KR200304445Y1 - A breast wall structure for road using concrete block and connecting rod - Google Patents

Abstract

The present invention relates to a retaining wall block structure for a road, and more specifically, to form a retaining wall by stacking prefabricated concrete blocks, and fixing the laminated prefabricated concrete blocks by various connecting rods and connecting the connecting rods to predetermined tension cables. The present invention relates to a retaining wall block structure for a road using prefabricated concrete blocks and connecting rods capable of achieving stable soil stability in a retaining wall and solid stability of the retaining wall by fixing to a soil.

The object of the present invention is to bind the concrete blocks with a predetermined connecting rod and to connect the connecting rods with a predetermined tension cable to a fixed pile fixed together with the reinforcement earth netron installed in the soil, thereby to maintain the earth pressure generated by the continuous load of the concrete block. In addition to its own weight and friction, it provides a retaining wall block structure for roads using prefabricated concrete blocks and connecting rods that are more stable and durable by being able to withstand by a concrete block integrated by the tensile force and connecting rods of the tension cable.

The structure of the present invention for achieving the above object is in the prefabricated concrete retaining wall block structure provided in the cut-off, etc. by stacking a concrete block of a certain shape, forming a plurality of vertical insertion grooves vertically on the upper and lower sides of the concrete block, Formed aggregate filling hole is filled on the side of the aggregate, forming a horizontal through-hole penetrating the side of the aggregate filling hole in the transverse direction, the reinforcement soil netron provided in the soil of the incision to reinforce the soil, and the concrete block Downward insertion projections formed on both sides to be respectively inserted into the vertical insertion groove of the first connecting rods and the upward insertion projections formed between the downward insertion projections, concrete inserted into the horizontal through-hole formed in the aggregate filling hole of the concrete block A second connecting rod for binding the block, and the fixed to be inserted into the soil together with the reinforcement earth netron Composed of banks, and the fixing peg and the tension cable connecting the second connecting rod is characterized in that formed.

Description

A retaining wall block structure for prefabricated concrete blocks and connecting rods

The present invention relates to a retaining wall block structure for a road, and more specifically, to form a retaining wall by stacking prefabricated concrete blocks, and fixing the laminated prefabricated concrete blocks by various connecting rods and connecting the connecting rods to predetermined tension cables. The present invention relates to a retaining wall block structure for a road using prefabricated concrete blocks and connecting rods capable of achieving stable soil stability in a retaining wall and solid stability of the retaining wall by fixing to a soil.

In general, the concrete retaining wall is constructed by pouring concrete mortar, etc. in order to prevent the earth and sand flow down or outflow in the civil works such as the incision site.

However, the above structure has a disadvantage in that the construction period is long, the required air is increased, and if the construction section is long, the work force, construction time, etc. are increased, thereby increasing the construction cost.

Therefore, the retaining wall block structure for roads using prefabricated concrete blocks is formed by stacking a plurality of concrete blocks vertically on the foundation concrete, and resists earth pressure by its own weight and rigidity. No need to pour, easy to construct and short construction period.

However, the prefabricated concrete blocks support the soil by the self-weight and stiffness of the laminated concrete blocks, and the frictional force between the concrete blocks and the soils, so that many defects occur at the joints or connections between the concrete blocks due to the continuous load. There was an unstable problem that the road collapsed.

The present invention has been devised to solve the above problems, the object of the present invention is to bind the concrete block with a predetermined connecting rod, and the predetermined rod to the fixed pile fixed with the reinforcement soil netron installed in the soil By fixing the cable, it is possible to endure the earth pressure generated by the continuous load by the concrete block united by the tension force and the connecting rod of the tension cable as well as the self-weight and friction of the concrete block. The present invention provides a retaining wall block structure for a road using a connecting rod.

The construction of the present invention for achieving the above object is in the prefabricated concrete retaining wall block structure provided in the cut-off, etc. by stacking a concrete block of a certain shape, a plurality of vertical insertion grooves (11) formed vertically on one side of the concrete block And, on the other side, the aggregate filling hole 12 is formed to be filled with the predetermined aggregate, and the horizontal through hole 13 penetrating the side surface of the aggregate filling hole 12 in the transverse direction, and provided in the soil of the incision Between the reinforcement soil netron 20 and the vertical insertion groove 11 of the concrete block 10 so as to be respectively inserted into the reinforcement soil netron 20 to reinforce the soil, and between the downward insertion protrusion 31. The second connecting rods that connect the first connecting rods 30 forming the upward insertion protrusions 32 and the concrete blocks connected to the horizontal through-holes 13 formed in the aggregate filling hole 12 of the concrete block 10 to be connected to each other. 40, and the reinforcement Characterized in that formed is composed of four torch 20 fixed peg 60 is fixed into the soil together with the, pulling cable 50 for connecting the fixed peg (60) and the second connecting rod (40).

1 is an exploded perspective view illustrating a retaining wall block structure for a road using prefabricated concrete blocks and connecting rods according to the present invention;

Figure 2 is a partial perspective view showing an installation example of the retaining wall block structure for the road using a prefabricated concrete block and connecting rod according to the present invention,

Figure 3 is a perspective view showing a concrete block of the retaining wall block structure for the road using a prefabricated concrete block and connecting rod according to the present invention.

<Description of Symbols for Main Parts of Drawings>

10: concrete block 11: vertical insertion groove

12: aggregate filling hole 20: reinforcement soil netron

30: first connecting rod 31: downward insertion protrusion

32: upward insertion protrusion 40: second connecting rod

50: tension cable 60: fixed pile

Hereinafter, with reference to the accompanying drawings will be described in detail for the retaining wall block structure for the road using prefabricated concrete blocks and connecting rods of the present invention.

1 is an exploded perspective view illustrating a retaining wall block structure for a road using a prefabricated concrete block and a connecting rod according to the present invention, and FIG. 2 shows an example of installation of a retaining wall block structure for a road using a prefabricated concrete block and a connecting rod according to the present invention. 3 is a perspective view showing a concrete block of a retaining wall block structure for a road using a prefabricated concrete block and a connecting rod according to the present invention.

As shown in the figure provided with a concrete block 10 laminated on the foundation concrete, a plurality of vertical insertion grooves (11) formed vertically on one side upper and lower surfaces of the concrete block, the aggregate is filled with a predetermined aggregate on the other side The filling hole 12 is formed.

In addition, a horizontal through hole 13 penetrating the side surface of the aggregate filling hole 12 in the transverse direction is formed.

On the other hand, after the mining of the top of the soil to be installed retaining wall, it is provided with a reinforcement soil netron 20 is seated, the reinforcement soil netron 20 has a good tensile strength, so that it can be used as a reinforcement in the soil do.

When stacking the concrete block 10, provided with a connecting rod for binding the concrete block 10 to each other, to form a downward insertion protrusion 31 on both sides to bind the concrete block 10 in a vertical / horizontal and the downward The upper and lower insertion protrusions 32 are provided in the horizontal insertion grooves 11 of the concrete block 10 that are connected and stacked by having a first connecting rod 30 having an upward insertion protrusion 32 formed between the insertion protrusions 31. And 31) so that they can be tied together.

In addition, it is provided with a second connecting rod (40) for binding the concrete block is fitted into the horizontal through-hole 13 formed in the aggregate filling hole 12 of the concrete block (10).

On the other hand, with the reinforcement soil netron 20 is provided with a fixed pile 60 is fixed to the soil, and a tension cable 50 for connecting the fixed pile 60 and the second connecting rod 40 is provided. .

At this time, it is preferable to fix the fixed pile 60 to a predetermined position of the reinforcement earth netron 20 so that the tensile cable 50 has a predetermined tensile force.

The present invention configured as described above is to cast the foundation concrete and seat the first-level concrete block on top of the foundation concrete.

At this time, when the first stage of the concrete block is seated, the concrete block is connected by inserting a second connecting rod into the horizontal through-hole formed in the aggregate filling hole of the concrete block.

In addition, the first connecting rod is installed by inserting the downward insertion protrusion of the first connecting rod to bind the concrete block connected to the vertical insertion groove of the concrete block.

The aggregate filling hole of the concrete block is filled with a predetermined aggregate to improve the weight of the concrete itself.

Then, the second step of the concrete block is laminated on the first step of the concrete block, the upward insertion protrusion of the second connecting rod is to be inserted into the vertical insertion groove formed on the lower surface of the concrete block to be stacked.

At this time, the second connecting rod is inserted into the horizontal through hole formed in the aggregate filling hole so as to bind the second step concrete block to be horizontally connected, so that one side of the tension cable is fitted.

Then, the first connecting rod is installed by inserting the downward insertion protrusion of the first connecting rod to bind the concrete block connected to the vertical insertion groove of the concrete block.

The aggregate filling hole of the concrete block is filled with a predetermined aggregate to improve the weight of the concrete itself.

Meanwhile, the reinforcement soil netron is seated on the top of the side soil of the concrete block and chopped, and the tensioning cable is tensioned to insert the fixed pile through the reinforcement soil netron to have a predetermined tensile force to fix the tension cable. do.

By repeating the above process to form a concrete block retaining wall for a predetermined height.

The concrete block retaining wall for the road formed as described above is a continuous load applied to the soil, as well as the self-load of the concrete block, the concrete blocks are bound to a plurality of connecting rods and a plurality of connecting rods that support the concrete block with a predetermined tensile force to maintain a continuous load I can bear it.

As described above, the present invention binds the laminated concrete blocks constituting the retaining wall block structure for roads with connecting rods and withstands earth pressure by the tensile force of the tensioning cable, thereby making it more stable and durable, thereby improving the stability and solid retaining wall of the soil. The structure can be achieved, and furthermore, the convenience of maintenance and the cost can be minimized.

Claims (1)

In the prefabricated concrete retaining wall block structure that is provided in a cutout by stacking concrete blocks of a certain shape, A plurality of vertical insertion grooves 11 are vertically formed on one side upper and lower surfaces of the concrete block, and on the other side, aggregate aggregate holes 12 are formed to fill predetermined aggregates, and the side surfaces of the aggregate filler holes 12 are transversely formed. Forming a horizontal through-hole 13, Reinforced soil netron 20 provided in the soil of the incision to reinforce the soil, First connecting rods having downward insertion protrusions 31 formed on both sides thereof to be respectively inserted into the vertical insertion grooves 11 of the concrete block 10, and upward insertion protrusions 32 formed between the downward insertion protrusions 31. 30), A second connecting rod 40 inserted into the horizontal through hole 13 formed in the aggregate filling hole 12 of the concrete block 10 to bind the concrete block to be connected; Fixed pile 60 is inserted into the earth and sand together with the reinforcement soil netron 20, Retaining wall block structure using a prefabricated concrete block and connecting rod, characterized in that consisting of a tension cable 50 for connecting the fixed stake 60 and the second connecting rod (40).