KR100518943B1 - A method of constructing gabion mattress with cylinder coir roll - Google Patents

Abstract

The present invention relates to a construction method of an environmentally friendly vegetation soil corel gaebion mattress that can be easily and efficiently installed vegetation soil on the banks of rivers and the like.

Construction method for the protection of slopes, such as rivers according to the present invention, the Gabion mattress installation step of installing the Gabion wire mesh in the construction site, such as the river banks and each wire connected to each other to form each section; A vegetation soil corel arranging step of arranging the vegetation soil corel separately prepared in order to provide an environment where plants can grow, in each section of the gabion mattress; And a gabion cover finishing step of binding and binding the gabion wire mesh to the upper surface of the vegetation soil core rolls disposed in each section of the gabion mattress.

According to the construction method according to the present invention, since the vegetated soil can be preserved in its original state, there is an effect that the plants inside the vegetated soil can grow safely and sufficiently by maintaining the initial environment of the vegetated soil for a long time. .

Description

A method of constructing gabion mattress with cylinder coir roll}

The present invention relates to a method for constructing a gabion mattress used for protecting a levee such as a river, and more particularly, to the construction of an environmentally friendly vegetative soil corel gabion mattress that can be easily and efficiently installed on a levee such as a river. It is about a method.

In general, Korea has a relatively large number of mountains and rivers, many rivers and rivers are well developed nationwide, and various rivers and rivers are lost due to various factors. I am looking for a way.

The most common methods for restoration of these dikes today include the raft block construction method, the gabion wire mesh construction method, and the gabion vegetation construction method.

First, the raft block construction method is a method of constructing a concrete block directly on the slope of the embankment or bank. This method has the advantage that the work is easy because the concrete blocks can be easily assembled at the work site to form a concrete slope. However, this method has the disadvantage that the concrete block blocks the passage where the air is in contact with the ground after the operation, and also does not provide an environment in which various grasses or trees can grow. Thus, this method is rarely used today because it is not environmentally friendly, despite some advantages.

On the other hand, the Gabion wire mesh construction method is a construction method by filling rubble, etc. in the interior of the Gabion wire mesh on the slope of the river or river embankment, or by filling the rubble and the like in the state where the gaebion wire mesh is laid out and covered with the wire cover. This method has an advantage in that it does not manufacture a separate concrete block, but uses rubble in the construction site or its surroundings. Representative example of this is the Republic of Korea Utility Model Registration No. 20-0248966 "the gabion for the construction of the inclined surface reinforced by the partition member". However, this method, too, has been pointed out that it does not provide an environment in which grass or trees can grow after construction. Therefore, even in this method, there is a disadvantage that is not suitable as an environmentally friendly method today.

Next, the Gabion vegetation construction method is designed to improve the shortcomings of the Gabion wire mesh construction method, a method of filling the vegetation soil that can grow with the filling material such as rubble. In other words, this method consists of filling a part of the Gabion wire mesh structure with a filler such as rubble, filling a separate vegetation soil on it, and then filling it with a filler such as rubble. At this time, when the vegetation soil is filled, a nonwoven fabric or the like may be separately inserted into the interface between the filler (rubble) and vegetation soil and the interface between the vegetation soil and the filler (rubble). Typical examples thereof include Korean Patent Registration No. 10-0275594 "Method for manufacturing mattress-type gabion for plant protection retaining wall"; Korea Utility Model Registration No. 20-0240391 "Block-type vegetation net"; Republic of Korea Utility Model Registration No. 20-0250923 "Vegetable Mangtae"; And the Republic of Korea Patent Publication No. 2001-0007665 "slope construction method" and the like.

The Gabion vegetation construction method is different from the conventional wire mesh construction method, since the vegetation soil has been put together with a separate vegetation soil in which the plant can grow without simply filling the rubble with the inside of the Gabion wire mesh structure. There is an advantage that plants can grow.

However, the above method, as clearly shown in the specification of each case above, should put vegetation soil in which plants can grow on filling materials such as rubble during the construction process. It is very difficult to obtain a growing vegetation directly. This is because, in the case of rivers, the surrounding environment is often covered with rubble, sand, or the like, and the vegetation soil has to be transported separately from other distant places. Therefore, in most cases, the work must be carried out after transporting the vegetation soil to the construction site.

In addition, in the above method, the filling material such as rubble should be put in a fixed amount at the bottom end, and then the rubble, etc. should be filled again in an appropriate amount, and then rubble, etc. should be filled again in an appropriate amount. In addition, the work was more cumbersome, and it was difficult to form a slope of uniform quality depending on the worker. This phenomenon was more severe when working with a separate nonwoven fabric between the filler and vegetation soil.

In addition, in the above method, when the shoots of plants grown in vegetation soil are extended upward, they are directly disturbed by fillers such as rubble, which are placed on them, so that the plants have to be rubbed with moss such as rubble. Because of this, there was a disadvantage that the plant does not provide a proper environment for normal growth.

The present invention has been made in order to improve the conventional construction method as described above, and the main object of the present invention is to be able to easily perform the construction method for the embankment such as rivers, and also to be environmentally friendly.

Accordingly, it is an object of the present invention to provide a natural construction method for protecting river banks and their slopes.

In addition, another object of the present invention to provide a construction method that can efficiently and easily construct a uniform and uniform quality vegetation soil regardless of the skill of the operator in order to protect the river bank and its slopes.

Construction method for the protection of slopes, such as rivers according to the present invention, the Gabion mattress installation step of installing the Gabion wire mesh in the construction site, such as the river banks and each wire connected to each other to form each section; A vegetation soil corel arranging step of arranging the vegetation soil corel separately prepared in order to provide an environment where plants can grow, in each section of the gabion mattress; And a gabion cover finishing step of binding and binding the gabion wire mesh to the upper surface of the vegetation soil core rolls disposed in each section of the gabion mattress.

The construction method according to the present invention can be efficiently applied to embankments of rivers and waterways, sloped straits, sloped incisions and the like.

Hereinafter, with reference to the accompanying drawings, the present invention will be described in detail. However, it is apparent that the accompanying drawings are provided only to more easily understand the technical spirit of the present invention, and the present invention is not limited to the accompanying drawings.

1 is a schematic diagram conceptually illustrating a first step of the construction method according to the present invention, and FIG. 2 is a schematic diagram conceptually illustrating a second step of the construction method according to the present invention, and FIG. Figure 4 is a schematic diagram for conceptually explaining the third step of the construction method according to Figure 4 is a schematic side cross-sectional view showing the state of the inclined surface after completing the construction method according to the present invention.

1 conceptually illustrates a first step of the construction method according to the present invention. The construction method for protecting slopes of rivers and the like according to the present invention starts with the step of installing a gabion mattress that forms gaebion wire meshes on the slopes of rivers and rivers and connects the wire meshes to form each section.

Gabion wire mesh 110 used in the present invention is usually the same as Gabion wire mesh used for inclined surface protection, such as rivers, the same method for installing on the inclined surface. Usually, the gabion wire mesh can be laid out on the slopes of embankments such as rivers, and work can be started sequentially. In addition, in the first step of the present invention, a plurality of sections 140 are formed by the horizontal wire mesh 120 and the vertical wire mesh 130 to protect the inclined surfaces. However, in the present invention, it is preferable that the length of the horizontal wire mesh 120 is formed longer than the length of the longitudinal wire mesh 130. This takes into account the case where the vegetation soil corel 200 to be carried out in the next step.

At this time, the horizontal wire mesh 120 performs the function of the brace to prevent the vegetation soil core roll 200 flows down the inclined surface. Therefore, when the slope is severe, such as rivers by forming a larger number of horizontal wire mesh 120, it is necessary to reduce the pressure to flow down the vegetation soil core roll 200 to the downward slope.

On the other hand, the longitudinal wire mesh 130 combines the horizontal wire mesh 120 in the vertical direction, thereby distributing the pressure applied to each of the horizontal wire mesh 120. Therefore, when the vegetation soil corel 200 is disposed in the same section or the size is large, it is necessary to form the longitudinal wire mesh 130 more than when it is not. Through this process, a plurality of sections 140 are formed by the horizontal wire mesh 120 and the vertical wire mesh 130.

2 conceptually illustrates a second step of the construction method according to the present invention. According to the present invention, a method of protecting slopes of rivers and the like is performed in a step of arranging the vegetation soil corel 200 produced separately in each section 140.

In the present invention, vegetation soil corel 200 is preferably a product made by putting the vegetation soil in a flexible barrel made of fabric, such as sackcloth, in this case, as the vegetation soil is germinated quickly to the slope In order to premature greening, it is preferable to use a mixture of plant seeds in a mixed culture soil composed of fibrous materials such as soil, rice straw and palm fruit. Vegetation soil corel 200 that can be used in the present invention is preferably used separately to provide an environment in which plants can grow. The reason is that the vegetation soil contains the seeds of the plant, and therefore, the shelf life of the plant is not only limited, but it is difficult to manufacture it at the construction site, and it is difficult in the working environment. This is because there are advantages that can be made. Since preparing the vegetated soil corel 200 using the vegetated soil is beyond the scope of the present invention, a detailed description thereof will be omitted.

In the present invention, the reason for filling the vegetation soil corel 200 in each section 140 of the Gabion body is to provide an environment in which plants can grow on the completed slope after construction. In other words, when the inclined surface is completed by the construction method according to the present invention, the seed of the plant germinates inside the vegetation soil corel 200 forming the inclined surface so that the shoots sprout, and the root is easily removed there. Because you can go to work.

The construction method according to the present invention is to prepare the finished vegetation soil core roll 200 separately and simply place in each section of the Gabion body, the conventional method directly fill the rubble, etc. collected in the field in each section of the Gabion body It is different from what is put in, and it is also different from pouring directly onto the rubble without putting the vegetation soil on a separate sack.

In addition, in the present invention, it is sufficient to simply arrange the vegetation soil corel 200 in each section 140 of the Gabion body, so that it is possible to quickly and simply uniform quality without the need for a separate skilled person. You can get a construction surface. On the contrary, in the conventional method, a rubble layer is formed at the lowermost end and evenly formed into a uniform layer, then a nonwoven fabric or the like is laid thereon, and the vegetation soil is poured on it again and then evenly formed into a uniform layer. Since the nonwoven fabric had to be formed on it again, the same work process was very complicated, and there were many problems such as forming a layer of vegetated soil that was not uniform according to workers.

In addition, in the present invention, since the horizontal wire mesh 120 serves as a pedestal, each of the vegetation soil corel 200 disposed thereon is preserved as it is at the first position, and thus the vegetation soil is It is possible to prevent the phenomenon flowing down to the source. In addition, the vegetation soil corel 200 is naturally decomposed after construction, and after 1 year to 2 years, it may become a nutrient supply source of plants, but even in this case, the horizontal wire mesh 120 is As we continue to preserve the vegetation soil of the place, there is no fear of loss of vegetation soil.

3 conceptually illustrates a third step of the construction method according to the present invention. According to the construction method for protecting the inclined surface of a river or the like according to the present invention, the vegetation soil corel 200 is disposed in each section 140 of the gabion mattress, and then the gabion is formed on the upper surface of the vegetation soil corel 200. It is proceeded to the finishing process of Gabion cover which is covered with wire mesh and bound.

 In the construction method according to the present invention, it is preferable to form the wire mesh cover 150 using the same wire mesh as the wire mesh of the Gabion body. The wire mesh cover 150 is completed by covering the vegetation soil corel 200 in a state of being filled thereon and binding it to another wire mesh. The binding method is possible by a conventional method. In the present invention, when forming the wire mesh cover 150 is to hold the vegetation soil corel 200 from above, to assist the vegetation soil corel 200 to be safely in place.

In addition, in general, due to gravity applied to the ground, the lower portion of the inclined surface is raised convexly rather than the upper side of the inclined surface, and the overall phenomenon occurs that flows from the upper side to the lower side. When the slopes such as rivers were exposed to the heavy rains or submerged in the river, it was more severe.

However, in the present invention, while using the vegetation core roll 200 that surrounds the vegetation soil on the inclined surface at the same time, the vegetation core roll 200 is firmly fixed using the wire mesh cover 150 thereon. In addition, even when the slope is exposed to a heavy rain or immersed in a swollen river, the convex phenomenon or the loss of the slope can be effectively prevented.

 4 is a schematic side cross-sectional view showing the state of inclined surfaces such as rivers after a certain period of time after the vegetation soil corel is installed on the inclined surfaces such as rivers according to the present invention. In FIG. 4, the case where the construction method of the present invention is applied to not only the inclined surface of the river but also the bottom portion and the flat portion of the upper surface is illustrated.

In the case of the construction method according to the present invention, since the vegetation soil corel 200 is sequentially arranged in each section 140 of the Gabion body, it is supported as it is by the horizontal wire mesh 120 at that position. It is thus preserved as it is in the first place, which prevents the phenomenon that the vegetation soil filled therein flows downward. This is because the wire mesh cover 150 is covered again on the vegetation soil corel 200, it helps to secure the vegetation soil corel 200 in place more securely.

In this way, even after a considerable time has elapsed or a heavy rainfall occurs again after the construction of the inclined surface of the river or the like according to the construction method of the present invention, since the initial construction state is maintained as it is, in each section of the Gabion body Plants germinate inside the vegetation soil corelol 200 is arranged, the plants are planted there to receive sufficient nutrition, there is no need for a separate greening work on the slopes of the river.

In addition, once the vegetation grows, the slopes of the rivers and the like are protected by the vegetation, and the natural state is easily restored, which is in harmony with the surrounding natural environment.

Since the present invention uses separately produced vegetation soil corel, it is possible to simply install vegetation soil on the inclined surface without requiring a skilled technician.

In addition, since the present invention uses the vegetation soil corel in the Gabion wire mesh structure, the vegetation soil corel once constructed under any circumstances after construction does not flow down, and since vegetation soil is not lost, the inside of the vegetation soil This ensures the germination environment of the plants present in the plant.

Therefore, according to the construction method according to the present invention, the seeds of the plant existing inside the vegetation soil will be germinated safely, the roots can be normally worked.

In addition, according to the construction method according to the present invention, no matter how the external environment changes, since the vegetation soil in the initial construction stage remains intact for a long time, once the germinated plant grows safely and At the same time, it is possible to easily acquire the ability to survive independently with stable and sufficient nutrition, so that it can easily harmonize with the surrounding natural environment in a short time.

1 is a schematic diagram for conceptually explaining a first step of a construction method according to the present invention,

Figure 2 is a schematic diagram for conceptually explaining the second step of the construction method according to the present invention,

3 is a schematic diagram for conceptually explaining a third step of the construction method according to the present invention;

Figure 4 is a schematic side cross-sectional view showing a state of inclined surfaces such as rivers after the construction method according to the present invention.

♠ Explanation of symbols for the main parts of the drawings.

110: Gabion wire mesh 120: horizontal wire mesh

130: longitudinal wire mesh 140: section

150: wire mesh cover 200: vegetation soil corel

Claims (3)

delete a). A gabion mattress installation step of installing gabion wire mesh at construction sites such as river embankments and connecting each wire mesh to form each section; b). A vegetation soil corel arranging step of arranging the vegetation soil corel separately prepared in order to provide an environment where plants can grow, in each section of the gabion mattress; And c). Gabion cover finishing step of binding and binding to the upper surface of the vegetation soil core rolls disposed in each section of the gabion mattress; The vegetation soil corelol is a method of constructing a vegetation soil corel gabion mattress, characterized in that the product made by putting the vegetation soil in a cylindrical cylindrical fabric. The method of claim 2, The above vegetation soil is a method of constructing a vegetation core roll gaebion mattress, characterized in that the mixture of the seeds of the plant in a mixed culture soil composed of fibrous materials, such as soil and rice straw, palm fruit.