KR100462393B1 - Fastening structure of reinforced soil revetment - Google Patents

Abstract

The reinforcing material can increase the frictional force with the fill layer, and the reinforcement fastening structure of the reinforcing soil retaining wall made easy to construct the reinforcement can be assembled easily and quickly.

The reinforcing material fastening structure of the reinforcement retaining wall is a reinforcing material fastening structure of the reinforcement earth retaining wall provided between the front plate provided in front of the fill layer and the resistance member provided on the back of the fill layer.

A support member is installed on the rear surface of the front plate, and a resistance member is installed on the rear surface of the fill layer to maintain a predetermined distance from the front plate, and the reinforcement member is fastened to the support member and the resistance member respectively on both sides thereof. Providing a reinforcement fastening structure of the reinforcement earth retaining wall configured to install the reinforcement by mounting the reinforcement to the support member and the resistance member is provided.

Description

FASTENING STRUCTURE OF REINFORCED SOIL REVETMENT}

The present invention relates to a reinforcing member fastening structure of the reinforcement earth retaining wall, and more particularly, to a reinforcing material retaining structure of the reinforcement earth retaining wall made of a reinforcing material can increase the frictional force with the fill layer more easily, and can be assembled easily and quickly to simplify the construction. It is about.

Recently, many retaining wall structures have been constructed in order to maximize land use due to industrial development and urbanization. In particular, many retaining wall structures have been constructed in places with mountainous and hilly terrain.

The retaining wall structure must be able to withstand the upper structure and earth pressure sufficiently, and be durable, easy to secure materials and simple to construct.

In the case of concrete retaining wall, which is the most common retaining wall structure at present, there are many problems such as lack of professional manpower and consequent increase in labor cost, difficulty in quality control for cast-in-place concrete, structural weakness and increase in construction cost when the retaining wall height increases.

Various types of retaining wall construction methods have been developed or presented in order to improve this problem. Among such retaining wall construction methods, a reinforced soil retaining wall method is used.

This reinforcement soil method is one method of reinforcing and reinforcing fill body, cut slope or ground in order to secure the safety of civil engineering structure.The reinforcement soil is installed by inserting or inserting reinforcement material in soil and interacting with soil and reinforcement material. It is a method to increase the stability and strength.

This reinforcement soil method is widely used for the construction of roads, railways, alternating structures, housing sites and coastal barriers or retaining walls for the purpose of soft ground reinforcement or earth clogging.

Reinforced soil retaining wall structure constructed by the conventional method constructs a fill layer having a predetermined thickness made of soil, crushed stone, etc., and in front of the fill layer, a plurality of front plates adjacent to each other in the vertical direction and the horizontal direction. After installing the vertical wall or inclined wall surface, the reinforcing material is placed on the fill layer, the front end is connected to the ring-shaped fixing portion formed on the back of the front plate, the end is fixed to the resistance member by fixing the end to a certain height The retaining wall is constructed, and the reinforcement retaining wall is completed by repeating the above process.

In the above, the reinforcement is using a steel wire or cable or a drain board together with these wires or reinforcement, and in the case of using a steel wire, the reinforcement is formed by machining a threaded portion at both ends of the steel wire and fastening a nut to the screwed portion. It is fixed between the members, and when the cable is used, it is installed by bending both ends of the cable and binding it to the front plate and the resistance member.

In the case of using a drain board, the two sides of the drain board are cross-engaged with a slit formed in the connecting member so that the drain board and the connecting member are combined and assembled, respectively, and then at both ends of the drain board and the connecting member. Holes are drilled together and one side is fitted to the support formed on the rear surface of the front plate, and the other end of the hole to fix the drain board by fixing with a fixing wedge.

The reinforcement soil retaining wall formed by such a reinforcement soil method, the front plate forms the appearance of the retaining wall, the reinforcement is buried in the fill layer to play a role of suppressing the lateral deformation of the retaining wall structure by causing friction action with the soil.

However, such a conventional reinforcing material is fixed to the reinforcement between the front plate and the resistance member by fastening the nut to the threaded portion on both ends of the steel wire in the case of the steel wire, both ends of the cable in the case of the cable After bending the part by using a mechanical device, it is tied to the front plate and the resistance member, so that the fastening work of the reinforcement is difficult and takes a lot of time.

In addition, when the cable is used as a reinforcement, the cable may be deformed or broken due to the pressure of the fill layer, thus preventing the role of the reinforcement.

In the case of using the drain board, it is necessary to bind the drain board with the connecting member and drill holes together at both ends of the drain board and the connecting member, which is cumbersome and requires a lot of time to tighten the reinforcement material. There is a disadvantage working.

The present invention has been made to solve the conventional problems as described above, the object of the present invention is to easily and quickly assemble the reinforcement to the front plate and the resistance member, while the reinforcement to increase the friction force with the fill layer. It is possible to provide a reinforcement fastening structure of the reinforcement earth retaining wall made easy to construction.

In order to realize the object of the present invention as described above, in the reinforcing member fastening structure of the reinforced earth retaining wall provided between the front plate installed in front of the fill layer and the resistance member provided on the back of the fill layer,

A support member is installed on the rear surface of the front plate, and a resistance member is installed on the rear surface of the fill layer to maintain a predetermined distance from the front plate, and the reinforcement member is fastened to the support member and the resistance member respectively on both sides thereof. Providing a reinforcement fastening structure of the reinforcement earth retaining wall configured to install the reinforcement by mounting the reinforcement to the support member and the resistance member is provided.

The fastening member is fixed to be movable along the reinforcement, characterized in that made to facilitate the fastening of the reinforcement.

1 is a partial cutaway perspective view of a reinforcement earth retaining wall is applied to the reinforcing material fastening structure according to the present invention.

Figure 2 is a perspective view showing a reinforcing member fastening structure according to the present invention.

Figure 3 is a perspective view of a support member applied to the reinforcing member fastening structure according to the present invention.

Figure 4 is a perspective view of the resistance member applied to the reinforcing member fastening structure according to the present invention.

5 is an exploded perspective view of a fastening member applied to a reinforcing member fastening structure according to the present invention.

Figure 6 is an assembled cross-sectional view of the fastening member applied to the reinforcing member fastening structure according to the present invention.

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

1 is a partially cutaway perspective view of a reinforcement retaining wall to which the reinforcing member fastening structure according to the present invention is applied, and FIG. 2 is a perspective view showing the reinforcing member fastening structure according to the present invention;

Reinforced soil retaining wall structure constructed by a conventional method constructs a fill layer 2 having a predetermined thickness made of soil, crushed stone, and the like, and a plurality of front plates 4 in front of the fill layer 2. It is installed adjacent to each other in the vertical direction and the horizontal direction to form a vertical wall surface or inclined wall surface.

And the reinforcement 6 is placed in the fill layer 2, the front end of which is connected to the back of the front plate 4, the end of the reinforcement 6 is fixed to the resistance member 8 by the reinforced soil retaining wall By constructing the reinforcement retaining wall is completed by repeating the above process.

The front plate 4 of the present embodiment provided in the construction of such a retaining soil retaining wall has a hexagonal plate shape having a predetermined thickness, and one side of the reinforcing material 6 is installed on the rear surface of the front plate 4. The support member 10 is provided so that it may be.

The front plate 4 may be made of, for example, concrete, synthetic resin, metal plate, glass fiber, etc., and when the front plate 4 is molded, one side of the support member 10 is embedded or fixed to the front plate 4. And the support member 10 is manufactured in a state of integral.

And the shape of the front plate 4 is shown as consisting of a hexagonal shape in this embodiment, but is not limited to this, for example, to install adjacent front plate, such as a quadrilateral or cross shape in the vertical or horizontal direction When they are assembled to each other to be able to form a vertical wall or inclined wall surface may be manufactured in any shape.

The support member 10 provided on the rear surface of the front plate 4 is provided to support and fix one end of the reinforcing material 6, and as shown in FIG. The upper side and one side of the body 12 is formed of an opening portion, the partition wall 16 that divides the space portion of the body 12 into a plurality of space portion 14 and one side opening of the body 12 It consists of a support groove 18 formed in the front portion corresponding to the portion.

One side of the reinforcement 6 is mounted through the space 14 and the support groove 18 of the support member 10, and is supported when the support member 10 is embedded in the front plate 4. In order to fix the member 10 to the front plate 4, a fixing hole 20 is drilled in the same direction of the body 12 and the partition wall 14 of the support member 10.

It is installed at the rear of the front plate 4 in which the supporting member 10 is installed while maintaining a predetermined distance from the front plate 4 to support the other side of the reinforcing material 6 and the reinforcing material 6 is filled with soil. A resistance member 8 is provided to increase the resistance to the layer 2.

The resistance member 8 has a base 22 having a constant size as shown in FIG. 4, and a support part 24 formed in an approximately orthogonal direction in the base 22, and the support part 24 has a reinforcing material 6. One side of the support groove 26 is formed is supported.

A plurality of holes 28 are formed in the base 22 so that the resistance member 8 can be fixed to the fill layer 2 using a fixing member (not shown).

The support 24 serves to increase the resistance to the fill layer 2, the reinforcing material 30 is formed on the front side of the support 24 to support the support 24 more firmly.

In addition, two support grooves 26 are shown in the present embodiment, but one or two or more support grooves 26 may be formed depending on the number of reinforcement materials 6.

The reinforcing member 6 provided between the front plate 4 and the resistance member 8 as described above is provided with fastening members 32 at both ends thereof so as to maintain the installation state of the reinforcing member 6.

5 and 6, the fastening member 32 may be inserted into and supported by a cylinder 36 having a space portion 34 penetrated in a conical shape and a space portion 34 of the cylinder 36. It consists of a binding portion 40 is formed so that the through groove 38 in the longitudinal direction of the central portion so that the reinforcing material 6 can be inserted.

The binding portion 40 has a conical structure in which one side is assembled with an elastic body 42 in an integrated state of the plurality of partition members, and the reinforcing material 6 is inserted into the through groove 38 of the binding portion 40. And when the binding portion 40 is inserted into the cylinder 36, the binding portion 40 is inserted into the conical space portion 34 and tightened to restrain the reinforcing material (6).

Therefore, the fastening member 32 can be assembled to be movable at any position along the reinforcing material 6, so that the reinforcing material 6 can be easily provided regardless of the distance between the front plate 4 and the resistance member 8, respectively. The installation is completed by mounting the reinforcing member 6 to the support grooves 18 and 26 of the support member 10 and the resistance member 8, so that the construction can be easily performed quickly.

And the reinforcing material 6 is used in the present embodiment, the reinforcement is used, as the reinforcing material, the frictional force with the fill material (2) due to the nodes formed in the reinforcement than when using a conventional steel wire or cable, as well as the reinforcing material Strain can be minimized.

The reinforcing material 6, the resistance member 8, the support member 10, the fastening member 32, and the like is preferably subjected to the rust preventive treatment to prevent corrosion.

The reinforcing material fastening of such a reinforcement soil retaining wall first constructs a fill layer 2 having a predetermined thickness made of soil, crushed stone, and the like, and then places a plurality of front plates 4 in front of the fill layer 2. It is installed adjacent to each other in the direction and the horizontal direction to form a partial vertical wall surface or inclined wall surface.

Then, a predetermined distance is jumped on the rear surface of the front plate 4 and the resistance member 8 is fixedly installed on the fill layer 2, and then the fastening members 32 are assembled on both sides of the reinforcing material 6, respectively. The fastening member 32 is inserted into the space 14 of the support member 10, and the other fastening member 32 is positioned outside the support groove 26 of the resistance member 8 to mount the reinforcing material 6. The installation of the reinforcing material 6 is completed.

In this case, the fastening members 32 should be assembled to the reinforcement 6 in consideration of the distance so that the fastening members 32 may be closely supported between the space 14 of the support member 10 and the support 24 of the resistance member 8.

When the reinforcing material 6 is installed in this way, the installation is completed by mounting the reinforcing material 6 to the supporting grooves 18 and 26 of the supporting member 10 and the resistance member 8 so that the construction can be easily performed quickly. When the distance between the other front plates and the resistance members is installed while maintaining the same state, the reinforcing member 6 may be more quickly installed by assembling the fastening members 32 in advance in the reinforcing member 6. .

When the installation of the reinforcing material (6) is completed as described above, covering the filling layer (2) of a constant thickness on the upper part of the compaction work, and then completed the reinforcement retaining wall is completed by repeating the above operation, wherein The reinforcement 6 is firmly installed and fixed in the fill layer 2.

The reinforcement 6 installed in this way is buried in the fill layer 2, and the pressure is transmitted from the reinforcement 6 to the support member 10 and the resistance member 8, wherein the support member 10 and the resistance are The member 8 firmly supports the reinforcement 6 in the fill layer 2 while resisting the external force, and the reinforcement 6 causes the transverse deformation of the retaining wall structure by causing friction with the fill layer 2. It will act to suppress the.

In particular, the reinforcing material 6 is made of reinforcing bar having a node, each reinforcing bar will increase the resistance to the fill layer (2).

As described above, in the reinforcement mounting structure of the reinforcement earth retaining wall according to the present invention, after the fastening members are assembled on both sides of the reinforcement, the installation is completed by mounting the reinforcement between the support member of the front plate and the support groove of the resistance member. Installation of the reinforcement can be easily made, thereby making the construction of the reinforcement earth retaining wall easy and quick.

In addition, the reinforcing material is made of reinforcing bars having each node, so that each reinforcing bar increases the resistance to the fill layer, thereby further suppressing the lateral deformation of the retaining wall structure.

Claims (9)

(Correction) In the reinforcement fastening structure of the reinforcement soil retaining wall provided between the front plate provided in front of the fill layer and the resistance member provided on the back of the fill layer, A support member is installed on the rear surface of the front plate, and a resistance member is installed on the rear surface of the fill layer to maintain a predetermined distance from the front plate. The support member is composed of a body having an upper portion and an inner space portion so that the fastening member can be inserted, and a support groove formed by the front portion of the body to support the reinforcing material passing therethrough, The resistance member has a base fixed to the fill layer, and a support portion formed in a substantially orthogonal direction from the base, the support portion is formed with a support groove in which one side of the reinforcement is inserted and supported, The reinforcing member is provided with a fastening member which is supported on each of the support member and the resistance member on both sides of the reinforcing member retaining structure of the reinforcement earth retaining wall configured to be installed by inserting the reinforcing member into the support groove of the support member and the resistance member. delete The reinforcing member fastening structure of the reinforcement earth retaining wall according to claim 1, wherein the support member is provided with a fixing hole for embedding and fixing the front plate. (Correction) The reinforcing member fastening structure of claim 1, wherein the space portion and the support groove are formed in one or two or more. delete (Correction) The reinforcing member fastening structure of claim 1, wherein the support groove is formed in one or two or more. The method of claim 1, wherein the fastening member is a cylinder having a conical space portion penetrated therein, the coupling is formed to be supported by the space portion of the cylinder, the through groove is formed in the longitudinal direction of the central portion so that the reinforcement can be inserted The binding portion has a conical structure in which one side is assembled with an elastic body in a state composed of a plurality of dividing members, and the reinforcing member is inserted into the through groove and the binding portion is inserted into the cylinder. Reinforcement fastening structure of the reinforced earth retaining wall, characterized in that the insertion is tightened to restrain the reinforcement. The reinforcing member fastening structure of the reinforcement earth retaining wall according to claim 7, wherein the fastening member is configured to be assembled to be movable at any position along the reinforcing material. The reinforcing member fastening structure of the reinforcement earth retaining wall according to claim 1, wherein the reinforcing material is made of reinforcing bars.