KR101147143B1 - shore protection structure and construction method of using cramp - Google Patents

Abstract

By connecting the rock and the rock placed on the inclined soil surface as a connecting member, it prevents the rock from flowing down from the soil surface and has a counter force against the flow velocity and soil pressure, and it is a habitat for fish in the air gap between the rocks. It provides a, to prevent the scour due to the decay of the flow rate of water entering the void,

The present invention is a laminated layer formed on the suspended soil surface, the rock layer to form a void to attenuate the flow rate of the fluid flowing between the rock and the rock, and inserted into the fixed hole drilled in the rock to have a resistance to the flow rate of the rock And a rocking body integrally connected to each other, and a connecting member having a stopper formed at an end portion to prevent rock separation from the stacked position, and a rubble layer filled between the rock layer and the soil surface to prevent the rock from being separated from the soil surface. Equipped.

Eco-friendly, natural embankment construction, slope protection, rock, cramping

Description

Velocity-damped shoreline structure using cramps and its construction method {shore protection structure and construction method of using cramp}             

1 is a drawing substitute photograph showing a revetment according to the prior art,

Figure 2 is an enlarged view of the excerpts fixing the rock during embankment construction to build a revetment by the prior art,

Figure 3 is an enlarged excerpt of the excerpt of the flow rate damping type revetment structure using a clamp according to an embodiment of the present invention,

Figure 4 is an enlarged view of the excerpt excavation of the flow rate damping type relief eye relief using a clamp according to another embodiment of the present invention,

5 is a modified example of the clamp for connecting the rock integrally by the present invention,

Figure 6 is a flow chart showing a construction method of the flow-rate damping type relief structure using a bracket according to the present invention.

* Explanation of symbols used in the main part of the drawing

10; Soil slope

11,12; rock

13; air gap                 

14,15; Fastener

16; stopper

A; Rock formation

B; Connecting member

C; Rubble

D; Scour prevention member

The present invention provides a habitat for fish and the like when constructing slopes such as rivers, and prevents scouring due to the flow rate, thereby minimizing damage due to flooding, and using the braking structure to reduce damage caused by flooding, and a construction method thereof. It is about.

More specifically, by integrally connecting the rock and the rock placed on the inclined soil surface as a connecting member, it prevents the rock from flowing down from the soil surface, has a force against the flow rate and earth pressure, and between the rocks The present invention relates to a flow decay-type revetment structure using a bracket for providing a habitat for fish and the like to prevent scouring due to the decay of the flow rate of water flowing into the gap.

In general, in the construction of rivers, reservoirs, etc. around the city center, the slopes cover various shore protection members mainly on concrete structures to protect the levees by artificially damaging and deforming the slopes of natural mountains or rivers. The lower base of the revetment member protects the foundation by installing a gabion filled with a mesh-shaped stone composed of a polygonal concrete foundation or wire.

The various riversides are composed of various natural ecological and natural environments according to the winter season, the flow of the river, and the surrounding environment. When the circumference of the river flow is constructed with artificial concrete or stone, temporary beauty and dimension are exerted.

However, such levees have erosion and scour phenomena due to the flow rate over time, causing tremendous damage to the natural ecosystem due to the destruction of the vegetation zone, resulting in a huge cost and time due to the reconstruction of these structures.

In addition, various fish, algae, as well as various kinds of plants are naturally extinct because they lose their habitat by the artificial structure. As a result, it has been pointed out as a factor that ultimately impairs the living environment of human beings by falling into dead rivers and lakes that have lost their basic functions such as natural purification, providing fresh air, and providing urban retreats.

Recently, in order to improve the workability or improve the aesthetics of slope protection construction, the Stonenet method is a method in which a large number of stone types are arranged in advance in a workshop, and then the stones are fixed by using a crane or the like. stone net) (wrap stone method) is used.

As shown in Figure 1, the prior art rock using the prior art, even after stopping the soil surface using the heavy equipment, and stacked a large volume of rock stacked, but the gap between the large rock and rock In order to increase the cohesion of the rock by filling a medium-sized gravel or small size stone, it is possible to prevent the flow of rock from the slope due to storms and floods.

The above-described revetment structure loses habitats of fish, algae, etc. due to the gravel filled in the pores of the rock, and thus has a problem of accelerating water quality or environmental pollution due to the loss of its natural purification function.

In addition, the fluid loses its ability to attenuate the flow velocity of the fluid when it is in contact with the rock or river structure, causing scour caused by the flow velocity of the fluid, and when some rocks are separated from the soil surface, adjacent rocks are separated in series. The flooding caused by the collapse of the embankment has the problem of causing valuable property and casualties.

As shown in FIG. 2, the revetment structure constructed by the rock according to the prior art is a natural stone so as to protect the soil surface 1 evenly after stopping the soil surface 1 using heavy equipment or the like. (2) Laminate is formed by connecting the anchor core 3 (generally, 8 mm in diameter) to (usually, 300 mm in diameter).

The pressure plate 4 is connected to one end of the iron core 3 described above, and the adhesive is attached to the iron core 3 coupled to the fixing hole 5 and the fixing hole 5 drilled in the natural stone 2 by a drill machine. After each application, the iron core 3 is fixed to the natural stone 2.

The natural stone 2 is filled with rubble 5 having a relatively small size between the natural stone 2 and the pressure plate 3 so as to prevent the natural stone 2 from being separated from the stacked position.

Therefore, the natural stone 2 can be prevented from flowing down from the above-mentioned earth and sand surface 1, so that the earth and sand surface 1 can be protected from feng shui.

6 in the figure is a filter mat.

In the above-described shoreline structure, the adhesive for fixing the natural stone (2) to the anchor iron core (3) must be cured to start the next step of work, it takes a lot of work time, leading to a rise in labor costs, the iron core (3) Easily relaxed from the fixing hole (5) to work because of the re-establishment has a problem that the overall construction cost is increased.

In addition, since there is no binding force between the natural stones (2), the resistance to the flow rate is weak, and the natural stone (2) is filled with rubble or concrete to fill the voids of the natural stone (2) to have a resistance to the flow rate, so the flow rate at the inflow of river water There is a problem that can not attenuate the damage caused by the reflection action of the flow rate.

As such, because the flow rate does not attenuate and causes scour, the natural stone 2 easily collapses due to the flow rate and earth pressure during flooding, and the aggregates are lost to collapse the dike, resulting in a large flood accident.

In addition, due to the rubble filled in the pores between the natural stone (2), such as plants and plants do not inhabit, causing water pollution, raising the temperature around the river bank, and has a problem of increasing the environmental pollution of the atmosphere.

It is an object of the present invention to provide a flow rate damping type relief structure using a clamp so that the rock and the rock is integrally connected as a connecting member to have a resistance to the flow rate to increase durability.

Another object of the present invention is to prevent the loss of aggregates, stream clavicle and erosion by attenuating the flow rate of the fluid by ensuring the water inflow space in the gap between the rock and the rock installed in contact with the river water An object of the present invention is to provide a flow-rate damping revetment structure using clamps and a construction method thereof.

Another object of the present invention is to provide a habitat such as animals, trees or plants in the air gap between the rocks to reduce the air pollution or water pollution source to provide a comfortable urban environment to reduce the flow rate damping type relief structure And it provides a construction method.

It is still another object of the present invention to provide a flow rate damping type relief structure using a clamp, which can be applied to natural stone as well as concrete relief block during construction of a relief structure, and a construction method thereof.

It is still another object of the present invention to provide a flow-rate damping type relief structure using a bracket so that the connecting member for integrally connecting the rock and the rock can be prevented from escaping into the fixed hole of the rock and the construction method thereof.

An object of the present invention described above is a rock layer which is formed on the sedimentation surface of the suspended work, and forms a void which attenuates the flow velocity of the fluid entering and going between the rock and the rock,

A connection member inserted into a fixed hole drilled in the rock so as to be resistant to the flow rate and integrally connecting the rock and the rock, and having a stopper formed at the end to prevent the rock from being separated from the stacked position;

It is achieved by providing a flow rate damping type relief structure using a cramp, characterized by having a rubble layer filled between the rock layer and the soil surface to prevent the rock from escaping from the soil surface.

According to a preferred embodiment, it is provided between the rock layer and the rubble layer described above, and has a scour prevention member that prevents scour of aggregate and soil due to the flow rate.

The above-described scour prevention member and the connecting member are formed of a metal material whose outer periphery is galvanized to have a predetermined strength and corrosion resistance.

The fixing hole formed in the aforementioned rock is formed in a conical or cylindrical shape.

The connecting member coupled to the fixing hole of the rock is fixed to the fixing hole by any one of an adhesive, an anchor bolt or a wedge-shaped connector.

The object of the present invention described above is a first step of crushing the soil surface of the river bank and evenly stopping the surface, and a second stage of drilling the fixing hole in the rock placed on the stopped soil surface, A third step of connecting the rock and the rock in one piece by inserting a connecting member;

The fourth step of forming a rock layer by forming a rock layer inclined at a predetermined angle on the soil surface by integrally connected by the third step, and forming a void through which the fluid can enter and exit between the rock and the soil surface; And a fifth step of filling the rubble layer between the rock layer and the soil surface so as to prevent the rock from falling off.

The method further includes installing a scour prevention member between the rock layer and the rubble layer so as to prevent scouring of the aggregate and the soil due to the flow velocity entering and exiting the gap between the rocks.

Hereinafter, a preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings, which is intended to describe in detail enough to be easily carried out by those skilled in the art of the present invention, because of this The technical spirit and scope of the present invention are not meant to be limited.

As shown in Figures 3 to 5, the flow-rate damping type revetment structure using the bracket according to the present invention is laminated on the soil surface 10 stopped at a predetermined angle, the rock 11 and the rock 12 A rock layer (A) is formed to form a space (13) that attenuates the flow rate of the fluid flowing in and out between.

It is inserted into the fixed holes (14, 15) perforated in a conical or cylindrical shape in the rock (11, 12) to have a resistance against the flow rate to connect the rock (11) and the rock (12) integrally, and from the stacked position 11 and 12, the stopper 16 is provided with a connecting member (B) formed at the end to prevent the separation.

At this time, the above-described connection member (B) can be variously modified to "C" type, "U" type, "E" type, "W" type, "V" type and the like.

Rubble layer (C) which is filled between the rock layer (A) and the soil surface 10 to prevent the separation of the rocks (11, 12) from the soil surface (10), the above-described rock layer (A) and rubble layer ( C) is installed between and provided with a scour prevention member (D) to prevent scour of the aggregate and soil due to the flow rate.

At this time, the above-described scour prevention member (D) and the connection member (B) is formed of a metal material whose outer periphery is galvanized coating so as to have a predetermined strength and corrosion resistance.

The connecting member B coupled to the fixing holes 14 and 15 of the rock 11 and 12 is fixed to the fixing holes 14 and 15 by any one of an adhesive, an anchor bolt or a wedge-shaped connector.

As shown in Figure 6, the construction method of the flow-rate damping type revetment structure using a clamp according to the present invention, the first step (S100) for halting the surface evenly after the soil slope (10) of the river bank; The second step (S200) of drilling the fixing holes (14, 15) to the rock (11, 12) placed on the sedimentary surface 10 of the stop operation, and the connecting member (B) to the fixing holes (14, 15) Inserting the third step (S300) of integrally connecting the rock (11) and the rock (12),

The rock layers 11 and 12 which are integrally connected by the third step S300 are formed to be inclined at a predetermined angle on the soil surface 10 to form a rock layer A between the rock 11 and the rock 12. The fourth step (S400) of forming a cavity 13 through which the fluid can enter and exit, and the rock layer (A) and the soil surface (S) so as to prevent the separation of the rocks (11, 12) from the soil surface (10) 10) a fifth step S500 of filling the rubble layer C therebetween.

At this time, the scour prevention member (D) between the rock layer (A) and the rubble layer (C) to prevent the scour of the aggregate and soil due to the flow rate entering and exiting the gap 13 between the rock (11, 12) described above It further comprises the step of installing).

With reference to the accompanying drawings, a process of constructing a flow-rate damping type relief structure using a bracket according to the present invention will be described in detail.

As shown in FIG. 6, the soil surface 10 of the river bank is chopped using a predetermined heavy equipment, and then the surface is stopped evenly (see S100).

The fixed holes 14, 15 are conical (or fixed) using predetermined drill machines on the large and small rocks 11 and 12, which are carried evenly by the dedicated heavy machinery having a tongs function on the suspended soil surface 10. Perforated into a cylindrical shape) (see S200).

At this time, the rock (11, 12) is put on the soil surface 10 and then connected to each other so as not to flow, of course, the construction is improved.

As the socket portion b of the connecting member B is forcibly inserted into the conical fixing holes 14 and 15 described above, the socket portion b is moved from the inside of the fixing holes 14 and 15 to the outside by the restoring force. Expands and opens

For this reason, since the socket part b is prevented from being separated after being coupled to the fixing holes 14 and 15, the rock part 11 and the rock 12 are integrally connected by the connecting member B (see S300). .

Since the rock 11 and the rock 12 are integrally connected to the connecting member B, the rock 11 and the rock 12 have resistance to the flow rate, thereby having durability of the revetment structure.

After drilling the fixing holes (14, 15) in the above-described rock (11, 12) can be fixed to the connecting member (B) to perform the next step of course can shorten the construction period.

The rock 11 and the rock 12 which are integrally connected by the aforementioned connection member B are laminated on the soil surface 10, and the void 13 is formed between the rock 11 and the rock 12. By attenuating the flow rate of the fluid in contact with the rock or river structure by, it is possible to prevent scour due to the flow rate (see S400).

Fill the rubble layer C having a relatively small size between the above-described soil surface 10 and the rocks 11 and 12 so as to prevent the rocks 11 and 12 from being separated from the stacking position due to the storm. (See S500). That is, since the stopper 16 formed at the end of the connecting member B and the connecting member B is squeezed and crushed by the rubble layer C, the separation of the rocks 11 and 12 can be prevented. .

On the other hand, by the scour prevention member (D) provided between the rock (11, 12) and the rubble layer (C) described above can be prevented from scouring the aggregate and the soil surface 10 due to the flow rate of the fluid (S450). Reference).

On the other hand, the flow rate damping type relief structure using the clamp according to the present invention can be applied to the concrete relief block as well as the above-described rock, the detailed description thereof will be omitted because it is applied substantially the same as the technical content used in the rock. Reveal.

As described above, the flow-rate damping type relief structure using the clamp according to the present invention and its construction method have the following advantages.

It is possible to reduce the maintenance cost by increasing the durability by having the resistance to the flow rate by connecting the rock and the rock as an integral type.

As the water inflow space is secured in the gap between the rock and the rock installed at the position contacting the river water, it is possible to prevent the loss of the aggregate, stream clavicle and erosion by attenuating the flow rate of the fluid.

It can provide habitats such as animals, trees or plants to the air gap between the rocks, thereby providing a pleasant urban environment by reducing air pollution or water pollution sources.                     

When constructing a revetment structure, it can be used universally by applying to natural stone as well as concrete revetment block.

As the connection member connecting the rock and the rock in one piece is prevented from being separated by the fixing hole of the rock, it is possible to reduce the cost incurred when resetting it.

Claims (8)

A rock layer (A) which is formed on the sedimentary surface 10 of the stationary work and which forms an air gap 13 which attenuates the flow velocity of the fluid flowing in between the rock 11 and the rock 12 stacked in the up and down directions. , It is inserted into the fixed holes 14 and 15 conically or cylindrically drilled into the rocks 11 and 12 so as to be resistant to the flow rate, and the rock 11 and the rock 12 are integrally connected to each other. Stopper 16 is formed at the end to prevent the separation of the 12, the connecting member (B) made of either an anchor bolt or a wedge-shaped connector, Rubble layer (C) which is filled between the rock layer (A) and the soil surface 10 to prevent the separation of the rock (11, 12) from the soil surface (10), It is installed between the rock layer (A) and the rubble layer (C), the flow rate damping type relief structure using a cramp, characterized in that it comprises a scour prevention member (D) to prevent scour of aggregate and soil due to the flow rate. delete delete delete delete delete The first step to stop the surface evenly after digging the soil surface of the river bank, A second step of drilling a fixing hole in the rock placed on the sedimentation surface Inserting a connecting member into the fixing hole to connect the rock and the rock in one piece; A fourth step of forming a rock layer by stacking the rock which is integrally connected by the third step at a predetermined angle on the soil surface, and forming a void through which the fluid can enter and exit between the rock and the rock, And a fifth step of filling a rubble layer between the rock layer and the soil surface so as to prevent the rock from being separated from the soil surface. A flow rate damping type relief using a cramp, further comprising the step of installing a scour prevention member between the rock layer and the rubble layer to prevent the scour of aggregate and soil due to the flow rate into and out of the air gap between the rocks. Construction method of the structure. delete

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