KR20060035216A - Construction method for an incline plane - Google Patents

Abstract

The present invention relates to a method for constructing a collapse preventing structure of an incision slope, and more particularly, in a method of constructing a structure for reinforcing strength so that the inclined surface P of the incision is not collapsed, the fixing hole 12 is formed on the inclined surface P. ) And inserting the anchor bar 10 having a thread formed at one end in the fixing hole 12 so that the end protrudes, and injecting and curing the cement mortar 14. Fitting the nonwoven fabric 20 and the wire mesh 30 to the anchor bar 10 in order to cover the inclined surface P, and then inserting the support washer 16a and fixing the bolts; After arranging the gabions 40 from the bottom of the inclined surface P toward the front of the wire mesh 30, the support washers 16b are inserted into the end of the anchor bar 10 inside the gabions 40 and fixed with bolts. Next, the process of covering the cover 42 by filling the rubble inside the Gabion 40 is repeatedly stacked in sequence in the transverse direction and the longitudinal direction; and characterized in that the configuration of the inclined surface to easily discharge moisture It is possible to obtain a collapse prevention structure, and thus to a method of constructing a collapse prevention structure of an environment-friendly incision slope that can reinforce the inclined surface of the incision firmly and stably while freeing vegetation of plants.

Incision, slope, collapse.

Description

Construction method for preventing collapse of incline slopes

1a to 1b is an exemplary view schematically showing the process and construction state of the conventional collapse preventing structure is constructed on the inclined surface,

Figure 3 is an exploded perspective view showing a disintegrating structure according to the present invention schematically showing the constituent members,

Figures 4a to 4d is a construction embodiment schematically showing the construction process of the slope collapse prevention structure according to the present invention.

<Description of the symbols for the main parts of the drawings>

P: slope,

10: anchor bar, 12: hole, 14: mortar, 16a, 16b: washer, 20: nonwoven fabric, 30: wire mesh, 40: gabion, 42: cover, 50: mixed soil.

The present invention relates to a method of constructing a collapse preventing structure for reinforcing the incline slopes generated from embankments, shores, or road construction sites so as not to collapse easily, and more specifically, using a non-woven fabric, a wire mesh, and a gabion to drain moisture well. The present invention relates to a method for constructing an inclined surface collapse prevention structure of an incision that can stably reinforce a sloped surface.

In general, incisions generated during civil engineering are mainly inclined to form slopes by cutting the ridges of the mountain, and if left in the cut state, it may rain or fall and melt and thaw. There was a risk of causing injury to people and property.

In particular, when a landslide or the like occurs as above, it causes damage that takes a considerable time and cost to recover it. Thus, the slope of the incision is collapsed to prevent damage caused by various types of structures. Structures and construction methods using the structures have been proposed to reinforce them so that they do not collapse during construction.

As a representative example, as shown in Figure 1 to 2 after drilling a plurality of fixing holes in the inclined surface (P) of the incision and inserted into the hole so that a portion of the end of the anchor bar 10 protrudes out of the inclined surface (P), The cement mortar 14 is injected into the fixing hole again to harden the cement mortar 14, and then the wire mesh 30 is coupled to the protruding anchor bar 10 to be fixed while maintaining a predetermined distance from the inclined surface P. In this case, the mixed soil 50 containing agglomerates such as cement is sprayed to have a thickness such that the wire mesh 20 is covered with a high-pressure injector S so as to cover a slope P widely. It is becoming.

However, when the mixed soil 50 is sprayed and coated on the inclined surface P as described above, as the time passes, the mixed soil 50 is hardened, thereby causing a solidification phenomenon of "concreting".

Therefore, when the rain is excessively contained in the soil constituting the inclined surface by the rain water absorbed through the upper portion of the inclined surface (P), there is a fear that the bond strength between the soil particles are weakened and collapse. In order to ensure that the moisture contained in the soil particles are well discharged through the mixed soil 50 coated on the inclined surface (P), the mixed soil 50 has been hardened, so that the moisture is not properly discharged. This, in turn, weakened the bond strength between the soil particles, which eventually led to collapse.

In particular, the solidified mixed soil 50 is broken when broken by the external force is applied when the external force such as earthquake is broken, there is a problem that can not properly perform the function as a slope reinforcement structure.

In addition, the method of spraying and applying the mixed soil 50 as described above, the grass seed is sprinkled naturally over the mixed soil 50 and is greened over time to naturally reinforce the strength of the inclined surface (P) to the natural environment. Despite being intended to be beneficial, the hardened mixed soil 50 was not able to take root easily, causing various problems in terms of environment.

The present invention has been made to solve the problems with the conventional construction method of the collapse prevention structure of the incision slope as described above, in more detail, while being able to reinforce the inclined surface of the incision firmly and stably, while the water discharge contained in the inclined surface The purpose of this study is to propose a method of constructing an inclined collapse prevention structure of an eco-friendly incision that is easy and free of vegetation.

In the present invention to achieve the above object in the construction method of the structure to reinforce the strength so that the inclined surface (P) of the incision is not collapsed,

Drilling the fixing hole 12 on the inclined surface (P) and inserting the anchor bar 10 formed with a screw thread at one end in the fixing hole 12 so that the end protrudes, injecting and curing cement mortar (14) ;

Fitting the nonwoven fabric 20 and the wire mesh 30 to the anchor bar 10 in order to cover the inclined surface P, and then inserting the support washer 16a and fixing the bolts;

After arranging the gabions 40 from the bottom of the inclined surface P toward the front of the wire mesh 30, the support washers 16b are inserted into the end of the anchor bar 10 inside the gabions 40 and fixed with bolts. Next, the process of covering the cover 42 by filling the rubble inside the Gabion 40 repeatedly stacked in sequence in the transverse direction and the longitudinal direction; the method of constructing the collapse prevention structure of the incline slope, characterized in that consisting of Suggest.

Hereinafter, the present invention will be described in detail with reference to the angular planes of FIGS. 3 and 4.

Figure 3 is an exploded perspective view showing the disintegrating structure according to the present invention by schematically disassembling the constituent members, Figures 4a to 4d schematically illustrate the construction process of the inclined surface collapse preventing structure according to the present invention.

As shown in FIG. 3, the inclined surface collapse preventing structure according to the present invention is fitted into the fixing hole 12 drilled on the inclined surface P and is firmly fixed to the cement mortar 14, and a thread is formed at one end thereof to protrude outward. Anchor bar 10, the non-woven fabric 20 and the wire mesh 30 to be inserted in sequence to the anchor bar 10, the washer pressing the nonwoven fabric 20 and the wire mesh 30 to be in close contact with the inclined surface (P) It is composed of a bolt and the like to secure the (16a) to the anchor bar (10).

In addition, the Gabion 40 unit is stacked further from the bottom of the inclined surface (P) toward the front of the wire mesh 30 in order to obtain a greater reinforcement strength is further configured.

The construction process of the inclined plane collapse prevention structure according to the present invention using the above-described components as described in detail with reference to Figure 4a to 4d as follows.

First, as shown in 4a, a plurality of fixing holes 12 are drilled at predetermined intervals on the inclined surface P of the incision, and then the anchor bars 10 are fitted in the respective fixing holes 12, wherein the anchor bars One end of the (10) is formed with a screw thread so that the part can protrude out of the fixing hole (12).

In addition, when inserted as described above, the cement mortar 14 is injected into the fixing hole 12 to be hardened, thereby allowing the anchor bar 10 to be deeply embedded in the inclined surface P to be firmly fixed.

On the other hand, the outer circumferential surface of the anchor bar 10 protrudes a plurality of protrusions, such as the outer circumferential shape of the reinforcing bar widely used as an internal reinforcement of the concrete structure, which is the anchor bar 10 inside the hardened cement mortar 14 It is intended to be firmly fixed so that it does not fall easily by being firmly snapped.

When the anchor bar 10 is fixed as described above, the nonwoven fabric 20 and the wire mesh 30 are sequentially inserted into the anchor bar 10 to cover the inclined surface P as shown in FIGS. 4B and 4C. Then, the wide plate-shaped support washer 16a is fitted to the anchor bar 10 in front of the wire mesh 30, and then the bolt is fastened to the thread formed at the end of the anchor bar 10 to the nonwoven fabric 20 and the wire mesh 30. To be fixed to the inclined surface (P).

Here, the nonwoven fabric 20 is preferably made of a material that can be easily discharged to the water while being wet so that the water absorbed during rain can be well discharged through the inclined surface (P), the wire mesh 30 is a nonwoven fabric ( 20) is to be installed to reinforce it because the strength of the material is weak and can be easily torn under pressure from the inclined surface (P).

According to this configuration, while the wire mesh 30 coupled to the anchor bar 10 supports the nonwoven fabric 20, the wire mesh 30 withstands the pressure applied from the inclined surface P, while the moisture contained in the inclined surface P is easily nonwoven fabric ( 20) has a structure that can be discharged to the outside. Therefore, moisture contained in the inclined surface P by rainy weather is easily discharged to the outside, thereby preventing the inclined surface from being collapsed by moisture.

In addition, as time passes, the non-woven fabric 20 will be dusted, such as spraying the grass seed or sprinkling the grass seeds naturally sprinkled roots and grow to be able to reinforce the slopes environmentally friendly.

On the other hand, it is possible to reinforce the inclined surface only by the above steps, of course, if the height of the inclined surface (P) is high or the length may be to receive a greater force.

Therefore, as shown in FIG. 4D, the inside is provided with a Gabion 40 having a lid 42 formed thereon, and the Gabion 40 is sequentially arranged from the bottom of the inclined surface P on the front side of the wire mesh 30. Then, the support washer (16b) is inserted into the end of the anchor bar 10 in the gabion (40) firmly fixed with a bolt, and then filling the rubble in the gabion (40) after covering the cover 42 It can be stacked one after another by repeating in the transverse direction and the longitudinal direction.

In addition, as another embodiment of the present invention, when the inclined surface is a rock wall, the nonwoven fabric 20 may be removed without construction, which may be variously modified in the scope of the technical concept of the present invention.

According to such a configuration and construction method is to obtain a structure that can effectively prevent the collapse of the incision inclined surface (P) that can be easily discharged through the inclined surface (P).

In particular, the structure of the nonwoven fabric 20 and the wire mesh 30 itself is ductile, so even when the inclined surface is collapsed by the force from the outside (by earthquake, etc.), the nonwoven fabric 20 and the wire mesh 30 increase in strength. Absorption of the structure can completely minimize the collapse of the slope to collapse.

According to the above it is possible to obtain a structure to prevent the collapse of the slope is easy to discharge moisture, and thus it is possible to obtain a decay-proof structure of the eco-friendly incision slope in which the vegetation of plants can be freely secured while still being able to reinforce the slope of the incision firmly and stably. will be.

Claims (1)

In the construction method of the structure to reinforce the strength so that the inclined surface (P) of the incision is not collapsed, Drilling the fixing hole 12 on the inclined surface (P) and inserting the anchor bar 10 formed with a screw thread at one end in the fixing hole 12 so that the end protrudes, injecting and curing cement mortar (14) ; Fitting the nonwoven fabric 20 and the wire mesh 30 to the anchor bar 10 in order to cover the inclined surface P, and then inserting the support washer 16a and fixing the bolts; After arranging the gabions 40 from the bottom of the inclined surface P toward the front of the wire mesh 30, the support washers 16b are inserted into the end of the anchor bar 10 inside the gabions 40 and fixed with bolts. Next, the process of covering the cover 42 by filling the rubble inside the Gabion 40 repeatedly stacked in sequence in the transverse direction and the longitudinal direction; the method of constructing the collapse prevention structure of the incline slope, characterized in that consisting of .

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