KR100974353B1 - Combining loop of horizontal connecting member for greening bag of retaining wall - Google Patents

Abstract

PURPOSE: A horizontal coupling member connecting ring of a vegetation bag for a retaining wall is provided to prevent a retaining wall from collapsing by the connection of a fastening ring to a connecting fastener and a horizontal connecting member. CONSTITUTION: A horizontal coupling member connecting ring of a vegetation bag for a retaining wall comprises a horizontal coupling member(20), a connecting fastener(10), a first connector, and a second connector. The horizontal coupling member connects a gunny bag and a geogrid. The connecting fastener is formed a vegetation bag(3) and comprises a pin part and a head part. The vegetation bad is filled with the vegetation soil. The pin part is horizontally formed in the vegetation bag. The second connector is formed vertically to the first connector.

Description

Horizontal connecting material fastening ring of retaining wall vegetation bag {COMBINING LOOP OF HORIZONTAL CONNECTING MEMBER FOR GREENING BAG OF RETAINING WALL}

The present invention relates to a fastening ring of the horizontal connection member of the retaining wall vegetation bag, and more specifically, the vegetation bag and the sack and the geogrid, which are constructed rearward from the front part of the greening retaining wall, are connected to each other and the stalks arranged in the transverse direction are connected to each other. It is about the fastening of the horizontal connector of the retaining wall vegetation bag to secure the foundation.

The reinforcement soil method is a method of forming a new composite structure by laying a strip or plate-like reinforcement with a large tensile force at regular intervals or as a whole in the fill layer mainly composed of soil, and embedding them with soil filling. For this purpose, the method is widely used for the purpose of mechanically stabilizing soil structures using soil.

Construction using this reinforcement soil method includes reinforcement soil retaining walls (MSEW, Mechanically Stabilized EarthWalls) and reinforcement slopes (RSS, Reinforced Steep Slopes, or Reinforced Soil Slopes) for building vertical walls. The inclination angle for constructing the retaining wall retaining wall is perpendicular to the 90 ° diameter slope from 80 ° or more depending on the area, and the reinforcement slope is constructed to make the slope less than 70 ° according to the design slope.

The reinforcement soil retaining wall construction is perpendicular to the vertical wall, the reinforcement slope construction is installed before the basic construction state and the construction frame (Leading Frame or Better Board) in order to maintain the slope.

The scaffold frame is for reference to the angle according to the soil construction, and is installed from the initial ground from the point of gentle slope to steep slope, and is installed along the front side height of the soil layer when the soil layer is continuously constructed.

On the other hand, the formation of the soil layer according to the construction of the vertical wall or slope is to install the guide frame (Guide Frame) using materials such as wood or wire mesh (wire wire) and reinforcement on the front part from the construction position, and to resist the soil body In the state where the reinforcement can be installed to the back side of the frame by the earthwork (filling and compacting) to be able to form a soil layer.

In the formation of the soil layer, a scaffold frame is placed at the position set as the foundation ground, and a guide frame is installed on the ground of the fill portion based on the scaffold frame. In addition, the guide frame is formed by weaving the reinforcing bar in the form of a lattice, or using a timber, formed to have an inclination angle of the scaffold frame, and is installed laterally at the starting point of the slope to be constructed.

The reinforcement is installed from the ground on which the guide frame is placed, and the reinforcement is provided with a geogrid or a geotextile on the ground layer, or when the construction is wrapped around the front of the reinforcement. In the state of aside, the back of the guide frame is filled with soil and compacted, and the reinforcement placed aside on the upper side of the soil, that is, the front side of the guide frame, is sent to the reinforcement soil. To form a soil layer.

In the state in which the soil layer is formed, another guide frame and a reinforcing material may be installed to construct reinforcement soils having vertical or inclined soil continuously by repetitive work of earthwork as described above.

In the construction of the reinforcement soil continuously carried out by the above method, while binding the other standard frame having a predetermined length to the predetermined height of the reinforcement soil to be constructed in the same direction as the slope, while measuring the angle of construction Construct.

Thereafter, the construction can be completed by carrying out earthwork as installation of the guide frame and the reinforcement as described above.

On the other hand, the scaffold frame for the construction of the vertical wall for the construction of the separate type reinforced soil retaining wall is installed vertically with respect to the front surface of the soil layer, and the guide frame made by weaving the bars at right angles is installed. It is possible to implement a wall vertically from.

However, the conventional greening retaining wall as described above has a problem that the reinforcement is exposed to the outside causing a serious risk of collapse in the retaining wall structure itself in case of fire or damage caused by a knife or other sharp equipment from the outside.

In addition, in the case of the block type, but can support the lateral earth pressure to some extent, wrapping is very difficult, and the situation is generally using a steel mesh, there was a problem that the recording rate is very low.

Greening retaining wall has been proposed to solve this problem, the greening retaining wall is a plurality of geogrid embedded at a certain height in the fill layer (backfill layer), the longitudinal erected in front of the fill layer, longitudinal and horizontal The vegetation bag built in the direction, and the greening layer is planted (or spread) in front of the vegetation bag.

In the conventional retaining wall, the vegetation bag is formed by filling the vegetation soil in the grasspo, and the greening layer smoothly vegetates the vegetation bag based on the vegetation base.

However, in the conventional greening retaining wall, the vegetation bag and the sack can secure some support force due to the load transferred from the upper part, but there is no cohesion between the vegetation bag and the sack, so it does not exert the force against the earth pressure forward. As a result, a filling phenomenon of the retaining wall is easily generated, and there is a problem in that the retaining wall is not structurally stable because the stalks and geogrids which are arranged in the transverse direction cannot be bound to each other.

The present invention is to solve the problems as described above, and the vegetation bag that is built on the front of the green retaining wall to provide a vegetation base on the greening layer and the sack and the geogrid wound on the sack are stacked in multiple stages behind the vegetation bag The purpose of the present invention is to provide a horizontal connector fastening ring of the retaining wall vegetation bag that allows the vegetation bag to maintain the built state on the support base and to increase the binding force by connecting the cross seats and the geogrids arranged in the transverse direction.

Horizontal connecting member fastening ring of the retaining wall vegetation bag according to the present invention for achieving the object as described above, is formed in a rod shape as a whole and one end of the closed loop or one side of the size that the pin portion of the connection fastener is fitted An open ring-shaped first connection part is formed, and at the other end, a second connection part is formed in a direction orthogonal to the first connection part and fitted to the horizontal connection member, and the first connection part and the second connection part are formed. The second connector is connected to be adjusted to an angle when viewed from the side through a hinge.

According to the horizontal connector fastening ring of the retaining wall vegetation bag according to the present invention, the fastening ring is connected to the connecting fastener and the horizontal connecting member for fixing the vegetation bags, respectively, by binding the vegetation bag and the sack and the geogrid to support the geogrid and the sack as the base. Therefore, even if the earth pressure is applied, it is not pushed forward, so it is possible to prevent the filling and collapse of the retaining wall.

In addition, it is possible to achieve structural stability of the retaining wall by binding the crossbars arranged in the transverse direction and the geogrid so that the crossbars arranged on the left and right sides are not pushed forward.

1 is an installation state of the horizontal connector fastening ring of the retaining wall vegetation bag according to the present invention.
Figure 2 is a perspective view of a fastening ring horizontal connector of the retaining wall vegetation bag according to the first embodiment of the present invention.
Figure 3a and Figure 3b is an exploded perspective view and side view of the horizontal connector fastening ring of the retaining wall vegetation bag according to the second embodiment of the present invention, respectively.
Figure 4a and Figure 4b is a perspective view and a side view of the horizontal connector fastening ring of the retaining wall vegetation bag according to the third embodiment of the present invention, respectively.
Figure 5 is a perspective view of a fastening ring horizontal connector of the retaining wall vegetation bag according to a fourth embodiment of the present invention.

Before describing the horizontal connector fastening ring of the retaining wall vegetation bag according to the present invention in detail, the green retaining wall to which the horizontal connector fastening ring of the retaining wall vegetation bag of the present invention is applied will be described.

As shown in Fig. 1, the greening retaining wall is, for example, a plurality of geogrids 2 which are embedded at a certain height in a fill layer (backfill layer) 1, and a stool 3 built in the longitudinal direction in front of the fill layer 1. ), A vegetation bag 4 constructed longitudinally and horizontally in front of the stem 3, and a greening layer 5 planted (or spreaded) in front of the vegetation bag 4.

Geogrid (2) is to generate a force against the earth pressure toward the front through the frictional resistance with the fill layer (1), is wound around the sack (3) is installed, can be used in the form of a mesh, a belt.

The sack 3 is filled with soil in the interior of the graspo, it is used to install the geogrid (2).

The vegetation bag 4 is for vegetation of the greening layer 5, and the vegetation soil is filled in the interior of the graspo.

As shown in the figure, one stem 3 may be formed at a height corresponding to the height of a plurality of vegetation bags 4 (shown as three in the figure).

Vegetation bags (4) stacked in multiple stages are connected in series through the connection fastener (10). The connection fastener 10 is formed of a head portion 11 and a pin portion 12 having a smaller cross-sectional area than the head portion 11. The first and second stage vegetation bags (4) are connected through one connector (10) from the ground, the second and third stage vegetation bags are connected through another connector (10), and another connector (10) By connecting the three- and four-layer vegetation bags through), all vegetation bags are connected in series.

A horizontal connector 20 is applied to connect the spigot 3 and the geogrid 2 which are arranged in the transverse direction.

The horizontal connector 20 is disposed on the upper edge side of the sack 3 and is wound by the geogrid 2 is supported by the corner portion of the sack 3.

Hereinafter, an embodiment of a horizontal connector fastening ring of the retaining wall vegetation bag according to the present invention will be described in detail.

≪ Example 1 >

As shown in FIG. 2, the horizontal connecting member fastening ring 30 of the retaining wall vegetation bag according to the present embodiment is formed in a rod shape as a whole, and is fitted below the head 11 of the connecting fastener 10 at one end thereof. A curved first connector 31 is formed, and at the other end, a second connector 32 formed in a direction orthogonal to the first connector 31 is fitted to the horizontal connector 20.

The first connecting portion 31 is a closed loop or a ring in which one side is opened in a size that the pin portion 12 of the connecting fastener 10 is not fitted into the head 11.

The second connecting portion 32 is formed in a curved shape having a size that the horizontal connecting member 20 does not fall out.

As described above, the first connecting portion 31 is disposed below the head portion 11 of the connecting fastener 10, and the second connecting portion 32 is fitted to the horizontal connecting member 20, and the vegetation bag 4 is provided. And the position of the head portion 11 and the horizontal connecting member 20 varies depending on the installation position of the stem 3 and the thickness of the vegetation bag 4 and the stem 3, and the like. Regardless of the position of the 20, the first and second connectors 31 and 32 connect the hinge 33 so that the first and second connectors 31 and 32 can be connected to the head 11 and the horizontal connector 20. It is connected through adjustable angle.

Based on the position of the first connector 31, the first connector 31 is fixed to the connection fastener 10, and then, when the second connector 32 is turned, the second connector 32 is rotated through the hinge 33. The angle is adjusted, and can be fixed to the horizontal connecting member 20 while freely rotating the second connector (32).

<Example 2>

As shown in Figure 3a and Figure 3b, the horizontal connector fastening ring 30 of the retaining wall vegetation bag according to the present embodiment, the first connecting portion 31 and the second connecting portion 32 are respectively connected to the linear connecting rod 34, respectively. The hinges 35 and 36 are connected in an adjustable angle.

Compared to the first embodiment of the present embodiment, the second connection portion 32 is the same as the angle adjustment, but the first embodiment is the second connection portion 32 in the angle of the second connection portion 32 and the horizontal connection member (20) Although the structure may be wrapped around the side of the horizontal connector 20, in this embodiment, the second connector 32 is angled at the connecting rod 34, regardless of the angle of the connecting rod 34 and the horizontal connecting member 20 The two connecting portion 32 may be firmly connected to cover the horizontal connecting member 20 from the top.

<Example 3>

4A and 4B, the horizontal connecting member fastening ring 30 of the retaining wall vegetation bag according to the present embodiment is connected to the connecting rod 34 through the hinge 36 while the second connecting portion 32 is formed in a “∩” shape. Then, while the horizontal connecting member 20 is wrapped in the upper portion as in Example 2, the sharp pin portions 32a of both lower ends are embedded in the soil of the sack 3.

That is, the above-described embodiments have a structure in which the second connecting portion 32 is caught by the horizontal connecting member 20, whereas the second connecting portion 32 of the present embodiment is caught by the horizontal connecting member 20 and at the same time the pin portion 32a is provided. Is stuck to the sack (3) can increase the binding force.

<Example 4>

As shown in Figure 5, the horizontal connector fastening ring 30 of the retaining wall vegetation bag according to the present embodiment, the opposite ends of the first and second connecting portions 31 and 32 are formed with threads in opposite directions to each other, The two connecting portions 31 and 32 are connected by a buckle 37 which is screwed to the screw line.

In addition, the second connecting portion 32 is composed of a screw rod 32b screwed to the buckle 37, a hook 32d connected to the screw rod 32b by a hinge 32c and fixed to the horizontal connecting member 20. .

That is, in the present embodiment, the hook 32d of the second connector 32 is caught by the horizontal connector 20 while the angle is adjusted through the hinge 32c, and the distance from the first connector 31 through the buckle 37. The adjustable connection can be used according to the distance as well as the angle of the connection fastener 10 and the horizontal connector 20.

According to the embodiments as described above, the first and second connecting portions 31 and 32 of the fastening ring 30 are connected to the connecting fastener 10 and the horizontal connecting member 20, respectively, to the vegetation bag 3 and the geogrid. (2) and the spigot 3 are connected to each other, so that even if a forward earth pressure is generated in the fill layer 1, the geogrid 2 is primarily driven by the frictional force with the fill layer 1 Retaining wall by exerting the front vegetation bag (4), the geogrid (2) and the sack (3) to each other through the fastening ring (30) to exert a large propulsion against earth pressure forward. To prevent collapse.

In addition, the geogrid 2 and the spigot 3 which are arranged in the transverse direction through the horizontal connecting member 20 can be bound to prevent the sack 3 on the left and right sides to be pushed forward.

1: fill layer, 2: geogrid
3: sack, 4: vegetation bag
10: connection fastener, 11: head
12: pin part, 20: horizontal connector
30: fastening ring, 31,32: 1st, 2nd connection
32c, 33,35,36: hinge, 34: connecting rod
37: buckle,

Claims (4)

The soil is filled in the interior of the graspo and arranged in the transverse direction at the edge of the top of the top of the plenum (3) stacked in the longitudinal direction in front of the fill layer (1), the geogrid buried in the sack and fill layer A horizontal connecting member (20) wound by winding to connect the stem and the geogrid;
The vegetation soil is filled in the interior of the graspo, and is installed in the longitudinal direction in the vegetation bag 4 which is stacked in the longitudinal direction at the front of the spigot so that the pin portion 12 penetrates the vegetation bag of the upper end and is inserted into the vegetation bag of the lower end. On the other hand, the connection portion 10 for securing the vegetation bag in the longitudinal direction by fixing the vegetation bag in the longitudinal direction by being seated on the upper surface of the vegetation bag of the upper end is formed in the cross section larger than the pin portion on the upper end of the pin portion;
In the fastening ring of the horizontal connector of the retaining wall vegetation bag connecting the
Horizontal connecting member fastening ring 30 of the retaining wall vegetation bag,
The first connecting portion 31 is formed in a rod shape and has a closed loop or a ring shape having a size at which the head portion 11 is not pulled out while the pin portion 12 of the connection fastener 10 is fitted at one end thereof. Is formed, and the other end portion is formed in a direction orthogonal to the first connection portion and is formed by forming a second connection portion 32 fitted to the horizontal connection member,
The first connecting portion and the second connecting portion is a horizontal connecting member fastening ring of the retaining wall vegetation bag, characterized in that the second connection is connected to the angle adjustment when viewed from the side through a hinge. The method of claim 1, wherein the first connecting portion and the second connecting portion is formed in a curved shape to surround the connecting fastener and the horizontal connecting member, respectively, characterized in that connected to the connecting rod 34 of the straight through the hinge (35, 36), respectively. Fastening ring of horizontal connector of retaining wall vegetation bag. The method of claim 2, wherein the second connecting portion is formed in the form of "∩" is connected to the connecting rod through the hinge 36, the upper end of the pins (32a) of the lower end of both sides while wrapping the horizontal connecting member from the top of the soil Horizontal connector fastening ring of the retaining wall vegetation bag, characterized in that it is stuck. The method of claim 1, wherein the opposite ends of the first and second connectors are formed with threads in opposite directions, the first and second connectors are distance-controlled by a buckle 37 screwed to the threads,
Retaining wall, characterized in that the second connecting portion is made of a screw rod (32b) screwed to the buckle, the hook 32d is angle-adjusted through the hinge (32c) to the screw rod and is fixed to cover the horizontal connecting material from the top Horizontal connector fastening ring of vegetation bag.

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