern extending in the horizontal and longitudinal directions on the upper surface of the rear protrusion of the retaining wall block (1), and the mesh insertion groove (1b) is standardized in a grid shape. The edge portion of the wire mesh 60 having is inserted and formed to be supported.

Accordingly, it is preferable that the mesh insertion grooves 1b formed in each of the retaining wall blocks 1 are formed at appropriate intervals according to the specifications of the wire mesh 60 to be constructed.

The wire mesh 60 can be of appropriate size according to the calculation of the construction structure of the reinforced soil retaining wall block, and is in the form of a mesh network made of sturdy metal or synthetic resin material with a certain length and width. This wire mesh 60 is The fixed block 30 and the It serves to reinforce the tensile force through components such as the beam connecting member 40, and at the same time, ensures slope stability and anti-buckling effects during and after compaction work on the rear of the retaining wall blocks 1.

Hereinafter, a method of constructing a reinforced soil retaining wall block according to an embodiment of the present invention having the structure of the reinforced soil retaining wall block described above will be described.

The method of constructing a reinforced soil retaining wall block according to an embodiment of the present invention includes the steps of a) placing a plurality of retaining wall blocks after ground foundation construction, and constructing and binding the plurality of retaining wall blocks; b) installing a connecting bar so that it is inserted along the transverse groove formed in the body of each of the plurality of retaining wall blocks and connected across the retaining wall blocks; c) installing reinforcements arranged at regular intervals along the longitudinal direction of the connecting bar, with one end in the longitudinal direction bound in the intersection direction of the connecting bar, and extending long to the rear of the retaining wall block; d) grouting the beam connection member by standing it vertically at a position where an auger was drilled in the ground of the embankment at a predetermined distance behind the retaining wall block; e) When the beam connecting member has been installed vertically, laying and compacting reinforcing soil on the embankment in parallel, and tying the other end in the longitudinal direction of the reinforcing material installed at regular intervals along the height direction to the beam connecting member; Includes.

The step a) of constructing and binding a plurality of retaining wall blocks is a step of creating a foundation and consolidating the ground around the foundation to build the lowest part of the retaining wall.

At this time, in one embodiment of the present invention, auger drilling work is performed at positions spaced at a certain distance behind the base portion. This is to bury the beam connecting member 40 to a certain depth in the construction step described later.

The step b) of installing the connecting bar is a step of installing a connecting bar 10 that is inserted along the transverse groove 1a formed in the body of each of the plurality of retaining wall blocks 1 and connected across the retaining wall blocks.

In the step c) of installing the reinforcing material, the fixture 22 is disposed at regular intervals along the longitudinal direction of the connecting bar 10, and one end in the longitudinal direction is bound in the crossing direction of the connecting bar 10. Installed, the tension wire 21 is extended long to the rear of the retaining wall block 1 in a state in which the tension wire 21 is firmly coupled to the fixture 22 through the joint portion 23. This is the step of installing the reinforcing material 20.

d) The step of grouting the beam connecting member by standing it vertically is to place the beam connecting member (40) at the position of the auger perforation (H) on the ground of the embankment (2) at a predetermined distance to the rear of the retaining wall block (1). ) is placed vertically and subjected to grouting (G) so that the beam connecting member 40 can be fixed vertically to the construction height of the retaining wall block 1 in the embankment 2.

e) The step of binding the other longitudinal end portion of the reinforcement to the beam connection member involves laying and compacting reinforcing soil in the embankment section 2 when the beam connection member 40 is buried vertically in the auger-drilled ground and fixed. This is a step of binding the longitudinal other end portions of the reinforcement members 20, which are sequentially installed at regular intervals along the height direction, to the beam connecting members 40 one by one while performing the operation in parallel.

Accordingly, in the construction method of the reinforced soil retaining wall block according to an embodiment of the present invention, especially when it is difficult to secure sufficient embankment space for backfilling the retaining wall block, the beam connecting member 40 is easily constructed so that the reinforcing material 20 By allowing the joints to be easily and firmly joined in the cauldron section (2), the effect of securing sufficient tensile strength along with very efficient construction can be achieved.

Meanwhile, the construction method of a reinforced soil retaining wall block according to an embodiment of the present invention includes the steps of f) installing a wire mesh so that the edge portion is fitted along the rear protrusion of the retaining wall block to connect a plurality of retaining wall blocks to each other; More may be included.

In the step f) installing the wire mesh, the grid-shaped wire mesh 60 is supported in a state in which the retaining wall blocks 1 are interconnected along the mesh insertion groove 1b formed in the retaining wall block 1. By being embedded in the part (2), not only can the tensile force through the reinforcing material (20) be sufficiently maintained along with components such as the fixing block (30) and the beam connecting member (40), but also the retaining wall block (1) It has the advantage of increasing slope stability and anti-buckling effects during or after compaction work on the back of the field.

The fixing device for the reinforced soil retaining wall block and its construction method described above and shown in the drawings are only one embodiment for carrying out the present invention, and should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is determined only by the matters stated in the claims below, and improved and changed embodiments without departing from the gist of the present invention are obvious to those skilled in the art to which the present invention pertains. It will be said to fall within the scope of protection of the present invention.

1 Retaining wall block 1a transverse groove
2 Filling section 10 Connecting bar
20 Reinforcement material 21 Tensile wire
22 fixture 22a insertion hole
22b wedge receiving part 23 joint part
23a wedge 23b wedge joint
30 fixed block 30a bolt fastener
30b first groove 31 fixing plate
31a bolt insertion hole 31b second groove
32 First fastening member 40 Beam connection member
41 Coupling plate 42 Second fastening member
50 Soil Nail Department 51 Nail
52 Third fastening member 60 Wire mesh

Claims (5)

delete A connecting bar inserted long along the transverse groove formed in the body of a plurality of retaining wall blocks constructed in multiple stages;
A reinforcement member whose front end is connected to the connecting bar and extends a certain length to the rear of the retaining wall block;
A fixed block embedded in and fixed to the embankment at the rear of the retaining wall block and coupled to the rear end of the reinforcing material;
The rear end is installed to be closely supported on the front of the fixed block, is spaced at a certain distance behind the retaining wall block, is vertically inserted into the auger drilled position in the bottom of the foundation, and is grouted and fixed to a predetermined height, and the remaining length is Beam connecting members embedded in the embankment and coupled to longitudinal end portions of the reinforcement members adjacent to each other along the height direction;
The retaining wall block has mesh insertion grooves having a grid-like pattern formed at regular intervals on the rear protrusion, is formed in a grid-like pattern corresponding to the mesh insertion groove, and one edge portion is fitted along the mesh insertion groove to form a plurality of neighboring walls. It further includes a wire mesh that interconnects and supports the retaining wall blocks,
The reinforcing material includes a tension wire connected between the connecting bar and the fixing block; A fixture having an insertion hole formed on one side to be inserted into the connecting bar and a wedge receiving portion formed on the other side with a female thread formed on an inner peripheral surface; A plurality of wedge pieces are divided and formed so that the inner diameter is expanded or reduced by external force, and the outer surface is inclined, and the inner circumferential surface is formed as a tapered surface to surround the wedge, and a male thread is formed on the outer circumferential surface to be screwed into the wedge receiving part. It consists of a joint part consisting of a wedge joint that is coupled,
A first recess is formed in a semicircular shape on the upper surface of the fixing block so that the tension wire can be seated, and a second recess is formed on the bottom of the fixing block for fixing the tension wire seated in the first recess. The plate is provided to be coupled by a first fastening member,
A fixing device for a reinforced soil retaining wall block, characterized in that a fixing member is provided that is engaged and supported at the rear end of the fixing block in a state in which the tension wire is engaged around the circumference of the tension wire, thereby preventing the tension wire from being pushed in the direction of the retaining wall block. delete delete delete