KR102108823B1 - Scour prevention means capable of scour prevention and level adjustment of slope reinforcement block and construction method using the same - Google Patents

Abstract

The present invention relates to a scour prevention means capable of preventing scour and level adjustment of a slope reinforcement block and a construction method using the same,  After tensioning the steel wire (W) of the anchorage settled on the anchor hole (A) on the slope or slope,  In the slope reinforcement block (B) is provided corresponding to the ground (G) of the slope or slope to maintain the tensile strength of the steel wire,  It is formed to correspond to the shape of the slope reinforcement block (B),  A steel wire hole 120 corresponding to the diameter of the anchor hole (A) is formed at the center and is formed to pass through the steel wire,  Corresponds to the lower surface of the slope reinforcement block (B) and is in close contact with the surface (G) of the main surface of the anchor hole (A) to grasp the surrounding soil and between the slope reinforcement block (B) and the anchor hole (A). Is formed to prevent this,  The slope reinforcement block (B) corresponding to the upper surface is adjusted to the height from the ground by the concrete filled inside, which is formed in a bag shape to allow concrete injection inside, and the surrounding slope reinforcement block (B) The scour prevention means 100 is formed to be adjusted to the same height as the formed,  The loss of sediment due to precipitation in rainy weather is prevented,  Prevents scour around the slope reinforcement block where the steel wire is drawn and fixed so that the slope or slope that is generated by rainwater flowing along the slope or slope due to rain is reinforced,  By securing the structural stability of the slope reinforcement block due to the discharge of soil,  It is possible to prevent safety accidents due to the collapse of the slope reinforcement block, increase the safety of slopes or slopes, and reduce the maintenance cost of slopes or slopes due to spills of soil.  By injecting concrete into the scour prevention means, it is possible to adjust the level between the slope reinforcement block and the adjacent slope reinforcement block with prevention of soil leakage and scour prevention.  It is possible to improve the construction quality of the slope reinforcement block installed and installed on a slope or slope,  The present invention relates to a scour prevention means capable of preventing scour and level adjustment of a slope reinforcement block that does not have a sense of heterogeneity with the surrounding environment and a construction method using the same.

Description

Scour prevention means capable of scour prevention and level adjustment of slope reinforcement block and construction method using the same}

The present invention relates to a scour prevention means capable of preventing scour and level adjustment of a slope reinforcement block and a construction method using the same, more specifically, so that the slope is reinforced through anchor construction to reinforce slopes of forests, rivers, roads, etc. Higher quality construction by preventing the scour phenomenon around the slope reinforcement block caused by rain, etc., and the level between the slope reinforcement block and the adjacent slope reinforcement block is adjustable. The present invention relates to a scour prevention means capable of preventing scour and level adjustment of a possible slope reinforcement block and a construction method using the scour prevention block.

In Korea, there are many mountains, and severe damage to slopes due to heavy rains and freeze-thawing, and property damage caused by landslides and rockfalls due to damage to these slopes are large, and realistically effective management of slopes in mountain areas, roads, and shores And, measures are needed to protect the ecosystem.

Particularly, road slopes or slopes are inevitably exposed to bedrock because of the uniqueness of roads, and these bedrock exposures not only provide bad views to pedestrians, riders, and nearby residents, but also fear of collapse due to instability of slopes It is a situation to worry about.

Accordingly, the environment restoration of slopes or slopes serves to create a habitat for wild plants and animals by restoring the natural landscape early by safely reinforcing and greening damaged slopes for various purposes and restoring it.

Accordingly, concrete blocks having various shapes and sizes are generally installed and used in rivers, rivers, lakes, and other waterways to stabilize road slopes or slopes and prevent loss of embankments and waterways.

In other words, the slope or slope of the road is constructed with an anchor hole, and after the anchor body is installed on the anchor hole, the steel wire is drawn to reinforce the slope or slope, but the end of the steel wire is a slope such as a concrete block to maintain the drawn state. It is fixed to the reinforcing block and is constructed uniformly and densely on the construction surface of the slope or slope. In addition, a coastal block having a shape and size standardized on the embankment is constructed on a frozen surface such as a waterway to protect the embankment. In particular, to prevent loss of the embankment due to flooding, the construction surface of the block is constant and dense. As it is constructed to be in a state, it is particularly sturdy in places where the waterway approaches the embankment or where there are many water collisions during flooding.

However, the concrete blocks installed for the reinforcement of the slope or the protection of the shore are constructed with well-prepared requirements for the prevention of normal scour along the flow of the river in the case of the shore, but in the case of a road slope or slope, No part has been disclosed or introduced. However, concrete is placed on slopes or slopes to prevent construction and spilling of soil by preventing vegetation and scour prevention by vegetation, and sometimes cover fabrics such as non-woven fabrics or vinyl cloths as temporary measures to prevent slopes caused by rain. Mostly, it was intended to prevent the leakage and excavation of slopes.

That is, it is common to reinforce the slope or slope of a road or residential area in consideration of leakage or collapse of earth and sand, unlike pre-installed construction to prevent erosion or scour due to water, such as a river or a lake. Therefore, the slope or slope of a road or a residential area is usually configured to pierce an anchor hole and fix an anchor body to the anchor hole, to fix concrete and fix it to a slope reinforcement block by tensioning a steel wire to reinforce the slope or slope.

If such a slope reinforcement block is not evenly ground, its height (level) is jagged, resulting in poor appearance construction. In addition, the existing slope reinforcement block is composed of a concrete block on the slope or slope, so it rains during rainy weather, and scour phenomenon occurs between concrete blocks in the process of rainwater flowing down the slope or slope. This can lead to serious problems leading to safety accidents such as landslides.

In addition, due to the scour phenomenon, the balance of the concrete blocks supporting the steel wires is disturbed, and eventually a problem of reworking the slope or slope due to the damage of the concrete block occurs, and the continuation of the scour phenomenon leads to a large amount of sediment outflow. Therefore, even if a safety accident such as a landslide did not occur, there was a problem that maintenance difficulties requiring continuous refilling of soil were followed.

In addition, the loss of vegetation on the slope or slope due to the discharge of soil by scour phenomenon causes the soil and concrete to be exposed to the outside, so the appearance is not good and has a heterogeneity that cannot harmonize with the surrounding environment.

1. Republic of Korea Patent Publication No. 10-2007-0077550, published date of July 27, 2007. 2. Republic of Korea Utility Model No. 20-0423790, Registration Date August 04, 2006.

Therefore, the present invention was created to solve the problems as described above, and the reinforcing of the slope reinforcement block in which steel wires are drawn and fixed so that the slope is reinforced through anchor construction to reinforce slopes or slopes of forests, rivers, roads, etc. It prevents the scour phenomenon caused by the discharge of soil around the slope reinforcement block due to rain, etc., and secures the structural stability of the slope reinforcement block due to the discharge of sediment, thereby preventing the risk of collapse of the slope or slope. The object of the present invention is to provide a scour prevention means capable of preventing scour and level adjustment of a slope reinforcement block capable of increasing safety and reducing maintenance costs due to loss of soil and construction methods.

In addition, the present invention is to enable the level adjustment between the slope reinforcement block and the adjacent slope reinforcement block, it is possible to improve the construction quality of the slope reinforcement block installed and installed on a slope or slope, the appearance does not have a heterogeneous feeling with the surrounding environment Another object is to provide a scour prevention means capable of preventing scour and level adjustment of a slope reinforcement block and a construction method using the scour prevention means.

In order to achieve the above object, the scour prevention means capable of preventing scour and level adjustment of the slope reinforcement block according to the present invention after tensioning the steel wire W of the anchorage settled in the anchor hole A of the slope or slope,  In the slope reinforcement block (B) is provided corresponding to the ground (G) of the slope or slope to maintain the tensile strength of the steel wire,  It is formed to correspond to the shape of the slope reinforcement block (B),  A steel wire hole 120 corresponding to the diameter of the anchor hole (A) is formed at the center and is formed to pass through the steel wire,  Corresponds to the lower surface of the slope reinforcement block (B) and is in close contact with the surface (G) of the main surface of the anchor hole (A) to grasp the surrounding soil and between the slope reinforcement block (B) and the anchor hole (A). Is formed to prevent this,  The slope reinforcement block (B) corresponding to the upper surface is adjusted to the height from the ground by the concrete filled inside and formed in a bag shape to allow concrete injection inside, so that the surrounding slope reinforcement block (B) It characterized in that the scour prevention means 100 is formed to be adjusted to the same height as the height of the.

Here, the scour prevention means 100 is sewn to be formed of a bag-shaped fabric paper, and the scour prevention fabric body 110 formed to correspond to the shape of the slope reinforcement block B; A steel wire hole 120 provided to pass through a steel wire W that protrudes and extends toward the slope reinforcement block B in the center of the scour prevention fabric main body 110; At least one injection tube provided so that the scour prevention fabric main body 110 is adjusted in height from the ground G according to the amount of concrete injected by injecting concrete into the scour prevention fabric main body on one side of the scour prevention fabric main body 110 ( 130); is characterized by being formed.

On the other hand, it is preferable that the vegetation network 140 is further formed along the rim of the scour prevention fabric body 110 to prevent sediment leakage and surrounding vegetation.

On the other hand, the construction method using the scour prevention means capable of preventing scour and level adjustment of the slope reinforcement block according to the present invention is to tension the steel wire W of the anchorage settled on the anchor hole (A) of the slope or slope, and then to the slope or In the construction method using a scour prevention means (100) capable of preventing scour and level adjustment to a slope reinforcement block (B) provided to correspond to the ground (G) of a slope and to maintain a tensioned state of the steel wire, the fabric paper in the form of a pocket The swash-prevention fabric body 110 is sewn to correspond to the shape of the slope-reinforcement block B, and the slope-reinforcement block B corresponds to the diameter of the anchor hole A in the center of the scour-prevention fabric body 110. The steel wire hole 120 is provided so that the steel wire W protruding toward the center passes and the concrete is injected into one side of the scour prevention fabric main body 110 to prevent the scour prevention fabric main body 110 from the ground G. The height of the concrete Step (S100) of preparing at least one or more inlet tube 130 is provided scour preventive means 100 so adjusted according to the depth of cut, and; The steel wire hole 120 of the body of the scour prevention fabric 100 of the scour prevention means 100 corresponds to the ground G so as to correspond to the anchor hole A, and the body of the scour prevention fabric 110 is an anchor hole ( A) a basic adhesion step (S200) in close contact with the main surface of the ground (G) so that the soil is held in direct contact with rainwater in the rain so that it is not lost; Through the basic adhesion step, the block coupling is placed in correspondence with the slope reinforcement block (B) on the upper surface of the scour prevention cloth body 110 of the scour prevention means 100 closely corresponding to the ground (G) around the anchor hole (A). Step S300; Through the block coupling step, the height of the slope reinforcement block B placed on the upper surface of the body of the scour prevention cloth 100 of the scour prevention means 100 is adjusted to the same height as the height of the surrounding slope reinforcement block B. The concrete is injected through the injection pipe 130 formed on one side of the scour prevention fabric main body 110 so as to correspond to the upper surface of the scour prevention fabric main body 110 whose height is increased by the concrete filled in the scour prevention fabric main body. After the slope reinforcement block (B) is limited to the injection of concrete at a height that matches the height of the surrounding slope reinforcement block (B), a level adjustment step (S400) for curing; It includes; after the level adjustment step, the height between the surrounding slope reinforcement blocks (B) is kept constant and coupled, and the tensile finishing step (S500) of tensioning and closing the steel wire (W).

On the other hand, to prevent the discharge of surrounding soil along the rim of the scour prevention fabric body 110 of the scour prevention means 100 of the preparation step, and the vegetation network 140 is further formed to enable vegetation, after the tensile finishing step, It is also preferable that the vegetation composition step (S600) is further provided to enable vegetation.

According to the present invention, by separating the sediment into a fabric bag unit by means of a scour preventing means consisting of a fabric bag, it is closely bonded to the ground to grasp the soil, preventing loss of sediment due to precipitation during rain, and rainwater flowing along a slope or slope due to rain. Prevents scour around the slope reinforcement block where steel wires are drawn and fixed so that the slope or slope generated by the reinforcement is reinforced, and prevents safety accidents due to the collapse of the slope reinforcement block by securing the structural stability of the slope reinforcement block due to leakage of sediment And it is possible to increase the safety of the slope or slope and reduce the maintenance cost of the slope or slope according to the outflow of soil.

In addition, according to the present invention, by injecting concrete into the scour prevention means made of a fabric bag, it is possible to adjust the level between the slope reinforcement block and the adjacent slope reinforcement block together with prevention of soil leakage and scour prevention, so that the slope installed on the slope or slope It is possible to improve the construction quality of the reinforcing block, and has the advantage that the appearance does not have a sense of heterogeneity with the surrounding environment.

1 is a view showing the installation of the slope or slope of the scour prevention means capable of preventing scour and level adjustment of the slope reinforcement block according to the present invention.
Figure 2 is a perspective view of a main portion of the scour prevention means capable of preventing scour and level adjustment of the slope reinforcement block according to the present invention.
3 is a cross-sectional side view of a main portion of a scour prevention means capable of preventing scour prevention and level adjustment of a slope reinforcement block according to the present invention.
4 is a plan view of a main portion of a scour prevention means capable of preventing scour and level adjustment of a slope reinforcement block according to the present invention.
5 is a side sectional view of a use state of level adjustment of a scour prevention means capable of preventing scour and level adjustment of a slope reinforcement block according to the present invention.
6 is a plan view showing another embodiment of a scour prevention means capable of preventing scour and level adjustment of a slope reinforcement block according to the present invention.
7 is a block diagram of a construction method using a scour prevention means capable of preventing scour and level adjustment of a slope reinforcement block according to the present invention.
8 is a block diagram of another embodiment according to a construction method using a scour prevention means capable of preventing scour and level adjustment of a slope reinforcement block according to the present invention.

Advantages and features of the present invention, and methods for achieving them will be clarified with reference to embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in many different forms.

In this specification, the present embodiment is provided to make the disclosure of the present invention complete, and to fully inform the scope of the invention to those skilled in the art to which the present invention pertains. And the present invention is only defined by the scope of the claims. Thus, in some embodiments, well-known components, well-known operations, and well-known techniques are not specifically described to avoid obscuring the present invention.

The same reference numerals refer to the same components throughout the specification. In addition, the terms (mentioned) used in this specification are for describing the embodiments and are not intended to limit the present invention. In the present specification, the singular form also includes the plural form unless otherwise specified in the phrase. In addition, components and actions recited as 'include (or have)' do not exclude the presence or addition of one or more other components and actions.

Unless otherwise defined, all terms (including technical and scientific terms) used in the present specification may be used as meanings commonly understood by those skilled in the art to which the present invention pertains. Also, terms that are defined in a commonly used dictionary are not ideally or excessively interpreted unless they are defined.

Hereinafter, with reference to the accompanying drawings will be described in detail the technical features according to the embodiment of the scour prevention means and construction method using the scour prevention and level adjustment of the slope reinforcement block according to the present invention in detail.

Figure 1 is a slope or slope installation state diagram of the scour prevention means capable of preventing scour and level adjustment of the slope reinforcement block according to the present invention, Figure 2 is a slope prevention means capable of scour prevention and level adjustment of the slope reinforcement block according to the present invention 3 is a sectional side view of a main part of a scour prevention means capable of preventing scour and level adjustment of a slope reinforcement block according to the present invention, and FIG. 4 is capable of preventing scour prevention and level adjustment of a slope reinforcement block according to the present invention. It is a plan view of the main part of the scour prevention means, and FIG. 5 is a side sectional view of a use state of the level adjustment of the scour prevention means capable of preventing scour and level adjustment of the slope reinforcement block according to the present invention, and FIG. It is a plan view showing another embodiment of the scour prevention means capable of preventing scour and level adjustment, and FIG. 7 shows scour prevention of the slope reinforcement block according to the present invention and Bell and adjustment block for construction method also with possible scour preventive means, Figure 8 is another embodiment of a block diagram according to a construction method using the scour prevention and level adjustment is possible scour preventive means of slope reinforcement blocks according to the invention.

The scour prevention means capable of preventing scour and level adjustment of a slope reinforcement block according to the present invention puncture an anchor hole for reinforcement of a slope or a slope, fix a fixture to an anchor hole, and place concrete, and then tension steel wire to tension the slope or slope. When installing and installing the slope reinforcement block provided to fix the tensioned steel wire on the ground of the building, it was intended to prevent the structural stability caused by the discharge of soil and scour due to rainwater in case of improvement of construction quality through level adjustment, and Fig. 1 and Fig. As shown in Fig. 2, after tensioning the steel wire W of the anchorage settled on the anchor hole A of the slope or slope, it is coupled to the ground G of the slope or slope to maintain the tensioned state of the steel wire. A scour prevention means 100 is formed between the lower surface of the provided slope reinforcement block B and the ground.

Here, the scour prevention means 100 is formed to correspond to the shape of the slope reinforcement block B, and a steel wire hole 120 corresponding to the diameter of the anchor hole A is formed at the center so that the steel wire passes therethrough. It is formed, corresponding to the lower surface of the oblique reinforcement block (B) and in close contact with the main surface (G) of the anchor hole (A) to grasp the surrounding soil and between the oblique reinforcement block (B) and the anchor hole (A) It is formed to prevent leakage of soil and is formed in a bag shape to allow concrete injection inside, and is formed to adjust the height and the surrounding slope reinforcement block (B) according to the amount of concrete injection, as shown in FIGS. 2 to 4 , Scour prevention fabric body 110, steel wire hole 120, is composed of an injection tube 130.

The scour prevention fabric main body 110 is formed by sewing fabric paper in a bag shape, and is preferably formed by sewing so that concrete does not leak to the outside when concrete is injected through an injection pipe to be described later. The body of the scour prevention fabric is formed to correspond to the shape of the slope reinforcement block B, and as shown in the drawing, it can be formed into a quadrangular turret shape or manufactured in various shapes.

The steel wire hole 120 is an anchor hole to the center of the scour prevention fabric body 110 so that there is no interference between the steel wire and the above-mentioned scour prevention fabric body 110 in the process of tensioning the steel wire after the anchorage is settled in the anchor hole. (A) Corresponds to the diameter, it is provided to pass through the steel wire (W) that protrudes toward the center of the slope reinforcement block (B) and stretches. Here, it is also sewn along the periphery of the steel wire hole 120, but is sewn so that the contents injected into the scour prevention fabric body 110 do not leak to the outside.

The injection pipe 130, as shown in Figures 2 to 5, the scour prevention fabric main body 110 is injected into the inside of the scour prevention fabric main body on one side of the scour prevention fabric main body 110 described above The height from (G) is provided to be adjusted according to the amount of concrete injected, and is preferably formed of a conventional flexible pipe.

Meanwhile, as illustrated in FIG. 6, vegetation nets 140 are further formed along the rim of the scour prevention fabric body 110 to prevent soil leakage around the slope reinforcement block B and enable vegetation. Here, as described above, the vegetation network 140 solves a portion in which the surrounding soil of the slope reinforcement block may be lost by rainwater before the scour prevention means 100 prevents the scour phenomenon of the slope reinforcement block. In order to prevent the difficulty of vegetation due to soil discharge during vegetation, it is intended to counteract the heterogeneity with the surrounding environment by high quality construction and vegetation. That is, the unit blocks are formed according to the number of mesh balls of the vegetation network 140 to support the soil so that vegetation is advantageously not lost by rainwater.

The construction method using the scour prevention means capable of preventing scour and level adjustment of the slope reinforcement block of the present invention according to such a configuration is through an anchor construction method for normal slope reinforcement, as shown in FIG. After tensioning the steel wire (W) of the anchorage settled in the anchor hole (A) of the slope, it is coupled to the ground (G) of the slope or slope, and viewed in the slope reinforcement block (B) provided to maintain the tensioned state of the steel wire. Through the scour prevention means 100 of the present invention, it is possible to achieve improvement in construction quality through level adjustment between the slope obstruction block of the slope reinforcement block B and the construction of the surrounding slope reinforcement block according to the construction of the slope reinforcement block.

The construction method of the slope reinforcement block for the prevention of scour and level adjustment of the present invention as shown in the block diagram of FIG. 7 is a step of preparing scour prevention means (S100), a basic adhesion step (S200), and a block combining step. Through the (S300), the level adjustment step (S400), and the tensile finishing step (S500), it is possible to prevent scour prevention and level adjustment of the slope reinforcement block.

Preparing step (S100)

As shown in Figures 2 to 4, the scour prevention fabric body 110 is sewn so as to correspond to the shape of the oblique reinforcement block (B) with a bag-shaped fabric, and anchors to the center of the scour prevention fabric body 110 A steel wire hole 120 is provided to pass through the steel wire W that protrudes and extends toward the center of the slope reinforcement block B corresponding to the diameter of the ball (A), and concrete is internally formed on one side of the scour prevention cloth body 110. Prepare the scour prevention means 100 provided with at least one injection pipe 130 so that the height of the scour prevention fabric main body 110 from the ground G is adjusted according to the amount of concrete injected. Here, the shape of the scour prevention means 100 is formed in the drawing in the center of the square turret to form a steel wire at the time of tension of the steel wire, it is possible to perform tensile construction without interference with the scour prevention fabric body 110, the level described later When the concrete in the adjustment step is injected through the injection pipe, the sealing material is sealed so that the concrete in the scour prevention cloth body 110 does not leak outside. In the sealed portion, the steel wire hole excluding the injection tube and the rim of the scour prevention fabric body 110 are sealed and sewn.

Basic adhesion step (S200)

After preparing the scour preventing means 100 through the above-preparing step, as shown in FIG. 3, the anchor holes and the steel wire holes are placed on the same axis by closely corresponding the scour preventing means 100 to the ground. The steel wire hole 120 of the body of the scour prevention fabric 100 of the scour prevention means 100 corresponds to the ground G so as to correspond to the anchor hole A, and the body of the scour prevention fabric 110 is an anchor hole ( A) When the main surface is in close contact with the ground (G), the soil is held in direct contact with rainwater in case of rain so that it is not lost. That is, as the body of the scour prevention cloth 110 is in close contact with the ground around the anchor hole, rainwater does not flow directly into the soil but flows out of the slope reinforcement block so that even when the strength of the ground is rainy, collapse or construction of the slope reinforcement block collapses. Maintain the minimum strength that requires defects. In addition, even if rainwater flows around the slope reinforcement block, it can be closely adhered as if the soil is not lost by the scour prevention cloth body 100 so as to minimize scour phenomenon.

Block combining step (S300)

As shown in Figure 1, the anchor hole is drilled for reinforcing the slope or slope, and after fixing the concrete by inserting and fixing a fixing hole in the drilled anchor hole, the steel wire is tensioned by tensioning the steel wire, and the steel wire is tensioned while the slope or slope is reinforced. As shown in FIG. 3 through the above-described basic adhering step, the slope reinforcement block installed in order to maintain the condition of the anchor hole (A) of the scour preventing means 100 closely corresponding to the ground (G) around the anchor hole (A) The scour prevention fabric body 110 is placed in correspondence with the upper surface. In other words, the process of combining the slope reinforcement means 100 of the present invention is added to the construction of the conventional slope reinforcement block to prevent scour.

Level adjustment step (S400)

One side of the scour prevention fabric body 110 to maintain the same height as the height of the surrounding slope reinforcement block B placed on the top surface of the scour prevention fabric body 110 of the scour prevention means 100 through the block coupling step Concrete is injected and cured to match the height of the surrounding slope reinforcement block (B) through the injection tube 130 formed in the tube. In other words, if the slope or slope of the slope is uneven and the slope reinforcement block is installed and installed, the slope reinforcement block will be settled sharply according to the curvature of the ground, and the appearance quality will not be constant, resulting in the surrounding environment and heterogeneity or the construction quality. There is a question to be suspected. Accordingly, when supplementing this, a separate pressure plate or the like is additionally installed when a constant height is required between the slope reinforcement blocks of the slope or the slope, and this is additionally installed, which is the scour prevention cloth body 110 of the scour prevention means 100 of the present invention. ) As shown in FIG. 5 through the injection pipe 130 formed on one side, by injecting concrete, it is possible to adjust the installation height of the slope reinforcement block, thereby enabling level adjustment between surrounding slope reinforcement blocks.

Therefore, as the number of the slope reinforcement blocks installed on the slope or slope is aligned to the same height as each other, the appearance is beautiful, the construction quality is improved, and even after installation, the defective part of the slope reinforcement block due to subsidence of the ground is easily visually observed. As it can be discovered, maintenance can be easily performed, and it is obvious that safety accidents can be prevented in advance before causing the collapse of the slope reinforcement block.

Therefore, construction through adjusting the same level of the slope reinforcement block is a fairly important process over appearance, safety, and maintenance, and for this purpose, it is possible to immediately respond in real time in the field by simply injecting and adjusting concrete as in the present invention. Due to this, shortening of the air and convenience of construction can be brought.

Tensile finishing step (S500)

Through the level adjustment step, after the height between the surrounding slope reinforcement blocks B is kept constant, the steel wire W is tensioned to finish. That is, the construction is completed by tensioning and fixing the steel wire to fix the slope or slope of the slope reinforcement block B.

Vegetation stage (S600)

On the other hand, as shown in the block diagram of Figure 8, to prevent the loss of soil and slope or slope of the main surface environment harmonized with the main surface environment to minimize the feeling of unevenness of the scour prevention cloth 100 of the scour prevention means 100 in the preparation step In accordance with the prevention of surrounding soil leakage, the vegetation network 140 is further formed to enable vegetation, and after the tensile finishing step, a vegetation composition step (S600) is further provided to enable vegetation.

That is, the vegetation composition step, as shown in Figure 6, to provide the roots of the tree so as not to be lost by sediment flow through the mesh gap of the vegetation network, and vegetation between the mesh gap to the initial vegetation, rain water, etc. In addition to preventing the loss of vegetation, it is possible to promote vegetation growth by enabling stable settlement from the ground when vegetation grows, and the effect of preventing vegetation network and sediment around the slope reinforcement block along with the vegetation network is brought. As mentioned above, it is obvious that more environmentally friendly construction is possible by harmonizing with the surrounding environment.

In the above, the present invention has been described in detail as one embodiment, but the scope of the present invention is not limited to this, and it is obvious that many modifications and corrections are possible to those of ordinary skill in the art. It will be included in the examples and the substantial equivalent range.

A: Anchor ball W: Steel wire
G: Ground B: Slope reinforcement block
100: scour prevention means 110: scour prevention cloth body
120: steel wire hole 130: injection pipe
140: vegetation network S100: steps to prepare
S200: Basic bonding step S300: Block bonding step
S400: Tensile finishing step S600: Vegetation composition step

Claims (5)

After tensioning the steel wire (W) of the anchorage settled in the anchor hole (A) of the slope or slope, the slope reinforcement block (B) is provided to correspond to the ground (G) of the slope or slope to maintain the tension of the steel wire In, it is formed to correspond to the shape of the slope reinforcement block (B), the steel wire hole 120 corresponding to the diameter of the anchor hole (A) is formed in the center is formed to pass through the steel wire, the slope reinforcement block (B) Corresponding to the lower surface and in close contact with the surrounding ground (G) of the anchor hole (A), it is formed to prevent leakage of soil by grasping the surrounding soil and between the slope reinforcement block (B) and the anchor hole (A). It is formed in a bag shape so that concrete can be injected inside, so that the height from the ground is adjusted by the concrete filled inside according to the amount of concrete injected so that the slope reinforcement block (B) corresponding to the top surface is surrounded by the surrounding slope reinforcement block ( B) height and copper The scour prevention means 100 is formed to be adjusted to a working height.
The scour prevention means 100 is sewn into a bag-shaped fabric and is formed to correspond to the shape of the slope reinforcement block B, the scour prevention fabric main body 110; A steel wire hole 120 provided to pass through a steel wire W that protrudes and extends toward the slope reinforcement block B in the center of the scour prevention fabric main body 110; At least one injection tube provided so that the scour prevention fabric main body 110 is adjusted in height from the ground G according to the amount of concrete injected by injecting concrete into the scour prevention fabric main body on one side of the scour prevention fabric main body 110 ( 130); to prevent the discharge of soil around the slope reinforcement block (B), to enable vegetation, characterized in that the vegetation mesh body 140 is further formed along the border of the scour prevention fabric body 110 A scour prevention means capable of preventing scour and level adjustment of a reinforcing block.
delete delete After tensioning the steel wire (W) of the anchorage settled in the anchor hole (A) of the slope or slope, the slope reinforcement block (B) is provided to correspond to the ground (G) of the slope or slope to maintain the tension of the steel wire In the construction method using the scour prevention means 100 capable of preventing scour and leveling,
A scour-proof fabric body 110 is sewn to correspond to the slope-reinforced block (B) shape with a bag-shaped fabric, and the slope-reinforced fabric corresponds to the diameter of the anchor hole (A) in the center of the scour-resistant fabric body 110. The steel wire hole 120 is provided to pass through the steel wire W protruding toward the center of the block B and being stretched, and concrete is injected into one side of the scour prevention fabric main body 110 to prevent scour prevention from the ground G. Preparing a scour preventing means 100 in which at least one injection pipe 130 is provided so that the height of the main body 110 is adjusted according to the injection amount of concrete (S100);
The steel wire hole 120 of the body of the scour prevention fabric 100 of the scour prevention means 100 corresponds to the ground G so as to correspond to the anchor hole A, and the body of the scour prevention fabric 110 is an anchor hole ( A) the basic adhesion step (S200) of being in close contact with the main surface of the ground (G) so that the soil is held in direct contact with rainwater in case of rain so as not to be lost;
Through the basic adhesion step, the block coupling is placed in correspondence with the slope reinforcement block (B) on the upper surface of the scour prevention cloth body 110 of the scour prevention means 100 closely corresponding to the ground (G) around the anchor hole (A). Step S300;
Through the block coupling step, the height of the slope reinforcement block B placed on the upper surface of the body of the scour prevention cloth 100 of the scour prevention means 100 is adjusted to the same height as the height of the surrounding slope reinforcement block B. The concrete is injected through the injection pipe 130 formed on one side of the scour prevention fabric main body 110 so as to correspond to the upper surface of the scour prevention fabric main body 110 whose height is increased by the concrete filled in the scour prevention fabric main body. After the slope reinforcement block (B) is limited to the injection of concrete at a height that matches the height of the surrounding slope reinforcement block (B), level adjustment step (S400) for curing;
Including the tension adjustment step (S500) to maintain a fixed height between the adjacent slope reinforcement block (B) through the level adjustment step, and then tension the steel wire (W) to finish.
A vegetation mesh body 140 is further formed to prevent sediment leakage from surrounding areas along the rim of the scour prevention fabric body 110 of the scour prevention means 100 of the preparation step, and to enable vegetation. Construction method using scour prevention means capable of preventing scour prevention and level adjustment of slope reinforcement blocks provided with a vegetation composition step (S600).
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