KR100515251B1 - Hollow revetment block and the using tide embankment comstruction method - Google Patents

Abstract

The present invention relates to an environmentally friendly hollow stone block and a method for constructing a seawall using the same, and more particularly, waste concrete and rubble instead of natural stone in a concrete block to build a seawall to prevent seawater intrusion of reclaimed or agricultural lands facing the coast. It is possible to reduce construction cost by manufacturing hollow stone blocks with hollow parts so that they can be filled with materials, and to prevent environmental destruction by collecting natural stones, and to fit the side edges of hollow stone blocks by filling natural stones. The present invention relates to an environmentally friendly hollow stone block block and its construction method, which is made of a concave-convex structure to make the fast and solid coupling between the hollow stone block blocks and to increase the durability of the structure by using a concrete pile under the hollow stone block block.

Environmentally friendly hollow stone blocks according to the present invention, the hollow portion is formed inside to fill the rubble or waste concrete, etc .; Coupling grooves and coupling members are formed on the side surfaces to allow the concrete blocks to be coupled / formed; In the bottom, fitting grooves are formed so that the concrete pile can be inserted.

In addition, the construction method of the seawall using the hollow stone blocks according to the present invention, the process of embedding the concrete pile at regular intervals to improve the soft ground; Inserting and inserting the concrete pile into the fitting groove formed in the hollow stone shaft block; Filling the hollow part provided inside the hollow stone shaft block; Backfilling the wall between the hollow stone shaft block and the hollow stone shaft block; It is characterized in that it comprises a step of placing the top of the one side is formed in a curved shape on the top stuffed and back filled.

Description

Environmentally Friendly Hollow Masonry Block and Construction Method of Embankment Using It {HOLLOW REVETMENT BLOCK AND THE USING TIDE EMBANKMENT COMSTRUCTION METHOD}

The present invention relates to an environmentally friendly hollow stone block and a method for constructing a seawall using the same, and more particularly, waste concrete and rubble instead of natural stone in a concrete block to build a seawall to prevent seawater intrusion of reclaimed or agricultural lands facing the coast. It is possible to reduce construction cost by manufacturing hollow stone blocks with hollow parts so that they can be filled with materials, and to prevent environmental destruction by collecting natural stones, and to fit the side edges of hollow stone blocks by filling natural stones. The present invention relates to an environmentally friendly hollow stone block block and its construction method, which is made of a concave-convex structure to make the fast and solid coupling between the hollow stone block blocks and to increase the durability of the structure by using a concrete pile under the hollow stone block block.

As shown in Figure 1, the conventional method of the construction of the sea repellent, the soft ground mat is laid on the soft ground, the middle stone is stacked on the inside, and the coated stone is stacked on the outer side of the middle stone.

In addition, the foundation stones are stacked on the outer lower end of the coated stone, and the top of the stone is placed on the middle stone and the coated stone.

However, if the construction of the seawall by using the existing method, there is a concern that the durability of the seawall is lowered as the ground gradually sinks due to the load of natural stone.

In addition, due to the use of natural stones in the filling work, the government must obtain permission from the government to collect natural stones, and it is difficult to obtain permission to collect natural stones due to the severe opposition to the destruction of stone by environmental groups, which makes it difficult to purchase natural stones. .

In addition, there is a disadvantage in that the construction period is longer as the time required for the extraction of gemstones.

And, even if natural stone can be collected from the stone mountain, there is a problem that destruction of the natural ecosystem due to natural stone harvesting.

The present invention has been made to solve the above problems, the object of the present invention is to produce a block having a hollow portion to be filled with waste concrete and rubble inside, to reduce the construction cost, fitting the block side ends It is to provide an environmentally friendly hollow stone block block and its construction method to increase the durability of the structure by using a concrete pile at the bottom of the block by making a concave-convex structure that can be made.

Configuration of environmentally friendly hollow stone blocks according to the present invention for achieving the above object, the hollow is formed inside the top so as to fill the rubble or waste concrete; Coupling grooves and coupling members are formed on the side surfaces to allow the concrete blocks to be coupled / formed; In the bottom, fitting grooves are formed so that the concrete pile can be inserted.

In addition, the construction method of the seawall using environmentally friendly hollow stone blocks according to the present invention comprises the steps of forming the base wall surface portion of the stone slab to the inside and the stone shaft on the outside; Laying concrete piles at regular intervals to improve the soft ground; A step of inserting and fitting a hollow stone shaft block having a coupling groove portion and a coupling member formed on a side of the buried concrete pile, a fitting groove portion formed at a bottom thereof, and a hollow stone shaft block having a hollow portion formed therein; Filling the hollow part formed inside the hollow stone shaft block; Backfilling between the foundation wall portion and the hollow stone shaft block; It characterized in that it comprises a step of installing the top end of the inner side is bent in contact with the inside filled with the stuffing.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Figure 1 is a side cross-sectional view showing a conventional method of construction of the seawall, Figure 2 is a perspective view showing a hollow stone shaft block according to the present invention, Figure 3 is a plan view showing a hollow stone shaft block according to the invention, Figure 4 Side cross-sectional view of an environmentally friendly hollow stone block of the present invention and a seawall installed with a seawall construction method using the same.

As shown in the figure, the environmentally friendly hollow stone block 10 according to the present invention, the hollow portion 11 is formed inside the upper part is open so that it can be filled with rubble or waste concrete, concrete on the side The coupling groove 42 and the coupling member 41 are formed to couple / form the blocks, and the fitting groove is formed at the bottom thereof so that the concrete pile 80 can be inserted.

In addition, according to the present invention, a method of constructing a seawall using an environmentally friendly hollow stone block block is to form an inner wall with soil and stone, and to form a foundation wall surface with a stone shaft on the outside, and to improve the soft ground, the concrete piles 80 at regular intervals. Buried

After embedding the concrete pile 80, the coupling groove portion 42 and the coupling member 41 is formed on the side of the embedded concrete pile, the fitting groove portion is formed on the bottom, the hollow portion 11 is formed therein The hollow stone shaft block 10 is inserted and fitted in accordance with the fitting groove.

After fitting the hollow stone shaft block 10 to the concrete pile (80) and filling the hollow portion 11 formed inside the hollow stone shaft block 10, between the base wall portion and the hollow stone shaft block 10 Backfilling, and installs the top end 50 is bent inwardly contacted with the inside filled with the stuffing and filling.

In addition, it is preferable to further include the step of installing the soft ground mat (85) in the soft ground after embedding the concrete pile (80).

The side wall 40 is formed with a quadrangular coupling portion 41 protruding from one side convex, and forms a concave quadrangular coupling groove 42 so that the other side is fitted with the coupling portion 41.

The front wall 20 is made of natural stone and concrete, the rear wall 30 is formed to extend to the side wall 40 formed on the front wall 20.

The hollow part 11 is provided between the side wall 40, the front wall 20 and the rear wall 30, and has a space that is opened upward to accommodate waste concrete and rubble Is formed.

The lower end portion extends from the side wall 40, the front wall 20, and the rear wall 30, and the insertion groove is formed at the bottom thereof.

In order to install the embankment, the concrete pile 80 is embedded in the soft ground at regular intervals, and then fitted with the insertion groove provided at the bottom of the hollow stone block 10 on the concrete pile 80, the existing coupling Lay the soft ground mat and do the dike work on it to prevent deterioration of the durability of the dike due to the subsidence of the ground under the soft ground mat.

In addition, while the hollow stone shaft block 10 is in turn coupled to the concrete pile 80, the coupling between the hollow stone shaft blocks 10 fits the convex coupling portion 41 to the concave coupling groove 42 concave in shape. By combining, the firm coupling between the hollow stone shaft block 10, it is possible to quickly construction.

Then, when the coupling between the hollow stone shaft block 10 and the concrete pile 80 and the hollow stone shaft block 10 and the hollow stone shaft block 10 is finished between the wall and the hollow stone shaft block 10 formed in the rear of the hollow stone shaft block 10 Backfill with waste concrete or rubble in the space, the hollow portion 11 provided inside the hollow stone block block 10 is stuffed with waste concrete or rubble like the backfill.

Accordingly, by using only existing natural stone construction, there is an effect that can solve the difficulties of natural stone harvesting and the disadvantages of environmental destruction due to natural stone harvesting.

The hollow stone shaft block 10 is filled with 60 and the top of the concrete 90 provided on the wall portion is placed on the top of the top is formed with a bent portion.

The bend has an effect of relieving the impact on the ceiling 50 by changing the direction of the wave when the wave enters.

As described above, specific embodiments of the present invention have been described in detail, but it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the scope of the present invention.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined not only by the claims below, but also by those equivalent to the claims.

As described above, the environmentally friendly hollow stone block blocks and construction method using the same in the construction of the environmentally friendly hollow stone blocks in the construction of the seawall in order to prevent seawater intrusion of reclaimed land or farmland in contact with the coast according to the present invention, Instead of the natural stone that is difficult to collect inside, it is possible to reduce the cost of construction by manufacturing hollow stone blocks equipped with hollow parts so that they can be filled with waste concrete and rubble, and there is no need to collect natural stones. It is manufactured by the uneven structure that can be fitted into the joint, and the solid and quick coupling between the hollow stone block and the hollow stone block block has the effect of shortening the construction period and reducing the construction cost by shortening the construction period.

In addition, by using a concrete pile on the bottom of the hollow stone shaft block has the effect of increasing the durability of the structure.

1 is a side cross-sectional view showing a conventional method for constructing a seawall;

Figure 2 is a perspective view showing an environmentally friendly hollow stone shaft block according to the present invention,

Figure 3 is a plan view showing an environmentally friendly hollow stone axis block according to the present invention,

Figure 4 is a side cross-sectional view of the environmentally friendly hollow stone block and the seawall installed in the construction method using the same.

<Description of Symbols for Main Parts of Drawings>

10: hollow stone shaft block 11: hollow portion

20: front wall 21: natural stone

30: rear wall 40: side wall

50: end 41: coupling member

42: coupling groove 50: heaven end

51: bend 60: stuffing

70: backfill 80: concrete pile

85: soft ground mat 90: concrete

100: existing breakwater structure 110: existing stone

120: existing soft ground mat 130: ending stones

140: coated stone 150: basic stone

160: existing heaven 170: predicted settlement

Claims (3)

A hollow part is formed inside so that the upper part can be opened and stuffed with rubble or waste concrete; Coupling grooves and coupling members are formed on the side surfaces to allow the concrete blocks to be coupled / formed; An eco-friendly hollow stone shaft block with a fitting groove formed at the bottom so that a concrete pile can be inserted. Compacting the inside with soil and stone and forming a base wall surface portion with a stone shaft on the outside; Laying concrete piles at regular intervals to improve the soft ground; A step of inserting and fitting a hollow stone shaft block having a coupling groove portion and a coupling member formed on a side of the buried concrete pile, a fitting groove portion formed at a bottom thereof, and a hollow stone shaft block having a hollow portion formed therein; Filling the hollow part formed inside the hollow stone shaft block; Backfilling between the foundation wall portion and the hollow stone shaft block; A method of constructing a seawall using an environmentally friendly hollow stone block, characterized in that the step of installing the top end of the inner part is bent in contact with the inside filled with the stuffing. The method of claim 2, A method of constructing a seawall using environmentally friendly hollow stone blocks, further comprising the step of installing the soft ground mat on the soft ground after embedding the concrete pile.