KR101477711B1 - Construction method using Porous concrete with loess, soil - Google Patents

Abstract

More particularly, the present invention relates to a method of constructing a porous reinforced concrete structure using a porous pile and a wire rope. The porous concrete pile is filled with a porous concrete, The present invention relates to a method of constructing a river revetment using porous concrete adhered to environmentally friendly loess and culture soil, in which a plurality of porous concrete jackets are weighed and constructed in a river gorge, and the drainage is excellent, seed germination is good and vegetation can grow.
Accordingly, the method of constructing a river gutter using the porous concrete to which the loess and culture soil is adhered, proposed in the present invention, comprises the steps of forming a porous concrete block by adhering loess and culture soil to pores in a porous concrete curing process, The method of claim 1, further comprising the steps of: (a) filling the interior of the porous concrete block with a natural fiber layer to supply nutrients necessary for vegetation growth to the inside of the nettle filled with the porous concrete block; And fixing the limb using a wire rope and a fixed pile on the river slope.

Description

Technical Field [0001] The present invention relates to a method for constructing a river revetment using porous concrete with loess,

More particularly, the present invention relates to a method of constructing a porous reinforced concrete structure using a porous pile and a wire rope. The porous concrete pile is filled with a porous concrete, The present invention relates to a method of constructing a river revetment using porous concrete adhered to environmentally friendly loess and culture soil, in which a plurality of porous concrete jackets are weighed and constructed in a river gorge, and the drainage is excellent, seed germination is good and vegetation can grow.

Generally, the slope of a river or coastal shore should be protected against erosion of water line caused by runoff and to protect it from falling down. The existing revetments were constructed with concrete block, gabion method, constriction, and reinforced soil to protect river slopes.

Typical concrete is made of concrete by minimizing voids in concrete by filling voids between aggregates with mortar and compaction. These concrete have been used as essential materials such as houses and roads that make up modern society. However, concrete has the disadvantage of destroying the natural ecosystem, such as damaging the habitat of the animals and plants.

If the concrete is applied to the shore, it is easy to make the product uniform and easy to construct, and the construction cost is low. However, since it is not environment friendly due to the difficulty of not attaching or growing vegetation after construction, it can not be combined with the soil of the river, Which may cause buoyancy phenomenon and cause the buoyancy to sink.

As a conventional technique for solving such a problem, Korean Patent Laid-Open Publication No. 2002-0096206 (December 31, 2002) discloses a method of constructing a slope using a gabion, wherein a gaboid ; Inserting the stone into the gauze not covered with the cover; Allowing soil containing seeds to enter between the stones; And covering the top of the building with a cover made of stone and clay. The method of constructing a slope using a gabion is also known.

However, the method of constructing the slope using the above-described gabion is to accumulate the stone on the base in the field, and when the heavy stone is accumulated on the slope of the river, the base or the side member may be damaged, and the slope is inclined The stone may flow off the base and into the river, and there is a risk that the worker will hit the stone and be hurt. Also, the soil containing the seeds is inserted between the stones. However, the soil and the seeds are easily blown in the wind and pollute the surrounding environment.

As another conventional technique, Korean Patent Registration No. 10-0459302 (Nov. 22, 2004) discloses a method for constructing a dam or a bank by filling a stone or concrete structure in an environmentally friendly gauze or preventing the loss of soil from a slope such as a cut- A box-like structure composed of a bottom surface portion of a rectangular shape of a gabion which is an iron net structure used for constructing a structure for constructing the structure, a side surface portion joined to the both surfaces of the bottom surface portion by a folding structure, and a bottom surface portion and a side surface portion, A main body portion having a partition wall for partitioning the main body portion; And a cover portion coupled to an upper surface of the main body portion. In the gauze of the iron mesh structure having the bottom surface portion and the side surface portion, the corners of the box-like structure are easily transported and constructed, A plurality of grapevine members for solidifying the adjoining gaboids in the state of the tubular structure body are provided, and a plurality of herbaceous vegetation means for forming the shrub after the completion of the construction is provided at a predetermined portion of the body of the box- There is known an eco-friendly gait which is characterized in that a spring is provided for automatically bringing the partition into an upright state when assembled into a box-like structure.

However, the above-mentioned eco-friendly gabion has disadvantages that drainage can not be performed well by using stone or concrete structure, and also vegetation can be germinated due to herbaceous vegetation means, but there is no structure to protect vegetation roots, The growth of vegetation is limited because it does not help growth of vegetation.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a waterproofing material for a waterproofing material, The objective of the present invention is to provide a method of constructing a river revetment using porous concrete with adhered clay loam and clay soil, which is germinated with good seed germination and can grow vegetation.

In addition, it is equipped with fixed pile and wire rope to securely hold porous concrete in riverbed, and it is fixed to river slope by binding porous concrete wall. Hollow soil and culture soil adhered to fixed pile are adhered due to branching part formed in fixed pile And to provide a method of constructing a river revetment utilizing porous concrete.

The present invention provides a method of constructing a river gutter using porous concrete to which loess and culture soil is adhered, comprising the steps of forming a porous concrete block by adhering loess and culture soil to pores in a porous concrete curing process, And a natural fiber layer for supplying nutrients necessary for vegetation growth to the interior of the net filled with the porous concrete block, constructing the porous concrete net on the river slope, And fixing the limb using a wire rope and a fixed pile on the slope.

The porous concrete block has a step of casting porous concrete on a mold frame, spraying loess on part of the porous concrete pores in the course of curing the porous concrete, spraying the powdery flour on the remaining part of the porous concrete pores, Applying yellow clay to the porous concrete so as to be adhered to the porous concrete when the porous concrete curing process is completed, and releasing the porous concrete block from the mold frame when the porous concrete curing process is completed.

The fixed pile is formed with a through hole so as to connect the wire rope and the wire rope, and a branch is formed so as not to be caught by the wire when the pile is fixed to the river slope.

According to the method of constructing the river revetment using the porous concrete to which the loess soil and the culture soil are adhered according to the present invention, the drainage force is increased when the porous concrete having a high porosity is filled into the nettle instead of the existing stone.

In addition, it is possible to attach well and grow vegetation by adhering loess and culture soil to porous concrete pores. Before finishing the porous concrete pavement, the natural fiber layer is filled with rice straw, coir net, It is possible to obtain an effect of increasing the growth of the semiconductor device.

Also, it has a fixed pile and a wire rope, and it is possible to fix porous concrete on the river slope without fixing the fixed pile due to the branch part formed on the fixed pile.

1 is a block diagram showing an embodiment according to the present invention;
2 is a perspective view illustrating a porous concrete block according to an embodiment of the present invention;
3 is an exploded perspective view showing a porous concrete structure in an embodiment according to the present invention.
FIG. 4 is a perspective view illustrating a state in which the present invention is applied to a porous concrete slope in an embodiment of the present invention. FIG.
FIG. 5 (a) is a perspective view illustrating a fixed pile according to an embodiment of the present invention. FIG.
FIG. 5 (b) is an enlarged view showing a state of use of a fixed pile in an embodiment according to the present invention. FIG.

The present invention relates to a method of constructing a river glazing using porous concrete to which yellow soil and culture soil are adhered, comprising the steps of forming a porous concrete block by adhering yellow soil and culture soil to pores in a porous concrete curing process, And a natural fiber layer for supplying nutrients necessary for vegetation growth to the interior of the net filled with the porous concrete block, constructing the porous concrete net on the river slope, And fixing the limb using a wire rope and a fixed pile on the slope.

In addition, the porous concrete block may include the steps of casting porous concrete on a mold, spraying loess on part of the porous concrete pores in the course of curing the porous concrete, spraying the powdery soil on the remaining part of the porous concrete pores, Applying a mortar to the porous concrete so as to be adhered to the porous concrete by contacting the ground soil powder, and releasing the porous concrete block from the mold when the porous concrete curing process is completed.

In addition, the fixed pile is formed with a through hole so as to connect the wire rope with the wire rope, and when the pile is fixed to the river slope, the branch is formed so as not to be caught by the wire rope.

Next, a preferred embodiment of a method of constructing a river gutter using porous concrete to which yellow clay and culture soil are adhered according to the present invention will be described in detail with reference to the drawings.

First, as shown in FIG. 1, an embodiment of a method of constructing a river gutter using porous concrete to which yellow clay and culture soil are adhered according to the present invention includes a porous concrete block forming step (S10), a filling step S20), a step of providing a natural fiber layer (S30), a step of constructing a porous concrete slope on a river slope (S40), a wire rope, and a step of fixing porous concrete with a fixed pile (S50).

In the porous concrete block forming step S10, a step of spraying the loess 15 onto part of the pores of the porous concrete 11 in the process of curing the porous concrete 11 through the step of pouring the porous concrete 11 into the mold, A step of spraying culture soil powder 16 on a part of the concrete void 11 and a step of applying loess material 17 so as to be adhered to the porous concrete 11 in contact with the soil soil powder 16 and the step of curing the porous concrete 11 When the process is completed, the block 10 is formed as a step of demolding the mold.

As shown in FIG. 2, the porous concrete 11 is made of coarse aggregates interlocked with each other to form a large amount of voids unlike ordinary concrete. The porosity of the porous concrete 11 is preferably 20 to 30% so as not to interfere with the growth of the vegetation, and to form a strength that does not cause morphological deformation even in the change of the external environment.

In the course of curing the porous concrete (11), the clay (15) and the clay soil powder (16) are sprayed on the pores. Loess (15) is eco-friendly and easy to obtain because it is natural soil, and it is inexpensive and has various efficacy. Hwangto (15) radiates a large amount of far-infrared rays, which helps to grow vegetation and adsorb nitrogen and phosphorus to help water quality. The culture soil powder (16) is mixed with 2 to 3 types of soil having different properties to form culture soil powder (16). It is preferable that the soil flour (16) is mixed with a sandy soil having good drainability and good water retention, humus, and a lotion.

The loess material 15 of the same material as the loess 15 is applied to the upper part of the porous concrete 11 by water. The loess material 17 is coated thinly on the upper part of the porous concrete 11 when the moisture naturally flows into the air or when the loess material 17 is directly heated to evaporate water.

It is preferable that the porous concrete 11 is formed as a block 10 that is not deformed and is not deformed by adhering loess 15 and cultivated soil powder 16 to a void.

In step S20, the block 10 is placed inside the frame 20.

It is preferable to use reinforced coconut fiber to provide an environment in which plants can grow while preserving the natural surface. Fortified coconut fiber is excellent in oyster and grounding ability and has durability without deterioration or deformation when applied to streams and has effect of reducing flow rate.

3, it is preferable to determine the size and shape in consideration of the river slope 40 and the surrounding environment, although it may be formed in a rectangular shape corresponding to the length of the river slope 40 .

The step of providing the natural fiber layer (S30) may be provided on the block (10) where one or a plurality of the natural fiber layers are selected and installed in the block (10), the coarse net,

It is possible that the natural fiber layer 30 supplies nutrients necessary for the growth of the vegetation and the vegetation grows between the pores of the natural fiber layer 30. [

It is possible to shorten the time required for the construction work because no additional planting work is required if the seeds are sprayed on the river slope 40 in advance before the block 10 and the natural fiber layer 30 are bound to each other.

It is preferable that the seeds are provided with seeds of wildflowers which can be grown in nature and capable of promoting and suppressing growth by their own strength.

The blocks 10 and the nacelle 20 filled with the natural fiber layer 30 are bound to form a porous concrete aggregate 100.

In step S40 of constructing the porous concrete net on the river slope, the finished porous concrete net 100 is uniformly constructed on the river slope 40. At this time, if a portion of the porous concrete net 100 is formed on the bottom of the river, it is possible to firmly fix it on the river slope 100.

As shown in FIG. 4, the porous concrete net 100 is constructed on the river slope 40 by constructing the porous concrete net 100 after the river slope 40 is uniformly set and a nonwoven fabric is installed thereon.

Although not shown in the drawing, the nonwoven fabric is preferably installed on the river slope 40 for the soil discharge and the water-wall function.

In step S50 of fixing the porous concrete net to the river slope using a wire rope and a fixed pile, the porous concrete net 100 formed on the river slope 40 is fixed to the wire rope 55 and the fixed pile 50 To be fixed to the river slope 40 by using the above-

As shown in FIG. 5 (a), the fixed pile 50 has a cylindrical shape with a lower portion formed in an acute shape, and a through hole 51 and a branch portion 53 are formed at the upper portion.

The through-hole 51 is formed by interposing a wire rope 55 and weaving the porous concrete net 100 and the net 100 together. A plurality of branch portions (53) are formed so as to protrude upward.

4 and 5 (b), the wire rope 55 is inserted between the porous concrete pavement 100 and the pavement 100, And is fixed to the slope 40. When the fixed pile 50 is fixed to the river slope 40, it is possible to fix the fixed pile 50 so that the fixed pile 50 is not hooked to the branch portion 53. Although the wire rope 55 is fixed to the river slope 40 by the upper and lower wires, the wire rope 55 is fixed to the river slope 40 by the length and the width of the porous concrete wire 100, It is preferable that the usage amount and the position are changed.

The present invention can be applied not only to river slopes, but also to wetland edges, incisional surfaces of roads, slopes, and the like.

The present invention provides a natural fiber layer, a loess soil and a cultivation soil, and the germination of the seed is good and the greening is quick, and the roots can be easily moved into the loess soil and the culture soil, thereby supplying the nutrients necessary for vegetation growth, It is possible to create space and form a nature-friendly landscape.

It will be apparent to those skilled in the art that various modifications, substitutions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. will be. Therefore, the embodiments disclosed in the present invention and the accompanying drawings are intended to illustrate and not to limit the technical spirit of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments and the accompanying drawings . The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10: Block 11: Porous concrete 15: Yellow soil
16: Powdery soil 17: Loess water 20:
30: natural fiber layer 40: river slope 50: fixed pile
51: through hole 53: branch portion 55: wire rope
100: Porous Concrete Bag

Claims (3)

A step of forming a porous concrete block by adhering loess and culture soil to pores in a porous concrete curing process;
Filling the porous concrete block in the inside of the cap;
Providing a natural fiber layer for supplying nutrients necessary for vegetation growth to the interior of the net filled with the porous concrete block;
A step of constructing the porous concrete net on a river slope;
And fixing the limb by using a porous rope and a fixed pile on the stream slope of the porous concrete limb,
Wherein the porous concrete block includes a step of casting porous concrete on a mold frame and spraying loess on part of the porous concrete pores in the course of curing the porous concrete, spraying the powdery flour on the remaining part of the porous concrete pores, Applying the mortar to the porous concrete so as to be adhered to the porous concrete, and releasing the porous concrete block from the mold when the porous concrete curing process is completed,
Wherein the fixed pile is formed with a through hole so as to connect the porous concrete structure to the capitulate by inserting a wire rope, and when the pile is fixed to the slope, a branch is formed so as not to be caught by the capitulum. A method of constructing a river revetment using porous concrete. delete delete

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